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authorshadchin <shadchin@yandex-team.com>2023-10-17 14:59:20 +0300
committershadchin <shadchin@yandex-team.com>2023-10-17 16:11:54 +0300
commitf5137907c9d082d5651b490d9d76e93cefca9c73 (patch)
treee3a7d50e77ec6ba83e833462d123fc85c47143cc
parent674acb9e3f858c628f128c2e7796a4bca668b7c4 (diff)
downloadydb-f5137907c9d082d5651b490d9d76e93cefca9c73.tar.gz
Split cffi on py2/py3
-rw-r--r--contrib/python/cffi/lsan.supp2
-rw-r--r--contrib/python/cffi/py2/.dist-info/METADATA (renamed from contrib/python/cffi/.dist-info/METADATA)0
-rw-r--r--contrib/python/cffi/py2/.dist-info/entry_points.txt (renamed from contrib/python/cffi/.dist-info/entry_points.txt)0
-rw-r--r--contrib/python/cffi/py2/.dist-info/top_level.txt (renamed from contrib/python/cffi/.dist-info/top_level.txt)0
-rw-r--r--contrib/python/cffi/py2/AUTHORS (renamed from contrib/python/cffi/AUTHORS)0
-rw-r--r--contrib/python/cffi/py2/LICENSE (renamed from contrib/python/cffi/LICENSE)0
-rw-r--r--contrib/python/cffi/py2/README.md (renamed from contrib/python/cffi/README.md)0
-rw-r--r--contrib/python/cffi/py2/c/_cffi_backend.c8110
-rw-r--r--contrib/python/cffi/py2/c/call_python.c (renamed from contrib/python/cffi/c/call_python.c)0
-rw-r--r--contrib/python/cffi/py2/c/cdlopen.c (renamed from contrib/python/cffi/c/cdlopen.c)0
-rw-r--r--contrib/python/cffi/py2/c/cffi1_module.c (renamed from contrib/python/cffi/c/cffi1_module.c)0
-rw-r--r--contrib/python/cffi/py2/c/cglob.c (renamed from contrib/python/cffi/c/cglob.c)0
-rw-r--r--contrib/python/cffi/py2/c/commontypes.c (renamed from contrib/python/cffi/c/commontypes.c)0
-rw-r--r--contrib/python/cffi/py2/c/ffi_obj.c (renamed from contrib/python/cffi/c/ffi_obj.c)0
-rw-r--r--contrib/python/cffi/py2/c/file_emulator.h (renamed from contrib/python/cffi/c/file_emulator.h)0
-rw-r--r--contrib/python/cffi/py2/c/lib_obj.c (renamed from contrib/python/cffi/c/lib_obj.c)0
-rw-r--r--contrib/python/cffi/py2/c/malloc_closure.h (renamed from contrib/python/cffi/c/malloc_closure.h)0
-rw-r--r--contrib/python/cffi/py2/c/minibuffer.h (renamed from contrib/python/cffi/c/minibuffer.h)0
-rw-r--r--contrib/python/cffi/py2/c/misc_thread_common.h (renamed from contrib/python/cffi/c/misc_thread_common.h)0
-rw-r--r--contrib/python/cffi/py2/c/misc_thread_posix.h (renamed from contrib/python/cffi/c/misc_thread_posix.h)0
-rw-r--r--contrib/python/cffi/py2/c/misc_win32.h (renamed from contrib/python/cffi/c/misc_win32.h)0
-rw-r--r--contrib/python/cffi/py2/c/parse_c_type.c (renamed from contrib/python/cffi/c/parse_c_type.c)0
-rw-r--r--contrib/python/cffi/py2/c/realize_c_type.c (renamed from contrib/python/cffi/c/realize_c_type.c)0
-rw-r--r--contrib/python/cffi/py2/c/wchar_helper.h (renamed from contrib/python/cffi/c/wchar_helper.h)0
-rw-r--r--contrib/python/cffi/py2/c/wchar_helper_3.h (renamed from contrib/python/cffi/c/wchar_helper_3.h)0
-rw-r--r--contrib/python/cffi/py2/cffi/__init__.py (renamed from contrib/python/cffi/cffi/__init__.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/_cffi_errors.h (renamed from contrib/python/cffi/cffi/_cffi_errors.h)0
-rw-r--r--contrib/python/cffi/py2/cffi/_cffi_include.h (renamed from contrib/python/cffi/cffi/_cffi_include.h)0
-rw-r--r--contrib/python/cffi/py2/cffi/_embedding.h (renamed from contrib/python/cffi/cffi/_embedding.h)0
-rw-r--r--contrib/python/cffi/py2/cffi/api.py (renamed from contrib/python/cffi/cffi/api.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/backend_ctypes.py (renamed from contrib/python/cffi/cffi/backend_ctypes.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/cffi_opcode.py (renamed from contrib/python/cffi/cffi/cffi_opcode.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/commontypes.py (renamed from contrib/python/cffi/cffi/commontypes.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/cparser.py (renamed from contrib/python/cffi/cffi/cparser.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/error.py (renamed from contrib/python/cffi/cffi/error.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/ffiplatform.py (renamed from contrib/python/cffi/cffi/ffiplatform.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/lock.py (renamed from contrib/python/cffi/cffi/lock.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/model.py (renamed from contrib/python/cffi/cffi/model.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/parse_c_type.h (renamed from contrib/python/cffi/cffi/parse_c_type.h)0
-rw-r--r--contrib/python/cffi/py2/cffi/pkgconfig.py (renamed from contrib/python/cffi/cffi/pkgconfig.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/recompiler.py (renamed from contrib/python/cffi/cffi/recompiler.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/setuptools_ext.py (renamed from contrib/python/cffi/cffi/setuptools_ext.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/vengine_cpy.py (renamed from contrib/python/cffi/cffi/vengine_cpy.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/vengine_gen.py (renamed from contrib/python/cffi/cffi/vengine_gen.py)0
-rw-r--r--contrib/python/cffi/py2/cffi/verifier.py (renamed from contrib/python/cffi/cffi/verifier.py)0
-rw-r--r--contrib/python/cffi/py2/gen/lib/ya.make19
-rw-r--r--contrib/python/cffi/py2/gen/main.py37
-rw-r--r--contrib/python/cffi/py2/gen/ya.make17
-rw-r--r--contrib/python/cffi/py2/ya.make69
-rw-r--r--contrib/python/cffi/py3/.dist-info/METADATA34
-rw-r--r--contrib/python/cffi/py3/.dist-info/entry_points.txt2
-rw-r--r--contrib/python/cffi/py3/.dist-info/top_level.txt2
-rw-r--r--contrib/python/cffi/py3/AUTHORS8
-rw-r--r--contrib/python/cffi/py3/LICENSE26
-rw-r--r--contrib/python/cffi/py3/README.md30
-rw-r--r--contrib/python/cffi/py3/c/_cffi_backend.c (renamed from contrib/python/cffi/c/_cffi_backend.c)0
-rw-r--r--contrib/python/cffi/py3/c/call_python.c292
-rw-r--r--contrib/python/cffi/py3/c/cdlopen.c362
-rw-r--r--contrib/python/cffi/py3/c/cffi1_module.c216
-rw-r--r--contrib/python/cffi/py3/c/cglob.c113
-rw-r--r--contrib/python/cffi/py3/c/commontypes.c216
-rw-r--r--contrib/python/cffi/py3/c/ffi_obj.c1221
-rw-r--r--contrib/python/cffi/py3/c/file_emulator.h93
-rw-r--r--contrib/python/cffi/py3/c/lib_obj.c729
-rw-r--r--contrib/python/cffi/py3/c/malloc_closure.h176
-rw-r--r--contrib/python/cffi/py3/c/minibuffer.h408
-rw-r--r--contrib/python/cffi/py3/c/misc_thread_common.h371
-rw-r--r--contrib/python/cffi/py3/c/misc_thread_posix.h49
-rw-r--r--contrib/python/cffi/py3/c/misc_win32.h218
-rw-r--r--contrib/python/cffi/py3/c/parse_c_type.c847
-rw-r--r--contrib/python/cffi/py3/c/realize_c_type.c820
-rw-r--r--contrib/python/cffi/py3/c/wchar_helper.h246
-rw-r--r--contrib/python/cffi/py3/c/wchar_helper_3.h149
-rw-r--r--contrib/python/cffi/py3/cffi/__init__.py14
-rw-r--r--contrib/python/cffi/py3/cffi/_cffi_errors.h149
-rw-r--r--contrib/python/cffi/py3/cffi/_cffi_include.h385
-rw-r--r--contrib/python/cffi/py3/cffi/_embedding.h528
-rw-r--r--contrib/python/cffi/py3/cffi/api.py965
-rw-r--r--contrib/python/cffi/py3/cffi/backend_ctypes.py1121
-rw-r--r--contrib/python/cffi/py3/cffi/cffi_opcode.py187
-rw-r--r--contrib/python/cffi/py3/cffi/commontypes.py80
-rw-r--r--contrib/python/cffi/py3/cffi/cparser.py1006
-rw-r--r--contrib/python/cffi/py3/cffi/error.py31
-rw-r--r--contrib/python/cffi/py3/cffi/ffiplatform.py127
-rw-r--r--contrib/python/cffi/py3/cffi/lock.py30
-rw-r--r--contrib/python/cffi/py3/cffi/model.py617
-rw-r--r--contrib/python/cffi/py3/cffi/parse_c_type.h181
-rw-r--r--contrib/python/cffi/py3/cffi/pkgconfig.py121
-rw-r--r--contrib/python/cffi/py3/cffi/recompiler.py1579
-rw-r--r--contrib/python/cffi/py3/cffi/setuptools_ext.py219
-rw-r--r--contrib/python/cffi/py3/cffi/vengine_cpy.py1076
-rw-r--r--contrib/python/cffi/py3/cffi/vengine_gen.py675
-rw-r--r--contrib/python/cffi/py3/cffi/verifier.py307
-rw-r--r--contrib/python/cffi/py3/gen/lib/ya.make19
-rw-r--r--contrib/python/cffi/py3/gen/main.py37
-rw-r--r--contrib/python/cffi/py3/gen/ya.make17
-rw-r--r--contrib/python/cffi/py3/ya.make69
-rw-r--r--contrib/python/cffi/ya.make67
98 files changed, 24430 insertions, 59 deletions
diff --git a/contrib/python/cffi/lsan.supp b/contrib/python/cffi/lsan.supp
deleted file mode 100644
index 8533ad0d29..0000000000
--- a/contrib/python/cffi/lsan.supp
+++ /dev/null
@@ -1,2 +0,0 @@
-leak:b_init_cffi_1_0_external_module
-leak:lib_build_and_cache_attr
diff --git a/contrib/python/cffi/.dist-info/METADATA b/contrib/python/cffi/py2/.dist-info/METADATA
index 538e679147..538e679147 100644
--- a/contrib/python/cffi/.dist-info/METADATA
+++ b/contrib/python/cffi/py2/.dist-info/METADATA
diff --git a/contrib/python/cffi/.dist-info/entry_points.txt b/contrib/python/cffi/py2/.dist-info/entry_points.txt
index 4b0274f233..4b0274f233 100644
--- a/contrib/python/cffi/.dist-info/entry_points.txt
+++ b/contrib/python/cffi/py2/.dist-info/entry_points.txt
diff --git a/contrib/python/cffi/.dist-info/top_level.txt b/contrib/python/cffi/py2/.dist-info/top_level.txt
index f64577957e..f64577957e 100644
--- a/contrib/python/cffi/.dist-info/top_level.txt
+++ b/contrib/python/cffi/py2/.dist-info/top_level.txt
diff --git a/contrib/python/cffi/AUTHORS b/contrib/python/cffi/py2/AUTHORS
index 370a25d317..370a25d317 100644
--- a/contrib/python/cffi/AUTHORS
+++ b/contrib/python/cffi/py2/AUTHORS
diff --git a/contrib/python/cffi/LICENSE b/contrib/python/cffi/py2/LICENSE
index 29225eee9e..29225eee9e 100644
--- a/contrib/python/cffi/LICENSE
+++ b/contrib/python/cffi/py2/LICENSE
diff --git a/contrib/python/cffi/README.md b/contrib/python/cffi/py2/README.md
index a68639e854..a68639e854 100644
--- a/contrib/python/cffi/README.md
+++ b/contrib/python/cffi/py2/README.md
diff --git a/contrib/python/cffi/py2/c/_cffi_backend.c b/contrib/python/cffi/py2/c/_cffi_backend.c
new file mode 100644
index 0000000000..58f6666f02
--- /dev/null
+++ b/contrib/python/cffi/py2/c/_cffi_backend.c
@@ -0,0 +1,8110 @@
+#define PY_SSIZE_T_CLEAN
+#include <Python.h>
+#include "structmember.h"
+
+#define CFFI_VERSION "1.15.1"
+
+#ifdef MS_WIN32
+#include <windows.h>
+#include "misc_win32.h"
+#else
+#include <stddef.h>
+#include <stdint.h>
+#include <dlfcn.h>
+#include <errno.h>
+#include <ffi.h>
+#include <sys/mman.h>
+#endif
+
+/* this block of #ifs should be kept exactly identical between
+ c/_cffi_backend.c, cffi/vengine_cpy.py, cffi/vengine_gen.py */
+#if defined(_MSC_VER)
+# include <malloc.h> /* for alloca() */
+# if _MSC_VER < 1600 /* MSVC < 2010 */
+ typedef __int8 int8_t;
+ typedef __int16 int16_t;
+ typedef __int32 int32_t;
+ typedef __int64 int64_t;
+ typedef unsigned __int8 uint8_t;
+ typedef unsigned __int16 uint16_t;
+ typedef unsigned __int32 uint32_t;
+ typedef unsigned __int64 uint64_t;
+ typedef __int8 int_least8_t;
+ typedef __int16 int_least16_t;
+ typedef __int32 int_least32_t;
+ typedef __int64 int_least64_t;
+ typedef unsigned __int8 uint_least8_t;
+ typedef unsigned __int16 uint_least16_t;
+ typedef unsigned __int32 uint_least32_t;
+ typedef unsigned __int64 uint_least64_t;
+ typedef __int8 int_fast8_t;
+ typedef __int16 int_fast16_t;
+ typedef __int32 int_fast32_t;
+ typedef __int64 int_fast64_t;
+ typedef unsigned __int8 uint_fast8_t;
+ typedef unsigned __int16 uint_fast16_t;
+ typedef unsigned __int32 uint_fast32_t;
+ typedef unsigned __int64 uint_fast64_t;
+ typedef __int64 intmax_t;
+ typedef unsigned __int64 uintmax_t;
+# else
+# include <stdint.h>
+# endif
+# if _MSC_VER < 1800 /* MSVC < 2013 */
+ typedef unsigned char _Bool;
+# endif
+#else
+# include <stdint.h>
+# if (defined (__SVR4) && defined (__sun)) || defined(_AIX) || defined(__hpux)
+# include <alloca.h>
+# endif
+#endif
+
+
+/* Define the following macro ONLY if you trust libffi's version of
+ * ffi_closure_alloc() more than the code in malloc_closure.h.
+ * IMPORTANT: DO NOT ENABLE THIS ON LINUX, unless you understand exactly
+ * why I recommend against it and decide that you trust it more than my
+ * analysis below.
+ *
+ * There are two versions of this code: one inside libffi itself, and
+ * one inside malloc_closure.h here. Both should be fine as long as the
+ * Linux distribution does _not_ enable extra security features. If it
+ * does, then the code in malloc_closure.h will cleanly crash because
+ * there is no reasonable way to obtain a read-write-execute memory
+ * page. On the other hand, the code in libffi will appear to
+ * work---but will actually randomly crash after a fork() if the child
+ * does not immediately call exec(). This second crash is of the kind
+ * that can be turned into an attack vector by a motivated attacker.
+ * So, _enabling_ extra security features _opens_ an attack vector.
+ * That sounds like a horribly bad idea to me, and is the reason for why
+ * I prefer CFFI crashing cleanly.
+ *
+ * Currently, we use libffi's ffi_closure_alloc() on NetBSD. It is
+ * known that on the NetBSD kernel, a different strategy is used which
+ * should not be open to the fork() bug.
+ *
+ * This is also used on macOS, provided we are executing on macOS 10.15 or
+ * above. It's a mess because it needs runtime checks in that case.
+ */
+#ifdef __NetBSD__
+
+# define CFFI_CHECK_FFI_CLOSURE_ALLOC 1
+# define CFFI_CHECK_FFI_CLOSURE_ALLOC_MAYBE 1
+# define CFFI_CHECK_FFI_PREP_CLOSURE_LOC 1
+# define CFFI_CHECK_FFI_PREP_CLOSURE_LOC_MAYBE 1
+# define CFFI_CHECK_FFI_PREP_CIF_VAR 0
+# define CFFI_CHECK_FFI_PREP_CIF_VAR_MAYBE 0
+
+#elif defined(__APPLE__) && defined(FFI_AVAILABLE_APPLE)
+
+# define CFFI_CHECK_FFI_CLOSURE_ALLOC __builtin_available(macos 10.15, ios 13, watchos 6, tvos 13, *)
+# define CFFI_CHECK_FFI_CLOSURE_ALLOC_MAYBE 1
+# define CFFI_CHECK_FFI_PREP_CLOSURE_LOC __builtin_available(macos 10.15, ios 13, watchos 6, tvos 13, *)
+# define CFFI_CHECK_FFI_PREP_CLOSURE_LOC_MAYBE 1
+# define CFFI_CHECK_FFI_PREP_CIF_VAR __builtin_available(macos 10.15, ios 13, watchos 6, tvos 13, *)
+# define CFFI_CHECK_FFI_PREP_CIF_VAR_MAYBE 1
+
+#else
+
+# define CFFI_CHECK_FFI_CLOSURE_ALLOC 0
+# define CFFI_CHECK_FFI_CLOSURE_ALLOC_MAYBE 0
+# define CFFI_CHECK_FFI_PREP_CLOSURE_LOC 0
+# define CFFI_CHECK_FFI_PREP_CLOSURE_LOC_MAYBE 0
+# define CFFI_CHECK_FFI_PREP_CIF_VAR 0
+# define CFFI_CHECK_FFI_PREP_CIF_VAR_MAYBE 0
+
+#endif
+
+/* always includes this, even if it turns out not to be used on NetBSD
+ because calls are behind "if (0)" */
+#include "malloc_closure.h"
+
+
+#if PY_MAJOR_VERSION >= 3
+# define STR_OR_BYTES "bytes"
+# define PyText_Type PyUnicode_Type
+# define PyText_Check PyUnicode_Check
+# define PyTextAny_Check PyUnicode_Check
+# define PyText_FromFormat PyUnicode_FromFormat
+# define PyText_AsUTF8 _PyUnicode_AsString /* PyUnicode_AsUTF8 in Py3.3 */
+# define PyText_AS_UTF8 _PyUnicode_AsString
+# if PY_VERSION_HEX >= 0x03030000
+# define PyText_GetSize PyUnicode_GetLength
+# else
+# define PyText_GetSize PyUnicode_GetSize
+# endif
+# define PyText_FromString PyUnicode_FromString
+# define PyText_FromStringAndSize PyUnicode_FromStringAndSize
+# define PyText_InternInPlace PyUnicode_InternInPlace
+# define PyText_InternFromString PyUnicode_InternFromString
+# define PyIntOrLong_Check PyLong_Check
+#else
+# define STR_OR_BYTES "str"
+# define PyText_Type PyString_Type
+# define PyText_Check PyString_Check
+# define PyTextAny_Check(op) (PyString_Check(op) || PyUnicode_Check(op))
+# define PyText_FromFormat PyString_FromFormat
+# define PyText_AsUTF8 PyString_AsString
+# define PyText_AS_UTF8 PyString_AS_STRING
+# define PyText_GetSize PyString_Size
+# define PyText_FromString PyString_FromString
+# define PyText_FromStringAndSize PyString_FromStringAndSize
+# define PyText_InternInPlace PyString_InternInPlace
+# define PyText_InternFromString PyString_InternFromString
+# define PyIntOrLong_Check(op) (PyInt_Check(op) || PyLong_Check(op))
+#endif
+
+#if PY_MAJOR_VERSION >= 3
+# define PyInt_FromLong PyLong_FromLong
+# define PyInt_FromSsize_t PyLong_FromSsize_t
+# define PyInt_AsSsize_t PyLong_AsSsize_t
+# define PyInt_AsLong PyLong_AsLong
+#endif
+
+#if PY_MAJOR_VERSION >= 3
+/* This is the default on Python3 and constant has been removed. */
+# define Py_TPFLAGS_CHECKTYPES 0
+#endif
+
+#if PY_MAJOR_VERSION < 3
+# undef PyCapsule_GetPointer
+# undef PyCapsule_New
+# define PyCapsule_GetPointer(capsule, name) \
+ (PyCObject_AsVoidPtr(capsule))
+# define PyCapsule_New(pointer, name, destructor) \
+ (PyCObject_FromVoidPtr(pointer, destructor))
+#endif
+
+#if PY_VERSION_HEX < 0x030900a4
+# define Py_SET_REFCNT(obj, val) (Py_REFCNT(obj) = (val))
+#endif
+
+#if PY_VERSION_HEX >= 0x03080000
+# define USE_WRITEUNRAISABLEMSG
+#endif
+
+/************************************************************/
+
+/* base type flag: exactly one of the following: */
+#define CT_PRIMITIVE_SIGNED 0x001 /* signed integer */
+#define CT_PRIMITIVE_UNSIGNED 0x002 /* unsigned integer */
+#define CT_PRIMITIVE_CHAR 0x004 /* char, wchar_t, charN_t */
+#define CT_PRIMITIVE_FLOAT 0x008 /* float, double, long double */
+#define CT_POINTER 0x010 /* pointer, excluding ptr-to-func */
+#define CT_ARRAY 0x020 /* array */
+#define CT_STRUCT 0x040 /* struct */
+#define CT_UNION 0x080 /* union */
+#define CT_FUNCTIONPTR 0x100 /* pointer to function */
+#define CT_VOID 0x200 /* void */
+#define CT_PRIMITIVE_COMPLEX 0x400 /* float _Complex, double _Complex */
+
+/* other flags that may also be set in addition to the base flag: */
+#define CT_IS_VOIDCHAR_PTR 0x00001000
+#define CT_PRIMITIVE_FITS_LONG 0x00002000
+#define CT_IS_OPAQUE 0x00004000
+#define CT_IS_ENUM 0x00008000
+#define CT_IS_PTR_TO_OWNED 0x00010000 /* only owned if CDataOwning_Type */
+#define CT_CUSTOM_FIELD_POS 0x00020000
+#define CT_IS_LONGDOUBLE 0x00040000
+#define CT_IS_BOOL 0x00080000
+#define CT_IS_FILE 0x00100000
+#define CT_IS_VOID_PTR 0x00200000
+#define CT_WITH_VAR_ARRAY 0x00400000 /* with open-ended array, anywhere */
+/* unused 0x00800000 */
+#define CT_LAZY_FIELD_LIST 0x01000000
+#define CT_WITH_PACKED_CHANGE 0x02000000
+#define CT_IS_SIGNED_WCHAR 0x04000000
+#define CT_PRIMITIVE_ANY (CT_PRIMITIVE_SIGNED | \
+ CT_PRIMITIVE_UNSIGNED | \
+ CT_PRIMITIVE_CHAR | \
+ CT_PRIMITIVE_FLOAT | \
+ CT_PRIMITIVE_COMPLEX)
+
+typedef struct _ctypedescr {
+ PyObject_VAR_HEAD
+
+ struct _ctypedescr *ct_itemdescr; /* ptrs and arrays: the item type */
+ PyObject *ct_stuff; /* structs: dict of the fields
+ arrays: ctypedescr of the ptr type
+ function: tuple(abi, ctres, ctargs..)
+ enum: pair {"name":x},{x:"name"}
+ ptrs: lazily, ctypedescr of array */
+ void *ct_extra; /* structs: first field (not a ref!)
+ function types: cif_description
+ primitives: prebuilt "cif" object */
+
+ PyObject *ct_weakreflist; /* weakref support */
+
+ PyObject *ct_unique_key; /* key in unique_cache (a string, but not
+ human-readable) */
+
+ Py_ssize_t ct_size; /* size of instances, or -1 if unknown */
+ Py_ssize_t ct_length; /* length of arrays, or -1 if unknown;
+ or alignment of primitive and struct types;
+ always -1 for pointers */
+ int ct_flags; /* CT_xxx flags */
+
+ int ct_name_position; /* index in ct_name of where to put a var name */
+ char ct_name[1]; /* string, e.g. "int *" for pointers to ints */
+} CTypeDescrObject;
+
+typedef struct {
+ PyObject_HEAD
+ CTypeDescrObject *c_type;
+ char *c_data;
+ PyObject *c_weakreflist;
+} CDataObject;
+
+typedef struct cfieldobject_s {
+ PyObject_HEAD
+ CTypeDescrObject *cf_type;
+ Py_ssize_t cf_offset;
+ short cf_bitshift; /* >= 0: bitshift; or BS_REGULAR or BS_EMPTY_ARRAY */
+ short cf_bitsize;
+ unsigned char cf_flags; /* BF_... */
+ struct cfieldobject_s *cf_next;
+} CFieldObject;
+#define BS_REGULAR (-1) /* a regular field, not with bitshift */
+#define BS_EMPTY_ARRAY (-2) /* a field declared 'type[0]' or 'type[]' */
+#define BF_IGNORE_IN_CTOR 0x01 /* union field not in the first place */
+
+static PyTypeObject CTypeDescr_Type;
+static PyTypeObject CField_Type;
+static PyTypeObject CData_Type;
+static PyTypeObject CDataOwning_Type;
+static PyTypeObject CDataOwningGC_Type;
+static PyTypeObject CDataFromBuf_Type;
+static PyTypeObject CDataGCP_Type;
+
+#define CTypeDescr_Check(ob) (Py_TYPE(ob) == &CTypeDescr_Type)
+#define CData_Check(ob) (Py_TYPE(ob) == &CData_Type || \
+ Py_TYPE(ob) == &CDataOwning_Type || \
+ Py_TYPE(ob) == &CDataOwningGC_Type || \
+ Py_TYPE(ob) == &CDataFromBuf_Type || \
+ Py_TYPE(ob) == &CDataGCP_Type)
+#define CDataOwn_Check(ob) (Py_TYPE(ob) == &CDataOwning_Type || \
+ Py_TYPE(ob) == &CDataOwningGC_Type)
+
+typedef union {
+ unsigned char m_char;
+ unsigned short m_short;
+ unsigned int m_int;
+ unsigned long m_long;
+ unsigned long long m_longlong;
+ float m_float;
+ double m_double;
+} union_alignment;
+
+typedef struct {
+ CDataObject head;
+ union_alignment alignment;
+} CDataObject_casted_primitive;
+
+typedef struct {
+ CDataObject head;
+ union_alignment alignment;
+} CDataObject_own_nolength;
+
+typedef struct {
+ CDataObject head;
+ Py_ssize_t length;
+ union_alignment alignment;
+} CDataObject_own_length;
+
+typedef struct {
+ CDataObject head;
+ PyObject *structobj; /* for ffi.new_handle() or ffi.new("struct *") */
+} CDataObject_own_structptr;
+
+typedef struct {
+ CDataObject head;
+ Py_ssize_t length; /* same as CDataObject_own_length up to here */
+ Py_buffer *bufferview;
+} CDataObject_frombuf;
+
+typedef struct {
+ CDataObject head;
+ Py_ssize_t length; /* same as CDataObject_own_length up to here */
+ PyObject *origobj;
+ PyObject *destructor;
+} CDataObject_gcp;
+
+typedef struct {
+ CDataObject head;
+ ffi_closure *closure;
+} CDataObject_closure;
+
+typedef struct {
+ ffi_cif cif;
+ /* the following information is used when doing the call:
+ - a buffer of size 'exchange_size' is malloced
+ - the arguments are converted from Python objects to raw data
+ - the i'th raw data is stored at 'buffer + exchange_offset_arg[1+i]'
+ - the call is done
+ - the result is read back from 'buffer + exchange_offset_arg[0]' */
+ Py_ssize_t exchange_size;
+ Py_ssize_t exchange_offset_arg[1];
+} cif_description_t;
+
+#define ADD_WRAPAROUND(x, y) ((Py_ssize_t)(((size_t)(x)) + ((size_t)(y))))
+#define MUL_WRAPAROUND(x, y) ((Py_ssize_t)(((size_t)(x)) * ((size_t)(y))))
+
+
+/* whenever running Python code, the errno is saved in this thread-local
+ variable */
+#ifndef MS_WIN32
+# include "misc_thread_posix.h"
+#endif
+
+#include "minibuffer.h"
+
+#if PY_MAJOR_VERSION >= 3
+# include "file_emulator.h"
+#endif
+
+#ifdef PyUnicode_KIND /* Python >= 3.3 */
+# include "wchar_helper_3.h"
+#else
+# include "wchar_helper.h"
+#endif
+
+#include "../cffi/_cffi_errors.h"
+
+typedef struct _cffi_allocator_s {
+ PyObject *ca_alloc, *ca_free;
+ int ca_dont_clear;
+} cffi_allocator_t;
+static const cffi_allocator_t default_allocator = { NULL, NULL, 0 };
+static PyObject *FFIError;
+static PyObject *unique_cache;
+
+/************************************************************/
+
+static CTypeDescrObject *
+ctypedescr_new(int name_size)
+{
+ CTypeDescrObject *ct = PyObject_GC_NewVar(CTypeDescrObject,
+ &CTypeDescr_Type,
+ name_size);
+ if (ct == NULL)
+ return NULL;
+
+ ct->ct_itemdescr = NULL;
+ ct->ct_stuff = NULL;
+ ct->ct_weakreflist = NULL;
+ ct->ct_unique_key = NULL;
+ PyObject_GC_Track(ct);
+ return ct;
+}
+
+static CTypeDescrObject *
+ctypedescr_new_on_top(CTypeDescrObject *ct_base, const char *extra_text,
+ int extra_position)
+{
+ int base_name_len = strlen(ct_base->ct_name);
+ int extra_name_len = strlen(extra_text);
+ CTypeDescrObject *ct = ctypedescr_new(base_name_len + extra_name_len + 1);
+ char *p;
+ if (ct == NULL)
+ return NULL;
+
+ Py_INCREF(ct_base);
+ ct->ct_itemdescr = ct_base;
+ ct->ct_name_position = ct_base->ct_name_position + extra_position;
+
+ p = ct->ct_name;
+ memcpy(p, ct_base->ct_name, ct_base->ct_name_position);
+ p += ct_base->ct_name_position;
+ memcpy(p, extra_text, extra_name_len);
+ p += extra_name_len;
+ memcpy(p, ct_base->ct_name + ct_base->ct_name_position,
+ base_name_len - ct_base->ct_name_position + 1);
+
+ return ct;
+}
+
+static PyObject *
+ctypedescr_repr(CTypeDescrObject *ct)
+{
+ return PyText_FromFormat("<ctype '%s'>", ct->ct_name);
+}
+
+static void
+ctypedescr_dealloc(CTypeDescrObject *ct)
+{
+ PyObject_GC_UnTrack(ct);
+ if (ct->ct_weakreflist != NULL)
+ PyObject_ClearWeakRefs((PyObject *) ct);
+
+ if (ct->ct_unique_key != NULL) {
+ /* revive dead object temporarily for DelItem */
+ Py_SET_REFCNT(ct, 43);
+ PyDict_DelItem(unique_cache, ct->ct_unique_key);
+ assert(Py_REFCNT(ct) == 42);
+ Py_SET_REFCNT(ct, 0);
+ Py_DECREF(ct->ct_unique_key);
+ }
+ Py_XDECREF(ct->ct_itemdescr);
+ Py_XDECREF(ct->ct_stuff);
+ if (ct->ct_flags & CT_FUNCTIONPTR)
+ PyObject_Free(ct->ct_extra);
+ Py_TYPE(ct)->tp_free((PyObject *)ct);
+}
+
+static int
+ctypedescr_traverse(CTypeDescrObject *ct, visitproc visit, void *arg)
+{
+ Py_VISIT(ct->ct_itemdescr);
+ Py_VISIT(ct->ct_stuff);
+ return 0;
+}
+
+static int
+ctypedescr_clear(CTypeDescrObject *ct)
+{
+ Py_CLEAR(ct->ct_itemdescr);
+ Py_CLEAR(ct->ct_stuff);
+ return 0;
+}
+
+
+static PyObject *nosuchattr(const char *attr)
+{
+ PyErr_SetString(PyExc_AttributeError, attr);
+ return NULL;
+}
+
+static PyObject *ctypeget_kind(CTypeDescrObject *ct, void *context)
+{
+ char *result;
+ if (ct->ct_flags & CT_PRIMITIVE_ANY) {
+ if (ct->ct_flags & CT_IS_ENUM)
+ result = "enum";
+ else
+ result = "primitive";
+ }
+ else if (ct->ct_flags & CT_POINTER) {
+ result = "pointer";
+ }
+ else if (ct->ct_flags & CT_ARRAY) {
+ result = "array";
+ }
+ else if (ct->ct_flags & CT_VOID) {
+ result = "void";
+ }
+ else if (ct->ct_flags & CT_STRUCT) {
+ result = "struct";
+ }
+ else if (ct->ct_flags & CT_UNION) {
+ result = "union";
+ }
+ else if (ct->ct_flags & CT_FUNCTIONPTR) {
+ result = "function";
+ }
+ else
+ result = "?";
+
+ return PyText_FromString(result);
+}
+
+static PyObject *ctypeget_cname(CTypeDescrObject *ct, void *context)
+{
+ return PyText_FromString(ct->ct_name);
+}
+
+static PyObject *ctypeget_item(CTypeDescrObject *ct, void *context)
+{
+ if (ct->ct_flags & (CT_POINTER | CT_ARRAY)) {
+ Py_INCREF(ct->ct_itemdescr);
+ return (PyObject *)ct->ct_itemdescr;
+ }
+ return nosuchattr("item");
+}
+
+static PyObject *ctypeget_length(CTypeDescrObject *ct, void *context)
+{
+ if (ct->ct_flags & CT_ARRAY) {
+ if (ct->ct_length >= 0) {
+ return PyInt_FromSsize_t(ct->ct_length);
+ }
+ else {
+ Py_INCREF(Py_None);
+ return Py_None;
+ }
+ }
+ return nosuchattr("length");
+}
+
+static PyObject *
+get_field_name(CTypeDescrObject *ct, CFieldObject *cf); /* forward */
+
+/* returns 0 if the struct ctype is opaque, 1 if it is not, or -1 if
+ an exception occurs */
+#define force_lazy_struct(ct) \
+ ((ct)->ct_stuff != NULL ? 1 : do_realize_lazy_struct(ct))
+
+static int do_realize_lazy_struct(CTypeDescrObject *ct);
+/* forward, implemented in realize_c_type.c */
+
+static PyObject *ctypeget_fields(CTypeDescrObject *ct, void *context)
+{
+ if (ct->ct_flags & (CT_STRUCT | CT_UNION)) {
+ if (!(ct->ct_flags & CT_IS_OPAQUE)) {
+ CFieldObject *cf;
+ PyObject *res;
+ if (force_lazy_struct(ct) < 0)
+ return NULL;
+ res = PyList_New(0);
+ if (res == NULL)
+ return NULL;
+ for (cf = (CFieldObject *)ct->ct_extra;
+ cf != NULL; cf = cf->cf_next) {
+ PyObject *o = PyTuple_Pack(2, get_field_name(ct, cf),
+ (PyObject *)cf);
+ int err = (o != NULL) ? PyList_Append(res, o) : -1;
+ Py_XDECREF(o);
+ if (err < 0) {
+ Py_DECREF(res);
+ return NULL;
+ }
+ }
+ return res;
+ }
+ else {
+ Py_INCREF(Py_None);
+ return Py_None;
+ }
+ }
+ return nosuchattr("fields");
+}
+
+static PyObject *ctypeget_args(CTypeDescrObject *ct, void *context)
+{
+ if (ct->ct_flags & CT_FUNCTIONPTR) {
+ PyObject *t = ct->ct_stuff;
+ return PyTuple_GetSlice(t, 2, PyTuple_GET_SIZE(t));
+ }
+ return nosuchattr("args");
+}
+
+static PyObject *ctypeget_result(CTypeDescrObject *ct, void *context)
+{
+ if (ct->ct_flags & CT_FUNCTIONPTR) {
+ PyObject *res = PyTuple_GetItem(ct->ct_stuff, 1);
+ Py_XINCREF(res);
+ return res;
+ }
+ return nosuchattr("result");
+}
+
+static PyObject *ctypeget_ellipsis(CTypeDescrObject *ct, void *context)
+{
+ if (ct->ct_flags & CT_FUNCTIONPTR) {
+ PyObject *res = ct->ct_extra ? Py_False : Py_True;
+ Py_INCREF(res);
+ return res;
+ }
+ return nosuchattr("ellipsis");
+}
+
+static PyObject *ctypeget_abi(CTypeDescrObject *ct, void *context)
+{
+ if (ct->ct_flags & CT_FUNCTIONPTR) {
+ PyObject *res = PyTuple_GetItem(ct->ct_stuff, 0);
+ Py_XINCREF(res);
+ return res;
+ }
+ return nosuchattr("abi");
+}
+
+static PyObject *ctypeget_elements(CTypeDescrObject *ct, void *context)
+{
+ if (ct->ct_flags & CT_IS_ENUM) {
+ PyObject *res = PyTuple_GetItem(ct->ct_stuff, 1);
+ if (res) res = PyDict_Copy(res);
+ return res;
+ }
+ return nosuchattr("elements");
+}
+
+static PyObject *ctypeget_relements(CTypeDescrObject *ct, void *context)
+{
+ if (ct->ct_flags & CT_IS_ENUM) {
+ PyObject *res = PyTuple_GetItem(ct->ct_stuff, 0);
+ if (res) res = PyDict_Copy(res);
+ return res;
+ }
+ return nosuchattr("relements");
+}
+
+static PyGetSetDef ctypedescr_getsets[] = {
+ {"kind", (getter)ctypeget_kind, NULL, "kind"},
+ {"cname", (getter)ctypeget_cname, NULL, "C name"},
+ {"item", (getter)ctypeget_item, NULL, "pointer to, or array of"},
+ {"length", (getter)ctypeget_length, NULL, "array length or None"},
+ {"fields", (getter)ctypeget_fields, NULL, "struct or union fields"},
+ {"args", (getter)ctypeget_args, NULL, "function argument types"},
+ {"result", (getter)ctypeget_result, NULL, "function result type"},
+ {"ellipsis", (getter)ctypeget_ellipsis, NULL, "function has '...'"},
+ {"abi", (getter)ctypeget_abi, NULL, "function ABI"},
+ {"elements", (getter)ctypeget_elements, NULL, "enum elements"},
+ {"relements", (getter)ctypeget_relements, NULL, "enum elements, reverse"},
+ {NULL} /* sentinel */
+};
+
+static PyObject *
+ctypedescr_dir(PyObject *ct, PyObject *noarg)
+{
+ int err;
+ struct PyGetSetDef *gsdef;
+ PyObject *res = PyList_New(0);
+ if (res == NULL)
+ return NULL;
+
+ for (gsdef = ctypedescr_getsets; gsdef->name; gsdef++) {
+ PyObject *x = PyObject_GetAttrString(ct, gsdef->name);
+ if (x == NULL) {
+ PyErr_Clear();
+ }
+ else {
+ Py_DECREF(x);
+ x = PyText_FromString(gsdef->name);
+ err = (x != NULL) ? PyList_Append(res, x) : -1;
+ Py_XDECREF(x);
+ if (err < 0) {
+ Py_DECREF(res);
+ return NULL;
+ }
+ }
+ }
+ return res;
+}
+
+static PyMethodDef ctypedescr_methods[] = {
+ {"__dir__", ctypedescr_dir, METH_NOARGS},
+ {NULL, NULL} /* sentinel */
+};
+
+static PyTypeObject CTypeDescr_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.CType",
+ offsetof(CTypeDescrObject, ct_name),
+ sizeof(char),
+ (destructor)ctypedescr_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ (reprfunc)ctypedescr_repr, /* tp_repr */
+ 0, /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* tp_as_mapping */
+ 0, /* tp_hash */
+ 0, /* tp_call */
+ 0, /* tp_str */
+ PyObject_GenericGetAttr, /* tp_getattro */
+ 0, /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC, /* tp_flags */
+ 0, /* tp_doc */
+ (traverseproc)ctypedescr_traverse, /* tp_traverse */
+ (inquiry)ctypedescr_clear, /* tp_clear */
+ 0, /* tp_richcompare */
+ offsetof(CTypeDescrObject, ct_weakreflist), /* tp_weaklistoffset */
+ 0, /* tp_iter */
+ 0, /* tp_iternext */
+ ctypedescr_methods, /* tp_methods */
+ 0, /* tp_members */
+ ctypedescr_getsets, /* tp_getset */
+};
+
+/************************************************************/
+
+static PyObject *
+get_field_name(CTypeDescrObject *ct, CFieldObject *cf)
+{
+ Py_ssize_t i = 0;
+ PyObject *d_key, *d_value;
+ while (PyDict_Next(ct->ct_stuff, &i, &d_key, &d_value)) {
+ if (d_value == (PyObject *)cf)
+ return d_key;
+ }
+ Py_FatalError("_cffi_backend: get_field_name()");
+ return NULL;
+}
+
+static void
+cfield_dealloc(CFieldObject *cf)
+{
+ Py_DECREF(cf->cf_type);
+ PyObject_Del(cf);
+}
+
+#undef OFF
+#define OFF(x) offsetof(CFieldObject, x)
+
+static PyMemberDef cfield_members[] = {
+ {"type", T_OBJECT, OFF(cf_type), READONLY},
+ {"offset", T_PYSSIZET, OFF(cf_offset), READONLY},
+ {"bitshift", T_SHORT, OFF(cf_bitshift), READONLY},
+ {"bitsize", T_SHORT, OFF(cf_bitsize), READONLY},
+ {"flags", T_UBYTE, OFF(cf_flags), READONLY},
+ {NULL} /* Sentinel */
+};
+#undef OFF
+
+static PyTypeObject CField_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.CField",
+ sizeof(CFieldObject),
+ 0,
+ (destructor)cfield_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ 0, /* tp_repr */
+ 0, /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* tp_as_mapping */
+ 0, /* tp_hash */
+ 0, /* tp_call */
+ 0, /* tp_str */
+ PyObject_GenericGetAttr, /* tp_getattro */
+ 0, /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT, /* tp_flags */
+ 0, /* tp_doc */
+ 0, /* tp_traverse */
+ 0, /* tp_clear */
+ 0, /* tp_richcompare */
+ 0, /* tp_weaklistoffset */
+ 0, /* tp_iter */
+ 0, /* tp_iternext */
+ 0, /* tp_methods */
+ cfield_members, /* tp_members */
+};
+
+/************************************************************/
+
+static int
+CDataObject_Or_PyFloat_Check(PyObject *ob)
+{
+ return (PyFloat_Check(ob) ||
+ (CData_Check(ob) &&
+ (((CDataObject *)ob)->c_type->ct_flags & CT_PRIMITIVE_FLOAT)));
+}
+
+static PY_LONG_LONG
+_my_PyLong_AsLongLong(PyObject *ob)
+{
+ /* (possibly) convert and cast a Python object to a long long.
+ Like PyLong_AsLongLong(), this version accepts a Python int too, and
+ does convertions from other types of objects. The difference is that
+ this version refuses floats. */
+#if PY_MAJOR_VERSION < 3
+ if (PyInt_Check(ob)) {
+ return PyInt_AS_LONG(ob);
+ }
+ else
+#endif
+ if (PyLong_Check(ob)) {
+ return PyLong_AsLongLong(ob);
+ }
+ else {
+ PyObject *io;
+ PY_LONG_LONG res;
+ PyNumberMethods *nb = ob->ob_type->tp_as_number;
+
+ if (CDataObject_Or_PyFloat_Check(ob) ||
+ nb == NULL || nb->nb_int == NULL) {
+ PyErr_SetString(PyExc_TypeError, "an integer is required");
+ return -1;
+ }
+ io = (*nb->nb_int) (ob);
+ if (io == NULL)
+ return -1;
+
+ if (PyIntOrLong_Check(io)) {
+ res = _my_PyLong_AsLongLong(io);
+ }
+ else {
+ PyErr_SetString(PyExc_TypeError, "integer conversion failed");
+ res = -1;
+ }
+ Py_DECREF(io);
+ return res;
+ }
+}
+
+static unsigned PY_LONG_LONG
+_my_PyLong_AsUnsignedLongLong(PyObject *ob, int strict)
+{
+ /* (possibly) convert and cast a Python object to an unsigned long long.
+ Like PyLong_AsLongLong(), this version accepts a Python int too, and
+ does convertions from other types of objects. If 'strict', complains
+ with OverflowError and refuses floats. If '!strict', rounds floats
+ and masks the result. */
+#if PY_MAJOR_VERSION < 3
+ if (PyInt_Check(ob)) {
+ long value1 = PyInt_AS_LONG(ob);
+ if (strict && value1 < 0)
+ goto negative;
+ return (unsigned PY_LONG_LONG)(PY_LONG_LONG)value1;
+ }
+ else
+#endif
+ if (PyLong_Check(ob)) {
+ if (strict) {
+ if (_PyLong_Sign(ob) < 0)
+ goto negative;
+ return PyLong_AsUnsignedLongLong(ob);
+ }
+ else {
+ return PyLong_AsUnsignedLongLongMask(ob);
+ }
+ }
+ else {
+ PyObject *io;
+ unsigned PY_LONG_LONG res;
+ PyNumberMethods *nb = ob->ob_type->tp_as_number;
+
+ if ((strict && CDataObject_Or_PyFloat_Check(ob)) ||
+ nb == NULL || nb->nb_int == NULL) {
+ PyErr_SetString(PyExc_TypeError, "an integer is required");
+ return (unsigned PY_LONG_LONG)-1;
+ }
+ io = (*nb->nb_int) (ob);
+ if (io == NULL)
+ return (unsigned PY_LONG_LONG)-1;
+
+ if (PyIntOrLong_Check(io)) {
+ res = _my_PyLong_AsUnsignedLongLong(io, strict);
+ }
+ else {
+ PyErr_SetString(PyExc_TypeError, "integer conversion failed");
+ res = (unsigned PY_LONG_LONG)-1;
+ }
+ Py_DECREF(io);
+ return res;
+ }
+
+ negative:
+ PyErr_SetString(PyExc_OverflowError,
+ "can't convert negative number to unsigned");
+ return (unsigned PY_LONG_LONG)-1;
+}
+
+#define _read_raw_data(type) \
+ do { \
+ if (size == sizeof(type)) { \
+ type r; \
+ memcpy(&r, target, sizeof(type)); \
+ return r; \
+ } \
+ } while(0)
+
+static PY_LONG_LONG
+read_raw_signed_data(char *target, int size)
+{
+ _read_raw_data(signed char);
+ _read_raw_data(short);
+ _read_raw_data(int);
+ _read_raw_data(long);
+ _read_raw_data(PY_LONG_LONG);
+ Py_FatalError("read_raw_signed_data: bad integer size");
+ return 0;
+}
+
+static unsigned PY_LONG_LONG
+read_raw_unsigned_data(char *target, int size)
+{
+ _read_raw_data(unsigned char);
+ _read_raw_data(unsigned short);
+ _read_raw_data(unsigned int);
+ _read_raw_data(unsigned long);
+ _read_raw_data(unsigned PY_LONG_LONG);
+ Py_FatalError("read_raw_unsigned_data: bad integer size");
+ return 0;
+}
+
+#ifdef __GNUC__
+/* This is a workaround for what I think is a GCC bug on several
+ platforms. See issue #378. */
+__attribute__((noinline))
+#endif
+void _cffi_memcpy(char *target, const void *src, size_t size)
+{
+ memcpy(target, src, size);
+}
+
+#define _write_raw_data(type) \
+ do { \
+ if (size == sizeof(type)) { \
+ type r = (type)source; \
+ _cffi_memcpy(target, &r, sizeof(type)); \
+ return; \
+ } \
+ } while(0)
+
+static void
+write_raw_integer_data(char *target, unsigned PY_LONG_LONG source, int size)
+{
+ _write_raw_data(unsigned char);
+ _write_raw_data(unsigned short);
+ _write_raw_data(unsigned int);
+ _write_raw_data(unsigned long);
+ _write_raw_data(unsigned PY_LONG_LONG);
+ Py_FatalError("write_raw_integer_data: bad integer size");
+}
+
+static double
+read_raw_float_data(char *target, int size)
+{
+ _read_raw_data(float);
+ _read_raw_data(double);
+ Py_FatalError("read_raw_float_data: bad float size");
+ return 0;
+}
+
+static long double
+read_raw_longdouble_data(char *target)
+{
+ int size = sizeof(long double);
+ _read_raw_data(long double);
+ Py_FatalError("read_raw_longdouble_data: bad long double size");
+ return 0;
+}
+
+static Py_complex
+read_raw_complex_data(char *target, int size)
+{
+ Py_complex r = {0.0, 0.0};
+ if (size == 2*sizeof(float)) {
+ float real_part, imag_part;
+ memcpy(&real_part, target + 0, sizeof(float));
+ memcpy(&imag_part, target + sizeof(float), sizeof(float));
+ r.real = real_part;
+ r.imag = imag_part;
+ return r;
+ }
+ if (size == 2*sizeof(double)) {
+ memcpy(&r, target, 2*sizeof(double));
+ return r;
+ }
+ Py_FatalError("read_raw_complex_data: bad complex size");
+ return r;
+}
+
+static void
+write_raw_float_data(char *target, double source, int size)
+{
+ _write_raw_data(float);
+ _write_raw_data(double);
+ Py_FatalError("write_raw_float_data: bad float size");
+}
+
+static void
+write_raw_longdouble_data(char *target, long double source)
+{
+ int size = sizeof(long double);
+ _write_raw_data(long double);
+}
+
+#define _write_raw_complex_data(type) \
+ do { \
+ if (size == 2*sizeof(type)) { \
+ type r = (type)source.real; \
+ type i = (type)source.imag; \
+ _cffi_memcpy(target, &r, sizeof(type)); \
+ _cffi_memcpy(target+sizeof(type), &i, sizeof(type)); \
+ return; \
+ } \
+ } while(0)
+
+static void
+write_raw_complex_data(char *target, Py_complex source, int size)
+{
+ _write_raw_complex_data(float);
+ _write_raw_complex_data(double);
+ Py_FatalError("write_raw_complex_data: bad complex size");
+}
+
+static PyObject *
+new_simple_cdata(char *data, CTypeDescrObject *ct)
+{
+ CDataObject *cd = PyObject_New(CDataObject, &CData_Type);
+ if (cd == NULL)
+ return NULL;
+ Py_INCREF(ct);
+ cd->c_data = data;
+ cd->c_type = ct;
+ cd->c_weakreflist = NULL;
+ return (PyObject *)cd;
+}
+
+static PyObject *
+new_sized_cdata(char *data, CTypeDescrObject *ct, Py_ssize_t length)
+{
+ CDataObject_own_length *scd;
+
+ scd = (CDataObject_own_length *)PyObject_Malloc(
+ offsetof(CDataObject_own_length, alignment));
+ if (PyObject_Init((PyObject *)scd, &CData_Type) == NULL)
+ return NULL;
+ Py_INCREF(ct);
+ scd->head.c_type = ct;
+ scd->head.c_data = data;
+ scd->head.c_weakreflist = NULL;
+ scd->length = length;
+ return (PyObject *)scd;
+}
+
+static CDataObject *_new_casted_primitive(CTypeDescrObject *ct); /*forward*/
+
+static PyObject *
+convert_to_object(char *data, CTypeDescrObject *ct)
+{
+ if (!(ct->ct_flags & CT_PRIMITIVE_ANY)) {
+ /* non-primitive types (check done just for performance) */
+ if (ct->ct_flags & (CT_POINTER|CT_FUNCTIONPTR)) {
+ char *ptrdata = *(char **)data;
+ /*READ(data, sizeof(char *))*/
+ return new_simple_cdata(ptrdata, ct);
+ }
+ else if (ct->ct_flags & CT_IS_OPAQUE) {
+ PyErr_Format(PyExc_TypeError, "cdata '%s' is opaque",
+ ct->ct_name);
+ return NULL;
+ }
+ else if (ct->ct_flags & (CT_STRUCT|CT_UNION)) {
+ return new_simple_cdata(data, ct);
+ }
+ else if (ct->ct_flags & CT_ARRAY) {
+ if (ct->ct_length < 0) {
+ /* we can't return a <cdata 'int[]'> here, because we don't
+ know the length to give it. As a compromize, returns
+ <cdata 'int *'> in this case. */
+ ct = (CTypeDescrObject *)ct->ct_stuff;
+ }
+ return new_simple_cdata(data, ct);
+ }
+ }
+ else if (ct->ct_flags & CT_PRIMITIVE_SIGNED) {
+ PY_LONG_LONG value;
+ /*READ(data, ct->ct_size)*/
+ value = read_raw_signed_data(data, ct->ct_size);
+ if (ct->ct_flags & CT_PRIMITIVE_FITS_LONG)
+ return PyInt_FromLong((long)value);
+ else
+ return PyLong_FromLongLong(value);
+ }
+ else if (ct->ct_flags & CT_PRIMITIVE_UNSIGNED) {
+ unsigned PY_LONG_LONG value;
+ /*READ(data, ct->ct_size)*/
+ value = read_raw_unsigned_data(data, ct->ct_size);
+
+ if (ct->ct_flags & CT_PRIMITIVE_FITS_LONG) {
+ if (ct->ct_flags & CT_IS_BOOL) {
+ PyObject *x;
+ switch ((int)value) {
+ case 0: x = Py_False; break;
+ case 1: x = Py_True; break;
+ default:
+ PyErr_Format(PyExc_ValueError,
+ "got a _Bool of value %d, expected 0 or 1",
+ (int)value);
+ return NULL;
+ }
+ Py_INCREF(x);
+ return x;
+ }
+ return PyInt_FromLong((long)value);
+ }
+ else
+ return PyLong_FromUnsignedLongLong(value);
+ }
+ else if (ct->ct_flags & CT_PRIMITIVE_FLOAT) {
+ /*READ(data, ct->ct_size)*/
+ if (!(ct->ct_flags & CT_IS_LONGDOUBLE)) {
+ double value = read_raw_float_data(data, ct->ct_size);
+ return PyFloat_FromDouble(value);
+ }
+ else {
+ long double value = read_raw_longdouble_data(data);
+ CDataObject *cd = _new_casted_primitive(ct);
+ if (cd != NULL)
+ write_raw_longdouble_data(cd->c_data, value);
+ return (PyObject *)cd;
+ }
+ }
+ else if (ct->ct_flags & CT_PRIMITIVE_CHAR) {
+ /*READ(data, ct->ct_size)*/
+ switch (ct->ct_size) {
+ case sizeof(char):
+ return PyBytes_FromStringAndSize(data, 1);
+ case 2:
+ return _my_PyUnicode_FromChar16((cffi_char16_t *)data, 1);
+ case 4:
+ return _my_PyUnicode_FromChar32((cffi_char32_t *)data, 1);
+ }
+ }
+ else if (ct->ct_flags & CT_PRIMITIVE_COMPLEX) {
+ Py_complex value = read_raw_complex_data(data, ct->ct_size);
+ return PyComplex_FromCComplex(value);
+ }
+
+ PyErr_Format(PyExc_SystemError,
+ "convert_to_object: '%s'", ct->ct_name);
+ return NULL;
+}
+
+static PyObject *
+convert_to_object_bitfield(char *data, CFieldObject *cf)
+{
+ CTypeDescrObject *ct = cf->cf_type;
+ /*READ(data, ct->ct_size)*/
+
+ if (ct->ct_flags & CT_PRIMITIVE_SIGNED) {
+ unsigned PY_LONG_LONG value, valuemask, shiftforsign;
+ PY_LONG_LONG result;
+
+ value = (unsigned PY_LONG_LONG)read_raw_signed_data(data, ct->ct_size);
+ valuemask = (1ULL << cf->cf_bitsize) - 1ULL;
+ shiftforsign = 1ULL << (cf->cf_bitsize - 1);
+ value = ((value >> cf->cf_bitshift) + shiftforsign) & valuemask;
+ result = ((PY_LONG_LONG)value) - (PY_LONG_LONG)shiftforsign;
+
+ if (ct->ct_flags & CT_PRIMITIVE_FITS_LONG)
+ return PyInt_FromLong((long)result);
+ else
+ return PyLong_FromLongLong(result);
+ }
+ else {
+ unsigned PY_LONG_LONG value, valuemask;
+
+ value = read_raw_unsigned_data(data, ct->ct_size);
+ valuemask = (1ULL << cf->cf_bitsize) - 1ULL;
+ value = (value >> cf->cf_bitshift) & valuemask;
+
+ if (ct->ct_flags & CT_PRIMITIVE_FITS_LONG)
+ return PyInt_FromLong((long)value);
+ else
+ return PyLong_FromUnsignedLongLong(value);
+ }
+}
+
+static int _convert_overflow(PyObject *init, const char *ct_name)
+{
+ PyObject *s;
+ if (PyErr_Occurred()) /* already an exception pending */
+ return -1;
+ s = PyObject_Str(init);
+ if (s == NULL)
+ return -1;
+ PyErr_Format(PyExc_OverflowError, "integer %s does not fit '%s'",
+ PyText_AS_UTF8(s), ct_name);
+ Py_DECREF(s);
+ return -1;
+}
+
+static int _convert_to_char(PyObject *init)
+{
+ if (PyBytes_Check(init) && PyBytes_GET_SIZE(init) == 1) {
+ return (unsigned char)(PyBytes_AS_STRING(init)[0]);
+ }
+ if (CData_Check(init) &&
+ (((CDataObject *)init)->c_type->ct_flags & CT_PRIMITIVE_CHAR) &&
+ (((CDataObject *)init)->c_type->ct_size == sizeof(char))) {
+ char *data = ((CDataObject *)init)->c_data;
+ /*READ(data, 1)*/
+ return *(unsigned char *)data;
+ }
+ PyErr_Format(PyExc_TypeError,
+ "initializer for ctype 'char' must be a "STR_OR_BYTES
+ " of length 1, not %.200s", Py_TYPE(init)->tp_name);
+ return -1;
+}
+
+static cffi_char16_t _convert_to_char16_t(PyObject *init)
+{
+ char err_got[80];
+ err_got[0] = 0;
+
+ if (PyUnicode_Check(init)) {
+ cffi_char16_t ordinal;
+ if (_my_PyUnicode_AsSingleChar16(init, &ordinal, err_got) == 0)
+ return ordinal;
+ }
+ if (CData_Check(init) &&
+ (((CDataObject *)init)->c_type->ct_flags & CT_PRIMITIVE_CHAR) &&
+ (((CDataObject *)init)->c_type->ct_size == 2)) {
+ char *data = ((CDataObject *)init)->c_data;
+ /*READ(data, 2)*/
+ return *(cffi_char16_t *)data;
+ }
+ PyErr_Format(PyExc_TypeError,
+ "initializer for ctype 'char16_t' must be a unicode string "
+ "of length 1, not %.200s",
+ err_got[0] == 0 ? Py_TYPE(init)->tp_name : err_got);
+ return (cffi_char16_t)-1;
+}
+
+static cffi_char32_t _convert_to_char32_t(PyObject *init)
+{
+ char err_got[80];
+ err_got[0] = 0;
+
+ if (PyUnicode_Check(init)) {
+ cffi_char32_t ordinal;
+ if (_my_PyUnicode_AsSingleChar32(init, &ordinal, err_got) == 0)
+ return ordinal;
+ }
+ if (CData_Check(init) &&
+ (((CDataObject *)init)->c_type->ct_flags & CT_PRIMITIVE_CHAR) &&
+ (((CDataObject *)init)->c_type->ct_size == 4)) {
+ char *data = ((CDataObject *)init)->c_data;
+ /*READ(data, 4)*/
+ return *(cffi_char32_t *)data;
+ }
+ PyErr_Format(PyExc_TypeError,
+ "initializer for ctype 'char32_t' must be a unicode string "
+ "of length 1, not %.200s",
+ err_got[0] == 0 ? Py_TYPE(init)->tp_name : err_got);
+ return (cffi_char32_t)-1;
+}
+
+static int _convert_error(PyObject *init, CTypeDescrObject *ct,
+ const char *expected)
+{
+ if (CData_Check(init)) {
+ CTypeDescrObject *ct2 = ((CDataObject *)init)->c_type;
+ if (strcmp(ct->ct_name, ct2->ct_name) != 0)
+ PyErr_Format(PyExc_TypeError,
+ "initializer for ctype '%s' must be a %s, "
+ "not cdata '%s'",
+ ct->ct_name, expected, ct2->ct_name);
+ else if (ct != ct2) {
+ /* in case we'd give the error message "initializer for
+ ctype 'A' must be a pointer to same type, not cdata
+ 'B'", but with A=B, then give instead a different error
+ message to try to clear up the confusion */
+ PyErr_Format(PyExc_TypeError,
+ "initializer for ctype '%s' appears indeed to be '%s',"
+ " but the types are different (check that you are not"
+ " e.g. mixing up different ffi instances)",
+ ct->ct_name, ct2->ct_name);
+ }
+ else
+ {
+ PyErr_Format(PyExc_SystemError,
+ "initializer for ctype '%s' is correct, but we get "
+ "an internal mismatch--please report a bug",
+ ct->ct_name);
+ }
+ }
+ else
+ PyErr_Format(PyExc_TypeError,
+ "initializer for ctype '%s' must be a %s, "
+ "not %.200s",
+ ct->ct_name, expected, Py_TYPE(init)->tp_name);
+ return -1;
+}
+
+static int /* forward */
+convert_from_object(char *data, CTypeDescrObject *ct, PyObject *init);
+static int /* forward */
+convert_from_object_bitfield(char *data, CFieldObject *cf, PyObject *init);
+
+static Py_ssize_t
+get_new_array_length(CTypeDescrObject *ctitem, PyObject **pvalue)
+{
+ PyObject *value = *pvalue;
+
+ if (PyList_Check(value) || PyTuple_Check(value)) {
+ return PySequence_Fast_GET_SIZE(value);
+ }
+ else if (PyBytes_Check(value)) {
+ /* from a string, we add the null terminator */
+ return PyBytes_GET_SIZE(value) + 1;
+ }
+ else if (PyUnicode_Check(value)) {
+ /* from a unicode, we add the null terminator */
+ int length;
+ if (ctitem->ct_size == 2)
+ length = _my_PyUnicode_SizeAsChar16(value);
+ else
+ length = _my_PyUnicode_SizeAsChar32(value);
+ return length + 1;
+ }
+ else {
+ Py_ssize_t explicitlength;
+ explicitlength = PyNumber_AsSsize_t(value, PyExc_OverflowError);
+ if (explicitlength < 0) {
+ if (PyErr_Occurred()) {
+ if (PyErr_ExceptionMatches(PyExc_TypeError))
+ PyErr_Format(PyExc_TypeError,
+ "expected new array length or list/tuple/str, "
+ "not %.200s", Py_TYPE(value)->tp_name);
+ }
+ else
+ PyErr_SetString(PyExc_ValueError, "negative array length");
+ return -1;
+ }
+ *pvalue = Py_None;
+ return explicitlength;
+ }
+}
+
+static int
+convert_field_from_object(char *data, CFieldObject *cf, PyObject *value)
+{
+ data += cf->cf_offset;
+ if (cf->cf_bitshift >= 0)
+ return convert_from_object_bitfield(data, cf, value);
+ else
+ return convert_from_object(data, cf->cf_type, value);
+}
+
+static int
+add_varsize_length(Py_ssize_t offset, Py_ssize_t itemsize,
+ Py_ssize_t varsizelength, Py_ssize_t *optvarsize)
+{
+ /* update '*optvarsize' to account for an array of 'varsizelength'
+ elements, each of size 'itemsize', that starts at 'offset'. */
+ Py_ssize_t size = ADD_WRAPAROUND(offset,
+ MUL_WRAPAROUND(itemsize, varsizelength));
+ if (size < 0 ||
+ ((size - offset) / itemsize) != varsizelength) {
+ PyErr_SetString(PyExc_OverflowError,
+ "array size would overflow a Py_ssize_t");
+ return -1;
+ }
+ if (size > *optvarsize)
+ *optvarsize = size;
+ return 0;
+}
+
+static int
+convert_struct_from_object(char *data, CTypeDescrObject *ct, PyObject *init,
+ Py_ssize_t *optvarsize); /* forward */
+
+static int
+convert_vfield_from_object(char *data, CFieldObject *cf, PyObject *value,
+ Py_ssize_t *optvarsize)
+{
+ /* a special case for var-sized C99 arrays */
+ if ((cf->cf_type->ct_flags & CT_ARRAY) && cf->cf_type->ct_size < 0) {
+ Py_ssize_t varsizelength = get_new_array_length(
+ cf->cf_type->ct_itemdescr, &value);
+ if (varsizelength < 0)
+ return -1;
+ if (optvarsize != NULL) {
+ /* in this mode, the only purpose of this function is to compute
+ the real size of the structure from a var-sized C99 array */
+ assert(data == NULL);
+ return add_varsize_length(cf->cf_offset,
+ cf->cf_type->ct_itemdescr->ct_size,
+ varsizelength,
+ optvarsize);
+ }
+ /* if 'value' was only an integer, get_new_array_length() returns
+ it and convert 'value' to be None. Detect if this was the case,
+ and if so, stop here, leaving the content uninitialized
+ (it should be zero-initialized from somewhere else). */
+ if (value == Py_None)
+ return 0;
+ }
+ if (optvarsize == NULL) {
+ return convert_field_from_object(data, cf, value);
+ }
+ else if ((cf->cf_type->ct_flags & CT_WITH_VAR_ARRAY) != 0 &&
+ !CData_Check(value)) {
+ Py_ssize_t subsize = cf->cf_type->ct_size;
+ if (convert_struct_from_object(NULL, cf->cf_type, value, &subsize) < 0)
+ return -1;
+ return add_varsize_length(cf->cf_offset, 1, subsize, optvarsize);
+ }
+ else
+ return 0;
+}
+
+static int
+must_be_array_of_zero_or_one(const char *data, Py_ssize_t n)
+{
+ Py_ssize_t i;
+ for (i = 0; i < n; i++) {
+ if (((unsigned char)data[i]) > 1) {
+ PyErr_SetString(PyExc_ValueError,
+ "an array of _Bool can only contain \\x00 or \\x01");
+ return -1;
+ }
+ }
+ return 0;
+}
+
+static Py_ssize_t
+get_array_length(CDataObject *cd)
+{
+ if (cd->c_type->ct_length < 0)
+ return ((CDataObject_own_length *)cd)->length;
+ else
+ return cd->c_type->ct_length;
+}
+
+static int
+convert_array_from_object(char *data, CTypeDescrObject *ct, PyObject *init)
+{
+ /* used by convert_from_object(), and also to decode lists/tuples/unicodes
+ passed as function arguments. 'ct' is an CT_ARRAY in the first case
+ and a CT_POINTER in the second case. */
+ const char *expected;
+ CTypeDescrObject *ctitem = ct->ct_itemdescr;
+
+ if (PyList_Check(init) || PyTuple_Check(init)) {
+ PyObject **items;
+ Py_ssize_t i, n;
+ n = PySequence_Fast_GET_SIZE(init);
+ if (ct->ct_length >= 0 && n > ct->ct_length) {
+ PyErr_Format(PyExc_IndexError,
+ "too many initializers for '%s' (got %zd)",
+ ct->ct_name, n);
+ return -1;
+ }
+ items = PySequence_Fast_ITEMS(init);
+ for (i=0; i<n; i++) {
+ if (convert_from_object(data, ctitem, items[i]) < 0)
+ return -1;
+ data += ctitem->ct_size;
+ }
+ return 0;
+ }
+ else if ((ctitem->ct_flags & CT_PRIMITIVE_CHAR) ||
+ ((ctitem->ct_flags & (CT_PRIMITIVE_SIGNED|CT_PRIMITIVE_UNSIGNED))
+ && (ctitem->ct_size == sizeof(char)))) {
+ if (ctitem->ct_size == sizeof(char)) {
+ char *srcdata;
+ Py_ssize_t n;
+ if (!PyBytes_Check(init)) {
+ expected = STR_OR_BYTES" or list or tuple";
+ goto cannot_convert;
+ }
+ n = PyBytes_GET_SIZE(init);
+ if (ct->ct_length >= 0 && n > ct->ct_length) {
+ PyErr_Format(PyExc_IndexError,
+ "initializer "STR_OR_BYTES" is too long for '%s' "
+ "(got %zd characters)", ct->ct_name, n);
+ return -1;
+ }
+ if (n != ct->ct_length)
+ n++;
+ srcdata = PyBytes_AS_STRING(init);
+ if (ctitem->ct_flags & CT_IS_BOOL)
+ if (must_be_array_of_zero_or_one(srcdata, n) < 0)
+ return -1;
+ memcpy(data, srcdata, n);
+ return 0;
+ }
+ else {
+ Py_ssize_t n;
+ if (!PyUnicode_Check(init)) {
+ expected = "unicode or list or tuple";
+ goto cannot_convert;
+ }
+
+ if (ctitem->ct_size == 4)
+ n = _my_PyUnicode_SizeAsChar32(init);
+ else
+ n = _my_PyUnicode_SizeAsChar16(init);
+
+ if (ct->ct_length >= 0 && n > ct->ct_length) {
+ PyErr_Format(PyExc_IndexError,
+ "initializer unicode is too long for '%s' "
+ "(got %zd characters)", ct->ct_name, n);
+ return -1;
+ }
+ if (n != ct->ct_length)
+ n++;
+ if (ctitem->ct_size == 4)
+ return _my_PyUnicode_AsChar32(init, (cffi_char32_t *)data, n);
+ else
+ return _my_PyUnicode_AsChar16(init, (cffi_char16_t *)data, n);
+ }
+ }
+ else {
+ expected = "list or tuple";
+ goto cannot_convert;
+ }
+
+ cannot_convert:
+ if ((ct->ct_flags & CT_ARRAY) && CData_Check(init))
+ {
+ CDataObject *cd = (CDataObject *)init;
+ if (cd->c_type == ct)
+ {
+ Py_ssize_t n = get_array_length(cd);
+ memcpy(data, cd->c_data, n * ctitem->ct_size);
+ return 0;
+ }
+ }
+ return _convert_error(init, ct, expected);
+}
+
+static int
+convert_struct_from_object(char *data, CTypeDescrObject *ct, PyObject *init,
+ Py_ssize_t *optvarsize)
+{
+ /* does not accept 'init' being already a CData */
+ const char *expected;
+
+ if (force_lazy_struct(ct) <= 0) {
+ if (!PyErr_Occurred())
+ PyErr_Format(PyExc_TypeError, "'%s' is opaque", ct->ct_name);
+ return -1;
+ }
+
+ if (PyList_Check(init) || PyTuple_Check(init)) {
+ PyObject **items = PySequence_Fast_ITEMS(init);
+ Py_ssize_t i, n = PySequence_Fast_GET_SIZE(init);
+ CFieldObject *cf = (CFieldObject *)ct->ct_extra;
+
+ for (i=0; i<n; i++) {
+ while (cf != NULL && (cf->cf_flags & BF_IGNORE_IN_CTOR))
+ cf = cf->cf_next;
+ if (cf == NULL) {
+ PyErr_Format(PyExc_ValueError,
+ "too many initializers for '%s' (got %zd)",
+ ct->ct_name, n);
+ return -1;
+ }
+ if (convert_vfield_from_object(data, cf, items[i], optvarsize) < 0)
+ return -1;
+ cf = cf->cf_next;
+ }
+ return 0;
+ }
+ if (PyDict_Check(init)) {
+ PyObject *d_key, *d_value;
+ Py_ssize_t i = 0;
+ CFieldObject *cf;
+
+ while (PyDict_Next(init, &i, &d_key, &d_value)) {
+ cf = (CFieldObject *)PyDict_GetItem(ct->ct_stuff, d_key);
+ if (cf == NULL) {
+ PyErr_SetObject(PyExc_KeyError, d_key);
+ return -1;
+ }
+ if (convert_vfield_from_object(data, cf, d_value, optvarsize) < 0)
+ return -1;
+ }
+ return 0;
+ }
+ expected = optvarsize == NULL ? "list or tuple or dict or struct-cdata"
+ : "list or tuple or dict";
+ return _convert_error(init, ct, expected);
+}
+
+#ifdef __GNUC__
+# if __GNUC__ >= 4
+/* Don't go inlining this huge function. Needed because occasionally
+ it gets inlined in places where is causes a warning: call to
+ __builtin___memcpy_chk will always overflow destination buffer
+ (which is places where the 'ct' should never represent such a large
+ primitive type anyway). */
+__attribute__((noinline))
+# endif
+#endif
+static int
+convert_from_object(char *data, CTypeDescrObject *ct, PyObject *init)
+{
+ const char *expected;
+ char buf[sizeof(PY_LONG_LONG)];
+
+ /*if (ct->ct_size > 0)*/
+ /*WRITE(data, ct->ct_size)*/
+
+ if (ct->ct_flags & CT_ARRAY) {
+ return convert_array_from_object(data, ct, init);
+ }
+ if (ct->ct_flags & (CT_POINTER|CT_FUNCTIONPTR)) {
+ char *ptrdata;
+ CTypeDescrObject *ctinit;
+
+ if (!CData_Check(init)) {
+ expected = "cdata pointer";
+ goto cannot_convert;
+ }
+ ctinit = ((CDataObject *)init)->c_type;
+ if (!(ctinit->ct_flags & (CT_POINTER|CT_FUNCTIONPTR))) {
+ if (ctinit->ct_flags & CT_ARRAY)
+ ctinit = (CTypeDescrObject *)ctinit->ct_stuff;
+ else {
+ expected = "pointer or array";
+ goto cannot_convert;
+ }
+ }
+ if (ctinit != ct) {
+ int combined_flags = ct->ct_flags | ctinit->ct_flags;
+ if (combined_flags & CT_IS_VOID_PTR)
+ ; /* accept "void *" as either source or target */
+ else if (combined_flags & CT_IS_VOIDCHAR_PTR) {
+ /* for backward compatibility, accept "char *" as either
+ source of target. This is not what C does, though,
+ so emit a warning that will eventually turn into an
+ error. The warning is turned off if both types are
+ pointers to single bytes. */
+ char *msg = (ct->ct_flags & CT_IS_VOIDCHAR_PTR ?
+ "implicit cast to 'char *' from a different pointer type: "
+ "will be forbidden in the future (check that the types "
+ "are as you expect; use an explicit ffi.cast() if they "
+ "are correct)" :
+ "implicit cast from 'char *' to a different pointer type: "
+ "will be forbidden in the future (check that the types "
+ "are as you expect; use an explicit ffi.cast() if they "
+ "are correct)");
+ if ((ct->ct_flags & ctinit->ct_flags & CT_POINTER) &&
+ ct->ct_itemdescr->ct_size == 1 &&
+ ctinit->ct_itemdescr->ct_size == 1) {
+ /* no warning */
+ }
+ else if (PyErr_WarnEx(PyExc_UserWarning, msg, 1))
+ return -1;
+ }
+ else {
+ expected = "pointer to same type";
+ goto cannot_convert;
+ }
+ }
+ ptrdata = ((CDataObject *)init)->c_data;
+
+ *(char **)data = ptrdata;
+ return 0;
+ }
+ if (ct->ct_flags & CT_PRIMITIVE_SIGNED) {
+ PY_LONG_LONG value = _my_PyLong_AsLongLong(init);
+ if (value == -1 && PyErr_Occurred())
+ return -1;
+ write_raw_integer_data(buf, value, ct->ct_size);
+ if (value != read_raw_signed_data(buf, ct->ct_size))
+ goto overflow;
+ write_raw_integer_data(data, value, ct->ct_size);
+ return 0;
+ }
+ if (ct->ct_flags & CT_PRIMITIVE_UNSIGNED) {
+ unsigned PY_LONG_LONG value = _my_PyLong_AsUnsignedLongLong(init, 1);
+ if (value == (unsigned PY_LONG_LONG)-1 && PyErr_Occurred())
+ return -1;
+ if (ct->ct_flags & CT_IS_BOOL) {
+ if (value > 1ULL) /* value != 0 && value != 1 */
+ goto overflow;
+ }
+ else {
+ write_raw_integer_data(buf, value, ct->ct_size);
+ if (value != read_raw_unsigned_data(buf, ct->ct_size))
+ goto overflow;
+ }
+ write_raw_integer_data(data, value, ct->ct_size);
+ return 0;
+ }
+ if (ct->ct_flags & CT_PRIMITIVE_FLOAT) {
+ double value;
+ if ((ct->ct_flags & CT_IS_LONGDOUBLE) &&
+ CData_Check(init) &&
+ (((CDataObject *)init)->c_type->ct_flags & CT_IS_LONGDOUBLE)) {
+ long double lvalue;
+ char *initdata = ((CDataObject *)init)->c_data;
+ /*READ(initdata, sizeof(long double))*/
+ lvalue = read_raw_longdouble_data(initdata);
+ write_raw_longdouble_data(data, lvalue);
+ return 0;
+ }
+ value = PyFloat_AsDouble(init);
+ if (value == -1.0 && PyErr_Occurred())
+ return -1;
+ if (!(ct->ct_flags & CT_IS_LONGDOUBLE))
+ write_raw_float_data(data, value, ct->ct_size);
+ else
+ write_raw_longdouble_data(data, (long double)value);
+ return 0;
+ }
+ if (ct->ct_flags & CT_PRIMITIVE_CHAR) {
+ switch (ct->ct_size) {
+ case sizeof(char): {
+ int res = _convert_to_char(init);
+ if (res < 0)
+ return -1;
+ data[0] = res;
+ return 0;
+ }
+ case 2: {
+ cffi_char16_t res = _convert_to_char16_t(init);
+ if (res == (cffi_char16_t)-1 && PyErr_Occurred())
+ return -1;
+ *(cffi_char16_t *)data = res;
+ return 0;
+ }
+ case 4: {
+ cffi_char32_t res = _convert_to_char32_t(init);
+ if (res == (cffi_char32_t)-1 && PyErr_Occurred())
+ return -1;
+ *(cffi_char32_t *)data = res;
+ return 0;
+ }
+ }
+ }
+ if (ct->ct_flags & (CT_STRUCT|CT_UNION)) {
+
+ if (CData_Check(init)) {
+ if (((CDataObject *)init)->c_type == ct && ct->ct_size >= 0) {
+ memcpy(data, ((CDataObject *)init)->c_data, ct->ct_size);
+ return 0;
+ }
+ }
+ return convert_struct_from_object(data, ct, init, NULL);
+ }
+ if (ct->ct_flags & CT_PRIMITIVE_COMPLEX) {
+ Py_complex value = PyComplex_AsCComplex(init);
+ if (PyErr_Occurred())
+ return -1;
+ write_raw_complex_data(data, value, ct->ct_size);
+ return 0;
+ }
+ PyErr_Format(PyExc_SystemError,
+ "convert_from_object: '%s'", ct->ct_name);
+ return -1;
+
+ overflow:
+ return _convert_overflow(init, ct->ct_name);
+
+ cannot_convert:
+ return _convert_error(init, ct, expected);
+}
+
+static int
+convert_from_object_bitfield(char *data, CFieldObject *cf, PyObject *init)
+{
+ CTypeDescrObject *ct = cf->cf_type;
+ PY_LONG_LONG fmin, fmax, value = PyLong_AsLongLong(init);
+ unsigned PY_LONG_LONG rawfielddata, rawvalue, rawmask;
+ if (value == -1 && PyErr_Occurred())
+ return -1;
+
+ if (ct->ct_flags & CT_PRIMITIVE_SIGNED) {
+ fmin = -(1LL << (cf->cf_bitsize-1));
+ fmax = (1LL << (cf->cf_bitsize-1)) - 1LL;
+ if (fmax == 0)
+ fmax = 1; /* special case to let "int x:1" receive "1" */
+ }
+ else {
+ fmin = 0LL;
+ fmax = (PY_LONG_LONG)((1ULL << cf->cf_bitsize) - 1ULL);
+ }
+ if (value < fmin || value > fmax) {
+ /* phew, PyErr_Format does not support "%lld" in Python 2.6 */
+ PyObject *svalue = NULL, *sfmin = NULL, *sfmax = NULL;
+ PyObject *lfmin = NULL, *lfmax = NULL;
+ svalue = PyObject_Str(init);
+ if (svalue == NULL) goto skip;
+ lfmin = PyLong_FromLongLong(fmin);
+ if (lfmin == NULL) goto skip;
+ sfmin = PyObject_Str(lfmin);
+ if (sfmin == NULL) goto skip;
+ lfmax = PyLong_FromLongLong(fmax);
+ if (lfmax == NULL) goto skip;
+ sfmax = PyObject_Str(lfmax);
+ if (sfmax == NULL) goto skip;
+ PyErr_Format(PyExc_OverflowError,
+ "value %s outside the range allowed by the "
+ "bit field width: %s <= x <= %s",
+ PyText_AS_UTF8(svalue),
+ PyText_AS_UTF8(sfmin),
+ PyText_AS_UTF8(sfmax));
+ skip:
+ Py_XDECREF(svalue);
+ Py_XDECREF(sfmin);
+ Py_XDECREF(sfmax);
+ Py_XDECREF(lfmin);
+ Py_XDECREF(lfmax);
+ return -1;
+ }
+
+ rawmask = ((1ULL << cf->cf_bitsize) - 1ULL) << cf->cf_bitshift;
+ rawvalue = ((unsigned PY_LONG_LONG)value) << cf->cf_bitshift;
+ /*WRITE(data, ct->ct_size)*/
+ rawfielddata = read_raw_unsigned_data(data, ct->ct_size);
+ rawfielddata = (rawfielddata & ~rawmask) | (rawvalue & rawmask);
+ write_raw_integer_data(data, rawfielddata, ct->ct_size);
+ return 0;
+}
+
+static int
+get_alignment(CTypeDescrObject *ct)
+{
+ int align;
+ retry:
+ if ((ct->ct_flags & (CT_PRIMITIVE_ANY|CT_STRUCT|CT_UNION)) &&
+ !(ct->ct_flags & CT_IS_OPAQUE)) {
+ align = ct->ct_length;
+ if (align == -1 && (ct->ct_flags & CT_LAZY_FIELD_LIST)) {
+ force_lazy_struct(ct);
+ align = ct->ct_length;
+ }
+ }
+ else if (ct->ct_flags & (CT_POINTER|CT_FUNCTIONPTR)) {
+ struct aligncheck_ptr { char x; char *y; };
+ align = offsetof(struct aligncheck_ptr, y);
+ }
+ else if (ct->ct_flags & CT_ARRAY) {
+ ct = ct->ct_itemdescr;
+ goto retry;
+ }
+ else {
+ PyErr_Format(PyExc_ValueError, "ctype '%s' is of unknown alignment",
+ ct->ct_name);
+ return -1;
+ }
+
+ if ((align < 1) || (align & (align-1))) {
+ PyErr_Format(PyExc_SystemError,
+ "found for ctype '%s' bogus alignment '%d'",
+ ct->ct_name, align);
+ return -1;
+ }
+ return align;
+}
+
+static void cdata_dealloc(CDataObject *cd)
+{
+ if (cd->c_weakreflist != NULL)
+ PyObject_ClearWeakRefs((PyObject *) cd);
+
+ Py_DECREF(cd->c_type);
+#ifndef CFFI_MEM_LEAK /* never release anything, tests only */
+ Py_TYPE(cd)->tp_free((PyObject *)cd);
+#endif
+}
+
+static void cdataowning_dealloc(CDataObject *cd)
+{
+ assert(!(cd->c_type->ct_flags & (CT_IS_VOID_PTR | CT_FUNCTIONPTR)));
+
+ if (cd->c_type->ct_flags & CT_IS_PTR_TO_OWNED) {
+ /* for ffi.new("struct *") */
+ Py_DECREF(((CDataObject_own_structptr *)cd)->structobj);
+ }
+#if defined(CFFI_MEM_DEBUG) || defined(CFFI_MEM_LEAK)
+ if (cd->c_type->ct_flags & (CT_PRIMITIVE_ANY | CT_STRUCT | CT_UNION)) {
+ assert(cd->c_type->ct_size >= 0);
+ memset(cd->c_data, 0xDD, cd->c_type->ct_size);
+ }
+ else if (cd->c_type->ct_flags & CT_ARRAY) {
+ Py_ssize_t x = get_array_length(cd);
+ assert(x >= 0);
+ x *= cd->c_type->ct_itemdescr->ct_size;
+ assert(x >= 0);
+ memset(cd->c_data, 0xDD, x);
+ }
+#endif
+ cdata_dealloc(cd);
+}
+
+static void cdataowninggc_dealloc(CDataObject *cd)
+{
+ PyObject_GC_UnTrack(cd);
+
+ if (cd->c_type->ct_flags & CT_IS_VOID_PTR) { /* a handle */
+ PyObject *x = ((CDataObject_own_structptr *)cd)->structobj;
+ Py_DECREF(x);
+ }
+ else if (cd->c_type->ct_flags & CT_FUNCTIONPTR) { /* a callback */
+ ffi_closure *closure = ((CDataObject_closure *)cd)->closure;
+ PyObject *args = (PyObject *)(closure->user_data);
+ Py_XDECREF(args);
+#if CFFI_CHECK_FFI_CLOSURE_ALLOC_MAYBE
+ if (CFFI_CHECK_FFI_CLOSURE_ALLOC) {
+ ffi_closure_free(closure);
+ } else
+#endif
+ cffi_closure_free(closure);
+ }
+ else {
+ Py_FatalError("cdata CDataOwningGC_Type with unexpected type flags");
+ }
+ cdata_dealloc(cd);
+}
+
+static void cdatafrombuf_dealloc(CDataObject *cd)
+{
+ Py_buffer *view = ((CDataObject_frombuf *)cd)->bufferview;
+ cdata_dealloc(cd);
+
+ PyBuffer_Release(view);
+ PyObject_Free(view);
+}
+
+static int cdataowninggc_traverse(CDataObject *cd, visitproc visit, void *arg)
+{
+ if (cd->c_type->ct_flags & CT_IS_VOID_PTR) { /* a handle */
+ PyObject *x = ((CDataObject_own_structptr *)cd)->structobj;
+ Py_VISIT(x);
+ }
+ else if (cd->c_type->ct_flags & CT_FUNCTIONPTR) { /* a callback */
+ ffi_closure *closure = ((CDataObject_closure *)cd)->closure;
+ PyObject *args = (PyObject *)(closure->user_data);
+ Py_VISIT(args);
+ }
+ return 0;
+}
+
+static int cdatafrombuf_traverse(CDataObject *cd, visitproc visit, void *arg)
+{
+ Py_buffer *view = ((CDataObject_frombuf *)cd)->bufferview;
+ Py_VISIT(view->obj);
+ return 0;
+}
+
+static int cdataowninggc_clear(CDataObject *cd)
+{
+ if (cd->c_type->ct_flags & CT_IS_VOID_PTR) { /* a handle */
+ CDataObject_own_structptr *cd1 = (CDataObject_own_structptr *)cd;
+ PyObject *x = cd1->structobj;
+ Py_INCREF(Py_None);
+ cd1->structobj = Py_None;
+ Py_DECREF(x);
+ }
+ else if (cd->c_type->ct_flags & CT_FUNCTIONPTR) { /* a callback */
+ ffi_closure *closure = ((CDataObject_closure *)cd)->closure;
+ PyObject *args = (PyObject *)(closure->user_data);
+ closure->user_data = NULL;
+ Py_XDECREF(args);
+ }
+ return 0;
+}
+
+static int cdatafrombuf_clear(CDataObject *cd)
+{
+ Py_buffer *view = ((CDataObject_frombuf *)cd)->bufferview;
+ PyBuffer_Release(view);
+ return 0;
+}
+
+/* forward */
+static void _my_PyErr_WriteUnraisable(PyObject *t, PyObject *v, PyObject *tb,
+ char *objdescr, PyObject *obj,
+ char *extra_error_line);
+
+
+static void gcp_finalize(PyObject *destructor, PyObject *origobj)
+{
+ /* NOTE: this decrements the reference count of the two arguments */
+
+ if (destructor != NULL) {
+ PyObject *result;
+ PyObject *error_type, *error_value, *error_traceback;
+
+ /* Save the current exception */
+ PyErr_Fetch(&error_type, &error_value, &error_traceback);
+
+ result = PyObject_CallFunctionObjArgs(destructor, origobj, NULL);
+ if (result != NULL) {
+ Py_DECREF(result);
+ }
+ else {
+ PyObject *t, *v, *tb;
+ PyErr_Fetch(&t, &v, &tb);
+ /* Don't use error capture here, because it is very much
+ * like errors at __del__(), and these ones are not captured
+ * either */
+ /* ecap = _cffi_start_error_capture(); */
+ _my_PyErr_WriteUnraisable(t, v, tb, "From callback for ffi.gc ",
+ origobj, NULL);
+ /* _cffi_stop_error_capture(ecap); */
+ }
+ Py_DECREF(destructor);
+
+ /* Restore the saved exception */
+ PyErr_Restore(error_type, error_value, error_traceback);
+ }
+ Py_XDECREF(origobj);
+}
+
+static void cdatagcp_finalize(CDataObject_gcp *cd)
+{
+ PyObject *destructor = cd->destructor;
+ PyObject *origobj = cd->origobj;
+ cd->destructor = NULL;
+ cd->origobj = NULL;
+ gcp_finalize(destructor, origobj);
+}
+
+static void cdatagcp_dealloc(CDataObject_gcp *cd)
+{
+ PyObject *destructor = cd->destructor;
+ PyObject *origobj = cd->origobj;
+ cdata_dealloc((CDataObject *)cd);
+
+ gcp_finalize(destructor, origobj);
+}
+
+static int cdatagcp_traverse(CDataObject_gcp *cd, visitproc visit, void *arg)
+{
+ Py_VISIT(cd->destructor);
+ Py_VISIT(cd->origobj);
+ return 0;
+}
+
+static PyObject *cdata_float(CDataObject *cd); /*forward*/
+
+static PyObject *convert_cdata_to_enum_string(CDataObject *cd, int both)
+{
+ PyObject *d_key, *d_value;
+ CTypeDescrObject *ct = cd->c_type;
+
+ assert(ct->ct_flags & CT_IS_ENUM);
+ d_key = convert_to_object(cd->c_data, ct);
+ if (d_key == NULL)
+ return NULL;
+
+ d_value = PyDict_GetItem(PyTuple_GET_ITEM(ct->ct_stuff, 1), d_key);
+ if (d_value != NULL) {
+ if (both) {
+ PyObject *o = PyObject_Str(d_key);
+ if (o == NULL)
+ d_value = NULL;
+ else {
+ d_value = PyText_FromFormat("%s: %s",
+ PyText_AS_UTF8(o),
+ PyText_AS_UTF8(d_value));
+ Py_DECREF(o);
+ }
+ }
+ else
+ Py_INCREF(d_value);
+ }
+ else
+ d_value = PyObject_Str(d_key);
+ Py_DECREF(d_key);
+ return d_value;
+}
+
+static PyObject *cdata_repr(CDataObject *cd)
+{
+ char *extra;
+ PyObject *result, *s;
+
+ if (cd->c_type->ct_flags & CT_PRIMITIVE_ANY) {
+ if (cd->c_type->ct_flags & CT_IS_ENUM) {
+ s = convert_cdata_to_enum_string(cd, 1);
+ }
+ else if (cd->c_type->ct_flags & CT_IS_LONGDOUBLE) {
+ long double lvalue;
+ char buffer[128]; /* big enough */
+ /*READ(cd->c_data, sizeof(long double)*/
+ lvalue = read_raw_longdouble_data(cd->c_data);
+ sprintf(buffer, "%LE", lvalue);
+ s = PyText_FromString(buffer);
+ }
+ else {
+ PyObject *o = convert_to_object(cd->c_data, cd->c_type);
+ if (o == NULL)
+ return NULL;
+ s = PyObject_Repr(o);
+ Py_DECREF(o);
+ }
+ }
+ else if ((cd->c_type->ct_flags & CT_ARRAY) && cd->c_type->ct_length < 0) {
+ s = PyText_FromFormat("sliced length %zd", get_array_length(cd));
+ }
+ else {
+ if (cd->c_data != NULL) {
+ s = PyText_FromFormat("%p", cd->c_data);
+ }
+ else
+ s = PyText_FromString("NULL");
+ }
+ if (s == NULL)
+ return NULL;
+ /* it's slightly confusing to get "<cdata 'struct foo' 0x...>" because the
+ struct foo is not owned. Trying to make it clearer, write in this
+ case "<cdata 'struct foo &' 0x...>". */
+ if (cd->c_type->ct_flags & (CT_STRUCT|CT_UNION))
+ extra = " &";
+ else
+ extra = "";
+ result = PyText_FromFormat("<cdata '%s%s' %s>",
+ cd->c_type->ct_name, extra,
+ PyText_AsUTF8(s));
+ Py_DECREF(s);
+ return result;
+}
+
+static PyObject *_cdata_repr2(CDataObject *cd, char *text, PyObject *x)
+{
+ PyObject *res, *s = PyObject_Repr(x);
+ if (s == NULL)
+ return NULL;
+ res = PyText_FromFormat("<cdata '%s' %s %s>",
+ cd->c_type->ct_name, text, PyText_AsUTF8(s));
+ Py_DECREF(s);
+ return res;
+}
+
+static Py_ssize_t _cdata_var_byte_size(CDataObject *cd)
+{
+ /* If 'cd' is a 'struct foo' or 'struct foo *' allocated with
+ ffi.new(), and if the struct foo contains a varsize array,
+ then return the real allocated size. Otherwise, return -1. */
+ if (!CDataOwn_Check(cd))
+ return -1;
+
+ if (cd->c_type->ct_flags & CT_IS_PTR_TO_OWNED) {
+ cd = (CDataObject *)((CDataObject_own_structptr *)cd)->structobj;
+ }
+ if (cd->c_type->ct_flags & CT_WITH_VAR_ARRAY) {
+ return ((CDataObject_own_length *)cd)->length;
+ }
+ return -1;
+}
+
+static PyObject *_frombuf_repr(CDataObject *cd, const char *cd_type_name)
+{
+ Py_buffer *view = ((CDataObject_frombuf *)cd)->bufferview;
+ const char *obj_tp_name;
+ if (view->obj == NULL) {
+ return PyText_FromFormat(
+ "<cdata '%s' buffer RELEASED>",
+ cd_type_name);
+ }
+
+ obj_tp_name = Py_TYPE(view->obj)->tp_name;
+ if (cd->c_type->ct_flags & CT_ARRAY)
+ {
+ Py_ssize_t buflen = get_array_length(cd);
+ return PyText_FromFormat(
+ "<cdata '%s' buffer len %zd from '%.200s' object>",
+ cd_type_name,
+ buflen,
+ obj_tp_name);
+ }
+ else
+ {
+ return PyText_FromFormat(
+ "<cdata '%s' buffer from '%.200s' object>",
+ cd_type_name,
+ obj_tp_name);
+ }
+}
+
+static Py_ssize_t cdataowning_size_bytes(CDataObject *cd)
+{
+ Py_ssize_t size = _cdata_var_byte_size(cd);
+ if (size < 0) {
+ if (cd->c_type->ct_flags & CT_POINTER)
+ size = cd->c_type->ct_itemdescr->ct_size;
+ else if (cd->c_type->ct_flags & CT_ARRAY)
+ size = get_array_length(cd) * cd->c_type->ct_itemdescr->ct_size;
+ else
+ size = cd->c_type->ct_size;
+ }
+ return size;
+}
+
+static PyObject *cdataowning_repr(CDataObject *cd)
+{
+ Py_ssize_t size = cdataowning_size_bytes(cd);
+ return PyText_FromFormat("<cdata '%s' owning %zd bytes>",
+ cd->c_type->ct_name, size);
+}
+
+static PyObject *cdataowninggc_repr(CDataObject *cd)
+{
+ if (cd->c_type->ct_flags & CT_IS_VOID_PTR) { /* a handle */
+ PyObject *x = ((CDataObject_own_structptr *)cd)->structobj;
+ return _cdata_repr2(cd, "handle to", x);
+ }
+ else if (cd->c_type->ct_flags & CT_FUNCTIONPTR) { /* a callback */
+ ffi_closure *closure = ((CDataObject_closure *)cd)->closure;
+ PyObject *args = (PyObject *)closure->user_data;
+ if (args == NULL)
+ return cdata_repr(cd);
+ else
+ return _cdata_repr2(cd, "calling", PyTuple_GET_ITEM(args, 1));
+ }
+ return cdataowning_repr(cd); /* but should be unreachable */
+}
+
+static PyObject *cdatafrombuf_repr(CDataObject *cd)
+{
+ return _frombuf_repr(cd, cd->c_type->ct_name);
+}
+
+static int cdata_nonzero(CDataObject *cd)
+{
+ if (cd->c_type->ct_flags & CT_PRIMITIVE_ANY) {
+ if (cd->c_type->ct_flags & (CT_PRIMITIVE_SIGNED |
+ CT_PRIMITIVE_UNSIGNED |
+ CT_PRIMITIVE_CHAR))
+ return read_raw_unsigned_data(cd->c_data, cd->c_type->ct_size) != 0;
+
+ if (cd->c_type->ct_flags & CT_PRIMITIVE_FLOAT) {
+ if (cd->c_type->ct_flags & CT_IS_LONGDOUBLE)
+ return read_raw_longdouble_data(cd->c_data) != 0.0;
+ return read_raw_float_data(cd->c_data, cd->c_type->ct_size) != 0.0;
+ }
+ if (cd->c_type->ct_flags & CT_PRIMITIVE_COMPLEX) {
+ Py_complex value = read_raw_complex_data(cd->c_data,
+ cd->c_type->ct_size);
+ return value.real != 0.0 || value.imag != 0.0;
+ }
+ }
+ return cd->c_data != NULL;
+}
+
+static PyObject *cdata_int(CDataObject *cd)
+{
+ if ((cd->c_type->ct_flags & (CT_PRIMITIVE_SIGNED|CT_PRIMITIVE_FITS_LONG))
+ == (CT_PRIMITIVE_SIGNED|CT_PRIMITIVE_FITS_LONG)) {
+ /* this case is to handle enums, but also serves as a slight
+ performance improvement for some other primitive types */
+ long value;
+ /*READ(cd->c_data, cd->c_type->ct_size)*/
+ value = (long)read_raw_signed_data(cd->c_data, cd->c_type->ct_size);
+ return PyInt_FromLong(value);
+ }
+ if (cd->c_type->ct_flags & (CT_PRIMITIVE_SIGNED|CT_PRIMITIVE_UNSIGNED)) {
+ PyObject *result = convert_to_object(cd->c_data, cd->c_type);
+ if (result != NULL && PyBool_Check(result))
+ result = PyInt_FromLong(PyInt_AsLong(result));
+ return result;
+ }
+ else if (cd->c_type->ct_flags & CT_PRIMITIVE_CHAR) {
+ /*READ(cd->c_data, cd->c_type->ct_size)*/
+ switch (cd->c_type->ct_size) {
+ case sizeof(char):
+ return PyInt_FromLong((unsigned char)cd->c_data[0]);
+ case 2:
+ return PyInt_FromLong((long)*(cffi_char16_t *)cd->c_data);
+ case 4:
+ if (cd->c_type->ct_flags & CT_IS_SIGNED_WCHAR)
+ return PyInt_FromLong((long)*(int32_t *)cd->c_data);
+ else if (sizeof(long) > 4)
+ return PyInt_FromLong(*(uint32_t *)cd->c_data);
+ else
+ return PyLong_FromUnsignedLong(*(uint32_t *)cd->c_data);
+ }
+ }
+ else if (cd->c_type->ct_flags & CT_PRIMITIVE_FLOAT) {
+ PyObject *o = cdata_float(cd);
+#if PY_MAJOR_VERSION < 3
+ PyObject *r = o ? PyNumber_Int(o) : NULL;
+#else
+ PyObject *r = o ? PyNumber_Long(o) : NULL;
+#endif
+ Py_XDECREF(o);
+ return r;
+ }
+ PyErr_Format(PyExc_TypeError, "int() not supported on cdata '%s'",
+ cd->c_type->ct_name);
+ return NULL;
+}
+
+#if PY_MAJOR_VERSION < 3
+static PyObject *cdata_long(CDataObject *cd)
+{
+ PyObject *res = cdata_int(cd);
+ if (res != NULL && PyInt_CheckExact(res)) {
+ PyObject *o = PyLong_FromLong(PyInt_AS_LONG(res));
+ Py_DECREF(res);
+ res = o;
+ }
+ return res;
+}
+#endif
+
+static PyObject *cdata_float(CDataObject *cd)
+{
+ if (cd->c_type->ct_flags & CT_PRIMITIVE_FLOAT) {
+ double value;
+ /*READ(cd->c_data, cd->c_type->ct_size)*/
+ if (!(cd->c_type->ct_flags & CT_IS_LONGDOUBLE)) {
+ value = read_raw_float_data(cd->c_data, cd->c_type->ct_size);
+ }
+ else {
+ value = (double)read_raw_longdouble_data(cd->c_data);
+ }
+ return PyFloat_FromDouble(value);
+ }
+ PyErr_Format(PyExc_TypeError, "float() not supported on cdata '%s'",
+ cd->c_type->ct_name);
+ return NULL;
+}
+
+static PyObject *cdata_richcompare(PyObject *v, PyObject *w, int op)
+{
+ int v_is_ptr, w_is_ptr;
+ PyObject *pyres;
+
+ assert(CData_Check(v));
+
+ /* Comparisons involving a primitive cdata work differently than
+ * comparisons involving a struct/array/pointer.
+ *
+ * If v or w is a struct/array/pointer, then the other must be too
+ * (otherwise we return NotImplemented and leave the case to
+ * Python). If both are, then we compare the addresses.
+ *
+ * If v and/or w is a primitive cdata, then we convert the cdata(s)
+ * to regular Python objects and redo the comparison there.
+ */
+
+ v_is_ptr = !(((CDataObject *)v)->c_type->ct_flags & CT_PRIMITIVE_ANY);
+ w_is_ptr = CData_Check(w) &&
+ !(((CDataObject *)w)->c_type->ct_flags & CT_PRIMITIVE_ANY);
+
+ if (v_is_ptr && w_is_ptr) {
+ int res;
+ char *v_cdata = ((CDataObject *)v)->c_data;
+ char *w_cdata = ((CDataObject *)w)->c_data;
+
+ switch (op) {
+ case Py_EQ: res = (v_cdata == w_cdata); break;
+ case Py_NE: res = (v_cdata != w_cdata); break;
+ case Py_LT: res = (v_cdata < w_cdata); break;
+ case Py_LE: res = (v_cdata <= w_cdata); break;
+ case Py_GT: res = (v_cdata > w_cdata); break;
+ case Py_GE: res = (v_cdata >= w_cdata); break;
+ default: res = -1;
+ }
+ pyres = res ? Py_True : Py_False;
+ }
+ else if (v_is_ptr || w_is_ptr) {
+ pyres = Py_NotImplemented;
+ }
+ else {
+ PyObject *aa[2];
+ int i;
+
+ aa[0] = v; Py_INCREF(v);
+ aa[1] = w; Py_INCREF(w);
+ pyres = NULL;
+
+ for (i = 0; i < 2; i++) {
+ v = aa[i];
+ if (!CData_Check(v))
+ continue;
+ w = convert_to_object(((CDataObject *)v)->c_data,
+ ((CDataObject *)v)->c_type);
+ if (w == NULL)
+ goto error;
+ if (CData_Check(w)) {
+ Py_DECREF(w);
+ PyErr_Format(PyExc_NotImplementedError,
+ "cannot use <cdata '%s'> in a comparison",
+ ((CDataObject *)v)->c_type->ct_name);
+ goto error;
+ }
+ aa[i] = w;
+ Py_DECREF(v);
+ }
+ pyres = PyObject_RichCompare(aa[0], aa[1], op);
+ error:
+ Py_DECREF(aa[1]);
+ Py_DECREF(aa[0]);
+ return pyres;
+ }
+
+ Py_INCREF(pyres);
+ return pyres;
+}
+
+#if PY_MAJOR_VERSION < 3
+typedef long Py_hash_t;
+#endif
+
+static Py_hash_t cdata_hash(PyObject *v)
+{
+ if (((CDataObject *)v)->c_type->ct_flags & CT_PRIMITIVE_ANY) {
+ PyObject *vv = convert_to_object(((CDataObject *)v)->c_data,
+ ((CDataObject *)v)->c_type);
+ if (vv == NULL)
+ return -1;
+ if (!CData_Check(vv)) {
+ Py_hash_t hash = PyObject_Hash(vv);
+ Py_DECREF(vv);
+ return hash;
+ }
+ Py_DECREF(vv);
+ }
+ return _Py_HashPointer(((CDataObject *)v)->c_data);
+}
+
+static Py_ssize_t
+cdata_length(CDataObject *cd)
+{
+ if (cd->c_type->ct_flags & CT_ARRAY) {
+ return get_array_length(cd);
+ }
+ PyErr_Format(PyExc_TypeError, "cdata of type '%s' has no len()",
+ cd->c_type->ct_name);
+ return -1;
+}
+
+static char *
+_cdata_get_indexed_ptr(CDataObject *cd, PyObject *key)
+{
+ Py_ssize_t i = PyNumber_AsSsize_t(key, PyExc_IndexError);
+ if (i == -1 && PyErr_Occurred())
+ return NULL;
+
+ if (cd->c_type->ct_flags & CT_POINTER) {
+ if (CDataOwn_Check(cd)) {
+ if (i != 0) {
+ PyErr_Format(PyExc_IndexError,
+ "cdata '%s' can only be indexed by 0",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+ }
+ else {
+ if (cd->c_data == NULL) {
+ PyErr_Format(PyExc_RuntimeError,
+ "cannot dereference null pointer from cdata '%s'",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+ }
+ }
+ else if (cd->c_type->ct_flags & CT_ARRAY) {
+ if (i < 0) {
+ PyErr_SetString(PyExc_IndexError,
+ "negative index");
+ return NULL;
+ }
+ if (i >= get_array_length(cd)) {
+ PyErr_Format(PyExc_IndexError,
+ "index too large for cdata '%s' (expected %zd < %zd)",
+ cd->c_type->ct_name,
+ i, get_array_length(cd));
+ return NULL;
+ }
+ }
+ else {
+ PyErr_Format(PyExc_TypeError, "cdata of type '%s' cannot be indexed",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+ return cd->c_data + i * cd->c_type->ct_itemdescr->ct_size;
+}
+
+static PyObject *
+new_array_type(CTypeDescrObject *ctptr, Py_ssize_t length); /* forward */
+
+static CTypeDescrObject *
+_cdata_getslicearg(CDataObject *cd, PySliceObject *slice, Py_ssize_t bounds[])
+{
+ Py_ssize_t start, stop;
+ CTypeDescrObject *ct;
+
+ start = PyInt_AsSsize_t(slice->start);
+ if (start == -1 && PyErr_Occurred()) {
+ if (slice->start == Py_None)
+ PyErr_SetString(PyExc_IndexError, "slice start must be specified");
+ return NULL;
+ }
+ stop = PyInt_AsSsize_t(slice->stop);
+ if (stop == -1 && PyErr_Occurred()) {
+ if (slice->stop == Py_None)
+ PyErr_SetString(PyExc_IndexError, "slice stop must be specified");
+ return NULL;
+ }
+ if (slice->step != Py_None) {
+ PyErr_SetString(PyExc_IndexError, "slice with step not supported");
+ return NULL;
+ }
+ if (start > stop) {
+ PyErr_SetString(PyExc_IndexError, "slice start > stop");
+ return NULL;
+ }
+
+ ct = cd->c_type;
+ if (ct->ct_flags & CT_ARRAY) {
+ if (start < 0) {
+ PyErr_SetString(PyExc_IndexError,
+ "negative index");
+ return NULL;
+ }
+ if (stop > get_array_length(cd)) {
+ PyErr_Format(PyExc_IndexError,
+ "index too large (expected %zd <= %zd)",
+ stop, get_array_length(cd));
+ return NULL;
+ }
+ ct = (CTypeDescrObject *)ct->ct_stuff;
+ }
+ else if (!(ct->ct_flags & CT_POINTER)) {
+ PyErr_Format(PyExc_TypeError, "cdata of type '%s' cannot be indexed",
+ ct->ct_name);
+ return NULL;
+ }
+
+ bounds[0] = start;
+ bounds[1] = stop - start;
+ return ct;
+}
+
+static PyObject *
+cdata_slice(CDataObject *cd, PySliceObject *slice)
+{
+ char *cdata;
+ Py_ssize_t bounds[2];
+ CTypeDescrObject *ct = _cdata_getslicearg(cd, slice, bounds);
+ if (ct == NULL)
+ return NULL;
+
+ if (ct->ct_stuff == NULL) {
+ ct->ct_stuff = new_array_type(ct, -1);
+ if (ct->ct_stuff == NULL)
+ return NULL;
+ }
+ ct = (CTypeDescrObject *)ct->ct_stuff;
+
+ cdata = cd->c_data + ct->ct_itemdescr->ct_size * bounds[0];
+ return new_sized_cdata(cdata, ct, bounds[1]);
+}
+
+static int
+cdata_ass_slice(CDataObject *cd, PySliceObject *slice, PyObject *v)
+{
+ Py_ssize_t bounds[2], i, length, itemsize;
+ PyObject *it, *item;
+ PyObject *(*iternext)(PyObject *);
+ char *cdata;
+ int err;
+ CTypeDescrObject *ct = _cdata_getslicearg(cd, slice, bounds);
+ if (ct == NULL)
+ return -1;
+ ct = ct->ct_itemdescr;
+ itemsize = ct->ct_size;
+ cdata = cd->c_data + itemsize * bounds[0];
+ length = bounds[1];
+
+ if (CData_Check(v)) {
+ CTypeDescrObject *ctv = ((CDataObject *)v)->c_type;
+ if ((ctv->ct_flags & CT_ARRAY) && (ctv->ct_itemdescr == ct) &&
+ (get_array_length((CDataObject *)v) == length)) {
+ /* fast path: copying from exactly the correct type */
+ memmove(cdata, ((CDataObject *)v)->c_data, itemsize * length);
+ return 0;
+ }
+ }
+
+ /* A fast path for <char[]>[0:N] = b"somestring" or bytearray, which
+ also adds support for Python 3: otherwise, you get integers while
+ enumerating the string, and you can't set them to characters :-/
+ */
+ if ((ct->ct_flags & CT_PRIMITIVE_CHAR) && itemsize == sizeof(char)) {
+ char *src;
+ Py_ssize_t srclen;
+ if (PyBytes_Check(v)) {
+ srclen = PyBytes_GET_SIZE(v);
+ src = PyBytes_AS_STRING(v);
+ }
+ else if (PyByteArray_Check(v)) {
+ srclen = PyByteArray_GET_SIZE(v);
+ src = PyByteArray_AS_STRING(v);
+ }
+ else
+ goto other_types;
+
+ if (srclen != length) {
+ PyErr_Format(PyExc_ValueError,
+ "need a string of length %zd, got %zd",
+ length, srclen);
+ return -1;
+ }
+ memcpy(cdata, src, length);
+ return 0;
+ }
+ other_types:
+
+ it = PyObject_GetIter(v);
+ if (it == NULL)
+ return -1;
+ iternext = *it->ob_type->tp_iternext;
+
+ for (i = 0; i < length; i++) {
+ item = iternext(it);
+ if (item == NULL) {
+ if (!PyErr_Occurred())
+ PyErr_Format(PyExc_ValueError,
+ "need %zd values to unpack, got %zd",
+ length, i);
+ goto error;
+ }
+ err = convert_from_object(cdata, ct, item);
+ Py_DECREF(item);
+ if (err < 0)
+ goto error;
+
+ cdata += itemsize;
+ }
+ item = iternext(it);
+ if (item != NULL) {
+ Py_DECREF(item);
+ PyErr_Format(PyExc_ValueError,
+ "got more than %zd values to unpack", length);
+ }
+ error:
+ Py_DECREF(it);
+ return PyErr_Occurred() ? -1 : 0;
+}
+
+static PyObject *
+cdataowning_subscript(CDataObject *cd, PyObject *key)
+{
+ char *c;
+ if (PySlice_Check(key))
+ return cdata_slice(cd, (PySliceObject *)key);
+
+ c = _cdata_get_indexed_ptr(cd, key);
+ /* use 'mp_subscript' instead of 'sq_item' because we don't want
+ negative indexes to be corrected automatically */
+ if (c == NULL && PyErr_Occurred())
+ return NULL;
+
+ if (cd->c_type->ct_flags & CT_IS_PTR_TO_OWNED) {
+ PyObject *res = ((CDataObject_own_structptr *)cd)->structobj;
+ Py_INCREF(res);
+ return res;
+ }
+ else {
+ return convert_to_object(c, cd->c_type->ct_itemdescr);
+ }
+}
+
+static PyObject *
+cdata_subscript(CDataObject *cd, PyObject *key)
+{
+ char *c;
+ if (PySlice_Check(key))
+ return cdata_slice(cd, (PySliceObject *)key);
+
+ c = _cdata_get_indexed_ptr(cd, key);
+ /* use 'mp_subscript' instead of 'sq_item' because we don't want
+ negative indexes to be corrected automatically */
+ if (c == NULL && PyErr_Occurred())
+ return NULL;
+ return convert_to_object(c, cd->c_type->ct_itemdescr);
+}
+
+static int
+cdata_ass_sub(CDataObject *cd, PyObject *key, PyObject *v)
+{
+ char *c;
+ CTypeDescrObject *ctitem;
+ if (PySlice_Check(key))
+ return cdata_ass_slice(cd, (PySliceObject *)key, v);
+
+ c = _cdata_get_indexed_ptr(cd, key);
+ ctitem = cd->c_type->ct_itemdescr;
+ /* use 'mp_ass_subscript' instead of 'sq_ass_item' because we don't want
+ negative indexes to be corrected automatically */
+ if (c == NULL && PyErr_Occurred())
+ return -1;
+ if (v == NULL) {
+ PyErr_SetString(PyExc_TypeError,
+ "'del x[n]' not supported for cdata objects");
+ return -1;
+ }
+ return convert_from_object(c, ctitem, v);
+}
+
+static PyObject *
+_cdata_add_or_sub(PyObject *v, PyObject *w, int sign)
+{
+ Py_ssize_t i, itemsize;
+ CDataObject *cd;
+ CTypeDescrObject *ctptr;
+
+ if (!CData_Check(v)) {
+ PyObject *swap;
+ assert(CData_Check(w));
+ if (sign != 1)
+ goto not_implemented;
+ swap = v;
+ v = w;
+ w = swap;
+ }
+
+ i = PyNumber_AsSsize_t(w, PyExc_OverflowError);
+ if (i == -1 && PyErr_Occurred())
+ return NULL;
+ i *= sign;
+
+ cd = (CDataObject *)v;
+ if (cd->c_type->ct_flags & CT_POINTER)
+ ctptr = cd->c_type;
+ else if (cd->c_type->ct_flags & CT_ARRAY) {
+ ctptr = (CTypeDescrObject *)cd->c_type->ct_stuff;
+ }
+ else {
+ PyErr_Format(PyExc_TypeError, "cannot add a cdata '%s' and a number",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+ itemsize = ctptr->ct_itemdescr->ct_size;
+ if (itemsize < 0) {
+ if (ctptr->ct_flags & CT_IS_VOID_PTR) {
+ itemsize = 1;
+ }
+ else {
+ PyErr_Format(PyExc_TypeError,
+ "ctype '%s' points to items of unknown size",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+ }
+ return new_simple_cdata(cd->c_data + i * itemsize, ctptr);
+
+ not_implemented:
+ Py_INCREF(Py_NotImplemented);
+ return Py_NotImplemented;
+}
+
+static PyObject *
+cdata_add(PyObject *v, PyObject *w)
+{
+ return _cdata_add_or_sub(v, w, +1);
+}
+
+static PyObject *
+cdata_sub(PyObject *v, PyObject *w)
+{
+ if (CData_Check(v) && CData_Check(w)) {
+ CDataObject *cdv = (CDataObject *)v;
+ CDataObject *cdw = (CDataObject *)w;
+ CTypeDescrObject *ct = cdw->c_type;
+ Py_ssize_t diff, itemsize;
+
+ if (ct->ct_flags & CT_ARRAY) /* ptr_to_T - array_of_T: ok */
+ ct = (CTypeDescrObject *)ct->ct_stuff;
+
+ if (ct != cdv->c_type || !(ct->ct_flags & CT_POINTER) ||
+ (ct->ct_itemdescr->ct_size <= 0 &&
+ !(ct->ct_flags & CT_IS_VOID_PTR))) {
+ PyErr_Format(PyExc_TypeError,
+ "cannot subtract cdata '%s' and cdata '%s'",
+ cdv->c_type->ct_name, ct->ct_name);
+ return NULL;
+ }
+ itemsize = ct->ct_itemdescr->ct_size;
+ diff = cdv->c_data - cdw->c_data;
+ if (itemsize > 1) {
+ if (diff % itemsize) {
+ PyErr_SetString(PyExc_ValueError,
+ "pointer subtraction: the distance between the two "
+ "pointers is not a multiple of the item size");
+ return NULL;
+ }
+ diff = diff / itemsize;
+ }
+#if PY_MAJOR_VERSION < 3
+ return PyInt_FromSsize_t(diff);
+#else
+ return PyLong_FromSsize_t(diff);
+#endif
+ }
+
+ return _cdata_add_or_sub(v, w, -1);
+}
+
+static void
+_cdata_attr_errmsg(char *errmsg, CDataObject *cd, PyObject *attr)
+{
+ const char *text;
+ if (!PyErr_ExceptionMatches(PyExc_AttributeError))
+ return;
+ PyErr_Clear();
+ text = PyText_AsUTF8(attr);
+ if (text == NULL)
+ return;
+ PyErr_Format(PyExc_AttributeError, errmsg, cd->c_type->ct_name, text);
+}
+
+static PyObject *
+cdata_getattro(CDataObject *cd, PyObject *attr)
+{
+ CFieldObject *cf;
+ CTypeDescrObject *ct = cd->c_type;
+ char *errmsg = "cdata '%s' has no attribute '%s'";
+ PyObject *x;
+
+ if (ct->ct_flags & CT_POINTER)
+ ct = ct->ct_itemdescr;
+
+ if (ct->ct_flags & (CT_STRUCT|CT_UNION)) {
+ switch (force_lazy_struct(ct)) {
+ case 1:
+ cf = (CFieldObject *)PyDict_GetItem(ct->ct_stuff, attr);
+ if (cf != NULL) {
+ /* read the field 'cf' */
+ char *data = cd->c_data + cf->cf_offset;
+ Py_ssize_t array_len, size;
+
+ if (cf->cf_bitshift == BS_REGULAR) {
+ return convert_to_object(data, cf->cf_type);
+ }
+ else if (cf->cf_bitshift != BS_EMPTY_ARRAY) {
+ return convert_to_object_bitfield(data, cf);
+ }
+
+ /* variable-length array: */
+ /* if reading variable length array from variable length
+ struct, calculate array type from allocated length */
+ size = _cdata_var_byte_size(cd) - cf->cf_offset;
+ if (size >= 0) {
+ array_len = size / cf->cf_type->ct_itemdescr->ct_size;
+ return new_sized_cdata(data, cf->cf_type, array_len);
+ }
+ return new_simple_cdata(data,
+ (CTypeDescrObject *)cf->cf_type->ct_stuff);
+ }
+ errmsg = "cdata '%s' has no field '%s'";
+ break;
+ case -1:
+ return NULL;
+ default:
+ errmsg = "cdata '%s' points to an opaque type: cannot read fields";
+ break;
+ }
+ }
+ x = PyObject_GenericGetAttr((PyObject *)cd, attr);
+ if (x == NULL)
+ _cdata_attr_errmsg(errmsg, cd, attr);
+ return x;
+}
+
+static int
+cdata_setattro(CDataObject *cd, PyObject *attr, PyObject *value)
+{
+ CFieldObject *cf;
+ CTypeDescrObject *ct = cd->c_type;
+ char *errmsg = "cdata '%s' has no attribute '%s'";
+ int x;
+
+ if (ct->ct_flags & CT_POINTER)
+ ct = ct->ct_itemdescr;
+
+ if (ct->ct_flags & (CT_STRUCT|CT_UNION)) {
+ switch (force_lazy_struct(ct)) {
+ case 1:
+ cf = (CFieldObject *)PyDict_GetItem(ct->ct_stuff, attr);
+ if (cf != NULL) {
+ /* write the field 'cf' */
+ if (value != NULL) {
+ return convert_field_from_object(cd->c_data, cf, value);
+ }
+ else {
+ PyErr_SetString(PyExc_AttributeError,
+ "cannot delete struct field");
+ return -1;
+ }
+ }
+ errmsg = "cdata '%s' has no field '%s'";
+ break;
+ case -1:
+ return -1;
+ default:
+ errmsg = "cdata '%s' points to an opaque type: cannot write fields";
+ break;
+ }
+ }
+ x = PyObject_GenericSetAttr((PyObject *)cd, attr, value);
+ if (x < 0)
+ _cdata_attr_errmsg(errmsg, cd, attr);
+ return x;
+}
+
+static PyObject *
+convert_struct_to_owning_object(char *data, CTypeDescrObject *ct); /*forward*/
+
+static cif_description_t *
+fb_prepare_cif(PyObject *fargs, CTypeDescrObject *, Py_ssize_t, ffi_abi);
+ /*forward*/
+
+static PyObject *new_primitive_type(const char *name); /*forward*/
+
+static CTypeDescrObject *_get_ct_int(void)
+{
+ static CTypeDescrObject *ct_int = NULL;
+ if (ct_int == NULL) {
+ ct_int = (CTypeDescrObject *)new_primitive_type("int");
+ }
+ return ct_int;
+}
+
+static Py_ssize_t
+_prepare_pointer_call_argument(CTypeDescrObject *ctptr, PyObject *init,
+ char **output_data)
+{
+ /* 'ctptr' is here a pointer type 'ITEM *'. Accept as argument an
+ initializer for an array 'ITEM[]'. This includes the case of
+ passing a Python byte string to a 'char *' argument.
+
+ This function returns -1 if an error occurred,
+ 0 if conversion succeeded (into *output_data),
+ or N > 0 if conversion would require N bytes of storage.
+ */
+ Py_ssize_t length, datasize;
+ CTypeDescrObject *ctitem;
+
+ if (CData_Check(init))
+ goto convert_default;
+
+ ctitem = ctptr->ct_itemdescr;
+ /* XXX some code duplication, how to avoid it? */
+ if (PyBytes_Check(init)) {
+ /* from a string: just returning the string here is fine.
+ We assume that the C code won't modify the 'char *' data. */
+ if ((ctptr->ct_flags & CT_IS_VOIDCHAR_PTR) ||
+ ((ctitem->ct_flags & (CT_PRIMITIVE_SIGNED|CT_PRIMITIVE_UNSIGNED))
+ && (ctitem->ct_size == sizeof(char)))) {
+#if defined(CFFI_MEM_DEBUG) || defined(CFFI_MEM_LEAK)
+ length = PyBytes_GET_SIZE(init) + 1;
+#else
+ *output_data = PyBytes_AS_STRING(init);
+ if (ctitem->ct_flags & CT_IS_BOOL)
+ if (must_be_array_of_zero_or_one(*output_data,
+ PyBytes_GET_SIZE(init)) < 0)
+ return -1;
+ return 0;
+#endif
+ }
+ else
+ goto convert_default;
+ }
+ else if (PyList_Check(init) || PyTuple_Check(init)) {
+ length = PySequence_Fast_GET_SIZE(init);
+ }
+ else if (PyUnicode_Check(init)) {
+ /* from a unicode, we add the null terminator */
+ if (ctitem->ct_size == 2)
+ length = _my_PyUnicode_SizeAsChar16(init);
+ else
+ length = _my_PyUnicode_SizeAsChar32(init);
+ length += 1;
+ }
+ else if ((ctitem->ct_flags & CT_IS_FILE) && PyFile_Check(init)) {
+ *output_data = (char *)PyFile_AsFile(init);
+ if (*output_data == NULL && PyErr_Occurred())
+ return -1;
+ return 0;
+ }
+ else {
+ /* refuse to receive just an integer (and interpret it
+ as the array size) */
+ goto convert_default;
+ }
+
+ if (ctitem->ct_size <= 0)
+ goto convert_default;
+ datasize = MUL_WRAPAROUND(length, ctitem->ct_size);
+ if ((datasize / ctitem->ct_size) != length) {
+ PyErr_SetString(PyExc_OverflowError,
+ "array size would overflow a Py_ssize_t");
+ return -1;
+ }
+ if (datasize <= 0)
+ datasize = 1;
+ return datasize;
+
+ convert_default:
+ return convert_from_object((char *)output_data, ctptr, init);
+}
+
+static PyObject*
+cdata_call(CDataObject *cd, PyObject *args, PyObject *kwds)
+{
+ char *buffer;
+ void** buffer_array;
+ cif_description_t *cif_descr;
+ Py_ssize_t i, nargs, nargs_declared;
+ PyObject *signature, *res = NULL, *fvarargs;
+ CTypeDescrObject *fresult;
+ char *resultdata;
+ char *errormsg;
+ struct freeme_s {
+ struct freeme_s *next;
+ union_alignment alignment;
+ } *freeme = NULL;
+
+ if (!(cd->c_type->ct_flags & CT_FUNCTIONPTR)) {
+ PyErr_Format(PyExc_TypeError, "cdata '%s' is not callable",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+ if (cd->c_data == NULL) {
+ PyErr_Format(PyExc_RuntimeError,
+ "cannot call null pointer pointer from cdata '%s'",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+ if (kwds != NULL && PyDict_Size(kwds) != 0) {
+ PyErr_SetString(PyExc_TypeError,
+ "a cdata function cannot be called with keyword arguments");
+ return NULL;
+ }
+ signature = cd->c_type->ct_stuff;
+ nargs = PyTuple_Size(args);
+ if (nargs < 0)
+ return NULL;
+ nargs_declared = PyTuple_GET_SIZE(signature) - 2;
+ fresult = (CTypeDescrObject *)PyTuple_GET_ITEM(signature, 1);
+ fvarargs = NULL;
+ buffer = NULL;
+
+ cif_descr = (cif_description_t *)cd->c_type->ct_extra;
+
+ if (cif_descr != NULL) {
+ /* regular case: this function does not take '...' arguments */
+ if (nargs != nargs_declared) {
+ errormsg = "'%s' expects %zd arguments, got %zd";
+ bad_number_of_arguments:
+ PyErr_Format(PyExc_TypeError, errormsg,
+ cd->c_type->ct_name, nargs_declared, nargs);
+ goto error;
+ }
+ }
+ else {
+ /* call of a variadic function */
+ ffi_abi fabi;
+ if (nargs < nargs_declared) {
+ errormsg = "'%s' expects at least %zd arguments, got %zd";
+ goto bad_number_of_arguments;
+ }
+ fvarargs = PyTuple_New(nargs);
+ if (fvarargs == NULL)
+ goto error;
+ for (i = 0; i < nargs_declared; i++) {
+ PyObject *o = PyTuple_GET_ITEM(signature, 2 + i);
+ Py_INCREF(o);
+ PyTuple_SET_ITEM(fvarargs, i, o);
+ }
+ for (i = nargs_declared; i < nargs; i++) {
+ PyObject *obj = PyTuple_GET_ITEM(args, i);
+ CTypeDescrObject *ct;
+
+ if (CData_Check(obj)) {
+ ct = ((CDataObject *)obj)->c_type;
+ if (ct->ct_flags & (CT_PRIMITIVE_CHAR | CT_PRIMITIVE_UNSIGNED |
+ CT_PRIMITIVE_SIGNED)) {
+ if (ct->ct_size < (Py_ssize_t)sizeof(int)) {
+ ct = _get_ct_int();
+ if (ct == NULL)
+ goto error;
+ }
+ }
+ else if (ct->ct_flags & CT_ARRAY) {
+ ct = (CTypeDescrObject *)ct->ct_stuff;
+ }
+ Py_INCREF(ct);
+ }
+ else {
+ PyErr_Format(PyExc_TypeError,
+ "argument %zd passed in the variadic part "
+ "needs to be a cdata object (got %.200s)",
+ i + 1, Py_TYPE(obj)->tp_name);
+ goto error;
+ }
+ PyTuple_SET_ITEM(fvarargs, i, (PyObject *)ct);
+ }
+#if PY_MAJOR_VERSION < 3
+ fabi = PyInt_AS_LONG(PyTuple_GET_ITEM(signature, 0));
+#else
+ fabi = PyLong_AS_LONG(PyTuple_GET_ITEM(signature, 0));
+#endif
+ cif_descr = fb_prepare_cif(fvarargs, fresult, nargs_declared, fabi);
+ if (cif_descr == NULL)
+ goto error;
+ }
+
+ buffer = PyObject_Malloc(cif_descr->exchange_size);
+ if (buffer == NULL) {
+ PyErr_NoMemory();
+ goto error;
+ }
+
+ buffer_array = (void **)buffer;
+
+ for (i=0; i<nargs; i++) {
+ CTypeDescrObject *argtype;
+ char *data = buffer + cif_descr->exchange_offset_arg[1 + i];
+ PyObject *obj = PyTuple_GET_ITEM(args, i);
+
+ buffer_array[i] = data;
+
+ if (i < nargs_declared)
+ argtype = (CTypeDescrObject *)PyTuple_GET_ITEM(signature, 2 + i);
+ else
+ argtype = (CTypeDescrObject *)PyTuple_GET_ITEM(fvarargs, i);
+
+ if (argtype->ct_flags & CT_POINTER) {
+ char *tmpbuf;
+ Py_ssize_t datasize = _prepare_pointer_call_argument(
+ argtype, obj, (char **)data);
+ if (datasize == 0)
+ ; /* successfully filled '*data' */
+ else if (datasize < 0)
+ goto error;
+ else {
+ if (datasize <= 512) {
+ tmpbuf = alloca(datasize);
+ }
+ else {
+ struct freeme_s *fp = (struct freeme_s *)PyObject_Malloc(
+ offsetof(struct freeme_s, alignment) +
+ (size_t)datasize);
+ if (fp == NULL) {
+ PyErr_NoMemory();
+ goto error;
+ }
+ fp->next = freeme;
+ freeme = fp;
+ tmpbuf = (char *)&fp->alignment;
+ }
+ memset(tmpbuf, 0, datasize);
+ *(char **)data = tmpbuf;
+ if (convert_array_from_object(tmpbuf, argtype, obj) < 0)
+ goto error;
+ }
+ }
+ else if (convert_from_object(data, argtype, obj) < 0)
+ goto error;
+ }
+
+ resultdata = buffer + cif_descr->exchange_offset_arg[0];
+ /*READ(cd->c_data, sizeof(void(*)(void)))*/
+
+ Py_BEGIN_ALLOW_THREADS
+ restore_errno();
+ ffi_call(&cif_descr->cif, (void (*)(void))(cd->c_data),
+ resultdata, buffer_array);
+ save_errno();
+ Py_END_ALLOW_THREADS
+
+ if (fresult->ct_flags & (CT_PRIMITIVE_CHAR | CT_PRIMITIVE_SIGNED |
+ CT_PRIMITIVE_UNSIGNED)) {
+#ifdef WORDS_BIGENDIAN
+ /* For results of precisely these types, libffi has a strange
+ rule that they will be returned as a whole 'ffi_arg' if they
+ are smaller. The difference only matters on big-endian. */
+ if (fresult->ct_size < sizeof(ffi_arg))
+ resultdata += (sizeof(ffi_arg) - fresult->ct_size);
+#endif
+ res = convert_to_object(resultdata, fresult);
+ }
+ else if (fresult->ct_flags & CT_VOID) {
+ res = Py_None;
+ Py_INCREF(res);
+ }
+ else if (fresult->ct_flags & CT_STRUCT) {
+ res = convert_struct_to_owning_object(resultdata, fresult);
+ }
+ else {
+ res = convert_to_object(resultdata, fresult);
+ }
+ /* fall-through */
+
+ error:
+ while (freeme != NULL) {
+ void *p = (void *)freeme;
+ freeme = freeme->next;
+ PyObject_Free(p);
+ }
+ if (buffer)
+ PyObject_Free(buffer);
+ if (fvarargs != NULL) {
+ Py_DECREF(fvarargs);
+ if (cif_descr != NULL) /* but only if fvarargs != NULL, if variadic */
+ PyObject_Free(cif_descr);
+ }
+ return res;
+}
+
+static PyObject *cdata_dir(PyObject *cd, PyObject *noarg)
+{
+ CTypeDescrObject *ct = ((CDataObject *)cd)->c_type;
+
+ /* replace the type 'pointer-to-t' with just 't' */
+ if (ct->ct_flags & CT_POINTER) {
+ ct = ct->ct_itemdescr;
+ }
+ if ((ct->ct_flags & (CT_STRUCT | CT_UNION)) &&
+ !(ct->ct_flags & CT_IS_OPAQUE)) {
+
+ /* for non-opaque structs or unions */
+ if (force_lazy_struct(ct) < 0)
+ return NULL;
+ return PyDict_Keys(ct->ct_stuff);
+ }
+ else {
+ return PyList_New(0); /* empty list for the other cases */
+ }
+}
+
+static PyObject *cdata_complex(PyObject *cd_, PyObject *noarg)
+{
+ CDataObject *cd = (CDataObject *)cd_;
+
+ if (cd->c_type->ct_flags & CT_PRIMITIVE_COMPLEX) {
+ Py_complex value = read_raw_complex_data(cd->c_data, cd->c_type->ct_size);
+ PyObject *op = PyComplex_FromCComplex(value);
+ return op;
+ }
+ /* <cdata 'float'> or <cdata 'int'> cannot be directly converted by
+ calling complex(), just like <cdata 'int'> cannot be directly
+ converted by calling float() */
+
+ PyErr_Format(PyExc_TypeError, "complex() not supported on cdata '%s'",
+ cd->c_type->ct_name);
+ return NULL;
+}
+
+static int explicit_release_case(PyObject *cd)
+{
+ CTypeDescrObject *ct = ((CDataObject *)cd)->c_type;
+ if (Py_TYPE(cd) == &CDataOwning_Type) {
+ if ((ct->ct_flags & (CT_POINTER | CT_ARRAY)) != 0) /* ffi.new() */
+ return 0;
+ }
+ else if (Py_TYPE(cd) == &CDataFromBuf_Type) {
+ return 1; /* ffi.from_buffer() */
+ }
+ else if (Py_TYPE(cd) == &CDataGCP_Type) {
+ return 2; /* ffi.gc() */
+ }
+ PyErr_SetString(PyExc_ValueError,
+ "only 'cdata' object from ffi.new(), ffi.gc(), ffi.from_buffer() "
+ "or ffi.new_allocator()() can be used with the 'with' keyword or "
+ "ffi.release()");
+ return -1;
+}
+
+static PyObject *cdata_enter(PyObject *cd, PyObject *noarg)
+{
+ if (explicit_release_case(cd) < 0) /* only to check the ctype */
+ return NULL;
+ Py_INCREF(cd);
+ return cd;
+}
+
+static PyObject *cdata_exit(PyObject *cd, PyObject *args)
+{
+ /* 'args' ignored */
+ CTypeDescrObject *ct;
+ Py_buffer *view;
+ switch (explicit_release_case(cd))
+ {
+ case 0: /* ffi.new() */
+ /* no effect on CPython: raw memory is allocated with the
+ same malloc() as the object itself, so it can't be
+ released independently. If we use a custom allocator,
+ then it's implemented with ffi.gc(). */
+ ct = ((CDataObject *)cd)->c_type;
+ if (ct->ct_flags & CT_IS_PTR_TO_OWNED) {
+ PyObject *x = ((CDataObject_own_structptr *)cd)->structobj;
+ if (Py_TYPE(x) == &CDataGCP_Type) {
+ /* this is a special case for
+ ffi.new_allocator()("struct-or-union *") */
+ cdatagcp_finalize((CDataObject_gcp *)x);
+ }
+ }
+ break;
+
+ case 1: /* ffi.from_buffer() */
+ view = ((CDataObject_frombuf *)cd)->bufferview;
+ PyBuffer_Release(view);
+ break;
+
+ case 2: /* ffi.gc() or ffi.new_allocator()("not-struct-nor-union") */
+ /* call the destructor immediately */
+ cdatagcp_finalize((CDataObject_gcp *)cd);
+ break;
+
+ default:
+ return NULL;
+ }
+ Py_INCREF(Py_None);
+ return Py_None;
+}
+
+static PyObject *cdata_iter(CDataObject *);
+
+static PyNumberMethods CData_as_number = {
+ (binaryfunc)cdata_add, /*nb_add*/
+ (binaryfunc)cdata_sub, /*nb_subtract*/
+ 0, /*nb_multiply*/
+#if PY_MAJOR_VERSION < 3
+ 0, /*nb_divide*/
+#endif
+ 0, /*nb_remainder*/
+ 0, /*nb_divmod*/
+ 0, /*nb_power*/
+ 0, /*nb_negative*/
+ 0, /*nb_positive*/
+ 0, /*nb_absolute*/
+ (inquiry)cdata_nonzero, /*nb_nonzero*/
+ 0, /*nb_invert*/
+ 0, /*nb_lshift*/
+ 0, /*nb_rshift*/
+ 0, /*nb_and*/
+ 0, /*nb_xor*/
+ 0, /*nb_or*/
+#if PY_MAJOR_VERSION < 3
+ 0, /*nb_coerce*/
+#endif
+ (unaryfunc)cdata_int, /*nb_int*/
+#if PY_MAJOR_VERSION < 3
+ (unaryfunc)cdata_long, /*nb_long*/
+#else
+ 0,
+#endif
+ (unaryfunc)cdata_float, /*nb_float*/
+ 0, /*nb_oct*/
+ 0, /*nb_hex*/
+};
+
+static PyMappingMethods CData_as_mapping = {
+ (lenfunc)cdata_length, /*mp_length*/
+ (binaryfunc)cdata_subscript, /*mp_subscript*/
+ (objobjargproc)cdata_ass_sub, /*mp_ass_subscript*/
+};
+
+static PyMappingMethods CDataOwn_as_mapping = {
+ (lenfunc)cdata_length, /*mp_length*/
+ (binaryfunc)cdataowning_subscript, /*mp_subscript*/
+ (objobjargproc)cdata_ass_sub, /*mp_ass_subscript*/
+};
+
+static PyMethodDef cdata_methods[] = {
+ {"__dir__", cdata_dir, METH_NOARGS},
+ {"__complex__", cdata_complex, METH_NOARGS},
+ {"__enter__", cdata_enter, METH_NOARGS},
+ {"__exit__", cdata_exit, METH_VARARGS},
+ {NULL, NULL} /* sentinel */
+};
+
+static PyTypeObject CData_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend._CDataBase",
+ sizeof(CDataObject),
+ 0,
+ (destructor)cdata_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ (reprfunc)cdata_repr, /* tp_repr */
+ &CData_as_number, /* tp_as_number */
+ 0, /* tp_as_sequence */
+ &CData_as_mapping, /* tp_as_mapping */
+ cdata_hash, /* tp_hash */
+ (ternaryfunc)cdata_call, /* tp_call */
+ 0, /* tp_str */
+ (getattrofunc)cdata_getattro, /* tp_getattro */
+ (setattrofunc)cdata_setattro, /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_CHECKTYPES, /* tp_flags */
+ "The internal base type for CData objects. Use FFI.CData to access "
+ "it. Always check with isinstance(): subtypes are sometimes returned "
+ "on CPython, for performance reasons.", /* tp_doc */
+ 0, /* tp_traverse */
+ 0, /* tp_clear */
+ cdata_richcompare, /* tp_richcompare */
+ offsetof(CDataObject, c_weakreflist), /* tp_weaklistoffset */
+ (getiterfunc)cdata_iter, /* tp_iter */
+ 0, /* tp_iternext */
+ cdata_methods, /* tp_methods */
+ 0, /* tp_members */
+ 0, /* tp_getset */
+ 0, /* tp_base */
+ 0, /* tp_dict */
+ 0, /* tp_descr_get */
+ 0, /* tp_descr_set */
+ 0, /* tp_dictoffset */
+ 0, /* tp_init */
+ 0, /* tp_alloc */
+ 0, /* tp_new */
+ PyObject_Del, /* tp_free */
+};
+
+static PyTypeObject CDataOwning_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.__CDataOwn",
+ sizeof(CDataObject),
+ 0,
+ (destructor)cdataowning_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ (reprfunc)cdataowning_repr, /* tp_repr */
+ 0, /* inherited */ /* tp_as_number */
+ 0, /* tp_as_sequence */
+ &CDataOwn_as_mapping, /* tp_as_mapping */
+ 0, /* inherited */ /* tp_hash */
+ 0, /* inherited */ /* tp_call */
+ 0, /* tp_str */
+ 0, /* inherited */ /* tp_getattro */
+ 0, /* inherited */ /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_CHECKTYPES, /* tp_flags */
+ "This is an internal subtype of _CDataBase for performance only on "
+ "CPython. Check with isinstance(x, ffi.CData).", /* tp_doc */
+ 0, /* tp_traverse */
+ 0, /* tp_clear */
+ 0, /* inherited */ /* tp_richcompare */
+ 0, /* inherited */ /* tp_weaklistoffset */
+ 0, /* inherited */ /* tp_iter */
+ 0, /* tp_iternext */
+ 0, /* inherited */ /* tp_methods */
+ 0, /* tp_members */
+ 0, /* tp_getset */
+ &CData_Type, /* tp_base */
+ 0, /* tp_dict */
+ 0, /* tp_descr_get */
+ 0, /* tp_descr_set */
+ 0, /* tp_dictoffset */
+ 0, /* tp_init */
+ 0, /* tp_alloc */
+ 0, /* tp_new */
+ free, /* tp_free */
+};
+
+static PyTypeObject CDataOwningGC_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.__CDataOwnGC",
+ sizeof(CDataObject_own_structptr),
+ 0,
+ (destructor)cdataowninggc_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ (reprfunc)cdataowninggc_repr, /* tp_repr */
+ 0, /* inherited */ /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* inherited */ /* tp_as_mapping */
+ 0, /* inherited */ /* tp_hash */
+ 0, /* inherited */ /* tp_call */
+ 0, /* tp_str */
+ 0, /* inherited */ /* tp_getattro */
+ 0, /* inherited */ /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_CHECKTYPES /* tp_flags */
+ | Py_TPFLAGS_HAVE_GC,
+ "This is an internal subtype of _CDataBase for performance only on "
+ "CPython. Check with isinstance(x, ffi.CData).", /* tp_doc */
+ (traverseproc)cdataowninggc_traverse, /* tp_traverse */
+ (inquiry)cdataowninggc_clear, /* tp_clear */
+ 0, /* inherited */ /* tp_richcompare */
+ 0, /* inherited */ /* tp_weaklistoffset */
+ 0, /* inherited */ /* tp_iter */
+ 0, /* tp_iternext */
+ 0, /* inherited */ /* tp_methods */
+ 0, /* tp_members */
+ 0, /* tp_getset */
+ &CDataOwning_Type, /* tp_base */
+ 0, /* tp_dict */
+ 0, /* tp_descr_get */
+ 0, /* tp_descr_set */
+ 0, /* tp_dictoffset */
+ 0, /* tp_init */
+ 0, /* tp_alloc */
+ 0, /* tp_new */
+ PyObject_GC_Del, /* tp_free */
+};
+
+static PyTypeObject CDataFromBuf_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.__CDataFromBuf",
+ sizeof(CDataObject_frombuf),
+ 0,
+ (destructor)cdatafrombuf_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ (reprfunc)cdatafrombuf_repr, /* tp_repr */
+ 0, /* inherited */ /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* inherited */ /* tp_as_mapping */
+ 0, /* inherited */ /* tp_hash */
+ 0, /* inherited */ /* tp_call */
+ 0, /* tp_str */
+ 0, /* inherited */ /* tp_getattro */
+ 0, /* inherited */ /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_CHECKTYPES /* tp_flags */
+ | Py_TPFLAGS_HAVE_GC,
+ "This is an internal subtype of _CDataBase for performance only on "
+ "CPython. Check with isinstance(x, ffi.CData).", /* tp_doc */
+ (traverseproc)cdatafrombuf_traverse, /* tp_traverse */
+ (inquiry)cdatafrombuf_clear, /* tp_clear */
+ 0, /* inherited */ /* tp_richcompare */
+ 0, /* inherited */ /* tp_weaklistoffset */
+ 0, /* inherited */ /* tp_iter */
+ 0, /* tp_iternext */
+ 0, /* inherited */ /* tp_methods */
+ 0, /* tp_members */
+ 0, /* tp_getset */
+ &CData_Type, /* tp_base */
+ 0, /* tp_dict */
+ 0, /* tp_descr_get */
+ 0, /* tp_descr_set */
+ 0, /* tp_dictoffset */
+ 0, /* tp_init */
+ 0, /* tp_alloc */
+ 0, /* tp_new */
+ PyObject_GC_Del, /* tp_free */
+};
+
+static PyTypeObject CDataGCP_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.__CDataGCP",
+ sizeof(CDataObject_gcp),
+ 0,
+ (destructor)cdatagcp_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ 0, /* inherited */ /* tp_repr */
+ 0, /* inherited */ /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* inherited */ /* tp_as_mapping */
+ 0, /* inherited */ /* tp_hash */
+ 0, /* inherited */ /* tp_call */
+ 0, /* tp_str */
+ 0, /* inherited */ /* tp_getattro */
+ 0, /* inherited */ /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_CHECKTYPES /* tp_flags */
+#ifdef Py_TPFLAGS_HAVE_FINALIZE
+ | Py_TPFLAGS_HAVE_FINALIZE
+#endif
+ | Py_TPFLAGS_HAVE_GC,
+ "This is an internal subtype of _CDataBase for performance only on "
+ "CPython. Check with isinstance(x, ffi.CData).", /* tp_doc */
+ (traverseproc)cdatagcp_traverse, /* tp_traverse */
+ 0, /* tp_clear */
+ 0, /* inherited */ /* tp_richcompare */
+ 0, /* inherited */ /* tp_weaklistoffset */
+ 0, /* inherited */ /* tp_iter */
+ 0, /* tp_iternext */
+ 0, /* inherited */ /* tp_methods */
+ 0, /* tp_members */
+ 0, /* tp_getset */
+ &CData_Type, /* tp_base */
+#ifdef Py_TPFLAGS_HAVE_FINALIZE /* CPython >= 3.4 */
+ 0, /* tp_dict */
+ 0, /* tp_descr_get */
+ 0, /* tp_descr_set */
+ 0, /* tp_dictoffset */
+ 0, /* tp_init */
+ 0, /* tp_alloc */
+ 0, /* tp_new */
+ 0, /* inherited */ /* tp_free */
+ 0, /* tp_is_gc */
+ 0, /* tp_bases */
+ 0, /* tp_mro */
+ 0, /* tp_cache */
+ 0, /* tp_subclasses */
+ 0, /* tp_weaklist */
+ 0, /* tp_del */
+ 0, /* version_tag */
+ (destructor)cdatagcp_finalize, /* tp_finalize */
+#endif
+};
+
+/************************************************************/
+
+typedef struct {
+ PyObject_HEAD
+ char *di_next, *di_stop;
+ CDataObject *di_object;
+ CTypeDescrObject *di_itemtype;
+} CDataIterObject;
+
+static PyObject *
+cdataiter_next(CDataIterObject *it)
+{
+ char *result = it->di_next;
+ if (result != it->di_stop) {
+ it->di_next = result + it->di_itemtype->ct_size;
+ return convert_to_object(result, it->di_itemtype);
+ }
+ return NULL;
+}
+
+static void
+cdataiter_dealloc(CDataIterObject *it)
+{
+ Py_DECREF(it->di_object);
+ PyObject_Del(it);
+}
+
+static PyTypeObject CDataIter_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.__CData_iterator", /* tp_name */
+ sizeof(CDataIterObject), /* tp_basicsize */
+ 0, /* tp_itemsize */
+ /* methods */
+ (destructor)cdataiter_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ 0, /* tp_repr */
+ 0, /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* tp_as_mapping */
+ 0, /* tp_hash */
+ 0, /* tp_call */
+ 0, /* tp_str */
+ PyObject_GenericGetAttr, /* tp_getattro */
+ 0, /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT, /* tp_flags */
+ 0, /* tp_doc */
+ 0, /* tp_traverse */
+ 0, /* tp_clear */
+ 0, /* tp_richcompare */
+ 0, /* tp_weaklistoffset */
+ PyObject_SelfIter, /* tp_iter */
+ (iternextfunc)cdataiter_next, /* tp_iternext */
+};
+
+static PyObject *
+cdata_iter(CDataObject *cd)
+{
+ CDataIterObject *it;
+
+ if (!(cd->c_type->ct_flags & CT_ARRAY)) {
+ PyErr_Format(PyExc_TypeError, "cdata '%s' does not support iteration",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+
+ it = PyObject_New(CDataIterObject, &CDataIter_Type);
+ if (it == NULL)
+ return NULL;
+
+ Py_INCREF(cd);
+ it->di_object = cd;
+ it->di_itemtype = cd->c_type->ct_itemdescr;
+ it->di_next = cd->c_data;
+ it->di_stop = cd->c_data + get_array_length(cd) * it->di_itemtype->ct_size;
+ return (PyObject *)it;
+}
+
+/************************************************************/
+
+static CDataObject *allocate_owning_object(Py_ssize_t size,
+ CTypeDescrObject *ct,
+ int dont_clear)
+{
+ /* note: objects with &CDataOwning_Type are always allocated with
+ either a plain malloc() or calloc(), and freed with free(). */
+ CDataObject *cd;
+ if (dont_clear)
+ cd = malloc(size);
+ else
+ cd = calloc(size, 1);
+ if (PyObject_Init((PyObject *)cd, &CDataOwning_Type) == NULL)
+ return NULL;
+
+ Py_INCREF(ct);
+ cd->c_type = ct;
+ cd->c_weakreflist = NULL;
+ return cd;
+}
+
+static PyObject *
+convert_struct_to_owning_object(char *data, CTypeDescrObject *ct)
+{
+ /* also accepts unions, for the API mode */
+ CDataObject *cd;
+ Py_ssize_t dataoffset = offsetof(CDataObject_own_nolength, alignment);
+ Py_ssize_t datasize = ct->ct_size;
+
+ if (datasize < 0) {
+ PyErr_SetString(PyExc_TypeError,
+ "return type is an opaque structure or union");
+ return NULL;
+ }
+ if (ct->ct_flags & CT_WITH_VAR_ARRAY) {
+ PyErr_SetString(PyExc_TypeError,
+ "return type is a struct/union with a varsize array member");
+ return NULL;
+ }
+ cd = allocate_owning_object(dataoffset + datasize, ct, /*dont_clear=*/1);
+ if (cd == NULL)
+ return NULL;
+ cd->c_data = ((char *)cd) + dataoffset;
+
+ memcpy(cd->c_data, data, datasize);
+ return (PyObject *)cd;
+}
+
+static CDataObject *allocate_gcp_object(CDataObject *origobj,
+ CTypeDescrObject *ct,
+ PyObject *destructor)
+{
+ CDataObject_gcp *cd = PyObject_GC_New(CDataObject_gcp, &CDataGCP_Type);
+ if (cd == NULL)
+ return NULL;
+
+ Py_XINCREF(destructor);
+ Py_INCREF(origobj);
+ Py_INCREF(ct);
+ cd->head.c_data = origobj->c_data;
+ cd->head.c_type = ct;
+ cd->head.c_weakreflist = NULL;
+ cd->origobj = (PyObject *)origobj;
+ cd->destructor = destructor;
+
+ PyObject_GC_Track(cd);
+ return (CDataObject *)cd;
+}
+
+static CDataObject *allocate_with_allocator(Py_ssize_t basesize,
+ Py_ssize_t datasize,
+ CTypeDescrObject *ct,
+ const cffi_allocator_t *allocator)
+{
+ CDataObject *cd;
+
+ if (allocator->ca_alloc == NULL) {
+ cd = allocate_owning_object(basesize + datasize, ct,
+ allocator->ca_dont_clear);
+ if (cd == NULL)
+ return NULL;
+ cd->c_data = ((char *)cd) + basesize;
+ }
+ else {
+ PyObject *res = PyObject_CallFunction(allocator->ca_alloc, "n", datasize);
+ if (res == NULL)
+ return NULL;
+
+ if (!CData_Check(res)) {
+ PyErr_Format(PyExc_TypeError,
+ "alloc() must return a cdata object (got %.200s)",
+ Py_TYPE(res)->tp_name);
+ Py_DECREF(res);
+ return NULL;
+ }
+ cd = (CDataObject *)res;
+ if (!(cd->c_type->ct_flags & (CT_POINTER|CT_ARRAY))) {
+ PyErr_Format(PyExc_TypeError,
+ "alloc() must return a cdata pointer, not '%s'",
+ cd->c_type->ct_name);
+ Py_DECREF(res);
+ return NULL;
+ }
+ if (!cd->c_data) {
+ PyErr_SetString(PyExc_MemoryError, "alloc() returned NULL");
+ Py_DECREF(res);
+ return NULL;
+ }
+
+ cd = allocate_gcp_object(cd, ct, allocator->ca_free);
+ Py_DECREF(res);
+ if (!allocator->ca_dont_clear)
+ memset(cd->c_data, 0, datasize);
+ }
+ return cd;
+}
+
+static PyObject *direct_newp(CTypeDescrObject *ct, PyObject *init,
+ const cffi_allocator_t *allocator)
+{
+ CTypeDescrObject *ctitem;
+ CDataObject *cd;
+ Py_ssize_t dataoffset, datasize, explicitlength;
+
+ explicitlength = -1;
+ if (ct->ct_flags & CT_POINTER) {
+ dataoffset = offsetof(CDataObject_own_nolength, alignment);
+ ctitem = ct->ct_itemdescr;
+ datasize = ctitem->ct_size;
+ if (datasize < 0) {
+ PyErr_Format(PyExc_TypeError,
+ "cannot instantiate ctype '%s' of unknown size",
+ ctitem->ct_name);
+ return NULL;
+ }
+ if (ctitem->ct_flags & CT_PRIMITIVE_CHAR)
+ datasize *= 2; /* forcefully add another character: a null */
+
+ if (ctitem->ct_flags & (CT_STRUCT | CT_UNION)) {
+ if (force_lazy_struct(ctitem) < 0) /* for CT_WITH_VAR_ARRAY */
+ return NULL;
+
+ if (ctitem->ct_flags & CT_WITH_VAR_ARRAY) {
+ assert(ct->ct_flags & CT_IS_PTR_TO_OWNED);
+ dataoffset = offsetof(CDataObject_own_length, alignment);
+
+ if (init != Py_None) {
+ Py_ssize_t optvarsize = datasize;
+ if (convert_struct_from_object(NULL, ctitem, init,
+ &optvarsize) < 0)
+ return NULL;
+ datasize = optvarsize;
+ }
+ }
+ }
+ }
+ else if (ct->ct_flags & CT_ARRAY) {
+ dataoffset = offsetof(CDataObject_own_nolength, alignment);
+ datasize = ct->ct_size;
+ if (datasize < 0) {
+ explicitlength = get_new_array_length(ct->ct_itemdescr, &init);
+ if (explicitlength < 0)
+ return NULL;
+ ctitem = ct->ct_itemdescr;
+ dataoffset = offsetof(CDataObject_own_length, alignment);
+ datasize = MUL_WRAPAROUND(explicitlength, ctitem->ct_size);
+ if (explicitlength > 0 &&
+ (datasize / explicitlength) != ctitem->ct_size) {
+ PyErr_SetString(PyExc_OverflowError,
+ "array size would overflow a Py_ssize_t");
+ return NULL;
+ }
+ }
+ }
+ else {
+ PyErr_Format(PyExc_TypeError,
+ "expected a pointer or array ctype, got '%s'",
+ ct->ct_name);
+ return NULL;
+ }
+
+ if (ct->ct_flags & CT_IS_PTR_TO_OWNED) {
+ /* common case of ptr-to-struct (or ptr-to-union): for this case
+ we build two objects instead of one, with the memory-owning
+ one being really the struct (or union) and the returned one
+ having a strong reference to it */
+ CDataObject *cds;
+
+ cds = allocate_with_allocator(dataoffset, datasize, ct->ct_itemdescr,
+ allocator);
+ if (cds == NULL)
+ return NULL;
+
+ cd = allocate_owning_object(sizeof(CDataObject_own_structptr), ct,
+ /*dont_clear=*/1);
+ if (cd == NULL) {
+ Py_DECREF(cds);
+ return NULL;
+ }
+ /* store the only reference to cds into cd */
+ ((CDataObject_own_structptr *)cd)->structobj = (PyObject *)cds;
+ /* store information about the allocated size of the struct */
+ if (dataoffset == offsetof(CDataObject_own_length, alignment)) {
+ ((CDataObject_own_length *)cds)->length = datasize;
+ }
+ assert(explicitlength < 0);
+
+ cd->c_data = cds->c_data;
+ }
+ else {
+ cd = allocate_with_allocator(dataoffset, datasize, ct, allocator);
+ if (cd == NULL)
+ return NULL;
+
+ if (explicitlength >= 0)
+ ((CDataObject_own_length*)cd)->length = explicitlength;
+ }
+
+ if (init != Py_None) {
+ if (convert_from_object(cd->c_data,
+ (ct->ct_flags & CT_POINTER) ? ct->ct_itemdescr : ct, init) < 0) {
+ Py_DECREF(cd);
+ return NULL;
+ }
+ }
+ return (PyObject *)cd;
+}
+
+static PyObject *b_newp(PyObject *self, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ PyObject *init = Py_None;
+ if (!PyArg_ParseTuple(args, "O!|O:newp", &CTypeDescr_Type, &ct, &init))
+ return NULL;
+ return direct_newp(ct, init, &default_allocator);
+}
+
+static int
+_my_PyObject_AsBool(PyObject *ob)
+{
+ /* convert and cast a Python object to a boolean. Accept an integer
+ or a float object, up to a CData 'long double'. */
+ PyObject *io;
+ PyNumberMethods *nb;
+ int res;
+
+#if PY_MAJOR_VERSION < 3
+ if (PyInt_Check(ob)) {
+ return PyInt_AS_LONG(ob) != 0;
+ }
+ else
+#endif
+ if (PyLong_Check(ob)) {
+ return _PyLong_Sign(ob) != 0;
+ }
+ else if (PyFloat_Check(ob)) {
+ return PyFloat_AS_DOUBLE(ob) != 0.0;
+ }
+ else if (CData_Check(ob)) {
+ CDataObject *cd = (CDataObject *)ob;
+ if (cd->c_type->ct_flags & CT_PRIMITIVE_FLOAT) {
+ /*READ(cd->c_data, cd->c_type->ct_size)*/
+ if (cd->c_type->ct_flags & CT_IS_LONGDOUBLE) {
+ /* 'long double' objects: return the answer directly */
+ return read_raw_longdouble_data(cd->c_data) != 0.0;
+ }
+ else {
+ /* 'float'/'double' objects: return the answer directly */
+ return read_raw_float_data(cd->c_data,
+ cd->c_type->ct_size) != 0.0;
+ }
+ }
+ }
+ nb = ob->ob_type->tp_as_number;
+ if (nb == NULL || (nb->nb_float == NULL && nb->nb_int == NULL)) {
+ PyErr_SetString(PyExc_TypeError, "integer/float expected");
+ return -1;
+ }
+ if (nb->nb_float && !CData_Check(ob))
+ io = (*nb->nb_float) (ob);
+ else
+ io = (*nb->nb_int) (ob);
+ if (io == NULL)
+ return -1;
+
+ if (PyIntOrLong_Check(io) || PyFloat_Check(io)) {
+ res = _my_PyObject_AsBool(io);
+ }
+ else {
+ PyErr_SetString(PyExc_TypeError, "integer/float conversion failed");
+ res = -1;
+ }
+ Py_DECREF(io);
+ return res;
+}
+
+static CDataObject *_new_casted_primitive(CTypeDescrObject *ct)
+{
+ int dataoffset = offsetof(CDataObject_casted_primitive, alignment);
+ CDataObject *cd = (CDataObject *)PyObject_Malloc(dataoffset + ct->ct_size);
+ if (PyObject_Init((PyObject *)cd, &CData_Type) == NULL)
+ return NULL;
+ Py_INCREF(ct);
+ cd->c_type = ct;
+ cd->c_data = ((char*)cd) + dataoffset;
+ cd->c_weakreflist = NULL;
+ return cd;
+}
+
+static CDataObject *cast_to_integer_or_char(CTypeDescrObject *ct, PyObject *ob)
+{
+ unsigned PY_LONG_LONG value;
+ CDataObject *cd;
+
+ if (CData_Check(ob) &&
+ ((CDataObject *)ob)->c_type->ct_flags &
+ (CT_POINTER|CT_FUNCTIONPTR|CT_ARRAY)) {
+ value = (Py_intptr_t)((CDataObject *)ob)->c_data;
+ }
+#if PY_MAJOR_VERSION < 3
+ else if (PyString_Check(ob)) {
+ if (PyString_GET_SIZE(ob) != 1) {
+ PyErr_Format(PyExc_TypeError,
+ "cannot cast string of length %zd to ctype '%s'",
+ PyString_GET_SIZE(ob), ct->ct_name);
+ return NULL;
+ }
+ value = (unsigned char)PyString_AS_STRING(ob)[0];
+ }
+#endif
+ else if (PyUnicode_Check(ob)) {
+ char err_buf[80];
+ cffi_char32_t ordinal;
+ if (_my_PyUnicode_AsSingleChar32(ob, &ordinal, err_buf) < 0) {
+ PyErr_Format(PyExc_TypeError,
+ "cannot cast %s to ctype '%s'", err_buf, ct->ct_name);
+ return NULL;
+ }
+ /* the types char16_t and char32_t are both unsigned. However,
+ wchar_t might be signed. In theory it does not matter,
+ because 'ordinal' comes from a regular Python unicode. */
+#ifdef HAVE_WCHAR_H
+ if (ct->ct_flags & CT_IS_SIGNED_WCHAR)
+ value = (wchar_t)ordinal;
+ else
+#endif
+ value = ordinal;
+ }
+ else if (PyBytes_Check(ob)) {
+ int res = _convert_to_char(ob);
+ if (res < 0)
+ return NULL;
+ value = (unsigned char)res;
+ }
+ else if (ct->ct_flags & CT_IS_BOOL) {
+ int res = _my_PyObject_AsBool(ob);
+ if (res < 0)
+ return NULL;
+ value = res;
+ }
+ else {
+ value = _my_PyLong_AsUnsignedLongLong(ob, 0);
+ if (value == (unsigned PY_LONG_LONG)-1 && PyErr_Occurred())
+ return NULL;
+ }
+ if (ct->ct_flags & CT_IS_BOOL)
+ value = !!value;
+ cd = _new_casted_primitive(ct);
+ if (cd != NULL)
+ write_raw_integer_data(cd->c_data, value, ct->ct_size);
+ return cd;
+}
+
+/* returns -1 if cannot cast, 0 if we don't get a value, 1 if we do */
+static int check_bytes_for_float_compatible(PyObject *io, double *out_value)
+{
+ if (PyBytes_Check(io)) {
+ if (PyBytes_GET_SIZE(io) != 1)
+ goto error;
+ *out_value = (unsigned char)PyBytes_AS_STRING(io)[0];
+ return 1;
+ }
+ else if (PyUnicode_Check(io)) {
+ char ignored[80];
+ cffi_char32_t ordinal;
+ if (_my_PyUnicode_AsSingleChar32(io, &ordinal, ignored) < 0)
+ goto error;
+ /* the signness of the 32-bit version of wide chars should not
+ * matter here, because 'ordinal' comes from a normal Python
+ * unicode string */
+ *out_value = ordinal;
+ return 1;
+ }
+ *out_value = 0; /* silence a gcc warning if this function is inlined */
+ return 0;
+
+ error:
+ Py_DECREF(io);
+ *out_value = 0; /* silence a gcc warning if this function is inlined */
+ return -1;
+}
+
+static PyObject *do_cast(CTypeDescrObject *ct, PyObject *ob)
+{
+ CDataObject *cd;
+
+ if (ct->ct_flags & (CT_POINTER|CT_FUNCTIONPTR|CT_ARRAY) &&
+ ct->ct_size >= 0) {
+ /* cast to a pointer, to a funcptr, or to an array.
+ Note that casting to an array is an extension to the C language,
+ which seems to be necessary in order to sanely get a
+ <cdata 'int[3]'> at some address. */
+ unsigned PY_LONG_LONG value;
+
+ if (CData_Check(ob)) {
+ CDataObject *cdsrc = (CDataObject *)ob;
+ if (cdsrc->c_type->ct_flags &
+ (CT_POINTER|CT_FUNCTIONPTR|CT_ARRAY)) {
+ return new_simple_cdata(cdsrc->c_data, ct);
+ }
+ }
+ if ((ct->ct_flags & CT_POINTER) &&
+ (ct->ct_itemdescr->ct_flags & CT_IS_FILE) &&
+ PyFile_Check(ob)) {
+ FILE *f = PyFile_AsFile(ob);
+ if (f == NULL && PyErr_Occurred())
+ return NULL;
+ return new_simple_cdata((char *)f, ct);
+ }
+ value = _my_PyLong_AsUnsignedLongLong(ob, 0);
+ if (value == (unsigned PY_LONG_LONG)-1 && PyErr_Occurred())
+ return NULL;
+ return new_simple_cdata((char *)(Py_intptr_t)value, ct);
+ }
+ else if (ct->ct_flags & (CT_PRIMITIVE_SIGNED|CT_PRIMITIVE_UNSIGNED
+ |CT_PRIMITIVE_CHAR)) {
+ /* cast to an integer type or a char */
+ return (PyObject *)cast_to_integer_or_char(ct, ob);
+ }
+ else if (ct->ct_flags & CT_PRIMITIVE_FLOAT) {
+ /* cast to a float */
+ double value;
+ PyObject *io;
+ int res;
+
+ if (CData_Check(ob)) {
+ CDataObject *cdsrc = (CDataObject *)ob;
+
+ if (!(cdsrc->c_type->ct_flags & CT_PRIMITIVE_ANY))
+ goto cannot_cast;
+ io = convert_to_object(cdsrc->c_data, cdsrc->c_type);
+ if (io == NULL)
+ return NULL;
+ }
+ else {
+ io = ob;
+ Py_INCREF(io);
+ }
+
+ res = check_bytes_for_float_compatible(io, &value);
+ if (res == -1)
+ goto cannot_cast;
+ if (res == 0) {
+ if ((ct->ct_flags & CT_IS_LONGDOUBLE) &&
+ CData_Check(io) &&
+ (((CDataObject *)io)->c_type->ct_flags & CT_IS_LONGDOUBLE)) {
+ long double lvalue;
+ char *data = ((CDataObject *)io)->c_data;
+ /*READ(data, sizeof(long double)*/
+ lvalue = read_raw_longdouble_data(data);
+ Py_DECREF(io);
+ cd = _new_casted_primitive(ct);
+ if (cd != NULL)
+ write_raw_longdouble_data(cd->c_data, lvalue);
+ return (PyObject *)cd;
+ }
+ value = PyFloat_AsDouble(io);
+ }
+ Py_DECREF(io);
+ if (value == -1.0 && PyErr_Occurred())
+ return NULL;
+
+ cd = _new_casted_primitive(ct);
+ if (cd != NULL) {
+ if (!(ct->ct_flags & CT_IS_LONGDOUBLE))
+ write_raw_float_data(cd->c_data, value, ct->ct_size);
+ else
+ write_raw_longdouble_data(cd->c_data, (long double)value);
+ }
+ return (PyObject *)cd;
+ }
+ else if (ct->ct_flags & CT_PRIMITIVE_COMPLEX) {
+ /* cast to a complex */
+ Py_complex value;
+ PyObject *io;
+ int res;
+
+ if (CData_Check(ob)) {
+ CDataObject *cdsrc = (CDataObject *)ob;
+
+ if (!(cdsrc->c_type->ct_flags & CT_PRIMITIVE_ANY))
+ goto cannot_cast;
+ io = convert_to_object(cdsrc->c_data, cdsrc->c_type);
+ if (io == NULL)
+ return NULL;
+ }
+ else {
+ io = ob;
+ Py_INCREF(io);
+ }
+
+ res = check_bytes_for_float_compatible(io, &value.real);
+ if (res == -1)
+ goto cannot_cast;
+ if (res == 1) {
+ // got it from string
+ value.imag = 0.0;
+ } else {
+ value = PyComplex_AsCComplex(io);
+ }
+ Py_DECREF(io);
+ if (PyErr_Occurred()) {
+ return NULL;
+ }
+ cd = _new_casted_primitive(ct);
+ if (cd != NULL) {
+ write_raw_complex_data(cd->c_data, value, ct->ct_size);
+ }
+ return (PyObject *)cd;
+ }
+ else {
+ PyErr_Format(PyExc_TypeError, "cannot cast to ctype '%s'",
+ ct->ct_name);
+ return NULL;
+ }
+
+ cannot_cast:
+ if (CData_Check(ob))
+ PyErr_Format(PyExc_TypeError, "cannot cast ctype '%s' to ctype '%s'",
+ ((CDataObject *)ob)->c_type->ct_name, ct->ct_name);
+ else
+ PyErr_Format(PyExc_TypeError,
+ "cannot cast %.200s object to ctype '%s'",
+ Py_TYPE(ob)->tp_name, ct->ct_name);
+ return NULL;
+}
+
+static PyObject *b_cast(PyObject *self, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ PyObject *ob;
+ if (!PyArg_ParseTuple(args, "O!O:cast", &CTypeDescr_Type, &ct, &ob))
+ return NULL;
+
+ return do_cast(ct, ob);
+}
+
+/************************************************************/
+
+typedef struct {
+ PyObject_HEAD
+ void *dl_handle;
+ char *dl_name;
+ int dl_auto_close;
+} DynLibObject;
+
+static void dl_dealloc(DynLibObject *dlobj)
+{
+ if (dlobj->dl_handle != NULL && dlobj->dl_auto_close)
+ dlclose(dlobj->dl_handle);
+ free(dlobj->dl_name);
+ PyObject_Del(dlobj);
+}
+
+static PyObject *dl_repr(DynLibObject *dlobj)
+{
+ return PyText_FromFormat("<clibrary '%s'>", dlobj->dl_name);
+}
+
+static int dl_check_closed(DynLibObject *dlobj)
+{
+ if (dlobj->dl_handle == NULL)
+ {
+ PyErr_Format(PyExc_ValueError, "library '%s' has already been closed",
+ dlobj->dl_name);
+ return -1;
+ }
+ return 0;
+}
+
+static PyObject *dl_load_function(DynLibObject *dlobj, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ char *funcname;
+ void *funcptr;
+
+ if (!PyArg_ParseTuple(args, "O!s:load_function",
+ &CTypeDescr_Type, &ct, &funcname))
+ return NULL;
+
+ if (dl_check_closed(dlobj) < 0)
+ return NULL;
+
+ if (!(ct->ct_flags & (CT_FUNCTIONPTR | CT_POINTER | CT_ARRAY))) {
+ PyErr_Format(PyExc_TypeError,
+ "function or pointer or array cdata expected, got '%s'",
+ ct->ct_name);
+ return NULL;
+ }
+ dlerror(); /* clear error condition */
+ funcptr = dlsym(dlobj->dl_handle, funcname);
+ if (funcptr == NULL) {
+ const char *error = dlerror();
+ PyErr_Format(PyExc_AttributeError,
+ "function/symbol '%s' not found in library '%s': %s",
+ funcname, dlobj->dl_name, error);
+ return NULL;
+ }
+
+ if ((ct->ct_flags & CT_ARRAY) && ct->ct_length < 0) {
+ ct = (CTypeDescrObject *)ct->ct_stuff;
+ }
+ return new_simple_cdata(funcptr, ct);
+}
+
+static PyObject *dl_read_variable(DynLibObject *dlobj, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ char *varname;
+ char *data;
+
+ if (!PyArg_ParseTuple(args, "O!s:read_variable",
+ &CTypeDescr_Type, &ct, &varname))
+ return NULL;
+
+ if (dl_check_closed(dlobj) < 0)
+ return NULL;
+
+ dlerror(); /* clear error condition */
+ data = dlsym(dlobj->dl_handle, varname);
+ if (data == NULL) {
+ const char *error = dlerror();
+ if (error != NULL) {
+ PyErr_Format(PyExc_KeyError,
+ "variable '%s' not found in library '%s': %s",
+ varname, dlobj->dl_name, error);
+ return NULL;
+ }
+ }
+ return convert_to_object(data, ct);
+}
+
+static PyObject *dl_write_variable(DynLibObject *dlobj, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ PyObject *value;
+ char *varname;
+ char *data;
+
+ if (!PyArg_ParseTuple(args, "O!sO:write_variable",
+ &CTypeDescr_Type, &ct, &varname, &value))
+ return NULL;
+
+ if (dl_check_closed(dlobj) < 0)
+ return NULL;
+
+ dlerror(); /* clear error condition */
+ data = dlsym(dlobj->dl_handle, varname);
+ if (data == NULL) {
+ const char *error = dlerror();
+ PyErr_Format(PyExc_KeyError,
+ "variable '%s' not found in library '%s': %s",
+ varname, dlobj->dl_name, error);
+ return NULL;
+ }
+ if (convert_from_object(data, ct, value) < 0)
+ return NULL;
+ Py_INCREF(Py_None);
+ return Py_None;
+}
+
+static PyObject *dl_close_lib(DynLibObject *dlobj, PyObject *no_args)
+{
+ if (dlobj->dl_handle != NULL)
+ {
+ dlclose(dlobj->dl_handle);
+ dlobj->dl_handle = NULL;
+ }
+ Py_INCREF(Py_None);
+ return Py_None;
+}
+
+static PyMethodDef dl_methods[] = {
+ {"load_function", (PyCFunction)dl_load_function, METH_VARARGS},
+ {"read_variable", (PyCFunction)dl_read_variable, METH_VARARGS},
+ {"write_variable", (PyCFunction)dl_write_variable, METH_VARARGS},
+ {"close_lib", (PyCFunction)dl_close_lib, METH_NOARGS},
+ {NULL, NULL} /* sentinel */
+};
+
+static PyTypeObject dl_type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.CLibrary", /* tp_name */
+ sizeof(DynLibObject), /* tp_basicsize */
+ 0, /* tp_itemsize */
+ /* methods */
+ (destructor)dl_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ (reprfunc)dl_repr, /* tp_repr */
+ 0, /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* tp_as_mapping */
+ 0, /* tp_hash */
+ 0, /* tp_call */
+ 0, /* tp_str */
+ PyObject_GenericGetAttr, /* tp_getattro */
+ 0, /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT, /* tp_flags */
+ 0, /* tp_doc */
+ 0, /* tp_traverse */
+ 0, /* tp_clear */
+ 0, /* tp_richcompare */
+ 0, /* tp_weaklistoffset */
+ 0, /* tp_iter */
+ 0, /* tp_iternext */
+ dl_methods, /* tp_methods */
+};
+
+static void *b_do_dlopen(PyObject *args, const char **p_printable_filename,
+ PyObject **p_temp, int *auto_close)
+{
+ /* Logic to call the correct version of dlopen(). Returns NULL in case of error.
+ Otherwise, '*p_printable_filename' will point to a printable char version of
+ the filename (maybe utf-8-encoded). '*p_temp' will be set either to NULL or
+ to a temporary object that must be freed after looking at printable_filename.
+ */
+ void *handle;
+ char *filename_or_null;
+ int flags = 0;
+ *p_temp = NULL;
+ *auto_close = 1;
+
+ if (PyTuple_GET_SIZE(args) == 0 || PyTuple_GET_ITEM(args, 0) == Py_None) {
+ PyObject *dummy;
+ if (!PyArg_ParseTuple(args, "|Oi:load_library",
+ &dummy, &flags))
+ return NULL;
+ filename_or_null = NULL;
+ *p_printable_filename = "<None>";
+ }
+ else if (CData_Check(PyTuple_GET_ITEM(args, 0)))
+ {
+ CDataObject *cd;
+ if (!PyArg_ParseTuple(args, "O|i:load_library", &cd, &flags))
+ return NULL;
+ /* 'flags' is accepted but ignored in this case */
+ if ((cd->c_type->ct_flags & CT_IS_VOID_PTR) == 0) {
+ PyErr_Format(PyExc_TypeError,
+ "dlopen() takes a file name or 'void *' handle, not '%s'",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+ handle = cd->c_data;
+ if (handle == NULL) {
+ PyErr_Format(PyExc_RuntimeError, "cannot call dlopen(NULL)");
+ return NULL;
+ }
+ *p_temp = PyText_FromFormat("%p", handle);
+ *p_printable_filename = PyText_AsUTF8(*p_temp);
+ *auto_close = 0;
+ return handle;
+ }
+ else
+ {
+ PyObject *s = PyTuple_GET_ITEM(args, 0);
+#ifdef MS_WIN32
+ PyObject *filename_unicode;
+ if (PyArg_ParseTuple(args, "U|i:load_library", &filename_unicode, &flags))
+ {
+ Py_ssize_t sz1;
+ wchar_t *w1;
+#if PY_MAJOR_VERSION < 3
+ s = PyUnicode_AsUTF8String(s);
+ if (s == NULL)
+ return NULL;
+ *p_temp = s;
+#endif
+ *p_printable_filename = PyText_AsUTF8(s);
+ if (*p_printable_filename == NULL)
+ return NULL;
+
+ sz1 = PyUnicode_GetSize(filename_unicode) + 1;
+ sz1 *= 2; /* should not be needed, but you never know */
+ w1 = alloca(sizeof(wchar_t) * sz1);
+ sz1 = PyUnicode_AsWideChar((PyUnicodeObject *)filename_unicode,
+ w1, sz1 - 1);
+ if (sz1 < 0)
+ return NULL;
+ w1[sz1] = 0;
+ handle = dlopenW(w1);
+ goto got_handle;
+ }
+ PyErr_Clear();
+#endif
+ if (!PyArg_ParseTuple(args, "et|i:load_library",
+ Py_FileSystemDefaultEncoding, &filename_or_null, &flags))
+ return NULL;
+#if PY_MAJOR_VERSION < 3
+ if (PyUnicode_Check(s))
+ {
+ s = PyUnicode_AsUTF8String(s);
+ if (s == NULL) {
+ PyMem_Free(filename_or_null);
+ return NULL;
+ }
+ *p_temp = s;
+ }
+#endif
+ *p_printable_filename = PyText_AsUTF8(s);
+ if (*p_printable_filename == NULL) {
+ PyMem_Free(filename_or_null);
+ return NULL;
+ }
+ }
+ if ((flags & (RTLD_NOW | RTLD_LAZY)) == 0)
+ flags |= RTLD_NOW;
+
+#ifdef MS_WIN32
+ if (filename_or_null == NULL) {
+ PyErr_SetString(PyExc_OSError, "dlopen(None) not supported on Windows");
+ return NULL;
+ }
+#endif
+
+ handle = dlopen(filename_or_null, flags);
+ PyMem_Free(filename_or_null);
+
+#ifdef MS_WIN32
+ got_handle:
+#endif
+ if (handle == NULL) {
+ const char *error = dlerror();
+ PyErr_Format(PyExc_OSError, "cannot load library '%s': %s",
+ *p_printable_filename, error);
+ return NULL;
+ }
+ return handle;
+}
+
+static PyObject *b_load_library(PyObject *self, PyObject *args)
+{
+ const char *printable_filename;
+ PyObject *temp;
+ void *handle;
+ DynLibObject *dlobj = NULL;
+ int auto_close;
+
+ handle = b_do_dlopen(args, &printable_filename, &temp, &auto_close);
+ if (handle == NULL)
+ goto error;
+
+ dlobj = PyObject_New(DynLibObject, &dl_type);
+ if (dlobj == NULL) {
+ dlclose(handle);
+ goto error;
+ }
+ dlobj->dl_handle = handle;
+ dlobj->dl_name = strdup(printable_filename);
+ dlobj->dl_auto_close = auto_close;
+
+ error:
+ Py_XDECREF(temp);
+ return (PyObject *)dlobj;
+}
+
+/************************************************************/
+
+static PyObject *get_unique_type(CTypeDescrObject *x,
+ const void *unique_key[], long keylength)
+{
+ /* Replace the CTypeDescrObject 'x' with a standardized one.
+ This either just returns x, or x is decrefed and a new reference
+ to the already-existing equivalent is returned.
+
+ In this function, 'x' always contains a reference that must be
+ either decrefed or returned.
+
+ Keys:
+ void ["void"]
+ primitive [&static_struct]
+ pointer [ctype]
+ array [ctype, length]
+ funcptr [ctresult, ellipsis+abi, num_args, ctargs...]
+ */
+ PyObject *key, *y, *res;
+ void *pkey;
+
+ key = PyBytes_FromStringAndSize(NULL, keylength * sizeof(void *));
+ if (key == NULL)
+ goto error;
+
+ pkey = PyBytes_AS_STRING(key);
+ memcpy(pkey, unique_key, keylength * sizeof(void *));
+
+ y = PyDict_GetItem(unique_cache, key);
+ if (y != NULL) {
+ Py_DECREF(key);
+ Py_INCREF(y);
+ Py_DECREF(x);
+ return y;
+ }
+ if (PyDict_SetItem(unique_cache, key, (PyObject *)x) < 0) {
+ Py_DECREF(key);
+ goto error;
+ }
+ /* Haaaack for our reference count hack: gcmodule.c must not see this
+ dictionary. The problem is that any PyDict_SetItem() notices that
+ 'x' is tracked and re-tracks the unique_cache dictionary. So here
+ we re-untrack it again... */
+ PyObject_GC_UnTrack(unique_cache);
+
+ assert(x->ct_unique_key == NULL);
+ x->ct_unique_key = key; /* the key will be freed in ctypedescr_dealloc() */
+ /* the 'value' in unique_cache doesn't count as 1, but don't use
+ Py_DECREF(x) here because it will confuse debug builds into thinking
+ there was an extra DECREF in total. */
+ res = (PyObject *)x;
+ Py_SET_REFCNT(res, Py_REFCNT(res) - 1);
+ return res;
+
+ error:
+ Py_DECREF(x);
+ return NULL;
+}
+
+/* according to the C standard, these types should be equivalent to the
+ _Complex types for the purposes of storage (not arguments in calls!) */
+typedef float cffi_float_complex_t[2];
+typedef double cffi_double_complex_t[2];
+
+static PyObject *new_primitive_type(const char *name)
+{
+#define ENUM_PRIMITIVE_TYPES \
+ EPTYPE(c, char, CT_PRIMITIVE_CHAR) \
+ EPTYPE(s, short, CT_PRIMITIVE_SIGNED ) \
+ EPTYPE(i, int, CT_PRIMITIVE_SIGNED ) \
+ EPTYPE(l, long, CT_PRIMITIVE_SIGNED ) \
+ EPTYPE(ll, long long, CT_PRIMITIVE_SIGNED ) \
+ EPTYPE(sc, signed char, CT_PRIMITIVE_SIGNED ) \
+ EPTYPE(uc, unsigned char, CT_PRIMITIVE_UNSIGNED ) \
+ EPTYPE(us, unsigned short, CT_PRIMITIVE_UNSIGNED ) \
+ EPTYPE(ui, unsigned int, CT_PRIMITIVE_UNSIGNED ) \
+ EPTYPE(ul, unsigned long, CT_PRIMITIVE_UNSIGNED ) \
+ EPTYPE(ull, unsigned long long, CT_PRIMITIVE_UNSIGNED ) \
+ EPTYPE(f, float, CT_PRIMITIVE_FLOAT ) \
+ EPTYPE(d, double, CT_PRIMITIVE_FLOAT ) \
+ EPTYPE(ld, long double, CT_PRIMITIVE_FLOAT | CT_IS_LONGDOUBLE ) \
+ EPTYPE2(fc, "float _Complex", cffi_float_complex_t, CT_PRIMITIVE_COMPLEX ) \
+ EPTYPE2(dc, "double _Complex", cffi_double_complex_t, CT_PRIMITIVE_COMPLEX ) \
+ ENUM_PRIMITIVE_TYPES_WCHAR \
+ EPTYPE2(c16, "char16_t", cffi_char16_t, CT_PRIMITIVE_CHAR ) \
+ EPTYPE2(c32, "char32_t", cffi_char32_t, CT_PRIMITIVE_CHAR ) \
+ EPTYPE(b, _Bool, CT_PRIMITIVE_UNSIGNED | CT_IS_BOOL ) \
+ /* the following types are not primitive in the C sense */ \
+ EPTYPE(i8, int8_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(u8, uint8_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(i16, int16_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(u16, uint16_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(i32, int32_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(u32, uint32_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(i64, int64_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(u64, uint64_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(il8, int_least8_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(ul8, uint_least8_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(il16, int_least16_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(ul16, uint_least16_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(il32, int_least32_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(ul32, uint_least32_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(il64, int_least64_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(ul64, uint_least64_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(if8, int_fast8_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(uf8, uint_fast8_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(if16, int_fast16_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(uf16, uint_fast16_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(if32, int_fast32_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(uf32, uint_fast32_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(if64, int_fast64_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(uf64, uint_fast64_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(ip, intptr_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(up, uintptr_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(im, intmax_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(um, uintmax_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE(pd, ptrdiff_t, CT_PRIMITIVE_SIGNED) \
+ EPTYPE(sz, size_t, CT_PRIMITIVE_UNSIGNED) \
+ EPTYPE2(ssz, "ssize_t", Py_ssize_t, CT_PRIMITIVE_SIGNED)
+
+#ifdef HAVE_WCHAR_H
+# define ENUM_PRIMITIVE_TYPES_WCHAR \
+ EPTYPE(wc, wchar_t, CT_PRIMITIVE_CHAR | \
+ (((wchar_t)-1) > 0 ? 0 : CT_IS_SIGNED_WCHAR))
+#else
+# define ENUM_PRIMITIVE_TYPES_WCHAR /* nothing */
+#endif
+
+#define EPTYPE(code, typename, flags) EPTYPE2(code, #typename, typename, flags)
+
+#define EPTYPE2(code, export_name, typename, flags) \
+ struct aligncheck_##code { char x; typename y; };
+ ENUM_PRIMITIVE_TYPES
+#undef EPTYPE2
+
+ CTypeDescrObject *td;
+ static const struct descr_s { const char *name; int size, align, flags; }
+ types[] = {
+#define EPTYPE2(code, export_name, typename, flags) \
+ { export_name, \
+ sizeof(typename), \
+ offsetof(struct aligncheck_##code, y), \
+ flags \
+ },
+ ENUM_PRIMITIVE_TYPES
+#undef EPTYPE2
+#undef EPTYPE
+#undef ENUM_PRIMITIVE_TYPES_WCHAR
+#undef ENUM_PRIMITIVE_TYPES
+ { NULL }
+ };
+ const struct descr_s *ptypes;
+ const void *unique_key[1];
+ int name_size;
+ ffi_type *ffitype;
+
+ for (ptypes=types; ; ptypes++) {
+ if (ptypes->name == NULL) {
+#ifndef HAVE_WCHAR_H
+ if (strcmp(name, "wchar_t"))
+ PyErr_SetString(PyExc_NotImplementedError, name);
+ else
+#endif
+ PyErr_SetString(PyExc_KeyError, name);
+ return NULL;
+ }
+ if (strcmp(name, ptypes->name) == 0)
+ break;
+ }
+
+ if (ptypes->flags & CT_PRIMITIVE_SIGNED) {
+ switch (ptypes->size) {
+ case 1: ffitype = &ffi_type_sint8; break;
+ case 2: ffitype = &ffi_type_sint16; break;
+ case 4: ffitype = &ffi_type_sint32; break;
+ case 8: ffitype = &ffi_type_sint64; break;
+ default: goto bad_ffi_type;
+ }
+ }
+ else if (ptypes->flags & CT_PRIMITIVE_FLOAT) {
+ if (strcmp(ptypes->name, "float") == 0)
+ ffitype = &ffi_type_float;
+ else if (strcmp(ptypes->name, "double") == 0)
+ ffitype = &ffi_type_double;
+ else if (strcmp(ptypes->name, "long double") == 0) {
+ /* assume that if sizeof(double) == sizeof(long double), then
+ the two types are equivalent for C. libffi bugs on Win64
+ if a function's return type is ffi_type_longdouble... */
+ if (sizeof(double) == sizeof(long double))
+ ffitype = &ffi_type_double;
+ else
+ ffitype = &ffi_type_longdouble;
+ }
+ else
+ goto bad_ffi_type;
+ }
+ else if (ptypes->flags & CT_PRIMITIVE_COMPLEX) {
+ /* As of March 2017, still no libffi support for complex.
+ It fails silently if we try to use ffi_type_complex_float
+ or ffi_type_complex_double. Better not use it at all.
+ */
+ ffitype = NULL;
+ }
+ else {
+ switch (ptypes->size) {
+ case 1: ffitype = &ffi_type_uint8; break;
+ case 2: ffitype = &ffi_type_uint16; break;
+ case 4: ffitype = &ffi_type_uint32; break;
+ case 8: ffitype = &ffi_type_uint64; break;
+ default: goto bad_ffi_type;
+ }
+ }
+
+ name_size = strlen(ptypes->name) + 1;
+ td = ctypedescr_new(name_size);
+ if (td == NULL)
+ return NULL;
+
+ memcpy(td->ct_name, name, name_size);
+ td->ct_size = ptypes->size;
+ td->ct_length = ptypes->align;
+ td->ct_extra = ffitype;
+ td->ct_flags = ptypes->flags;
+ if (td->ct_flags & (CT_PRIMITIVE_SIGNED | CT_PRIMITIVE_CHAR)) {
+ if (td->ct_size <= (Py_ssize_t)sizeof(long))
+ td->ct_flags |= CT_PRIMITIVE_FITS_LONG;
+ }
+ else if (td->ct_flags & CT_PRIMITIVE_UNSIGNED) {
+ if (td->ct_size < (Py_ssize_t)sizeof(long))
+ td->ct_flags |= CT_PRIMITIVE_FITS_LONG;
+ }
+ td->ct_name_position = strlen(td->ct_name);
+ unique_key[0] = ptypes;
+ return get_unique_type(td, unique_key, 1);
+
+ bad_ffi_type:
+ PyErr_Format(PyExc_NotImplementedError,
+ "primitive type '%s' has size %d; "
+ "the supported sizes are 1, 2, 4, 8",
+ name, (int)ptypes->size);
+ return NULL;
+}
+
+static PyObject *b_new_primitive_type(PyObject *self, PyObject *args)
+{
+ char *name;
+ if (!PyArg_ParseTuple(args, "s:new_primitive_type", &name))
+ return NULL;
+ return new_primitive_type(name);
+}
+
+static PyObject *new_pointer_type(CTypeDescrObject *ctitem)
+{
+ CTypeDescrObject *td;
+ const char *extra;
+ const void *unique_key[1];
+
+ if (ctitem->ct_flags & CT_ARRAY)
+ extra = "(*)"; /* obscure case: see test_array_add */
+ else
+ extra = " *";
+ td = ctypedescr_new_on_top(ctitem, extra, 2);
+ if (td == NULL)
+ return NULL;
+
+ td->ct_size = sizeof(void *);
+ td->ct_length = -1;
+ td->ct_flags = CT_POINTER;
+ if (ctitem->ct_flags & (CT_STRUCT|CT_UNION))
+ td->ct_flags |= CT_IS_PTR_TO_OWNED;
+ if (ctitem->ct_flags & CT_VOID)
+ td->ct_flags |= CT_IS_VOID_PTR;
+ if ((ctitem->ct_flags & CT_VOID) ||
+ ((ctitem->ct_flags & CT_PRIMITIVE_CHAR) &&
+ ctitem->ct_size == sizeof(char)))
+ td->ct_flags |= CT_IS_VOIDCHAR_PTR; /* 'void *' or 'char *' only */
+ unique_key[0] = ctitem;
+ return get_unique_type(td, unique_key, 1);
+}
+
+static PyObject *b_new_pointer_type(PyObject *self, PyObject *args)
+{
+ CTypeDescrObject *ctitem;
+ if (!PyArg_ParseTuple(args, "O!:new_pointer_type",
+ &CTypeDescr_Type, &ctitem))
+ return NULL;
+ return new_pointer_type(ctitem);
+}
+
+static PyObject *b_new_array_type(PyObject *self, PyObject *args)
+{
+ PyObject *lengthobj;
+ Py_ssize_t length;
+ CTypeDescrObject *ctptr;
+
+ if (!PyArg_ParseTuple(args, "O!O:new_array_type",
+ &CTypeDescr_Type, &ctptr, &lengthobj))
+ return NULL;
+
+ if (lengthobj == Py_None) {
+ length = -1;
+ }
+ else {
+ length = PyNumber_AsSsize_t(lengthobj, PyExc_OverflowError);
+ if (length < 0) {
+ if (!PyErr_Occurred())
+ PyErr_SetString(PyExc_ValueError, "negative array length");
+ return NULL;
+ }
+ }
+ return new_array_type(ctptr, length);
+}
+
+static PyObject *
+new_array_type(CTypeDescrObject *ctptr, Py_ssize_t length)
+{
+ CTypeDescrObject *td, *ctitem;
+ char extra_text[32];
+ Py_ssize_t arraysize;
+ int flags = CT_ARRAY;
+ const void *unique_key[2];
+
+ if (!(ctptr->ct_flags & CT_POINTER)) {
+ PyErr_SetString(PyExc_TypeError, "first arg must be a pointer ctype");
+ return NULL;
+ }
+ ctitem = ctptr->ct_itemdescr;
+ if (ctitem->ct_size < 0) {
+ PyErr_Format(PyExc_ValueError, "array item of unknown size: '%s'",
+ ctitem->ct_name);
+ return NULL;
+ }
+
+ if (length < 0) {
+ sprintf(extra_text, "[]");
+ length = -1;
+ arraysize = -1;
+ }
+ else {
+ sprintf(extra_text, "[%llu]", (unsigned PY_LONG_LONG)length);
+ arraysize = MUL_WRAPAROUND(length, ctitem->ct_size);
+ if (length > 0 && (arraysize / length) != ctitem->ct_size) {
+ PyErr_SetString(PyExc_OverflowError,
+ "array size would overflow a Py_ssize_t");
+ return NULL;
+ }
+ }
+ td = ctypedescr_new_on_top(ctitem, extra_text, 0);
+ if (td == NULL)
+ return NULL;
+
+ Py_INCREF(ctptr);
+ td->ct_stuff = (PyObject *)ctptr;
+ td->ct_size = arraysize;
+ td->ct_length = length;
+ td->ct_flags = flags;
+ unique_key[0] = ctptr;
+ unique_key[1] = (void *)length;
+ return get_unique_type(td, unique_key, 2);
+}
+
+static PyObject *new_void_type(void)
+{
+ int name_size = strlen("void") + 1;
+ const void *unique_key[1];
+ CTypeDescrObject *td = ctypedescr_new(name_size);
+ if (td == NULL)
+ return NULL;
+
+ memcpy(td->ct_name, "void", name_size);
+ td->ct_size = -1;
+ td->ct_flags = CT_VOID | CT_IS_OPAQUE;
+ td->ct_name_position = strlen("void");
+ unique_key[0] = "void";
+ return get_unique_type(td, unique_key, 1);
+}
+
+static PyObject *b_new_void_type(PyObject *self, PyObject *args)
+{
+ return new_void_type();
+}
+
+static PyObject *new_struct_or_union_type(const char *name, int flag)
+{
+ int namelen = strlen(name);
+ CTypeDescrObject *td = ctypedescr_new(namelen + 1);
+ if (td == NULL)
+ return NULL;
+
+ td->ct_size = -1;
+ td->ct_length = -1;
+ td->ct_flags = flag | CT_IS_OPAQUE;
+ td->ct_extra = NULL;
+ memcpy(td->ct_name, name, namelen + 1);
+ td->ct_name_position = namelen;
+ return (PyObject *)td;
+}
+
+static PyObject *b_new_struct_type(PyObject *self, PyObject *args)
+{
+ char *name;
+ int flag;
+ if (!PyArg_ParseTuple(args, "s:new_struct_type", &name))
+ return NULL;
+
+ flag = CT_STRUCT;
+ if (strcmp(name, "struct _IO_FILE") == 0 || strcmp(name, "FILE") == 0)
+ flag |= CT_IS_FILE;
+ return new_struct_or_union_type(name, flag);
+}
+
+static PyObject *b_new_union_type(PyObject *self, PyObject *args)
+{
+ char *name;
+ if (!PyArg_ParseTuple(args, "s:new_union_type", &name))
+ return NULL;
+ return new_struct_or_union_type(name, CT_UNION);
+}
+
+static CFieldObject *
+_add_field(PyObject *interned_fields, PyObject *fname, CTypeDescrObject *ftype,
+ Py_ssize_t offset, int bitshift, int fbitsize, int flags)
+{
+ int err;
+ Py_ssize_t prev_size;
+ CFieldObject *cf = PyObject_New(CFieldObject, &CField_Type);
+ if (cf == NULL)
+ return NULL;
+
+ Py_INCREF(ftype);
+ cf->cf_type = ftype;
+ cf->cf_offset = offset;
+ cf->cf_bitshift = bitshift;
+ cf->cf_bitsize = fbitsize;
+ cf->cf_flags = flags;
+
+ Py_INCREF(fname);
+ PyText_InternInPlace(&fname);
+ prev_size = PyDict_Size(interned_fields);
+ err = PyDict_SetItem(interned_fields, fname, (PyObject *)cf);
+ Py_DECREF(fname);
+ Py_DECREF(cf);
+ if (err < 0)
+ return NULL;
+
+ if (PyDict_Size(interned_fields) != prev_size + 1) {
+ PyErr_Format(PyExc_KeyError, "duplicate field name '%s'",
+ PyText_AS_UTF8(fname));
+ return NULL;
+ }
+ return cf; /* borrowed reference */
+}
+
+#define SF_MSVC_BITFIELDS 0x01
+#define SF_GCC_ARM_BITFIELDS 0x02
+#define SF_GCC_X86_BITFIELDS 0x10
+
+#define SF_GCC_BIG_ENDIAN 0x04
+#define SF_GCC_LITTLE_ENDIAN 0x40
+
+#define SF_PACKED 0x08
+#define SF_STD_FIELD_POS 0x80
+
+#ifdef MS_WIN32
+# define SF_DEFAULT_PACKING 8
+#else
+# define SF_DEFAULT_PACKING 0x40000000 /* a huge power of two */
+#endif
+
+static int complete_sflags(int sflags)
+{
+ /* add one of the SF_xxx_BITFIELDS flags if none is specified */
+ if (!(sflags & (SF_MSVC_BITFIELDS | SF_GCC_ARM_BITFIELDS |
+ SF_GCC_X86_BITFIELDS))) {
+#ifdef MS_WIN32
+ sflags |= SF_MSVC_BITFIELDS;
+#else
+# if defined(__APPLE__) && defined(__arm64__)
+ sflags |= SF_GCC_X86_BITFIELDS;
+# elif defined(__arm__) || defined(__aarch64__)
+ sflags |= SF_GCC_ARM_BITFIELDS;
+# else
+ sflags |= SF_GCC_X86_BITFIELDS;
+# endif
+#endif
+ }
+ /* add one of SF_GCC_xx_ENDIAN if none is specified */
+ if (!(sflags & (SF_GCC_BIG_ENDIAN | SF_GCC_LITTLE_ENDIAN))) {
+ int _check_endian = 1;
+ if (*(char *)&_check_endian == 0)
+ sflags |= SF_GCC_BIG_ENDIAN;
+ else
+ sflags |= SF_GCC_LITTLE_ENDIAN;
+ }
+ return sflags;
+}
+
+static int detect_custom_layout(CTypeDescrObject *ct, int sflags,
+ Py_ssize_t cdef_value,
+ Py_ssize_t compiler_value,
+ const char *msg1, const char *txt,
+ const char *msg2)
+{
+ if (compiler_value != cdef_value) {
+ if (sflags & SF_STD_FIELD_POS) {
+ PyErr_Format(FFIError,
+ "%s: %s%s%s (cdef says %zd, but C compiler says %zd)."
+ " fix it or use \"...;\" as the last field in the "
+ "cdef for %s to make it flexible",
+ ct->ct_name, msg1, txt, msg2,
+ cdef_value, compiler_value,
+ ct->ct_name);
+ return -1;
+ }
+ ct->ct_flags |= CT_CUSTOM_FIELD_POS;
+ }
+ return 0;
+}
+
+#define ROUNDUP_BYTES(bytes, bits) ((bytes) + ((bits) > 0))
+
+static PyObject *b_complete_struct_or_union(PyObject *self, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ PyObject *fields, *interned_fields, *ignored;
+ int is_union, alignment;
+ Py_ssize_t byteoffset, i, nb_fields, byteoffsetmax, alignedsize;
+ int bitoffset;
+ Py_ssize_t byteoffsetorg;
+ Py_ssize_t totalsize = -1;
+ int totalalignment = -1;
+ CFieldObject **previous;
+ int prev_bitfield_size, prev_bitfield_free;
+ int sflags = 0, fflags;
+ int pack = 0;
+
+ if (!PyArg_ParseTuple(args, "O!O!|Oniii:complete_struct_or_union",
+ &CTypeDescr_Type, &ct,
+ &PyList_Type, &fields,
+ &ignored, &totalsize, &totalalignment, &sflags,
+ &pack))
+ return NULL;
+
+ sflags = complete_sflags(sflags);
+ if (sflags & SF_PACKED)
+ pack = 1;
+ else if (pack <= 0)
+ pack = SF_DEFAULT_PACKING;
+ else
+ sflags |= SF_PACKED;
+
+ if ((ct->ct_flags & (CT_STRUCT|CT_IS_OPAQUE)) ==
+ (CT_STRUCT|CT_IS_OPAQUE)) {
+ is_union = 0;
+ }
+ else if ((ct->ct_flags & (CT_UNION|CT_IS_OPAQUE)) ==
+ (CT_UNION|CT_IS_OPAQUE)) {
+ is_union = 1;
+ }
+ else {
+ PyErr_SetString(PyExc_TypeError,
+ "first arg must be a non-initialized struct or union ctype");
+ return NULL;
+ }
+ ct->ct_flags &= ~(CT_CUSTOM_FIELD_POS | CT_WITH_PACKED_CHANGE);
+
+ alignment = 1;
+ byteoffset = 0; /* the real value is 'byteoffset+bitoffset*8', which */
+ bitoffset = 0; /* counts the offset in bits */
+ byteoffsetmax = 0; /* the maximum value of byteoffset-rounded-up-to-byte */
+ prev_bitfield_size = 0;
+ prev_bitfield_free = 0;
+ nb_fields = PyList_GET_SIZE(fields);
+ interned_fields = PyDict_New();
+ if (interned_fields == NULL)
+ return NULL;
+
+ previous = (CFieldObject **)&ct->ct_extra;
+
+ for (i=0; i<nb_fields; i++) {
+ PyObject *fname;
+ CTypeDescrObject *ftype;
+ int fbitsize = -1, falign, falignorg, do_align;
+ Py_ssize_t foffset = -1;
+
+ if (!PyArg_ParseTuple(PyList_GET_ITEM(fields, i), "O!O!|in:list item",
+ &PyText_Type, &fname,
+ &CTypeDescr_Type, &ftype,
+ &fbitsize, &foffset))
+ goto error;
+
+ if (ftype->ct_size < 0) {
+ if ((ftype->ct_flags & CT_ARRAY) && fbitsize < 0
+ && (i == nb_fields - 1 || foffset != -1)) {
+ ct->ct_flags |= CT_WITH_VAR_ARRAY;
+ }
+ else {
+ PyErr_Format(PyExc_TypeError,
+ "field '%s.%s' has ctype '%s' of unknown size",
+ ct->ct_name, PyText_AS_UTF8(fname),
+ ftype->ct_name);
+ goto error;
+ }
+ }
+ else if (ftype->ct_flags & (CT_STRUCT|CT_UNION)) {
+ if (force_lazy_struct(ftype) < 0) /* for CT_WITH_VAR_ARRAY */
+ return NULL;
+
+ /* GCC (or maybe C99) accepts var-sized struct fields that are not
+ the last field of a larger struct. That's why there is no
+ check here for "last field": we propagate the flag
+ CT_WITH_VAR_ARRAY to any struct that contains either an open-
+ ended array or another struct that recursively contains an
+ open-ended array. */
+ if (ftype->ct_flags & CT_WITH_VAR_ARRAY)
+ ct->ct_flags |= CT_WITH_VAR_ARRAY;
+ }
+
+ if (is_union)
+ byteoffset = bitoffset = 0; /* reset each field at offset 0 */
+
+ /* update the total alignment requirement, but skip it if the
+ field is an anonymous bitfield or if SF_PACKED */
+ falignorg = get_alignment(ftype);
+ if (falignorg < 0)
+ goto error;
+ falign = (pack < falignorg) ? pack : falignorg;
+
+ do_align = 1;
+ if (!(sflags & SF_GCC_ARM_BITFIELDS) && fbitsize >= 0) {
+ if (!(sflags & SF_MSVC_BITFIELDS)) {
+ /* GCC: anonymous bitfields (of any size) don't cause alignment */
+ do_align = PyText_GetSize(fname) > 0;
+ }
+ else {
+ /* MSVC: zero-sized bitfields don't cause alignment */
+ do_align = fbitsize > 0;
+ }
+ }
+ if (alignment < falign && do_align)
+ alignment = falign;
+
+ fflags = (is_union && i > 0) ? BF_IGNORE_IN_CTOR : 0;
+
+ if (fbitsize < 0) {
+ /* not a bitfield: common case */
+ int bs_flag;
+
+ if ((ftype->ct_flags & CT_ARRAY) && ftype->ct_length <= 0)
+ bs_flag = BS_EMPTY_ARRAY;
+ else
+ bs_flag = BS_REGULAR;
+
+ /* align this field to its own 'falign' by inserting padding */
+
+ /* first, pad to the next byte,
+ * then pad to 'falign' or 'falignorg' bytes */
+ byteoffset = ROUNDUP_BYTES(byteoffset, bitoffset);
+ bitoffset = 0;
+ byteoffsetorg = (byteoffset + falignorg-1) & ~(falignorg-1);
+ byteoffset = (byteoffset + falign-1) & ~(falign-1);
+
+ if (byteoffsetorg != byteoffset) {
+ ct->ct_flags |= CT_WITH_PACKED_CHANGE;
+ }
+
+ if (foffset >= 0) {
+ /* a forced field position: ignore the offset just computed,
+ except to know if we must set CT_CUSTOM_FIELD_POS */
+ if (detect_custom_layout(ct, sflags, byteoffset, foffset,
+ "wrong offset for field '",
+ PyText_AS_UTF8(fname), "'") < 0)
+ goto error;
+ byteoffset = foffset;
+ }
+
+ if (PyText_GetSize(fname) == 0 &&
+ ftype->ct_flags & (CT_STRUCT|CT_UNION)) {
+ /* a nested anonymous struct or union */
+ CFieldObject *cfsrc = (CFieldObject *)ftype->ct_extra;
+ for (; cfsrc != NULL; cfsrc = cfsrc->cf_next) {
+ /* broken complexity in the call to get_field_name(),
+ but we'll assume you never do that with nested
+ anonymous structures with thousand of fields */
+ *previous = _add_field(interned_fields,
+ get_field_name(ftype, cfsrc),
+ cfsrc->cf_type,
+ byteoffset + cfsrc->cf_offset,
+ cfsrc->cf_bitshift,
+ cfsrc->cf_bitsize,
+ cfsrc->cf_flags | fflags);
+ if (*previous == NULL)
+ goto error;
+ previous = &(*previous)->cf_next;
+ }
+ /* always forbid such structures from being passed by value */
+ ct->ct_flags |= CT_CUSTOM_FIELD_POS;
+ }
+ else {
+ *previous = _add_field(interned_fields, fname, ftype,
+ byteoffset, bs_flag, -1, fflags);
+ if (*previous == NULL)
+ goto error;
+ previous = &(*previous)->cf_next;
+ }
+ if (ftype->ct_size >= 0)
+ byteoffset += ftype->ct_size;
+ prev_bitfield_size = 0;
+ }
+ else {
+ /* this is the case of a bitfield */
+ Py_ssize_t field_offset_bytes;
+ int bits_already_occupied, bitshift;
+
+ if (foffset >= 0) {
+ PyErr_Format(PyExc_TypeError,
+ "field '%s.%s' is a bitfield, "
+ "but a fixed offset is specified",
+ ct->ct_name, PyText_AS_UTF8(fname));
+ goto error;
+ }
+
+ if (!(ftype->ct_flags & (CT_PRIMITIVE_SIGNED |
+ CT_PRIMITIVE_UNSIGNED |
+ CT_PRIMITIVE_CHAR))) {
+ PyErr_Format(PyExc_TypeError,
+ "field '%s.%s' declared as '%s' cannot be a bit field",
+ ct->ct_name, PyText_AS_UTF8(fname),
+ ftype->ct_name);
+ goto error;
+ }
+ if (fbitsize > 8 * ftype->ct_size) {
+ PyErr_Format(PyExc_TypeError,
+ "bit field '%s.%s' is declared '%s:%d', which "
+ "exceeds the width of the type",
+ ct->ct_name, PyText_AS_UTF8(fname),
+ ftype->ct_name, fbitsize);
+ goto error;
+ }
+
+ /* compute the starting position of the theoretical field
+ that covers a complete 'ftype', inside of which we will
+ locate the real bitfield */
+ field_offset_bytes = byteoffset;
+ field_offset_bytes &= ~(falign - 1);
+
+ if (fbitsize == 0) {
+ if (PyText_GetSize(fname) > 0) {
+ PyErr_Format(PyExc_TypeError,
+ "field '%s.%s' is declared with :0",
+ ct->ct_name, PyText_AS_UTF8(fname));
+ goto error;
+ }
+ if (!(sflags & SF_MSVC_BITFIELDS)) {
+ /* GCC's notion of "ftype :0;" */
+
+ /* pad byteoffset to a value aligned for "ftype" */
+ if (ROUNDUP_BYTES(byteoffset, bitoffset) > field_offset_bytes) {
+ field_offset_bytes += falign;
+ assert(byteoffset < field_offset_bytes);
+ }
+ byteoffset = field_offset_bytes;
+ bitoffset = 0;
+ }
+ else {
+ /* MSVC's notion of "ftype :0;" */
+
+ /* Mostly ignored. It seems they only serve as
+ separator between other bitfields, to force them
+ into separate words. */
+ }
+ prev_bitfield_size = 0;
+ }
+ else {
+ if (!(sflags & SF_MSVC_BITFIELDS)) {
+ /* GCC's algorithm */
+
+ /* Can the field start at the offset given by 'boffset'? It
+ can if it would entirely fit into an aligned ftype field. */
+ bits_already_occupied = (byteoffset-field_offset_bytes) * 8
+ + bitoffset;
+
+ if (bits_already_occupied + fbitsize > 8 * ftype->ct_size) {
+ /* it would not fit, we need to start at the next
+ allowed position */
+ if ((sflags & SF_PACKED) &&
+ (bits_already_occupied & 7)) {
+ PyErr_Format(PyExc_NotImplementedError,
+ "with 'packed', gcc would compile field "
+ "'%s.%s' to reuse some bits in the previous "
+ "field", ct->ct_name, PyText_AS_UTF8(fname));
+ goto error;
+ }
+ field_offset_bytes += falign;
+ assert(byteoffset < field_offset_bytes);
+ byteoffset = field_offset_bytes;
+ bitoffset = 0;
+ bitshift = 0;
+ }
+ else {
+ bitshift = bits_already_occupied;
+ assert(bitshift >= 0);
+ }
+ bitoffset += fbitsize;
+ byteoffset += (bitoffset >> 3);
+ bitoffset &= 7;
+ }
+ else {
+ /* MSVC's algorithm */
+
+ /* A bitfield is considered as taking the full width
+ of their declared type. It can share some bits
+ with the previous field only if it was also a
+ bitfield and used a type of the same size. */
+ if (prev_bitfield_size == ftype->ct_size &&
+ prev_bitfield_free >= fbitsize) {
+ /* yes: reuse */
+ bitshift = 8 * prev_bitfield_size - prev_bitfield_free;
+ }
+ else {
+ /* no: start a new full field */
+ byteoffset = ROUNDUP_BYTES(byteoffset, bitoffset);
+ bitoffset = 0;
+ /* align */
+ byteoffset = (byteoffset + falign-1) & ~(falign-1);
+ byteoffset += ftype->ct_size;
+ bitshift = 0;
+ prev_bitfield_size = ftype->ct_size;
+ prev_bitfield_free = 8 * prev_bitfield_size;
+ }
+ prev_bitfield_free -= fbitsize;
+ field_offset_bytes = byteoffset - ftype->ct_size;
+ }
+ if (sflags & SF_GCC_BIG_ENDIAN)
+ bitshift = 8 * ftype->ct_size - fbitsize - bitshift;
+
+ if (PyText_GetSize(fname) > 0) {
+
+ *previous = _add_field(interned_fields, fname, ftype,
+ field_offset_bytes, bitshift, fbitsize,
+ fflags);
+ if (*previous == NULL)
+ goto error;
+ previous = &(*previous)->cf_next;
+ }
+ }
+ }
+
+ assert(bitoffset == (bitoffset & 7));
+ if (ROUNDUP_BYTES(byteoffset, bitoffset) > byteoffsetmax)
+ byteoffsetmax = ROUNDUP_BYTES(byteoffset, bitoffset);
+ }
+ *previous = NULL;
+
+ /* Like C, if the size of this structure would be zero, we compute it
+ as 1 instead. But for ctypes support, we allow the manually-
+ specified totalsize to be zero in this case. */
+ alignedsize = (byteoffsetmax + alignment - 1) & ~(alignment-1);
+ if (alignedsize == 0)
+ alignedsize = 1;
+
+ if (totalsize < 0) {
+ totalsize = alignedsize;
+ }
+ else {
+ if (detect_custom_layout(ct, sflags, alignedsize,
+ totalsize, "wrong total size", "", "") < 0)
+ goto error;
+ if (totalsize < byteoffsetmax) {
+ PyErr_Format(PyExc_TypeError,
+ "%s cannot be of size %zd: there are fields at least "
+ "up to %zd", ct->ct_name, totalsize, byteoffsetmax);
+ goto error;
+ }
+ }
+ if (totalalignment < 0) {
+ totalalignment = alignment;
+ }
+ else {
+ if (detect_custom_layout(ct, sflags, alignment, totalalignment,
+ "wrong total alignment", "", "") < 0)
+ goto error;
+ }
+
+ ct->ct_size = totalsize;
+ ct->ct_length = totalalignment;
+ ct->ct_stuff = interned_fields;
+ ct->ct_flags &= ~CT_IS_OPAQUE;
+
+ Py_INCREF(Py_None);
+ return Py_None;
+
+ error:
+ ct->ct_extra = NULL;
+ Py_DECREF(interned_fields);
+ return NULL;
+}
+
+struct funcbuilder_s {
+ Py_ssize_t nb_bytes;
+ char *bufferp;
+ ffi_type **atypes;
+ ffi_type *rtype;
+ Py_ssize_t nargs;
+ CTypeDescrObject *fct;
+};
+
+static void *fb_alloc(struct funcbuilder_s *fb, Py_ssize_t size)
+{
+ if (fb->bufferp == NULL) {
+ fb->nb_bytes += size;
+ return NULL;
+ }
+ else {
+ char *result = fb->bufferp;
+ fb->bufferp += size;
+ return result;
+ }
+}
+
+#define SUPPORTED_IN_API_MODE \
+ " are only supported as %s if the function is " \
+ "'API mode' and non-variadic (i.e. declared inside ffibuilder" \
+ ".cdef()+ffibuilder.set_source() and not taking a final '...' " \
+ "argument)"
+
+static ffi_type *fb_unsupported(CTypeDescrObject *ct, const char *place,
+ const char *detail)
+{
+ PyErr_Format(PyExc_NotImplementedError,
+ "ctype '%s' not supported as %s. %s. "
+ "Such structs" SUPPORTED_IN_API_MODE,
+ ct->ct_name, place, detail, place);
+ return NULL;
+}
+
+static ffi_type *fb_fill_type(struct funcbuilder_s *fb, CTypeDescrObject *ct,
+ int is_result_type)
+{
+ const char *place = is_result_type ? "return value" : "argument";
+
+ if (ct->ct_flags & (CT_PRIMITIVE_ANY & ~CT_PRIMITIVE_COMPLEX)) {
+ return (ffi_type *)ct->ct_extra;
+ }
+ else if (ct->ct_flags & (CT_POINTER|CT_FUNCTIONPTR)) {
+ return &ffi_type_pointer;
+ }
+ else if ((ct->ct_flags & CT_VOID) && is_result_type) {
+ return &ffi_type_void;
+ }
+
+ if (ct->ct_size <= 0) {
+ PyErr_Format(PyExc_TypeError,
+ ct->ct_size < 0 ? "ctype '%s' has incomplete type"
+ : "ctype '%s' has size 0",
+ ct->ct_name);
+ return NULL;
+ }
+ if (ct->ct_flags & CT_STRUCT) {
+ ffi_type *ffistruct, *ffifield;
+ ffi_type **elements;
+ Py_ssize_t i, n, nflat;
+ CFieldObject *cf;
+
+ /* We can't pass a struct that was completed by verify().
+ Issue: assume verify() is given "struct { long b; ...; }".
+ Then it will complete it in the same way whether it is actually
+ "struct { long a, b; }" or "struct { double a; long b; }".
+ But on 64-bit UNIX, these two structs are passed by value
+ differently: e.g. on x86-64, "b" ends up in register "rsi" in
+ the first case and "rdi" in the second case.
+
+ Another reason for CT_CUSTOM_FIELD_POS would be anonymous
+ nested structures: we lost the information about having it
+ here, so better safe (and forbid it) than sorry (and maybe
+ crash). Note: it seems we only get in this case with
+ ffi.verify().
+ */
+ if (force_lazy_struct(ct) < 0)
+ return NULL;
+ if (ct->ct_flags & CT_CUSTOM_FIELD_POS) {
+ /* these NotImplementedErrors may be caught and ignored until
+ a real call is made to a function of this type */
+ return fb_unsupported(ct, place,
+ "It is a struct declared with \"...;\", but the C "
+ "calling convention may depend on the missing fields; "
+ "or, it contains anonymous struct/unions");
+ }
+ /* Another reason: __attribute__((packed)) is not supported by libffi.
+ */
+ if (ct->ct_flags & CT_WITH_PACKED_CHANGE) {
+ return fb_unsupported(ct, place,
+ "It is a 'packed' structure, with a different layout than "
+ "expected by libffi");
+ }
+
+ n = PyDict_Size(ct->ct_stuff);
+ nflat = 0;
+
+ /* walk the fields, expanding arrays into repetitions; first,
+ only count how many flattened fields there are */
+ cf = (CFieldObject *)ct->ct_extra;
+ for (i=0; i<n; i++) {
+ Py_ssize_t flat;
+ CTypeDescrObject *ct1;
+ assert(cf != NULL);
+ if (cf->cf_bitshift >= 0) {
+ return fb_unsupported(ct, place,
+ "It is a struct with bit fields, which libffi does not "
+ "support");
+ }
+ flat = 1;
+ ct1 = cf->cf_type;
+ while (ct1->ct_flags & CT_ARRAY) {
+ flat *= ct1->ct_length;
+ ct1 = ct1->ct_itemdescr;
+ }
+ if (flat <= 0) {
+ return fb_unsupported(ct, place,
+ "It is a struct with a zero-length array, which libffi "
+ "does not support");
+ }
+ nflat += flat;
+ cf = cf->cf_next;
+ }
+ assert(cf == NULL);
+
+ /* next, allocate and fill the flattened list */
+ elements = fb_alloc(fb, (nflat + 1) * sizeof(ffi_type*));
+ nflat = 0;
+ cf = (CFieldObject *)ct->ct_extra;
+ for (i=0; i<n; i++) {
+ Py_ssize_t j, flat = 1;
+ CTypeDescrObject *ct = cf->cf_type;
+ while (ct->ct_flags & CT_ARRAY) {
+ flat *= ct->ct_length;
+ ct = ct->ct_itemdescr;
+ }
+ ffifield = fb_fill_type(fb, ct, 0);
+ if (PyErr_Occurred())
+ return NULL;
+ if (elements != NULL) {
+ for (j=0; j<flat; j++)
+ elements[nflat++] = ffifield;
+ }
+ cf = cf->cf_next;
+ }
+
+ /* finally, allocate the FFI_TYPE_STRUCT */
+ ffistruct = fb_alloc(fb, sizeof(ffi_type));
+ if (ffistruct != NULL) {
+ elements[nflat] = NULL;
+ ffistruct->size = ct->ct_size;
+ ffistruct->alignment = ct->ct_length;
+ ffistruct->type = FFI_TYPE_STRUCT;
+ ffistruct->elements = elements;
+ }
+ return ffistruct;
+ }
+ else if (ct->ct_flags & CT_UNION) {
+ PyErr_Format(PyExc_NotImplementedError,
+ "ctype '%s' not supported as %s by libffi. "
+ "Unions" SUPPORTED_IN_API_MODE,
+ ct->ct_name, place, place);
+ return NULL;
+ }
+ else {
+ char *extra = "";
+ if (ct->ct_flags & CT_PRIMITIVE_COMPLEX)
+ extra = " (the support for complex types inside libffi "
+ "is mostly missing at this point, so CFFI only "
+ "supports complex types as arguments or return "
+ "value in API-mode functions)";
+
+ PyErr_Format(PyExc_NotImplementedError,
+ "ctype '%s' (size %zd) not supported as %s%s",
+ ct->ct_name, ct->ct_size, place, extra);
+ return NULL;
+ }
+}
+
+#define ALIGN_TO(n, a) ((n) + ((a)-1)) & ~((a)-1)
+#define ALIGN_ARG(n) ALIGN_TO(n, 8)
+
+static int fb_build(struct funcbuilder_s *fb, PyObject *fargs,
+ CTypeDescrObject *fresult)
+{
+ Py_ssize_t i, nargs = PyTuple_GET_SIZE(fargs);
+ Py_ssize_t exchange_offset;
+ cif_description_t *cif_descr;
+
+ /* ffi buffer: start with a cif_description */
+ cif_descr = fb_alloc(fb, sizeof(cif_description_t) +
+ nargs * sizeof(Py_ssize_t));
+
+ /* ffi buffer: next comes an array of 'ffi_type*', one per argument */
+ fb->atypes = fb_alloc(fb, nargs * sizeof(ffi_type*));
+ fb->nargs = nargs;
+
+ /* ffi buffer: next comes the result type */
+ fb->rtype = fb_fill_type(fb, fresult, 1);
+ if (PyErr_Occurred())
+ return -1;
+ if (cif_descr != NULL) {
+ /* exchange data size */
+ /* first, enough room for an array of 'nargs' pointers */
+ exchange_offset = nargs * sizeof(void*);
+ /* then enough room for the result --- which means at least
+ sizeof(ffi_arg), according to the ffi docs, but we also
+ align according to the result type, for issue #531 */
+ exchange_offset = ALIGN_TO(exchange_offset, fb->rtype->alignment);
+ exchange_offset = ALIGN_ARG(exchange_offset);
+ cif_descr->exchange_offset_arg[0] = exchange_offset;
+ i = fb->rtype->size;
+ if (i < (Py_ssize_t)sizeof(ffi_arg))
+ i = sizeof(ffi_arg);
+ exchange_offset += i;
+ }
+ else
+ exchange_offset = 0; /* not used */
+
+ /* loop over the arguments */
+ for (i=0; i<nargs; i++) {
+ CTypeDescrObject *farg;
+ ffi_type *atype;
+
+ farg = (CTypeDescrObject *)PyTuple_GET_ITEM(fargs, i);
+ /* convert arrays to pointers */
+ if (farg->ct_flags & CT_ARRAY)
+ farg = (CTypeDescrObject *)farg->ct_stuff;
+
+ /* ffi buffer: fill in the ffi for the i'th argument */
+ assert(farg != NULL);
+ atype = fb_fill_type(fb, farg, 0);
+ if (PyErr_Occurred())
+ return -1;
+
+ if (fb->atypes != NULL) {
+ fb->atypes[i] = atype;
+ /* exchange data size */
+ exchange_offset = ALIGN_TO(exchange_offset, atype->alignment);
+ exchange_offset = ALIGN_ARG(exchange_offset);
+ cif_descr->exchange_offset_arg[1 + i] = exchange_offset;
+ exchange_offset += atype->size;
+ }
+ }
+
+ if (cif_descr != NULL) {
+ /* exchange data size */
+ /* we also align it to the next multiple of 8, in an attempt to
+ work around bugs(?) of libffi like #241 */
+ cif_descr->exchange_size = ALIGN_ARG(exchange_offset);
+ }
+ return 0;
+}
+
+#undef ALIGN_ARG
+#undef ALIGN_TO
+
+static void fb_cat_name(struct funcbuilder_s *fb, const char *piece,
+ int piecelen)
+{
+ if (fb->bufferp == NULL) {
+ fb->nb_bytes += piecelen;
+ }
+ else {
+ memcpy(fb->bufferp, piece, piecelen);
+ fb->bufferp += piecelen;
+ }
+}
+
+static int fb_build_name(struct funcbuilder_s *fb, const char *repl,
+ CTypeDescrObject **pfargs, Py_ssize_t nargs,
+ CTypeDescrObject *fresult, int ellipsis)
+{
+ Py_ssize_t i;
+ fb->nargs = nargs;
+
+ /* name: the function type name we build here is, like in C, made
+ as follows:
+
+ RESULT_TYPE_HEAD (*)(ARG_1_TYPE, ARG_2_TYPE, etc) RESULT_TYPE_TAIL
+ */
+ fb_cat_name(fb, fresult->ct_name, fresult->ct_name_position);
+ if (repl[0] != '(' &&
+ fresult->ct_name[fresult->ct_name_position - 1] != '*')
+ fb_cat_name(fb, " ", 1); /* add a space */
+ fb_cat_name(fb, repl, strlen(repl));
+ if (fb->fct) {
+ i = strlen(repl) - 1; /* between '(*' and ')' */
+ assert(repl[i] == ')');
+ fb->fct->ct_name_position = fresult->ct_name_position + i;
+ }
+ fb_cat_name(fb, "(", 1);
+
+ /* loop over the arguments */
+ for (i=0; i<nargs; i++) {
+ CTypeDescrObject *farg;
+
+ farg = pfargs[i];
+ if (!CTypeDescr_Check(farg)) {
+ PyErr_SetString(PyExc_TypeError, "expected a tuple of ctypes");
+ return -1;
+ }
+ /* name: concatenate the name of the i'th argument's type */
+ if (i > 0)
+ fb_cat_name(fb, ", ", 2);
+ fb_cat_name(fb, farg->ct_name, strlen(farg->ct_name));
+ }
+
+ /* name: add the '...' if needed */
+ if (ellipsis) {
+ if (nargs > 0)
+ fb_cat_name(fb, ", ", 2);
+ fb_cat_name(fb, "...", 3);
+ }
+
+ /* name: concatenate the tail of the result type */
+ fb_cat_name(fb, ")", 1);
+ fb_cat_name(fb, fresult->ct_name + fresult->ct_name_position,
+ strlen(fresult->ct_name) - fresult->ct_name_position + 1);
+ return 0;
+}
+
+static CTypeDescrObject *fb_prepare_ctype(struct funcbuilder_s *fb,
+ PyObject *fargs,
+ CTypeDescrObject *fresult,
+ int ellipsis, int fabi)
+{
+ CTypeDescrObject *fct, **pfargs;
+ Py_ssize_t nargs;
+ char *repl = "(*)";
+
+ fb->nb_bytes = 0;
+ fb->bufferp = NULL;
+ fb->fct = NULL;
+
+ pfargs = (CTypeDescrObject **)&PyTuple_GET_ITEM(fargs, 0);
+ nargs = PyTuple_GET_SIZE(fargs);
+#if defined(MS_WIN32) && !defined(_WIN64)
+ if (fabi == FFI_STDCALL)
+ repl = "(__stdcall *)";
+#endif
+
+ /* compute the total size needed for the name */
+ if (fb_build_name(fb, repl, pfargs, nargs, fresult, ellipsis) < 0)
+ return NULL;
+
+ /* allocate the function type */
+ fct = ctypedescr_new(fb->nb_bytes);
+ if (fct == NULL)
+ return NULL;
+ fb->fct = fct;
+
+ /* call again fb_build_name() to really build the ct_name */
+ fb->bufferp = fct->ct_name;
+ if (fb_build_name(fb, repl, pfargs, nargs, fresult, ellipsis) < 0)
+ goto error;
+ assert(fb->bufferp == fct->ct_name + fb->nb_bytes);
+
+ fct->ct_extra = NULL;
+ fct->ct_size = sizeof(void(*)(void));
+ fct->ct_flags = CT_FUNCTIONPTR;
+ return fct;
+
+ error:
+ Py_DECREF(fct);
+ return NULL;
+}
+
+static cif_description_t *fb_prepare_cif(PyObject *fargs,
+ CTypeDescrObject *fresult,
+ Py_ssize_t variadic_nargs_declared,
+ ffi_abi fabi)
+
+{
+ char *buffer;
+ cif_description_t *cif_descr;
+ struct funcbuilder_s funcbuffer;
+ ffi_status status = (ffi_status)-1;
+
+ funcbuffer.nb_bytes = 0;
+ funcbuffer.bufferp = NULL;
+
+ /* compute the total size needed in the buffer for libffi */
+ if (fb_build(&funcbuffer, fargs, fresult) < 0)
+ return NULL;
+
+ /* allocate the buffer */
+ buffer = PyObject_Malloc(funcbuffer.nb_bytes);
+ if (buffer == NULL) {
+ PyErr_NoMemory();
+ return NULL;
+ }
+
+ /* call again fb_build() to really build the libffi data structures */
+ funcbuffer.bufferp = buffer;
+ if (fb_build(&funcbuffer, fargs, fresult) < 0)
+ goto error;
+ assert(funcbuffer.bufferp == buffer + funcbuffer.nb_bytes);
+
+ cif_descr = (cif_description_t *)buffer;
+
+ /* use `ffi_prep_cif_var` if necessary and available */
+#if CFFI_CHECK_FFI_PREP_CIF_VAR_MAYBE
+ if (variadic_nargs_declared >= 0) {
+ if (CFFI_CHECK_FFI_PREP_CIF_VAR) {
+ status = ffi_prep_cif_var(&cif_descr->cif, fabi,
+ variadic_nargs_declared, funcbuffer.nargs,
+ funcbuffer.rtype, funcbuffer.atypes);
+ }
+ }
+#endif
+
+ if (status == (ffi_status)-1) {
+ status = ffi_prep_cif(&cif_descr->cif, fabi, funcbuffer.nargs,
+ funcbuffer.rtype, funcbuffer.atypes);
+ }
+
+ if (status != FFI_OK) {
+ PyErr_SetString(PyExc_SystemError,
+ "libffi failed to build this function type");
+ goto error;
+ }
+ return cif_descr;
+
+ error:
+ PyObject_Free(buffer);
+ return NULL;
+}
+
+static PyObject *new_function_type(PyObject *fargs, /* tuple */
+ CTypeDescrObject *fresult,
+ int ellipsis, int fabi)
+{
+ PyObject *fabiobj;
+ CTypeDescrObject *fct;
+ struct funcbuilder_s funcbuilder;
+ Py_ssize_t i;
+ const void **unique_key;
+
+ if ((fresult->ct_size < 0 && !(fresult->ct_flags & CT_VOID)) ||
+ (fresult->ct_flags & CT_ARRAY)) {
+ char *msg;
+ if (fresult->ct_flags & CT_IS_OPAQUE)
+ msg = "result type '%s' is opaque";
+ else
+ msg = "invalid result type: '%s'";
+ PyErr_Format(PyExc_TypeError, msg, fresult->ct_name);
+ return NULL;
+ }
+
+ fct = fb_prepare_ctype(&funcbuilder, fargs, fresult, ellipsis, fabi);
+ if (fct == NULL)
+ return NULL;
+
+ if (!ellipsis) {
+ /* Functions with '...' varargs are stored without a cif_descr
+ at all. The cif is computed on every call from the actual
+ types passed in. For all other functions, the cif_descr
+ is computed here. */
+ cif_description_t *cif_descr;
+
+ cif_descr = fb_prepare_cif(fargs, fresult, -1, fabi);
+ if (cif_descr == NULL) {
+ if (PyErr_ExceptionMatches(PyExc_NotImplementedError)) {
+ PyErr_Clear(); /* will get the exception if we see an
+ actual call */
+ }
+ else
+ goto error;
+ }
+
+ fct->ct_extra = (char *)cif_descr;
+ }
+
+ /* build the signature, given by a tuple of ctype objects */
+ fct->ct_stuff = PyTuple_New(2 + funcbuilder.nargs);
+ if (fct->ct_stuff == NULL)
+ goto error;
+ fabiobj = PyInt_FromLong(fabi);
+ if (fabiobj == NULL)
+ goto error;
+ PyTuple_SET_ITEM(fct->ct_stuff, 0, fabiobj);
+
+ Py_INCREF(fresult);
+ PyTuple_SET_ITEM(fct->ct_stuff, 1, (PyObject *)fresult);
+ for (i=0; i<funcbuilder.nargs; i++) {
+ PyObject *o = PyTuple_GET_ITEM(fargs, i);
+ /* convert arrays into pointers */
+ if (((CTypeDescrObject *)o)->ct_flags & CT_ARRAY)
+ o = ((CTypeDescrObject *)o)->ct_stuff;
+ Py_INCREF(o);
+ PyTuple_SET_ITEM(fct->ct_stuff, 2 + i, o);
+ }
+
+ /* [ctresult, ellipsis+abi, num_args, ctargs...] */
+ unique_key = alloca((3 + funcbuilder.nargs) * sizeof(void *));
+ unique_key[0] = fresult;
+ unique_key[1] = (const void *)(Py_ssize_t)((fabi << 1) | !!ellipsis);
+ unique_key[2] = (const void *)(Py_ssize_t)(funcbuilder.nargs);
+ for (i=0; i<funcbuilder.nargs; i++)
+ unique_key[3 + i] = PyTuple_GET_ITEM(fct->ct_stuff, 2 + i);
+ return get_unique_type(fct, unique_key, 3 + funcbuilder.nargs);
+
+ error:
+ Py_DECREF(fct);
+ return NULL;
+}
+
+static PyObject *b_new_function_type(PyObject *self, PyObject *args)
+{
+ PyObject *fargs;
+ CTypeDescrObject *fresult;
+ int ellipsis = 0, fabi = FFI_DEFAULT_ABI;
+
+ if (!PyArg_ParseTuple(args, "O!O!|ii:new_function_type",
+ &PyTuple_Type, &fargs,
+ &CTypeDescr_Type, &fresult,
+ &ellipsis,
+ &fabi))
+ return NULL;
+
+ return new_function_type(fargs, fresult, ellipsis, fabi);
+}
+
+static int convert_from_object_fficallback(char *result,
+ CTypeDescrObject *ctype,
+ PyObject *pyobj,
+ int encode_result_for_libffi)
+{
+ /* work work work around a libffi irregularity: for integer return
+ types we have to fill at least a complete 'ffi_arg'-sized result
+ buffer. */
+ if (ctype->ct_size < (Py_ssize_t)sizeof(ffi_arg)) {
+ if (ctype->ct_flags & CT_VOID) {
+ if (pyobj == Py_None) {
+ return 0;
+ }
+ else {
+ PyErr_SetString(PyExc_TypeError,
+ "callback with the return type 'void' must return None");
+ return -1;
+ }
+ }
+ if (!encode_result_for_libffi)
+ goto skip;
+ if (ctype->ct_flags & CT_PRIMITIVE_SIGNED) {
+ PY_LONG_LONG value;
+ /* It's probably fine to always zero-extend, but you never
+ know: maybe some code somewhere expects a negative
+ 'short' result to be returned into EAX as a 32-bit
+ negative number. Better safe than sorry. This code
+ is about that case. Let's ignore this for enums.
+ */
+ /* do a first conversion only to detect overflows. This
+ conversion produces stuff that is otherwise ignored. */
+ if (convert_from_object(result, ctype, pyobj) < 0)
+ return -1;
+ /* manual inlining and tweaking of convert_from_object()
+ in order to write a whole 'ffi_arg'. */
+ value = _my_PyLong_AsLongLong(pyobj);
+ if (value == -1 && PyErr_Occurred())
+ return -1;
+ write_raw_integer_data(result, value, sizeof(ffi_arg));
+ return 0;
+ }
+ else if (ctype->ct_flags & (CT_PRIMITIVE_CHAR | CT_PRIMITIVE_SIGNED |
+ CT_PRIMITIVE_UNSIGNED |
+ CT_POINTER | CT_FUNCTIONPTR)) {
+ /* zero extension: fill the '*result' with zeros, and (on big-
+ endian machines) correct the 'result' pointer to write to.
+ We also do that for pointers, even though we're normally not
+ in this branch because ctype->ct_size == sizeof(ffi_arg) for
+ pointers---except on some architectures like x32 (issue #372).
+ */
+ memset(result, 0, sizeof(ffi_arg));
+#ifdef WORDS_BIGENDIAN
+ result += (sizeof(ffi_arg) - ctype->ct_size);
+#endif
+ }
+ }
+ skip:
+ return convert_from_object(result, ctype, pyobj);
+}
+
+static void _my_PyErr_WriteUnraisable(PyObject *t, PyObject *v, PyObject *tb,
+ char *objdescr, PyObject *obj,
+ char *extra_error_line)
+{
+ /* like PyErr_WriteUnraisable(), but write a full traceback */
+#ifdef USE_WRITEUNRAISABLEMSG
+
+ /* PyErr_WriteUnraisable actually writes the full traceback anyway
+ from Python 3.4, but we can't really get the formatting of the
+ custom text to be what we want. We can do better from Python
+ 3.8 by calling the new _PyErr_WriteUnraisableMsg().
+ Luckily it's also Python 3.8 that adds new functionality that
+ people might want: the new sys.unraisablehook().
+ */
+ PyObject *s;
+ int first_char;
+ assert(objdescr != NULL && objdescr[0] != 0); /* non-empty */
+ first_char = objdescr[0];
+ if (first_char >= 'A' && first_char <= 'Z')
+ first_char += 'a' - 'A'; /* lower() the very first character */
+ if (extra_error_line == NULL)
+ extra_error_line = "";
+
+ if (obj != NULL)
+ s = PyUnicode_FromFormat("%c%s%R%s",
+ first_char, objdescr + 1, obj, extra_error_line);
+ else
+ s = PyUnicode_FromFormat("%c%s%s",
+ first_char, objdescr + 1, extra_error_line);
+
+ PyErr_Restore(t, v, tb);
+ if (s != NULL) {
+ _PyErr_WriteUnraisableMsg(PyText_AS_UTF8(s), NULL);
+ Py_DECREF(s);
+ }
+ else
+ PyErr_WriteUnraisable(obj); /* best effort */
+ PyErr_Clear();
+
+#else
+
+ /* version for Python 2.7 and < 3.8 */
+ PyObject *f;
+#if PY_MAJOR_VERSION >= 3
+ /* jump through hoops to ensure the tb is attached to v, on Python 3 */
+ PyErr_NormalizeException(&t, &v, &tb);
+ if (tb == NULL) {
+ tb = Py_None;
+ Py_INCREF(tb);
+ }
+ PyException_SetTraceback(v, tb);
+#endif
+ f = PySys_GetObject("stderr");
+ if (f != NULL) {
+ if (obj != NULL) {
+ PyFile_WriteString(objdescr, f);
+ PyFile_WriteObject(obj, f, 0);
+ PyFile_WriteString(":\n", f);
+ }
+ if (extra_error_line != NULL)
+ PyFile_WriteString(extra_error_line, f);
+ PyErr_Display(t, v, tb);
+ }
+ Py_XDECREF(t);
+ Py_XDECREF(v);
+ Py_XDECREF(tb);
+
+#endif
+}
+
+static void general_invoke_callback(int decode_args_from_libffi,
+ void *result, char *args, void *userdata)
+{
+ PyObject *cb_args = (PyObject *)userdata;
+ CTypeDescrObject *ct = (CTypeDescrObject *)PyTuple_GET_ITEM(cb_args, 0);
+ PyObject *signature = ct->ct_stuff;
+ PyObject *py_ob = PyTuple_GET_ITEM(cb_args, 1);
+ PyObject *py_args = NULL;
+ PyObject *py_res = NULL;
+ PyObject *py_rawerr;
+ PyObject *onerror_cb;
+ Py_ssize_t i, n;
+ char *extra_error_line = NULL;
+
+#define SIGNATURE(i) ((CTypeDescrObject *)PyTuple_GET_ITEM(signature, i))
+
+ Py_INCREF(cb_args);
+
+ n = PyTuple_GET_SIZE(signature) - 2;
+ py_args = PyTuple_New(n);
+ if (py_args == NULL)
+ goto error;
+
+ for (i=0; i<n; i++) {
+ char *a_src;
+ PyObject *a;
+ CTypeDescrObject *a_ct = SIGNATURE(2 + i);
+
+ if (decode_args_from_libffi) {
+ a_src = ((void **)args)[i];
+ }
+ else {
+ a_src = args + i * 8;
+ if (a_ct->ct_flags & (CT_IS_LONGDOUBLE | CT_STRUCT | CT_UNION))
+ a_src = *(char **)a_src;
+ }
+ a = convert_to_object(a_src, a_ct);
+ if (a == NULL)
+ goto error;
+ PyTuple_SET_ITEM(py_args, i, a);
+ }
+
+ py_res = PyObject_Call(py_ob, py_args, NULL);
+ if (py_res == NULL)
+ goto error;
+ if (convert_from_object_fficallback(result, SIGNATURE(1), py_res,
+ decode_args_from_libffi) < 0) {
+#ifdef USE_WRITEUNRAISABLEMSG
+ extra_error_line = ", trying to convert the result back to C";
+#else
+ extra_error_line = "Trying to convert the result back to C:\n";
+#endif
+ goto error;
+ }
+ done:
+ Py_XDECREF(py_args);
+ Py_XDECREF(py_res);
+ Py_DECREF(cb_args);
+ return;
+
+ error:
+ if (SIGNATURE(1)->ct_size > 0) {
+ py_rawerr = PyTuple_GET_ITEM(cb_args, 2);
+ memcpy(result, PyBytes_AS_STRING(py_rawerr),
+ PyBytes_GET_SIZE(py_rawerr));
+ }
+ onerror_cb = PyTuple_GET_ITEM(cb_args, 3);
+ if (onerror_cb == Py_None) {
+ PyObject *ecap, *t, *v, *tb;
+ PyErr_Fetch(&t, &v, &tb);
+ ecap = _cffi_start_error_capture();
+ _my_PyErr_WriteUnraisable(t, v, tb, "From cffi callback ", py_ob,
+ extra_error_line);
+ _cffi_stop_error_capture(ecap);
+ }
+ else {
+ PyObject *exc1, *val1, *tb1, *res1, *exc2, *val2, *tb2;
+ PyErr_Fetch(&exc1, &val1, &tb1);
+ PyErr_NormalizeException(&exc1, &val1, &tb1);
+ res1 = PyObject_CallFunctionObjArgs(onerror_cb,
+ exc1 ? exc1 : Py_None,
+ val1 ? val1 : Py_None,
+ tb1 ? tb1 : Py_None,
+ NULL);
+ if (res1 != NULL) {
+ if (res1 != Py_None)
+ convert_from_object_fficallback(result, SIGNATURE(1), res1,
+ decode_args_from_libffi);
+ Py_DECREF(res1);
+ }
+ if (!PyErr_Occurred()) {
+ Py_XDECREF(exc1);
+ Py_XDECREF(val1);
+ Py_XDECREF(tb1);
+ }
+ else {
+ /* double exception! print a double-traceback... */
+ PyObject *ecap;
+ PyErr_Fetch(&exc2, &val2, &tb2);
+ ecap = _cffi_start_error_capture();
+ _my_PyErr_WriteUnraisable(exc1, val1, tb1,
+ "From cffi callback ", py_ob,
+ extra_error_line);
+#ifdef USE_WRITEUNRAISABLEMSG
+ _my_PyErr_WriteUnraisable(exc2, val2, tb2,
+ "during handling of the above exception by 'onerror'",
+ NULL, NULL);
+#else
+ extra_error_line = ("\nDuring the call to 'onerror', "
+ "another exception occurred:\n\n");
+ _my_PyErr_WriteUnraisable(exc2, val2, tb2,
+ NULL, NULL, extra_error_line);
+#endif
+ _cffi_stop_error_capture(ecap);
+ }
+ }
+ goto done;
+
+#undef SIGNATURE
+}
+
+static void invoke_callback(ffi_cif *cif, void *result, void **args,
+ void *userdata)
+{
+ save_errno();
+ {
+ PyGILState_STATE state = gil_ensure();
+ general_invoke_callback(1, result, (char *)args, userdata);
+ gil_release(state);
+ }
+ restore_errno();
+}
+
+static PyObject *prepare_callback_info_tuple(CTypeDescrObject *ct,
+ PyObject *ob,
+ PyObject *error_ob,
+ PyObject *onerror_ob,
+ int decode_args_from_libffi)
+{
+ CTypeDescrObject *ctresult;
+ PyObject *py_rawerr, *infotuple;
+ Py_ssize_t size;
+
+ if (!(ct->ct_flags & CT_FUNCTIONPTR)) {
+ PyErr_Format(PyExc_TypeError, "expected a function ctype, got '%s'",
+ ct->ct_name);
+ return NULL;
+ }
+ if (!PyCallable_Check(ob)) {
+ PyErr_Format(PyExc_TypeError,
+ "expected a callable object, not %.200s",
+ Py_TYPE(ob)->tp_name);
+ return NULL;
+ }
+ if (onerror_ob != Py_None && !PyCallable_Check(onerror_ob)) {
+ PyErr_Format(PyExc_TypeError,
+ "expected a callable object for 'onerror', not %.200s",
+ Py_TYPE(onerror_ob)->tp_name);
+ return NULL;
+ }
+
+ ctresult = (CTypeDescrObject *)PyTuple_GET_ITEM(ct->ct_stuff, 1);
+ size = ctresult->ct_size;
+ if (size < (Py_ssize_t)sizeof(ffi_arg))
+ size = sizeof(ffi_arg);
+ py_rawerr = PyBytes_FromStringAndSize(NULL, size);
+ if (py_rawerr == NULL)
+ return NULL;
+ memset(PyBytes_AS_STRING(py_rawerr), 0, size);
+ if (error_ob != Py_None) {
+ if (convert_from_object_fficallback(
+ PyBytes_AS_STRING(py_rawerr), ctresult, error_ob,
+ decode_args_from_libffi) < 0) {
+ Py_DECREF(py_rawerr);
+ return NULL;
+ }
+ }
+ infotuple = Py_BuildValue("OOOO", ct, ob, py_rawerr, onerror_ob);
+ Py_DECREF(py_rawerr);
+
+#if defined(WITH_THREAD) && PY_VERSION_HEX < 0x03070000
+ /* We must setup the GIL here, in case the callback is invoked in
+ some other non-Pythonic thread. This is the same as ctypes.
+ But PyEval_InitThreads() is always a no-op from CPython 3.7
+ (the call from ctypes was removed some time later I think). */
+ PyEval_InitThreads();
+#endif
+
+ return infotuple;
+}
+
+/* messily try to silence a gcc/clang deprecation warning for
+ ffi_prep_closure. Don't miss the "pragma pop" after the function.
+ This is done around the whole function because very old GCCs don't
+ support it inside a function. */
+#if defined(__clang__)
+# pragma clang diagnostic push
+# pragma clang diagnostic ignored "-Wdeprecated-declarations"
+#elif defined(__GNUC__)
+# pragma GCC diagnostic push
+# pragma GCC diagnostic ignored "-Wdeprecated-declarations"
+#endif
+static PyObject *b_callback(PyObject *self, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ CDataObject_closure *cd;
+ PyObject *ob, *error_ob = Py_None, *onerror_ob = Py_None;
+ PyObject *infotuple;
+ cif_description_t *cif_descr;
+ ffi_closure *closure;
+ ffi_status status;
+ void *closure_exec;
+
+ if (!PyArg_ParseTuple(args, "O!O|OO:callback", &CTypeDescr_Type, &ct, &ob,
+ &error_ob, &onerror_ob))
+ return NULL;
+
+ infotuple = prepare_callback_info_tuple(ct, ob, error_ob, onerror_ob, 1);
+ if (infotuple == NULL)
+ return NULL;
+
+#if CFFI_CHECK_FFI_CLOSURE_ALLOC_MAYBE
+ if (CFFI_CHECK_FFI_CLOSURE_ALLOC) {
+ closure = ffi_closure_alloc(sizeof(ffi_closure), &closure_exec);
+ } else
+#endif
+ {
+ closure = cffi_closure_alloc();
+ closure_exec = closure;
+ }
+
+ if (closure == NULL) {
+ Py_DECREF(infotuple);
+ PyErr_SetString(PyExc_MemoryError,
+ "Cannot allocate write+execute memory for ffi.callback(). "
+ "You might be running on a system that prevents this. "
+ "For more information, see "
+ "https://cffi.readthedocs.io/en/latest/using.html#callbacks");
+ return NULL;
+ }
+ cd = PyObject_GC_New(CDataObject_closure, &CDataOwningGC_Type);
+ if (cd == NULL)
+ goto error;
+ Py_INCREF(ct);
+ cd->head.c_type = ct;
+ cd->head.c_data = (char *)closure_exec;
+ cd->head.c_weakreflist = NULL;
+ closure->user_data = NULL;
+ cd->closure = closure;
+
+ cif_descr = (cif_description_t *)ct->ct_extra;
+ if (cif_descr == NULL) {
+ PyErr_Format(PyExc_NotImplementedError,
+ "%s: callback with unsupported argument or "
+ "return type or with '...'", ct->ct_name);
+ goto error;
+ }
+
+#if CFFI_CHECK_FFI_PREP_CLOSURE_LOC_MAYBE
+ if (CFFI_CHECK_FFI_PREP_CLOSURE_LOC) {
+ status = ffi_prep_closure_loc(closure, &cif_descr->cif,
+ invoke_callback, infotuple, closure_exec);
+ }
+ else
+#endif
+ {
+#if defined(__APPLE__) && defined(FFI_AVAILABLE_APPLE) && !FFI_LEGACY_CLOSURE_API
+ PyErr_Format(PyExc_SystemError, "ffi_prep_closure_loc() is missing");
+ goto error;
+#else
+ status = ffi_prep_closure(closure, &cif_descr->cif,
+ invoke_callback, infotuple);
+#endif
+ }
+
+ if (status != FFI_OK) {
+ PyErr_SetString(PyExc_SystemError,
+ "libffi failed to build this callback");
+ goto error;
+ }
+
+ if (closure->user_data != infotuple) {
+ /* Issue #266. Should not occur, but could, if we are using
+ at runtime a version of libffi compiled with a different
+ 'ffi_closure' structure than the one we expect from ffi.h
+ (e.g. difference in details of the platform): a difference
+ in FFI_TRAMPOLINE_SIZE means that the 'user_data' field
+ ends up somewhere else, and so the test above fails.
+ */
+ PyErr_SetString(PyExc_SystemError,
+ "ffi_prep_closure(): bad user_data (it seems that the "
+ "version of the libffi library seen at runtime is "
+ "different from the 'ffi.h' file seen at compile-time)");
+ goto error;
+ }
+ PyObject_GC_Track(cd);
+ return (PyObject *)cd;
+
+ error:
+ closure->user_data = NULL;
+ if (cd == NULL) {
+#if CFFI_CHECK_FFI_CLOSURE_ALLOC_MAYBE
+ if (CFFI_CHECK_FFI_CLOSURE_ALLOC) {
+ ffi_closure_free(closure);
+ }
+ else
+#endif
+ cffi_closure_free(closure);
+ }
+ else
+ Py_DECREF(cd);
+ Py_XDECREF(infotuple);
+ return NULL;
+}
+#if defined(__clang__)
+# pragma clang diagnostic pop
+#elif defined(__GNUC__)
+# pragma GCC diagnostic pop
+#endif
+
+static PyObject *b_new_enum_type(PyObject *self, PyObject *args)
+{
+ char *ename;
+ PyObject *enumerators, *enumvalues;
+ PyObject *dict1 = NULL, *dict2 = NULL, *combined = NULL, *tmpkey = NULL;
+ int name_size;
+ CTypeDescrObject *td, *basetd;
+ Py_ssize_t i, n;
+
+ if (!PyArg_ParseTuple(args, "sO!O!O!:new_enum_type",
+ &ename,
+ &PyTuple_Type, &enumerators,
+ &PyTuple_Type, &enumvalues,
+ &CTypeDescr_Type, &basetd))
+ return NULL;
+
+ n = PyTuple_GET_SIZE(enumerators);
+ if (n != PyTuple_GET_SIZE(enumvalues)) {
+ PyErr_SetString(PyExc_ValueError,
+ "tuple args must have the same size");
+ return NULL;
+ }
+
+ if (!(basetd->ct_flags & (CT_PRIMITIVE_SIGNED|CT_PRIMITIVE_UNSIGNED))) {
+ PyErr_SetString(PyExc_TypeError,
+ "expected a primitive signed or unsigned base type");
+ return NULL;
+ }
+
+ dict1 = PyDict_New();
+ if (dict1 == NULL)
+ goto error;
+ dict2 = PyDict_New();
+ if (dict2 == NULL)
+ goto error;
+
+ for (i=n; --i >= 0; ) {
+ long long lvalue;
+ PyObject *value = PyTuple_GET_ITEM(enumvalues, i);
+ tmpkey = PyTuple_GET_ITEM(enumerators, i);
+ Py_INCREF(tmpkey);
+ if (!PyText_Check(tmpkey)) {
+#if PY_MAJOR_VERSION < 3
+ if (PyUnicode_Check(tmpkey)) {
+ const char *text = PyText_AsUTF8(tmpkey);
+ if (text == NULL)
+ goto error;
+ Py_DECREF(tmpkey);
+ tmpkey = PyString_FromString(text);
+ if (tmpkey == NULL)
+ goto error;
+ }
+ else
+#endif
+ {
+ PyErr_SetString(PyExc_TypeError,
+ "enumerators must be a list of strings");
+ goto error;
+ }
+ }
+ if (convert_from_object((char*)&lvalue, basetd, value) < 0)
+ goto error; /* out-of-range or badly typed 'value' */
+ if (PyDict_SetItem(dict1, tmpkey, value) < 0)
+ goto error;
+ if (PyDict_SetItem(dict2, value, tmpkey) < 0)
+ goto error;
+ Py_DECREF(tmpkey);
+ tmpkey = NULL;
+ }
+
+ combined = PyTuple_Pack(2, dict1, dict2);
+ if (combined == NULL)
+ goto error;
+
+ Py_CLEAR(dict2);
+ Py_CLEAR(dict1);
+
+ name_size = strlen(ename) + 1;
+ td = ctypedescr_new(name_size);
+ if (td == NULL)
+ goto error;
+
+ memcpy(td->ct_name, ename, name_size);
+ td->ct_stuff = combined;
+ td->ct_size = basetd->ct_size;
+ td->ct_length = basetd->ct_length; /* alignment */
+ td->ct_extra = basetd->ct_extra; /* ffi type */
+ td->ct_flags = basetd->ct_flags | CT_IS_ENUM;
+ td->ct_name_position = name_size - 1;
+ return (PyObject *)td;
+
+ error:
+ Py_XDECREF(tmpkey);
+ Py_XDECREF(combined);
+ Py_XDECREF(dict2);
+ Py_XDECREF(dict1);
+ return NULL;
+}
+
+static PyObject *b_alignof(PyObject *self, PyObject *arg)
+{
+ int align;
+ if (!CTypeDescr_Check(arg)) {
+ PyErr_SetString(PyExc_TypeError, "expected a 'ctype' object");
+ return NULL;
+ }
+ align = get_alignment((CTypeDescrObject *)arg);
+ if (align < 0)
+ return NULL;
+ return PyInt_FromLong(align);
+}
+
+static Py_ssize_t direct_sizeof_cdata(CDataObject *cd)
+{
+ Py_ssize_t size;
+ if (cd->c_type->ct_flags & CT_ARRAY)
+ size = get_array_length(cd) * cd->c_type->ct_itemdescr->ct_size;
+ else {
+ size = -1;
+ if (cd->c_type->ct_flags & (CT_STRUCT | CT_UNION))
+ size = _cdata_var_byte_size(cd);
+ if (size < 0)
+ size = cd->c_type->ct_size;
+ }
+ return size;
+}
+
+static PyObject *b_sizeof(PyObject *self, PyObject *arg)
+{
+ Py_ssize_t size;
+
+ if (CData_Check(arg)) {
+ size = direct_sizeof_cdata((CDataObject *)arg);
+ }
+ else if (CTypeDescr_Check(arg)) {
+ size = ((CTypeDescrObject *)arg)->ct_size;
+ if (size < 0) {
+ PyErr_Format(PyExc_ValueError, "ctype '%s' is of unknown size",
+ ((CTypeDescrObject *)arg)->ct_name);
+ return NULL;
+ }
+ }
+ else {
+ PyErr_SetString(PyExc_TypeError,
+ "expected a 'cdata' or 'ctype' object");
+ return NULL;
+ }
+ return PyInt_FromSsize_t(size);
+}
+
+static PyObject *b_typeof(PyObject *self, PyObject *arg)
+{
+ PyObject *res;
+
+ if (!CData_Check(arg)) {
+ PyErr_SetString(PyExc_TypeError, "expected a 'cdata' object");
+ return NULL;
+ }
+ res = (PyObject *)((CDataObject *)arg)->c_type;
+ Py_INCREF(res);
+ return res;
+}
+
+static CTypeDescrObject *direct_typeoffsetof(CTypeDescrObject *ct,
+ PyObject *fieldname,
+ int following, Py_ssize_t *offset)
+{
+ /* Does not return a new reference! */
+ CTypeDescrObject *res;
+ CFieldObject *cf;
+
+ if (PyTextAny_Check(fieldname)) {
+ if (!following && (ct->ct_flags & CT_POINTER))
+ ct = ct->ct_itemdescr;
+ if (!(ct->ct_flags & (CT_STRUCT|CT_UNION))) {
+ PyErr_SetString(PyExc_TypeError,
+ "with a field name argument, expected a "
+ "struct or union ctype");
+ return NULL;
+ }
+ if (force_lazy_struct(ct) <= 0) {
+ if (!PyErr_Occurred())
+ PyErr_SetString(PyExc_TypeError, "struct/union is opaque");
+ return NULL;
+ }
+ cf = (CFieldObject *)PyDict_GetItem(ct->ct_stuff, fieldname);
+ if (cf == NULL) {
+ PyErr_SetObject(PyExc_KeyError, fieldname);
+ return NULL;
+ }
+ if (cf->cf_bitshift >= 0) {
+ PyErr_SetString(PyExc_TypeError, "not supported for bitfields");
+ return NULL;
+ }
+ res = cf->cf_type;
+ *offset = cf->cf_offset;
+ }
+ else {
+ Py_ssize_t index = PyInt_AsSsize_t(fieldname);
+ if (index < 0 && PyErr_Occurred()) {
+ PyErr_SetString(PyExc_TypeError,
+ "field name or array index expected");
+ return NULL;
+ }
+
+ if (!(ct->ct_flags & (CT_ARRAY|CT_POINTER)) ||
+ ct->ct_itemdescr->ct_size < 0) {
+ PyErr_SetString(PyExc_TypeError, "with an integer argument, "
+ "expected an array ctype or a "
+ "pointer to non-opaque");
+ return NULL;
+ }
+ res = ct->ct_itemdescr;
+ *offset = MUL_WRAPAROUND(index, ct->ct_itemdescr->ct_size);
+ if ((*offset / ct->ct_itemdescr->ct_size) != index) {
+ PyErr_SetString(PyExc_OverflowError,
+ "array offset would overflow a Py_ssize_t");
+ return NULL;
+ }
+ }
+ return res;
+}
+
+static PyObject *b_typeoffsetof(PyObject *self, PyObject *args)
+{
+ PyObject *res, *fieldname;
+ CTypeDescrObject *ct;
+ Py_ssize_t offset;
+ int following = 0;
+
+ if (!PyArg_ParseTuple(args, "O!O|i:typeoffsetof",
+ &CTypeDescr_Type, &ct, &fieldname, &following))
+ return NULL;
+
+ res = (PyObject *)direct_typeoffsetof(ct, fieldname, following, &offset);
+ if (res == NULL)
+ return NULL;
+
+ return Py_BuildValue("(On)", res, offset);
+}
+
+static PyObject *b_rawaddressof(PyObject *self, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ CDataObject *cd;
+ Py_ssize_t offset;
+ int accepted_flags;
+
+ if (!PyArg_ParseTuple(args, "O!O!n:rawaddressof",
+ &CTypeDescr_Type, &ct,
+ &CData_Type, &cd,
+ &offset))
+ return NULL;
+
+ accepted_flags = CT_STRUCT | CT_UNION | CT_ARRAY | CT_POINTER;
+ if ((cd->c_type->ct_flags & accepted_flags) == 0) {
+ PyErr_SetString(PyExc_TypeError,
+ "expected a cdata struct/union/array/pointer object");
+ return NULL;
+ }
+ if ((ct->ct_flags & CT_POINTER) == 0) {
+ PyErr_SetString(PyExc_TypeError,
+ "expected a pointer ctype");
+ return NULL;
+ }
+ return new_simple_cdata(cd->c_data + offset, ct);
+}
+
+static PyObject *b_getcname(PyObject *self, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ char *replace_with, *p, *s;
+ Py_ssize_t namelen, replacelen;
+
+ if (!PyArg_ParseTuple(args, "O!s:getcname",
+ &CTypeDescr_Type, &ct, &replace_with))
+ return NULL;
+
+ namelen = strlen(ct->ct_name);
+ replacelen = strlen(replace_with);
+ s = p = alloca(namelen + replacelen + 1);
+ memcpy(p, ct->ct_name, ct->ct_name_position);
+ p += ct->ct_name_position;
+ memcpy(p, replace_with, replacelen);
+ p += replacelen;
+ memcpy(p, ct->ct_name + ct->ct_name_position,
+ namelen - ct->ct_name_position);
+
+ return PyText_FromStringAndSize(s, namelen + replacelen);
+}
+
+static PyObject *b_string(PyObject *self, PyObject *args, PyObject *kwds)
+{
+ CDataObject *cd;
+ Py_ssize_t maxlen = -1;
+ static char *keywords[] = {"cdata", "maxlen", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "O!|n:string", keywords,
+ &CData_Type, &cd, &maxlen))
+ return NULL;
+
+ if (cd->c_type->ct_itemdescr != NULL &&
+ cd->c_type->ct_itemdescr->ct_flags & (CT_PRIMITIVE_CHAR |
+ CT_PRIMITIVE_SIGNED |
+ CT_PRIMITIVE_UNSIGNED) &&
+ !(cd->c_type->ct_itemdescr->ct_flags & CT_IS_BOOL)) {
+ Py_ssize_t length = maxlen;
+ if (cd->c_data == NULL) {
+ PyObject *s = cdata_repr(cd);
+ if (s != NULL) {
+ PyErr_Format(PyExc_RuntimeError,
+ "cannot use string() on %s",
+ PyText_AS_UTF8(s));
+ Py_DECREF(s);
+ }
+ return NULL;
+ }
+ if (length < 0 && cd->c_type->ct_flags & CT_ARRAY) {
+ length = get_array_length(cd);
+ }
+ if (cd->c_type->ct_itemdescr->ct_size == sizeof(char)) {
+ const char *start = cd->c_data;
+ if (length < 0) {
+ /*READ(start, 1)*/
+ length = strlen(start);
+ /*READ(start, length)*/
+ }
+ else {
+ const char *end;
+ /*READ(start, length)*/
+ end = (const char *)memchr(start, 0, length);
+ if (end != NULL)
+ length = end - start;
+ }
+ return PyBytes_FromStringAndSize(start, length);
+ }
+ else if (cd->c_type->ct_itemdescr->ct_flags & CT_PRIMITIVE_CHAR) {
+ switch (cd->c_type->ct_itemdescr->ct_size) {
+ case 2: {
+ const cffi_char16_t *start = (cffi_char16_t *)cd->c_data;
+ if (length < 0) {
+ /*READ(start, 2)*/
+ length = 0;
+ while (start[length])
+ length++;
+ /*READ(start, 2 * length)*/
+ }
+ else {
+ /*READ(start, 2 * length)*/
+ maxlen = length;
+ length = 0;
+ while (length < maxlen && start[length])
+ length++;
+ }
+ return _my_PyUnicode_FromChar16(start, length);
+ }
+ case 4: {
+ const cffi_char32_t *start = (cffi_char32_t *)cd->c_data;
+ if (length < 0) {
+ /*READ(start, 4)*/
+ length = 0;
+ while (start[length])
+ length++;
+ /*READ(start, 4 * length)*/
+ }
+ else {
+ /*READ(start, 4 * length)*/
+ maxlen = length;
+ length = 0;
+ while (length < maxlen && start[length])
+ length++;
+ }
+ return _my_PyUnicode_FromChar32(start, length);
+ }
+ }
+ }
+ }
+ else if (cd->c_type->ct_flags & CT_IS_ENUM) {
+ return convert_cdata_to_enum_string(cd, 0);
+ }
+ else if (cd->c_type->ct_flags & CT_IS_BOOL) {
+ /* fall through to TypeError */
+ }
+ else if (cd->c_type->ct_flags & (CT_PRIMITIVE_CHAR |
+ CT_PRIMITIVE_SIGNED |
+ CT_PRIMITIVE_UNSIGNED)) {
+ /*READ(cd->c_data, cd->c_type->ct_size)*/
+ if (cd->c_type->ct_size == sizeof(char))
+ return PyBytes_FromStringAndSize(cd->c_data, 1);
+ else if (cd->c_type->ct_flags & CT_PRIMITIVE_CHAR) {
+ switch (cd->c_type->ct_size) {
+ case 2:
+ return _my_PyUnicode_FromChar16((cffi_char16_t *)cd->c_data, 1);
+ case 4:
+ return _my_PyUnicode_FromChar32((cffi_char32_t *)cd->c_data, 1);
+ }
+ }
+ }
+ PyErr_Format(PyExc_TypeError, "string(): unexpected cdata '%s' argument",
+ cd->c_type->ct_name);
+ return NULL;
+}
+
+static PyObject *b_unpack(PyObject *self, PyObject *args, PyObject *kwds)
+{
+ CDataObject *cd;
+ CTypeDescrObject *ctitem;
+ Py_ssize_t i, length, itemsize;
+ PyObject *result;
+ char *src;
+ int casenum;
+ static char *keywords[] = {"cdata", "length", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "O!n:unpack", keywords,
+ &CData_Type, &cd, &length))
+ return NULL;
+
+ if (!(cd->c_type->ct_flags & (CT_ARRAY|CT_POINTER))) {
+ PyErr_Format(PyExc_TypeError,
+ "expected a pointer or array, got '%s'",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+ if (length < 0) {
+ PyErr_SetString(PyExc_ValueError, "'length' cannot be negative");
+ return NULL;
+ }
+ if (cd->c_data == NULL) {
+ PyObject *s = cdata_repr(cd);
+ if (s != NULL) {
+ PyErr_Format(PyExc_RuntimeError,
+ "cannot use unpack() on %s",
+ PyText_AS_UTF8(s));
+ Py_DECREF(s);
+ }
+ return NULL;
+ }
+
+ /* byte- and unicode strings */
+ ctitem = cd->c_type->ct_itemdescr;
+ if (ctitem->ct_flags & CT_PRIMITIVE_CHAR) {
+ switch (ctitem->ct_size) {
+ case sizeof(char):
+ return PyBytes_FromStringAndSize(cd->c_data, length);
+ case 2:
+ return _my_PyUnicode_FromChar16((cffi_char16_t *)cd->c_data,length);
+ case 4:
+ return _my_PyUnicode_FromChar32((cffi_char32_t *)cd->c_data,length);
+ }
+ }
+
+ /* else, the result is a list. This implementation should be
+ equivalent to but much faster than '[p[i] for i in range(length)]'.
+ (Note that on PyPy, 'list(p[0:length])' should be equally fast,
+ but arguably, finding out that there *is* such an unexpected way
+ to write things down is the real problem.)
+ */
+ result = PyList_New(length);
+ if (result == NULL)
+ return NULL;
+
+ src = cd->c_data;
+ itemsize = ctitem->ct_size;
+ if (itemsize < 0) {
+ Py_DECREF(result);
+ PyErr_Format(PyExc_ValueError, "'%s' points to items of unknown size",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+
+ /* Determine some common fast-paths for the loop below. The case -1
+ is the fall-back, which always gives the right answer. */
+
+#define ALIGNMENT_CHECK(align) \
+ (((align) & ((align) - 1)) == 0 && \
+ (((uintptr_t)src) & ((align) - 1)) == 0)
+
+ casenum = -1;
+
+ if ((ctitem->ct_flags & CT_PRIMITIVE_ANY) &&
+ ALIGNMENT_CHECK(ctitem->ct_length)) {
+ /* Source data is fully aligned; we can directly read without
+ memcpy(). The unaligned case is expected to be rare; in
+ this situation it is ok to fall back to the general
+ convert_to_object() in the loop. For now we also use this
+ fall-back for types that are too large.
+ */
+ if (ctitem->ct_flags & CT_PRIMITIVE_SIGNED) {
+ if (itemsize == sizeof(long)) casenum = 3;
+ else if (itemsize == sizeof(int)) casenum = 2;
+ else if (itemsize == sizeof(short)) casenum = 1;
+ else if (itemsize == sizeof(signed char)) casenum = 0;
+ }
+ else if (ctitem->ct_flags & CT_PRIMITIVE_UNSIGNED) {
+ /* Note: we never pick case 6 if sizeof(int) == sizeof(long),
+ so that case 6 below can assume that the 'unsigned int' result
+ would always fit in a 'signed long'. */
+ if (ctitem->ct_flags & CT_IS_BOOL) casenum = 11;
+ else if (itemsize == sizeof(unsigned long)) casenum = 7;
+ else if (itemsize == sizeof(unsigned int)) casenum = 6;
+ else if (itemsize == sizeof(unsigned short)) casenum = 5;
+ else if (itemsize == sizeof(unsigned char)) casenum = 4;
+ }
+ else if (ctitem->ct_flags & CT_PRIMITIVE_FLOAT) {
+ if (itemsize == sizeof(double)) casenum = 9;
+ else if (itemsize == sizeof(float)) casenum = 8;
+ }
+ }
+ else if (ctitem->ct_flags & (CT_POINTER | CT_FUNCTIONPTR)) {
+ casenum = 10; /* any pointer */
+ }
+#undef ALIGNMENT_CHECK
+
+ for (i = 0; i < length; i++) {
+ PyObject *x;
+ switch (casenum) {
+ /* general case */
+ default: x = convert_to_object(src, ctitem); break;
+
+ /* special cases for performance only */
+ case 0: x = PyInt_FromLong(*(signed char *)src); break;
+ case 1: x = PyInt_FromLong(*(short *)src); break;
+ case 2: x = PyInt_FromLong(*(int *)src); break;
+ case 3: x = PyInt_FromLong(*(long *)src); break;
+ case 4: x = PyInt_FromLong(*(unsigned char *)src); break;
+ case 5: x = PyInt_FromLong(*(unsigned short *)src); break;
+ case 6: x = PyInt_FromLong((long)*(unsigned int *)src); break;
+ case 7: x = PyLong_FromUnsignedLong(*(unsigned long *)src); break;
+ case 8: x = PyFloat_FromDouble(*(float *)src); break;
+ case 9: x = PyFloat_FromDouble(*(double *)src); break;
+ case 10: x = new_simple_cdata(*(char **)src, ctitem); break;
+ case 11:
+ switch (*(unsigned char *)src) {
+ case 0: x = Py_False; Py_INCREF(x); break;
+ case 1: x = Py_True; Py_INCREF(x); break;
+ default: x = convert_to_object(src, ctitem); /* error */
+ }
+ break;
+ }
+ if (x == NULL) {
+ Py_DECREF(result);
+ return NULL;
+ }
+ PyList_SET_ITEM(result, i, x);
+ src += itemsize;
+ }
+ return result;
+}
+
+static PyObject *
+b_buffer_new(PyTypeObject *type, PyObject *args, PyObject *kwds)
+{
+ /* this is the constructor of the type implemented in minibuffer.h */
+ CDataObject *cd;
+ Py_ssize_t size = -1;
+ int explicit_size;
+ static char *keywords[] = {"cdata", "size", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "O!|n:buffer", keywords,
+ &CData_Type, &cd, &size))
+ return NULL;
+
+ explicit_size = size >= 0;
+ if (size < 0)
+ size = _cdata_var_byte_size(cd);
+
+ if (cd->c_type->ct_flags & CT_POINTER) {
+ if (size < 0)
+ size = cd->c_type->ct_itemdescr->ct_size;
+ }
+ else if (cd->c_type->ct_flags & CT_ARRAY) {
+ if (size < 0)
+ size = get_array_length(cd) * cd->c_type->ct_itemdescr->ct_size;
+ }
+ else {
+ PyErr_Format(PyExc_TypeError,
+ "expected a pointer or array cdata, got '%s'",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+ if (size < 0) {
+ PyErr_Format(PyExc_TypeError,
+ "don't know the size pointed to by '%s'",
+ cd->c_type->ct_name);
+ return NULL;
+ }
+
+ if (explicit_size && CDataOwn_Check(cd)) {
+ Py_ssize_t size_max = cdataowning_size_bytes(cd);
+ if (size > size_max) {
+ char msg[256];
+ sprintf(msg, "ffi.buffer(cdata, bytes): creating a buffer of %llu "
+ "bytes over a cdata that owns only %llu bytes. This "
+ "will crash if you access the extra memory",
+ (unsigned PY_LONG_LONG)size,
+ (unsigned PY_LONG_LONG)size_max);
+ if (PyErr_WarnEx(PyExc_UserWarning, msg, 1))
+ return NULL;
+ }
+ }
+ /*WRITE(cd->c_data, size)*/
+ return minibuffer_new(cd->c_data, size, (PyObject *)cd);
+}
+
+static PyObject *b_get_errno(PyObject *self, PyObject *noarg)
+{
+ int err;
+ restore_errno_only();
+ err = errno;
+ errno = 0;
+ return PyInt_FromLong(err);
+}
+
+static PyObject *b_set_errno(PyObject *self, PyObject *arg)
+{
+ long ival = PyInt_AsLong(arg);
+ if (ival == -1 && PyErr_Occurred())
+ return NULL;
+ else if (ival < INT_MIN || ival > INT_MAX) {
+ PyErr_SetString(PyExc_OverflowError, "errno value too large");
+ return NULL;
+ }
+ errno = (int)ival;
+ save_errno_only();
+ errno = 0;
+ Py_INCREF(Py_None);
+ return Py_None;
+}
+
+static PyObject *newp_handle(CTypeDescrObject *ct_voidp, PyObject *x)
+{
+ CDataObject_own_structptr *cd;
+ cd = (CDataObject_own_structptr *)PyObject_GC_New(CDataObject_own_structptr,
+ &CDataOwningGC_Type);
+ if (cd == NULL)
+ return NULL;
+ Py_INCREF(ct_voidp); /* must be "void *" */
+ cd->head.c_type = ct_voidp;
+ cd->head.c_data = (char *)cd;
+ cd->head.c_weakreflist = NULL;
+ Py_INCREF(x);
+ cd->structobj = x;
+ PyObject_GC_Track(cd);
+ return (PyObject *)cd;
+}
+
+static PyObject *b_newp_handle(PyObject *self, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ PyObject *x;
+ if (!PyArg_ParseTuple(args, "O!O", &CTypeDescr_Type, &ct, &x))
+ return NULL;
+
+ if (!(ct->ct_flags & CT_IS_VOID_PTR)) {
+ PyErr_Format(PyExc_TypeError, "needs 'void *', got '%s'", ct->ct_name);
+ return NULL;
+ }
+
+ return newp_handle(ct, x);
+}
+
+static PyObject *b_from_handle(PyObject *self, PyObject *arg)
+{
+ CTypeDescrObject *ct;
+ CDataObject_own_structptr *orgcd;
+ PyObject *x;
+ if (!CData_Check(arg)) {
+ PyErr_SetString(PyExc_TypeError, "expected a 'cdata' object");
+ return NULL;
+ }
+ ct = ((CDataObject *)arg)->c_type;
+ if (!(ct->ct_flags & CT_IS_VOIDCHAR_PTR)) {
+ PyErr_Format(PyExc_TypeError,
+ "expected a 'cdata' object with a 'void *' out of "
+ "new_handle(), got '%s'", ct->ct_name);
+ return NULL;
+ }
+ orgcd = (CDataObject_own_structptr *)((CDataObject *)arg)->c_data;
+ if (!orgcd) {
+ PyErr_SetString(PyExc_RuntimeError,
+ "cannot use from_handle() on NULL pointer");
+ return NULL;
+ }
+ if (Py_REFCNT(orgcd) <= 0 || Py_TYPE(orgcd) != &CDataOwningGC_Type) {
+ Py_FatalError("ffi.from_handle() detected that the address passed "
+ "points to garbage. If it is really the result of "
+ "ffi.new_handle(), then the Python object has already "
+ "been garbage collected");
+ }
+ x = orgcd->structobj;
+ Py_INCREF(x);
+ return x;
+}
+
+static int _my_PyObject_GetContiguousBuffer(PyObject *x, Py_buffer *view,
+ int writable_only)
+{
+#if PY_MAJOR_VERSION < 3
+ /* Some objects only support the buffer interface and CPython doesn't
+ translate it into the memoryview interface, mess. Hack a very
+ minimal content for 'view'. Don't care if the other fields are
+ uninitialized: we only call PyBuffer_Release(), which only reads
+ 'view->obj'. */
+ PyBufferProcs *pb = x->ob_type->tp_as_buffer;
+ if (pb && !pb->bf_releasebuffer) {
+ /* we used to try all three in some vaguely sensible order,
+ i.e. first the write. But trying to call the write on a
+ read-only buffer fails with TypeError. So we use a less-
+ sensible order now. See test_from_buffer_more_cases.
+
+ If 'writable_only', we only try bf_getwritebuffer.
+ */
+ readbufferproc proc = NULL;
+ if (!writable_only) {
+ proc = (readbufferproc)pb->bf_getreadbuffer;
+ if (!proc)
+ proc = (readbufferproc)pb->bf_getcharbuffer;
+ }
+ if (!proc)
+ proc = (readbufferproc)pb->bf_getwritebuffer;
+
+ if (proc && pb->bf_getsegcount) {
+ if ((*pb->bf_getsegcount)(x, NULL) != 1) {
+ PyErr_SetString(PyExc_TypeError,
+ "expected a single-segment buffer object");
+ return -1;
+ }
+ view->len = (*proc)(x, 0, &view->buf);
+ if (view->len < 0)
+ return -1;
+ view->obj = x;
+ Py_INCREF(x);
+ return 0;
+ }
+ }
+#endif
+
+ if (PyObject_GetBuffer(x, view, writable_only ? PyBUF_WRITABLE
+ : PyBUF_SIMPLE) < 0)
+ return -1;
+
+ if (!PyBuffer_IsContiguous(view, 'A')) {
+ PyBuffer_Release(view);
+ PyErr_SetString(PyExc_TypeError, "contiguous buffer expected");
+ return -1;
+ }
+ return 0;
+}
+
+static PyObject *direct_from_buffer(CTypeDescrObject *ct, PyObject *x,
+ int require_writable)
+{
+ CDataObject *cd;
+ Py_buffer *view;
+ Py_ssize_t arraylength, minimumlength = 0;
+
+ if (!(ct->ct_flags & (CT_ARRAY | CT_POINTER))) {
+ PyErr_Format(PyExc_TypeError,
+ "expected a pointer or array ctype, got '%s'",
+ ct->ct_name);
+ return NULL;
+ }
+
+ /* PyPy 5.7 can obtain buffers for string (python 2)
+ or bytes (python 3). from_buffer(u"foo") is disallowed.
+ */
+ if (PyUnicode_Check(x)) {
+ PyErr_SetString(PyExc_TypeError,
+ "from_buffer() cannot return the address "
+ "of a unicode object");
+ return NULL;
+ }
+
+ view = PyObject_Malloc(sizeof(Py_buffer));
+ if (view == NULL) {
+ PyErr_NoMemory();
+ return NULL;
+ }
+ if (_my_PyObject_GetContiguousBuffer(x, view, require_writable) < 0)
+ goto error1;
+
+ if (ct->ct_flags & CT_POINTER)
+ {
+ arraylength = view->len; /* number of bytes, not used so far */
+ }
+ else {
+ /* ct->ct_flags & CT_ARRAY */
+ if (ct->ct_length >= 0) {
+ /* it's an array with a fixed length; make sure that the
+ buffer contains enough bytes. */
+ minimumlength = ct->ct_size;
+ arraylength = ct->ct_length;
+ }
+ else {
+ /* it's an open 'array[]' */
+ if (ct->ct_itemdescr->ct_size == 1) {
+ /* fast path, performance only */
+ arraylength = view->len;
+ }
+ else if (ct->ct_itemdescr->ct_size > 0) {
+ /* give it as many items as fit the buffer. Ignore a
+ partial last element. */
+ arraylength = view->len / ct->ct_itemdescr->ct_size;
+ }
+ else {
+ /* it's an array 'empty[]'. Unsupported obscure case:
+ the problem is that setting the length of the result
+ to anything large (like SSIZE_T_MAX) is dangerous,
+ because if someone tries to loop over it, it will
+ turn effectively into an infinite loop. */
+ PyErr_Format(PyExc_ZeroDivisionError,
+ "from_buffer('%s', ..): the actual length of the array "
+ "cannot be computed", ct->ct_name);
+ goto error2;
+ }
+ }
+ }
+ if (view->len < minimumlength) {
+ PyErr_Format(PyExc_ValueError,
+ "buffer is too small (%zd bytes) for '%s' (%zd bytes)",
+ view->len, ct->ct_name, minimumlength);
+ goto error2;
+ }
+
+ cd = (CDataObject *)PyObject_GC_New(CDataObject_frombuf,
+ &CDataFromBuf_Type);
+ if (cd == NULL)
+ goto error2;
+
+ Py_INCREF(ct);
+ cd->c_type = ct;
+ cd->c_data = view->buf;
+ cd->c_weakreflist = NULL;
+ ((CDataObject_frombuf *)cd)->length = arraylength;
+ ((CDataObject_frombuf *)cd)->bufferview = view;
+ PyObject_GC_Track(cd);
+ return (PyObject *)cd;
+
+ error2:
+ PyBuffer_Release(view);
+ error1:
+ PyObject_Free(view);
+ return NULL;
+}
+
+static PyObject *b_from_buffer(PyObject *self, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ PyObject *x;
+ int require_writable = 0;
+
+ if (!PyArg_ParseTuple(args, "O!O|i", &CTypeDescr_Type, &ct, &x,
+ &require_writable))
+ return NULL;
+
+ return direct_from_buffer(ct, x, require_writable);
+}
+
+static int _fetch_as_buffer(PyObject *x, Py_buffer *view, int writable_only)
+{
+ if (CData_Check(x)) {
+ CTypeDescrObject *ct = ((CDataObject *)x)->c_type;
+ if (!(ct->ct_flags & (CT_POINTER|CT_ARRAY))) {
+ PyErr_Format(PyExc_TypeError,
+ "expected a pointer or array ctype, got '%s'",
+ ct->ct_name);
+ return -1;
+ }
+ view->buf = ((CDataObject *)x)->c_data;
+ view->obj = NULL;
+ return 0;
+ }
+ else {
+ return _my_PyObject_GetContiguousBuffer(x, view, writable_only);
+ }
+}
+
+static PyObject *b_memmove(PyObject *self, PyObject *args, PyObject *kwds)
+{
+ PyObject *dest_obj, *src_obj;
+ Py_buffer dest_view, src_view;
+ Py_ssize_t n;
+ static char *keywords[] = {"dest", "src", "n", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "OOn", keywords,
+ &dest_obj, &src_obj, &n))
+ return NULL;
+ if (n < 0) {
+ PyErr_SetString(PyExc_ValueError, "negative size");
+ return NULL;
+ }
+
+ if (_fetch_as_buffer(src_obj, &src_view, 0) < 0) {
+ return NULL;
+ }
+ if (_fetch_as_buffer(dest_obj, &dest_view, 1) < 0) {
+ PyBuffer_Release(&src_view);
+ return NULL;
+ }
+
+ memmove(dest_view.buf, src_view.buf, n);
+
+ PyBuffer_Release(&dest_view);
+ PyBuffer_Release(&src_view);
+ Py_INCREF(Py_None);
+ return Py_None;
+}
+
+static PyObject *b__get_types(PyObject *self, PyObject *noarg)
+{
+ return PyTuple_Pack(2, (PyObject *)&CData_Type,
+ (PyObject *)&CTypeDescr_Type);
+}
+
+/* forward, in commontypes.c */
+static PyObject *b__get_common_types(PyObject *self, PyObject *arg);
+
+static PyObject *b_gcp(PyObject *self, PyObject *args, PyObject *kwds)
+{
+ CDataObject *cd;
+ CDataObject *origobj;
+ PyObject *destructor;
+ Py_ssize_t ignored; /* for pypy */
+ static char *keywords[] = {"cdata", "destructor", "size", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "O!O|n:gc", keywords,
+ &CData_Type, &origobj, &destructor,
+ &ignored))
+ return NULL;
+
+ if (destructor == Py_None) {
+ if (!PyObject_TypeCheck(origobj, &CDataGCP_Type)) {
+ PyErr_SetString(PyExc_TypeError,
+ "Can remove destructor only on a object "
+ "previously returned by ffi.gc()");
+ return NULL;
+ }
+ Py_CLEAR(((CDataObject_gcp *)origobj)->destructor);
+ Py_RETURN_NONE;
+ }
+
+ cd = allocate_gcp_object(origobj, origobj->c_type, destructor);
+ return (PyObject *)cd;
+}
+
+static PyObject *b_release(PyObject *self, PyObject *arg)
+{
+ if (!CData_Check(arg)) {
+ PyErr_SetString(PyExc_TypeError, "expected a 'cdata' object");
+ return NULL;
+ }
+ return cdata_exit(arg, NULL);
+}
+
+/************************************************************/
+
+static char _testfunc0(char a, char b)
+{
+ return a + b;
+}
+static long _testfunc1(int a, long b)
+{
+ return (long)a + b;
+}
+static PY_LONG_LONG _testfunc2(PY_LONG_LONG a, PY_LONG_LONG b)
+{
+ return a + b;
+}
+static double _testfunc3(float a, double b)
+{
+ return a + b;
+}
+static float _testfunc4(float a, double b)
+{
+ return (float)(a + b);
+}
+static void _testfunc5(void)
+{
+ errno = errno + 15;
+}
+static int *_testfunc6(int *x)
+{
+ static int y;
+ y = *x - 1000;
+ return &y;
+}
+struct _testfunc7_s { unsigned char a1; short a2; };
+static short _testfunc7(struct _testfunc7_s inlined)
+{
+ return inlined.a1 + inlined.a2;
+}
+static int _testfunc9(int num, ...)
+{
+ va_list vargs;
+ int i, total = 0;
+ va_start(vargs, num);
+ for (i=0; i<num; i++) {
+ int value = va_arg(vargs, int);
+ if (value == 0)
+ value = -66666666;
+ total += value;
+ }
+ va_end(vargs);
+ return total;
+}
+
+static struct _testfunc7_s _testfunc10(int n)
+{
+ struct _testfunc7_s result;
+ result.a1 = n;
+ result.a2 = n * n;
+ return result;
+}
+
+struct _testfunc11_s { int a1, a2; };
+static struct _testfunc11_s _testfunc11(int n)
+{
+ struct _testfunc11_s result;
+ result.a1 = n;
+ result.a2 = n * n;
+ return result;
+}
+
+struct _testfunc12_s { double a1; };
+static struct _testfunc12_s _testfunc12(int n)
+{
+ struct _testfunc12_s result;
+ result.a1 = n;
+ return result;
+}
+
+struct _testfunc13_s { int a1, a2, a3; };
+static struct _testfunc13_s _testfunc13(int n)
+{
+ struct _testfunc13_s result;
+ result.a1 = n;
+ result.a2 = n * n;
+ result.a3 = n * n * n;
+ return result;
+}
+
+struct _testfunc14_s { float a1; };
+static struct _testfunc14_s _testfunc14(int n)
+{
+ struct _testfunc14_s result;
+ result.a1 = (float)n;
+ return result;
+}
+
+struct _testfunc15_s { float a1; int a2; };
+static struct _testfunc15_s _testfunc15(int n)
+{
+ struct _testfunc15_s result;
+ result.a1 = (float)n;
+ result.a2 = n * n;
+ return result;
+}
+
+struct _testfunc16_s { float a1, a2; };
+static struct _testfunc16_s _testfunc16(int n)
+{
+ struct _testfunc16_s result;
+ result.a1 = (float)n;
+ result.a2 = -(float)n;
+ return result;
+}
+
+struct _testfunc17_s { int a1; float a2; };
+static struct _testfunc17_s _testfunc17(int n)
+{
+ struct _testfunc17_s result;
+ result.a1 = n;
+ result.a2 = (float)n * (float)n;
+ return result;
+}
+
+static int _testfunc18(struct _testfunc17_s *ptr)
+{
+ return ptr->a1 + (int)ptr->a2;
+}
+
+static long double _testfunc19(long double x, int count)
+{
+ int i;
+ for (i=0; i<count; i++) {
+ x = 4*x - x*x;
+ }
+ return x;
+}
+
+static short _testfunc20(struct _testfunc7_s *ptr)
+{
+ return ptr->a1 + ptr->a2;
+}
+
+struct _testfunc21_s { int a, b, c, d, e, f, g, h, i, j; };
+static int _testfunc21(struct _testfunc21_s inlined)
+{
+ return ((inlined.a << 0) +
+ (inlined.b << 1) +
+ (inlined.c << 2) +
+ (inlined.d << 3) +
+ (inlined.e << 4) +
+ (inlined.f << 5) +
+ (inlined.g << 6) +
+ (inlined.h << 7) +
+ (inlined.i << 8) +
+ (inlined.j << 9));
+}
+
+struct _testfunc22_s { int a[10]; };
+static struct _testfunc22_s _testfunc22(struct _testfunc22_s s1,
+ struct _testfunc22_s s2)
+{
+ struct _testfunc22_s result;
+ int i;
+ for (i=0; i<10; i++)
+ result.a[i] = s1.a[i] - s2.a[i];
+ return result;
+}
+
+static int _testfunc23(char *p)
+{
+ if (p)
+ return 1000 * p[0];
+ return -42;
+}
+
+#if 0 /* libffi doesn't properly support complexes currently */
+ /* also, MSVC might not support _Complex... */
+ /* if this is enabled one day, remember to also add _Complex
+ * arguments in addition to return values. */
+static float _Complex _testfunc24(float a, float b)
+{
+ return a + I*2.0*b;
+}
+static double _Complex _testfunc25(double a, double b)
+{
+ return a + I*2.0*b;
+}
+#endif
+
+static PyObject *b__testfunc(PyObject *self, PyObject *args)
+{
+ /* for testing only */
+ int i;
+ void *f;
+ if (!PyArg_ParseTuple(args, "i:_testfunc", &i))
+ return NULL;
+ switch (i) {
+ case 0: f = &_testfunc0; break;
+ case 1: f = &_testfunc1; break;
+ case 2: f = &_testfunc2; break;
+ case 3: f = &_testfunc3; break;
+ case 4: f = &_testfunc4; break;
+ case 5: f = &_testfunc5; break;
+ case 6: f = &_testfunc6; break;
+ case 7: f = &_testfunc7; break;
+ case 8: f = stderr; break;
+ case 9: f = &_testfunc9; break;
+ case 10: f = &_testfunc10; break;
+ case 11: f = &_testfunc11; break;
+ case 12: f = &_testfunc12; break;
+ case 13: f = &_testfunc13; break;
+ case 14: f = &_testfunc14; break;
+ case 15: f = &_testfunc15; break;
+ case 16: f = &_testfunc16; break;
+ case 17: f = &_testfunc17; break;
+ case 18: f = &_testfunc18; break;
+ case 19: f = &_testfunc19; break;
+ case 20: f = &_testfunc20; break;
+ case 21: f = &_testfunc21; break;
+ case 22: f = &_testfunc22; break;
+ case 23: f = &_testfunc23; break;
+#if 0
+ case 24: f = &_testfunc24; break;
+ case 25: f = &_testfunc25; break;
+#endif
+ default:
+ PyErr_SetNone(PyExc_ValueError);
+ return NULL;
+ }
+ return PyLong_FromVoidPtr(f);
+}
+
+#if PY_MAJOR_VERSION < 3
+static Py_ssize_t _test_segcountproc(PyObject *o, Py_ssize_t *ignored)
+{
+ return 1;
+}
+static Py_ssize_t _test_getreadbuf(PyObject *o, Py_ssize_t i, void **r)
+{
+ static char buf[] = "RDB";
+ *r = buf;
+ return 3;
+}
+static Py_ssize_t _test_getwritebuf(PyObject *o, Py_ssize_t i, void **r)
+{
+ static char buf[] = "WRB";
+ *r = buf;
+ return 3;
+}
+static Py_ssize_t _test_getcharbuf(PyObject *o, Py_ssize_t i, char **r)
+{
+ static char buf[] = "CHB";
+ *r = buf;
+ return 3;
+}
+#endif
+static int _test_getbuf(PyObject *self, Py_buffer *view, int flags)
+{
+ static char buf[] = "GTB";
+ return PyBuffer_FillInfo(view, self, buf, 3, /*readonly=*/0, flags);
+}
+static int _test_getbuf_ro(PyObject *self, Py_buffer *view, int flags)
+{
+ static char buf[] = "ROB";
+ return PyBuffer_FillInfo(view, self, buf, 3, /*readonly=*/1, flags);
+}
+
+
+static PyObject *b__testbuff(PyObject *self, PyObject *args)
+{
+ /* for testing only */
+ int methods;
+ PyTypeObject *obj;
+ if (!PyArg_ParseTuple(args, "O!i|_testbuff", &PyType_Type, &obj, &methods))
+ return NULL;
+
+ assert(obj->tp_as_buffer != NULL);
+
+#if PY_MAJOR_VERSION < 3
+ obj->tp_as_buffer->bf_getsegcount = &_test_segcountproc;
+ obj->tp_flags |= Py_TPFLAGS_HAVE_GETCHARBUFFER;
+ obj->tp_flags |= Py_TPFLAGS_HAVE_NEWBUFFER;
+ if (methods & 1) obj->tp_as_buffer->bf_getreadbuffer = &_test_getreadbuf;
+ if (methods & 2) obj->tp_as_buffer->bf_getwritebuffer = &_test_getwritebuf;
+ if (methods & 4) obj->tp_as_buffer->bf_getcharbuffer = &_test_getcharbuf;
+#endif
+ if (methods & 8) obj->tp_as_buffer->bf_getbuffer = &_test_getbuf;
+ if (methods & 16) obj->tp_as_buffer->bf_getbuffer = &_test_getbuf_ro;
+
+ Py_INCREF(Py_None);
+ return Py_None;
+}
+
+static PyObject *b_init_cffi_1_0_external_module(PyObject *, PyObject *);
+/* forward, see cffi1_module.c */
+
+
+static PyMethodDef FFIBackendMethods[] = {
+ {"load_library", b_load_library, METH_VARARGS},
+ {"new_primitive_type", b_new_primitive_type, METH_VARARGS},
+ {"new_pointer_type", b_new_pointer_type, METH_VARARGS},
+ {"new_array_type", b_new_array_type, METH_VARARGS},
+ {"new_void_type", b_new_void_type, METH_NOARGS},
+ {"new_struct_type", b_new_struct_type, METH_VARARGS},
+ {"new_union_type", b_new_union_type, METH_VARARGS},
+ {"complete_struct_or_union", b_complete_struct_or_union, METH_VARARGS},
+ {"new_function_type", b_new_function_type, METH_VARARGS},
+ {"new_enum_type", b_new_enum_type, METH_VARARGS},
+ {"newp", b_newp, METH_VARARGS},
+ {"cast", b_cast, METH_VARARGS},
+ {"callback", b_callback, METH_VARARGS},
+ {"alignof", b_alignof, METH_O},
+ {"sizeof", b_sizeof, METH_O},
+ {"typeof", b_typeof, METH_O},
+ {"typeoffsetof", b_typeoffsetof, METH_VARARGS},
+ {"rawaddressof", b_rawaddressof, METH_VARARGS},
+ {"getcname", b_getcname, METH_VARARGS},
+ {"string", (PyCFunction)b_string, METH_VARARGS | METH_KEYWORDS},
+ {"unpack", (PyCFunction)b_unpack, METH_VARARGS | METH_KEYWORDS},
+ {"get_errno", b_get_errno, METH_NOARGS},
+ {"set_errno", b_set_errno, METH_O},
+ {"newp_handle", b_newp_handle, METH_VARARGS},
+ {"from_handle", b_from_handle, METH_O},
+ {"from_buffer", b_from_buffer, METH_VARARGS},
+ {"memmove", (PyCFunction)b_memmove, METH_VARARGS | METH_KEYWORDS},
+ {"gcp", (PyCFunction)b_gcp, METH_VARARGS | METH_KEYWORDS},
+ {"release", b_release, METH_O},
+#ifdef MS_WIN32
+ {"getwinerror", (PyCFunction)b_getwinerror, METH_VARARGS | METH_KEYWORDS},
+#endif
+ {"_get_types", b__get_types, METH_NOARGS},
+ {"_get_common_types", b__get_common_types, METH_O},
+ {"_testfunc", b__testfunc, METH_VARARGS},
+ {"_testbuff", b__testbuff, METH_VARARGS},
+ {"_init_cffi_1_0_external_module", b_init_cffi_1_0_external_module, METH_O},
+ {NULL, NULL} /* Sentinel */
+};
+
+/************************************************************/
+/* Functions used by '_cffi_N.so', the generated modules */
+
+#define _cffi_to_c_SIGNED_FN(RETURNTYPE, SIZE) \
+static RETURNTYPE _cffi_to_c_i##SIZE(PyObject *obj) { \
+ PY_LONG_LONG tmp = _my_PyLong_AsLongLong(obj); \
+ if ((tmp > (PY_LONG_LONG)((1ULL<<(SIZE-1)) - 1)) || \
+ (tmp < (PY_LONG_LONG)(0ULL-(1ULL<<(SIZE-1))))) \
+ if (!PyErr_Occurred()) \
+ return (RETURNTYPE)_convert_overflow(obj, #SIZE "-bit int"); \
+ return (RETURNTYPE)tmp; \
+}
+
+#define _cffi_to_c_UNSIGNED_FN(RETURNTYPE, SIZE) \
+static RETURNTYPE _cffi_to_c_u##SIZE(PyObject *obj) { \
+ unsigned PY_LONG_LONG tmp = _my_PyLong_AsUnsignedLongLong(obj, 1); \
+ if (tmp > ~(((unsigned PY_LONG_LONG)-2) << (SIZE-1))) \
+ if (!PyErr_Occurred()) \
+ return (RETURNTYPE)_convert_overflow(obj, \
+ #SIZE "-bit unsigned int"); \
+ return (RETURNTYPE)tmp; \
+}
+
+_cffi_to_c_SIGNED_FN(int, 8)
+_cffi_to_c_SIGNED_FN(int, 16)
+_cffi_to_c_SIGNED_FN(int, 32)
+_cffi_to_c_SIGNED_FN(PY_LONG_LONG, 64)
+_cffi_to_c_UNSIGNED_FN(int, 8)
+_cffi_to_c_UNSIGNED_FN(int, 16)
+_cffi_to_c_UNSIGNED_FN(unsigned int, 32)
+_cffi_to_c_UNSIGNED_FN(unsigned PY_LONG_LONG, 64)
+
+static PyObject *_cffi_from_c_pointer(char *ptr, CTypeDescrObject *ct)
+{
+ return convert_to_object((char *)&ptr, ct);
+}
+
+static char *_cffi_to_c_pointer(PyObject *obj, CTypeDescrObject *ct)
+{
+ char *result;
+ if (convert_from_object((char *)&result, ct, obj) < 0) {
+ if ((ct->ct_flags & CT_POINTER) &&
+ (ct->ct_itemdescr->ct_flags & CT_IS_FILE) &&
+ PyFile_Check(obj)) {
+ PyErr_Clear();
+ return (char *)PyFile_AsFile(obj);
+ }
+ return NULL;
+ }
+ return result;
+}
+
+static long double _cffi_to_c_long_double(PyObject *obj)
+{
+ if (CData_Check(obj) &&
+ (((CDataObject *)obj)->c_type->ct_flags & CT_IS_LONGDOUBLE)) {
+ char *data = ((CDataObject *)obj)->c_data;
+ /*READ(data, sizeof(long double))*/
+ return read_raw_longdouble_data(data);
+ }
+ else
+ return PyFloat_AsDouble(obj);
+}
+
+static _Bool _cffi_to_c__Bool(PyObject *obj)
+{
+ PY_LONG_LONG tmp = _my_PyLong_AsLongLong(obj);
+ if (tmp == 0)
+ return 0;
+ else if (tmp == 1)
+ return 1;
+ else if (PyErr_Occurred())
+ return (_Bool)-1;
+ else
+ return (_Bool)_convert_overflow(obj, "_Bool");
+}
+
+static PyObject *_cffi_get_struct_layout(Py_ssize_t nums[])
+{
+ PyObject *result;
+ int count = 0;
+ while (nums[count] >= 0)
+ count++;
+
+ result = PyList_New(count);
+ if (result == NULL)
+ return NULL;
+
+ while (--count >= 0) {
+ PyObject *o = PyInt_FromSsize_t(nums[count]);
+ if (o == NULL) {
+ Py_DECREF(result);
+ return NULL;
+ }
+ PyList_SET_ITEM(result, count, o);
+ }
+ return result;
+}
+
+static PyObject *_cffi_from_c_char(char x) {
+ return PyBytes_FromStringAndSize(&x, 1);
+}
+
+/* backward-compatibility hack: instead of _cffi_to_c_char16_t() and
+ * _cffi_to_c_char32_t(), we have _cffi_to_c_wchar_t() handling whatever
+ * size is wchar_t, and _cffi_to_c_wchar3216_t() handling the opposite.
+ */
+#ifdef HAVE_WCHAR_H
+typedef wchar_t cffi_wchar_t;
+#else
+typedef uint16_t cffi_wchar_t; /* random pick... */
+#endif
+
+static cffi_wchar_t _cffi_to_c_wchar_t(PyObject *init)
+{
+ if (sizeof(cffi_wchar_t) == 2)
+ return (cffi_wchar_t)_convert_to_char16_t(init);
+ else
+ return (cffi_wchar_t)_convert_to_char32_t(init);
+}
+static PyObject *_cffi_from_c_wchar_t(cffi_wchar_t x) {
+ if (sizeof(cffi_wchar_t) == 2) {
+ cffi_char16_t input = x;
+ return _my_PyUnicode_FromChar16(&input, 1);
+ }
+ else {
+ cffi_char32_t input = x;
+ return _my_PyUnicode_FromChar32(&input, 1);
+ }
+}
+static int _cffi_to_c_wchar3216_t(PyObject *init)
+{
+ if (sizeof(cffi_wchar_t) == 4)
+ return (int)_convert_to_char16_t(init);
+ else
+ return (int)_convert_to_char32_t(init);
+}
+static PyObject *_cffi_from_c_wchar3216_t(int x) {
+ if (sizeof(cffi_wchar_t) == 4) {
+ cffi_char16_t input = x;
+ return _my_PyUnicode_FromChar16(&input, 1);
+ }
+ else {
+ cffi_char32_t input = x;
+ return _my_PyUnicode_FromChar32(&input, 1);
+ }
+}
+
+struct _cffi_externpy_s; /* forward declaration */
+static void cffi_call_python(struct _cffi_externpy_s *, char *args);
+
+static void *cffi_exports[] = {
+ NULL,
+ _cffi_to_c_i8,
+ _cffi_to_c_u8,
+ _cffi_to_c_i16,
+ _cffi_to_c_u16,
+ _cffi_to_c_i32,
+ _cffi_to_c_u32,
+ _cffi_to_c_i64,
+ _cffi_to_c_u64,
+ _convert_to_char,
+ _cffi_from_c_pointer,
+ _cffi_to_c_pointer,
+ _cffi_get_struct_layout,
+ restore_errno,
+ save_errno,
+ _cffi_from_c_char,
+ convert_to_object,
+ convert_from_object,
+ convert_struct_to_owning_object,
+ _cffi_to_c_wchar_t,
+ _cffi_from_c_wchar_t,
+ _cffi_to_c_long_double,
+ _cffi_to_c__Bool,
+ _prepare_pointer_call_argument,
+ convert_array_from_object,
+ cffi_call_python,
+ _cffi_to_c_wchar3216_t,
+ _cffi_from_c_wchar3216_t,
+};
+
+static struct { const char *name; int value; } all_dlopen_flags[] = {
+ { "RTLD_LAZY", RTLD_LAZY },
+ { "RTLD_NOW", RTLD_NOW },
+ { "RTLD_GLOBAL", RTLD_GLOBAL },
+#ifdef RTLD_LOCAL
+ { "RTLD_LOCAL", RTLD_LOCAL },
+#else
+ { "RTLD_LOCAL", 0 },
+#endif
+#ifdef RTLD_NODELETE
+ { "RTLD_NODELETE", RTLD_NODELETE },
+#endif
+#ifdef RTLD_NOLOAD
+ { "RTLD_NOLOAD", RTLD_NOLOAD },
+#endif
+#ifdef RTLD_DEEPBIND
+ { "RTLD_DEEPBIND", RTLD_DEEPBIND },
+#endif
+ { NULL, 0 }
+};
+
+
+/************************************************************/
+
+#include "cffi1_module.c"
+
+/************************************************************/
+
+#if PY_MAJOR_VERSION >= 3
+static struct PyModuleDef FFIBackendModuleDef = {
+ PyModuleDef_HEAD_INIT,
+ "_cffi_backend",
+ NULL,
+ -1,
+ FFIBackendMethods,
+ NULL, NULL, NULL, NULL
+};
+#define INITERROR return NULL
+
+PyMODINIT_FUNC
+PyInit__cffi_backend(void)
+#else
+#define INITERROR return
+
+PyMODINIT_FUNC
+init_cffi_backend(void)
+#endif
+{
+ PyObject *m, *v;
+ int i;
+ static char init_done = 0;
+ static PyTypeObject *all_types[] = {
+ &dl_type,
+ &CTypeDescr_Type,
+ &CField_Type,
+ &CData_Type,
+ &CDataOwning_Type,
+ &CDataOwningGC_Type,
+ &CDataFromBuf_Type,
+ &CDataGCP_Type,
+ &CDataIter_Type,
+ &MiniBuffer_Type,
+ &FFI_Type,
+ &Lib_Type,
+ &GlobSupport_Type,
+ NULL
+ };
+
+ v = PySys_GetObject("version");
+ if (v == NULL || !PyText_Check(v) ||
+ strncmp(PyText_AS_UTF8(v), PY_VERSION, 3) != 0) {
+ PyErr_Format(PyExc_ImportError,
+ "this module was compiled for Python %c%c%c",
+ PY_VERSION[0], PY_VERSION[1], PY_VERSION[2]);
+ INITERROR;
+ }
+
+#if PY_MAJOR_VERSION >= 3
+ m = PyModule_Create(&FFIBackendModuleDef);
+#else
+ m = Py_InitModule("_cffi_backend", FFIBackendMethods);
+#endif
+
+ if (m == NULL)
+ INITERROR;
+
+ if (unique_cache == NULL) {
+ unique_cache = PyDict_New();
+ if (unique_cache == NULL)
+ INITERROR;
+ }
+
+ /* readify all types and add them to the module */
+ for (i = 0; all_types[i] != NULL; i++) {
+ PyTypeObject *tp = all_types[i];
+ PyObject *tpo = (PyObject *)tp;
+ if (strncmp(tp->tp_name, "_cffi_backend.", 14) != 0) {
+ PyErr_Format(PyExc_ImportError,
+ "'%s' is an ill-formed type name", tp->tp_name);
+ INITERROR;
+ }
+ if (PyType_Ready(tp) < 0)
+ INITERROR;
+
+ Py_INCREF(tpo);
+ if (PyModule_AddObject(m, tp->tp_name + 14, tpo) < 0)
+ INITERROR;
+ }
+
+ if (!init_done) {
+ v = PyText_FromString("_cffi_backend");
+ if (v == NULL || PyDict_SetItemString(CData_Type.tp_dict,
+ "__module__", v) < 0)
+ INITERROR;
+ v = PyText_FromString("<cdata>");
+ if (v == NULL || PyDict_SetItemString(CData_Type.tp_dict,
+ "__name__", v) < 0)
+ INITERROR;
+ init_done = 1;
+ }
+
+ /* this is for backward compatibility only */
+ v = PyCapsule_New((void *)cffi_exports, "cffi", NULL);
+ if (v == NULL || PyModule_AddObject(m, "_C_API", v) < 0)
+ INITERROR;
+
+ v = PyText_FromString(CFFI_VERSION);
+ if (v == NULL || PyModule_AddObject(m, "__version__", v) < 0)
+ INITERROR;
+
+ if (PyModule_AddIntConstant(m, "FFI_DEFAULT_ABI", FFI_DEFAULT_ABI) < 0 ||
+#if defined(MS_WIN32) && !defined(_WIN64)
+ PyModule_AddIntConstant(m, "FFI_STDCALL", FFI_STDCALL) < 0 ||
+#endif
+ PyModule_AddIntConstant(m, "FFI_CDECL", FFI_DEFAULT_ABI) < 0 ||
+
+#ifdef MS_WIN32
+# ifdef _WIN64
+ PyModule_AddIntConstant(m, "_WIN", 64) < 0 || /* win64 */
+# else
+ PyModule_AddIntConstant(m, "_WIN", 32) < 0 || /* win32 */
+# endif
+#endif
+ 0)
+ INITERROR;
+
+ for (i = 0; all_dlopen_flags[i].name != NULL; i++) {
+ if (PyModule_AddIntConstant(m,
+ all_dlopen_flags[i].name,
+ all_dlopen_flags[i].value) < 0)
+ INITERROR;
+ }
+
+ init_cffi_tls();
+ if (PyErr_Occurred())
+ INITERROR;
+ init_cffi_tls_zombie();
+ if (PyErr_Occurred())
+ INITERROR;
+
+ if (init_ffi_lib(m) < 0)
+ INITERROR;
+
+#if PY_MAJOR_VERSION >= 3
+ if (init_file_emulator() < 0)
+ INITERROR;
+ return m;
+#endif
+}
diff --git a/contrib/python/cffi/c/call_python.c b/contrib/python/cffi/py2/c/call_python.c
index 8c6703cc26..8c6703cc26 100644
--- a/contrib/python/cffi/c/call_python.c
+++ b/contrib/python/cffi/py2/c/call_python.c
diff --git a/contrib/python/cffi/c/cdlopen.c b/contrib/python/cffi/py2/c/cdlopen.c
index 0ed319b8b5..0ed319b8b5 100644
--- a/contrib/python/cffi/c/cdlopen.c
+++ b/contrib/python/cffi/py2/c/cdlopen.c
diff --git a/contrib/python/cffi/c/cffi1_module.c b/contrib/python/cffi/py2/c/cffi1_module.c
index 06a84fea37..06a84fea37 100644
--- a/contrib/python/cffi/c/cffi1_module.c
+++ b/contrib/python/cffi/py2/c/cffi1_module.c
diff --git a/contrib/python/cffi/c/cglob.c b/contrib/python/cffi/py2/c/cglob.c
index e97767c9d7..e97767c9d7 100644
--- a/contrib/python/cffi/c/cglob.c
+++ b/contrib/python/cffi/py2/c/cglob.c
diff --git a/contrib/python/cffi/c/commontypes.c b/contrib/python/cffi/py2/c/commontypes.c
index a41c2fdd2b..a41c2fdd2b 100644
--- a/contrib/python/cffi/c/commontypes.c
+++ b/contrib/python/cffi/py2/c/commontypes.c
diff --git a/contrib/python/cffi/c/ffi_obj.c b/contrib/python/cffi/py2/c/ffi_obj.c
index f154146621..f154146621 100644
--- a/contrib/python/cffi/c/ffi_obj.c
+++ b/contrib/python/cffi/py2/c/ffi_obj.c
diff --git a/contrib/python/cffi/c/file_emulator.h b/contrib/python/cffi/py2/c/file_emulator.h
index 82a34c0c72..82a34c0c72 100644
--- a/contrib/python/cffi/c/file_emulator.h
+++ b/contrib/python/cffi/py2/c/file_emulator.h
diff --git a/contrib/python/cffi/c/lib_obj.c b/contrib/python/cffi/py2/c/lib_obj.c
index be389838db..be389838db 100644
--- a/contrib/python/cffi/c/lib_obj.c
+++ b/contrib/python/cffi/py2/c/lib_obj.c
diff --git a/contrib/python/cffi/c/malloc_closure.h b/contrib/python/cffi/py2/c/malloc_closure.h
index bebb93dc15..bebb93dc15 100644
--- a/contrib/python/cffi/c/malloc_closure.h
+++ b/contrib/python/cffi/py2/c/malloc_closure.h
diff --git a/contrib/python/cffi/c/minibuffer.h b/contrib/python/cffi/py2/c/minibuffer.h
index f3f5ca15c4..f3f5ca15c4 100644
--- a/contrib/python/cffi/c/minibuffer.h
+++ b/contrib/python/cffi/py2/c/minibuffer.h
diff --git a/contrib/python/cffi/c/misc_thread_common.h b/contrib/python/cffi/py2/c/misc_thread_common.h
index 66e283545b..66e283545b 100644
--- a/contrib/python/cffi/c/misc_thread_common.h
+++ b/contrib/python/cffi/py2/c/misc_thread_common.h
diff --git a/contrib/python/cffi/c/misc_thread_posix.h b/contrib/python/cffi/py2/c/misc_thread_posix.h
index bcc017737b..bcc017737b 100644
--- a/contrib/python/cffi/c/misc_thread_posix.h
+++ b/contrib/python/cffi/py2/c/misc_thread_posix.h
diff --git a/contrib/python/cffi/c/misc_win32.h b/contrib/python/cffi/py2/c/misc_win32.h
index 2946721801..2946721801 100644
--- a/contrib/python/cffi/c/misc_win32.h
+++ b/contrib/python/cffi/py2/c/misc_win32.h
diff --git a/contrib/python/cffi/c/parse_c_type.c b/contrib/python/cffi/py2/c/parse_c_type.c
index 698ef6451e..698ef6451e 100644
--- a/contrib/python/cffi/c/parse_c_type.c
+++ b/contrib/python/cffi/py2/c/parse_c_type.c
diff --git a/contrib/python/cffi/c/realize_c_type.c b/contrib/python/cffi/py2/c/realize_c_type.c
index 82629b7ef1..82629b7ef1 100644
--- a/contrib/python/cffi/c/realize_c_type.c
+++ b/contrib/python/cffi/py2/c/realize_c_type.c
diff --git a/contrib/python/cffi/c/wchar_helper.h b/contrib/python/cffi/py2/c/wchar_helper.h
index 399b55130b..399b55130b 100644
--- a/contrib/python/cffi/c/wchar_helper.h
+++ b/contrib/python/cffi/py2/c/wchar_helper.h
diff --git a/contrib/python/cffi/c/wchar_helper_3.h b/contrib/python/cffi/py2/c/wchar_helper_3.h
index f15464ef60..f15464ef60 100644
--- a/contrib/python/cffi/c/wchar_helper_3.h
+++ b/contrib/python/cffi/py2/c/wchar_helper_3.h
diff --git a/contrib/python/cffi/cffi/__init__.py b/contrib/python/cffi/py2/cffi/__init__.py
index 90e2e6559d..90e2e6559d 100644
--- a/contrib/python/cffi/cffi/__init__.py
+++ b/contrib/python/cffi/py2/cffi/__init__.py
diff --git a/contrib/python/cffi/cffi/_cffi_errors.h b/contrib/python/cffi/py2/cffi/_cffi_errors.h
index 158e059034..158e059034 100644
--- a/contrib/python/cffi/cffi/_cffi_errors.h
+++ b/contrib/python/cffi/py2/cffi/_cffi_errors.h
diff --git a/contrib/python/cffi/cffi/_cffi_include.h b/contrib/python/cffi/py2/cffi/_cffi_include.h
index e4c0a67240..e4c0a67240 100644
--- a/contrib/python/cffi/cffi/_cffi_include.h
+++ b/contrib/python/cffi/py2/cffi/_cffi_include.h
diff --git a/contrib/python/cffi/cffi/_embedding.h b/contrib/python/cffi/py2/cffi/_embedding.h
index 8e8df882d4..8e8df882d4 100644
--- a/contrib/python/cffi/cffi/_embedding.h
+++ b/contrib/python/cffi/py2/cffi/_embedding.h
diff --git a/contrib/python/cffi/cffi/api.py b/contrib/python/cffi/py2/cffi/api.py
index 999a8aefc4..999a8aefc4 100644
--- a/contrib/python/cffi/cffi/api.py
+++ b/contrib/python/cffi/py2/cffi/api.py
diff --git a/contrib/python/cffi/cffi/backend_ctypes.py b/contrib/python/cffi/py2/cffi/backend_ctypes.py
index e7956a79cf..e7956a79cf 100644
--- a/contrib/python/cffi/cffi/backend_ctypes.py
+++ b/contrib/python/cffi/py2/cffi/backend_ctypes.py
diff --git a/contrib/python/cffi/cffi/cffi_opcode.py b/contrib/python/cffi/py2/cffi/cffi_opcode.py
index a0df98d1c7..a0df98d1c7 100644
--- a/contrib/python/cffi/cffi/cffi_opcode.py
+++ b/contrib/python/cffi/py2/cffi/cffi_opcode.py
diff --git a/contrib/python/cffi/cffi/commontypes.py b/contrib/python/cffi/py2/cffi/commontypes.py
index 8ec97c756a..8ec97c756a 100644
--- a/contrib/python/cffi/cffi/commontypes.py
+++ b/contrib/python/cffi/py2/cffi/commontypes.py
diff --git a/contrib/python/cffi/cffi/cparser.py b/contrib/python/cffi/py2/cffi/cparser.py
index 74830e913f..74830e913f 100644
--- a/contrib/python/cffi/cffi/cparser.py
+++ b/contrib/python/cffi/py2/cffi/cparser.py
diff --git a/contrib/python/cffi/cffi/error.py b/contrib/python/cffi/py2/cffi/error.py
index 0a27247c32..0a27247c32 100644
--- a/contrib/python/cffi/cffi/error.py
+++ b/contrib/python/cffi/py2/cffi/error.py
diff --git a/contrib/python/cffi/cffi/ffiplatform.py b/contrib/python/cffi/py2/cffi/ffiplatform.py
index 85313460a6..85313460a6 100644
--- a/contrib/python/cffi/cffi/ffiplatform.py
+++ b/contrib/python/cffi/py2/cffi/ffiplatform.py
diff --git a/contrib/python/cffi/cffi/lock.py b/contrib/python/cffi/py2/cffi/lock.py
index db91b7158c..db91b7158c 100644
--- a/contrib/python/cffi/cffi/lock.py
+++ b/contrib/python/cffi/py2/cffi/lock.py
diff --git a/contrib/python/cffi/cffi/model.py b/contrib/python/cffi/py2/cffi/model.py
index ad1c176489..ad1c176489 100644
--- a/contrib/python/cffi/cffi/model.py
+++ b/contrib/python/cffi/py2/cffi/model.py
diff --git a/contrib/python/cffi/cffi/parse_c_type.h b/contrib/python/cffi/py2/cffi/parse_c_type.h
index 84e4ef8565..84e4ef8565 100644
--- a/contrib/python/cffi/cffi/parse_c_type.h
+++ b/contrib/python/cffi/py2/cffi/parse_c_type.h
diff --git a/contrib/python/cffi/cffi/pkgconfig.py b/contrib/python/cffi/py2/cffi/pkgconfig.py
index 5c93f15a60..5c93f15a60 100644
--- a/contrib/python/cffi/cffi/pkgconfig.py
+++ b/contrib/python/cffi/py2/cffi/pkgconfig.py
diff --git a/contrib/python/cffi/cffi/recompiler.py b/contrib/python/cffi/py2/cffi/recompiler.py
index f5a366b57a..f5a366b57a 100644
--- a/contrib/python/cffi/cffi/recompiler.py
+++ b/contrib/python/cffi/py2/cffi/recompiler.py
diff --git a/contrib/python/cffi/cffi/setuptools_ext.py b/contrib/python/cffi/py2/cffi/setuptools_ext.py
index 8fe361487e..8fe361487e 100644
--- a/contrib/python/cffi/cffi/setuptools_ext.py
+++ b/contrib/python/cffi/py2/cffi/setuptools_ext.py
diff --git a/contrib/python/cffi/cffi/vengine_cpy.py b/contrib/python/cffi/py2/cffi/vengine_cpy.py
index 6de0df0ea4..6de0df0ea4 100644
--- a/contrib/python/cffi/cffi/vengine_cpy.py
+++ b/contrib/python/cffi/py2/cffi/vengine_cpy.py
diff --git a/contrib/python/cffi/cffi/vengine_gen.py b/contrib/python/cffi/py2/cffi/vengine_gen.py
index 26421526f6..26421526f6 100644
--- a/contrib/python/cffi/cffi/vengine_gen.py
+++ b/contrib/python/cffi/py2/cffi/vengine_gen.py
diff --git a/contrib/python/cffi/cffi/verifier.py b/contrib/python/cffi/py2/cffi/verifier.py
index a500c7814a..a500c7814a 100644
--- a/contrib/python/cffi/cffi/verifier.py
+++ b/contrib/python/cffi/py2/cffi/verifier.py
diff --git a/contrib/python/cffi/py2/gen/lib/ya.make b/contrib/python/cffi/py2/gen/lib/ya.make
new file mode 100644
index 0000000000..64e54a67c3
--- /dev/null
+++ b/contrib/python/cffi/py2/gen/lib/ya.make
@@ -0,0 +1,19 @@
+PY2_LIBRARY()
+
+LICENSE(MIT)
+
+PEERDIR(
+ contrib/python/cffi
+)
+
+SRCDIR(
+ contrib/python/cffi/py2/gen
+)
+
+PY_SRCS(
+ MAIN main.py
+)
+
+NO_LINT()
+
+END()
diff --git a/contrib/python/cffi/py2/gen/main.py b/contrib/python/cffi/py2/gen/main.py
new file mode 100644
index 0000000000..106293d3c5
--- /dev/null
+++ b/contrib/python/cffi/py2/gen/main.py
@@ -0,0 +1,37 @@
+import os.path
+import sys
+
+from cffi.setuptools_ext import execfile
+
+usage = '''Usage: {} INPUT:VAR OUTPUT
+Generate CFFI C module source code.
+
+INPUT is a source .py file.
+VAR is a cffi.FFI() object defined in the source file.
+OUTPUT is a .c or .cpp output file.
+'''
+
+
+def main():
+ if len(sys.argv) != 3 or ':' not in sys.argv[1]:
+ sys.stdout.write(usage.format(sys.argv[0]))
+ sys.exit(1)
+
+ mod_spec, c_file = sys.argv[1:3]
+ build_file_name, ffi_var_name = mod_spec.rsplit(':', 1)
+
+ source_dir = os.path.dirname(os.path.abspath(build_file_name))
+ sys._MEIPASS = source_dir # For pygit2.
+ sys.dont_write_bytecode = True
+ sys.path = [source_dir]
+ mod_vars = {'__name__': '__cffi__', '__file__': build_file_name}
+ execfile(build_file_name, mod_vars)
+
+ ffi = mod_vars[ffi_var_name]
+ if callable(ffi):
+ ffi = ffi()
+ ffi.emit_c_code(c_file)
+
+
+if __name__ == '__main__':
+ main()
diff --git a/contrib/python/cffi/py2/gen/ya.make b/contrib/python/cffi/py2/gen/ya.make
new file mode 100644
index 0000000000..3a78fd7359
--- /dev/null
+++ b/contrib/python/cffi/py2/gen/ya.make
@@ -0,0 +1,17 @@
+PY2_PROGRAM(cffigen)
+
+DISABLE(PYTHON_SQLITE3)
+
+LICENSE(MIT)
+
+PEERDIR(
+ contrib/python/cffi/py2/gen/lib
+)
+
+INDUCED_DEPS(cpp ${ARCADIA_ROOT}/contrib/python/cffi/py2/cffi/_cffi_include.h)
+
+END()
+
+RECURSE(
+ lib
+)
diff --git a/contrib/python/cffi/py2/ya.make b/contrib/python/cffi/py2/ya.make
new file mode 100644
index 0000000000..03c8795457
--- /dev/null
+++ b/contrib/python/cffi/py2/ya.make
@@ -0,0 +1,69 @@
+# Generated by devtools/yamaker (pypi).
+
+PY2_LIBRARY()
+
+VERSION(1.15.1)
+
+LICENSE(MIT)
+
+PEERDIR(
+ contrib/python/pycparser
+ contrib/restricted/libffi
+)
+
+ADDINCL(
+ contrib/restricted/libffi/include
+)
+
+NO_COMPILER_WARNINGS()
+
+NO_LINT()
+
+SRCS(
+ c/_cffi_backend.c
+)
+
+PY_REGISTER(
+ _cffi_backend
+)
+
+PY_SRCS(
+ TOP_LEVEL
+ cffi/__init__.py
+ cffi/api.py
+ cffi/backend_ctypes.py
+ cffi/cffi_opcode.py
+ cffi/commontypes.py
+ cffi/cparser.py
+ cffi/error.py
+ cffi/ffiplatform.py
+ cffi/lock.py
+ cffi/model.py
+ cffi/pkgconfig.py
+ cffi/recompiler.py
+ cffi/setuptools_ext.py
+ cffi/vengine_cpy.py
+ cffi/vengine_gen.py
+ cffi/verifier.py
+)
+
+RESOURCE_FILES(
+ PREFIX contrib/python/cffi/py2/
+ .dist-info/METADATA
+ .dist-info/entry_points.txt
+ .dist-info/top_level.txt
+ cffi/_cffi_errors.h
+ cffi/_cffi_include.h
+ cffi/_embedding.h
+ cffi/parse_c_type.h
+)
+
+SUPPRESSIONS(
+ lsan.supp
+)
+
+END()
+
+RECURSE(
+ gen
+)
diff --git a/contrib/python/cffi/py3/.dist-info/METADATA b/contrib/python/cffi/py3/.dist-info/METADATA
new file mode 100644
index 0000000000..538e679147
--- /dev/null
+++ b/contrib/python/cffi/py3/.dist-info/METADATA
@@ -0,0 +1,34 @@
+Metadata-Version: 2.1
+Name: cffi
+Version: 1.15.1
+Summary: Foreign Function Interface for Python calling C code.
+Home-page: http://cffi.readthedocs.org
+Author: Armin Rigo, Maciej Fijalkowski
+Author-email: python-cffi@googlegroups.com
+License: MIT
+Classifier: Programming Language :: Python
+Classifier: Programming Language :: Python :: 2
+Classifier: Programming Language :: Python :: 2.7
+Classifier: Programming Language :: Python :: 3
+Classifier: Programming Language :: Python :: 3.6
+Classifier: Programming Language :: Python :: 3.7
+Classifier: Programming Language :: Python :: 3.8
+Classifier: Programming Language :: Python :: 3.9
+Classifier: Programming Language :: Python :: 3.10
+Classifier: Programming Language :: Python :: Implementation :: CPython
+Classifier: Programming Language :: Python :: Implementation :: PyPy
+Classifier: License :: OSI Approved :: MIT License
+License-File: LICENSE
+Requires-Dist: pycparser
+
+
+CFFI
+====
+
+Foreign Function Interface for Python calling C code.
+Please see the `Documentation <http://cffi.readthedocs.org/>`_.
+
+Contact
+-------
+
+`Mailing list <https://groups.google.com/forum/#!forum/python-cffi>`_
diff --git a/contrib/python/cffi/py3/.dist-info/entry_points.txt b/contrib/python/cffi/py3/.dist-info/entry_points.txt
new file mode 100644
index 0000000000..4b0274f233
--- /dev/null
+++ b/contrib/python/cffi/py3/.dist-info/entry_points.txt
@@ -0,0 +1,2 @@
+[distutils.setup_keywords]
+cffi_modules = cffi.setuptools_ext:cffi_modules
diff --git a/contrib/python/cffi/py3/.dist-info/top_level.txt b/contrib/python/cffi/py3/.dist-info/top_level.txt
new file mode 100644
index 0000000000..f64577957e
--- /dev/null
+++ b/contrib/python/cffi/py3/.dist-info/top_level.txt
@@ -0,0 +1,2 @@
+_cffi_backend
+cffi
diff --git a/contrib/python/cffi/py3/AUTHORS b/contrib/python/cffi/py3/AUTHORS
new file mode 100644
index 0000000000..370a25d317
--- /dev/null
+++ b/contrib/python/cffi/py3/AUTHORS
@@ -0,0 +1,8 @@
+This package has been mostly done by Armin Rigo with help from
+Maciej Fijałkowski. The idea is heavily based (although not directly
+copied) from LuaJIT ffi by Mike Pall.
+
+
+Other contributors:
+
+ Google Inc.
diff --git a/contrib/python/cffi/py3/LICENSE b/contrib/python/cffi/py3/LICENSE
new file mode 100644
index 0000000000..29225eee9e
--- /dev/null
+++ b/contrib/python/cffi/py3/LICENSE
@@ -0,0 +1,26 @@
+
+Except when otherwise stated (look for LICENSE files in directories or
+information at the beginning of each file) all software and
+documentation is licensed as follows:
+
+ The MIT License
+
+ Permission is hereby granted, free of charge, to any person
+ obtaining a copy of this software and associated documentation
+ files (the "Software"), to deal in the Software without
+ restriction, including without limitation the rights to use,
+ copy, modify, merge, publish, distribute, sublicense, and/or
+ sell copies of the Software, and to permit persons to whom the
+ Software is furnished to do so, subject to the following conditions:
+
+ The above copyright notice and this permission notice shall be included
+ in all copies or substantial portions of the Software.
+
+ THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
+ OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
+ THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
+ FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
+ DEALINGS IN THE SOFTWARE.
+
diff --git a/contrib/python/cffi/py3/README.md b/contrib/python/cffi/py3/README.md
new file mode 100644
index 0000000000..a68639e854
--- /dev/null
+++ b/contrib/python/cffi/py3/README.md
@@ -0,0 +1,30 @@
+CFFI
+====
+
+Foreign Function Interface for Python calling C code.
+Please see the [Documentation](http://cffi.readthedocs.org/) or uncompiled
+in the doc/ subdirectory.
+
+Download
+--------
+
+[Download page](https://foss.heptapod.net/pypy/cffi/-/tags)
+
+Contact
+-------
+
+[Mailing list](https://groups.google.com/forum/#!forum/python-cffi)
+
+Testing/development tips
+------------------------
+
+To run tests under CPython, run::
+
+ pip install pytest # if you don't have py.test already
+ pip install pycparser
+ python setup.py build_ext -f -i
+ py.test c/ testing/
+
+If you run in another directory (either the tests or another program),
+you should use the environment variable ``PYTHONPATH=/path`` to point
+to the location that contains the ``_cffi_backend.so`` just compiled.
diff --git a/contrib/python/cffi/c/_cffi_backend.c b/contrib/python/cffi/py3/c/_cffi_backend.c
index f1036d5b4c..f1036d5b4c 100644
--- a/contrib/python/cffi/c/_cffi_backend.c
+++ b/contrib/python/cffi/py3/c/_cffi_backend.c
diff --git a/contrib/python/cffi/py3/c/call_python.c b/contrib/python/cffi/py3/c/call_python.c
new file mode 100644
index 0000000000..8c6703cc26
--- /dev/null
+++ b/contrib/python/cffi/py3/c/call_python.c
@@ -0,0 +1,292 @@
+#if PY_VERSION_HEX >= 0x03080000
+# define HAVE_PYINTERPSTATE_GETDICT
+#endif
+
+
+static PyObject *_current_interp_key(void)
+{
+ PyInterpreterState *interp = PyThreadState_GET()->interp;
+#ifdef HAVE_PYINTERPSTATE_GETDICT
+ return PyInterpreterState_GetDict(interp); /* shared reference */
+#else
+ return interp->modules;
+#endif
+}
+
+static PyObject *_get_interpstate_dict(void)
+{
+ /* Hack around to return a dict that is subinterpreter-local.
+ Does not return a new reference. Returns NULL in case of
+ error, but without setting any exception. (If called late
+ during shutdown, we *can't* set an exception!)
+ */
+ static PyObject *attr_name = NULL;
+ PyThreadState *tstate;
+ PyObject *d, *interpdict;
+ int err;
+ PyInterpreterState *interp;
+
+ tstate = PyThreadState_GET();
+ if (tstate == NULL) {
+ /* no thread state! */
+ return NULL;
+ }
+
+ interp = tstate->interp;
+#ifdef HAVE_PYINTERPSTATE_GETDICT
+ interpdict = PyInterpreterState_GetDict(interp); /* shared reference */
+#else
+ interpdict = interp->builtins;
+#endif
+ if (interpdict == NULL) {
+ /* subinterpreter was cleared already, or is being cleared right now,
+ to a point that is too much for us to continue */
+ return NULL;
+ }
+
+ /* from there on, we know the (sub-)interpreter is still valid */
+
+ if (attr_name == NULL) {
+ attr_name = PyText_InternFromString("__cffi_backend_extern_py");
+ if (attr_name == NULL)
+ goto error;
+ }
+
+ d = PyDict_GetItem(interpdict, attr_name);
+ if (d == NULL) {
+ d = PyDict_New();
+ if (d == NULL)
+ goto error;
+ err = PyDict_SetItem(interpdict, attr_name, d);
+ Py_DECREF(d); /* if successful, there is one ref left in interpdict */
+ if (err < 0)
+ goto error;
+ }
+ return d;
+
+ error:
+ PyErr_Clear(); /* typically a MemoryError */
+ return NULL;
+}
+
+static PyObject *_ffi_def_extern_decorator(PyObject *outer_args, PyObject *fn)
+{
+ const char *s;
+ PyObject *error, *onerror, *infotuple, *old1;
+ int index, err;
+ const struct _cffi_global_s *g;
+ struct _cffi_externpy_s *externpy;
+ CTypeDescrObject *ct;
+ FFIObject *ffi;
+ builder_c_t *types_builder;
+ PyObject *name = NULL;
+ PyObject *interpstate_dict;
+ PyObject *interpstate_key;
+
+ if (!PyArg_ParseTuple(outer_args, "OzOO", &ffi, &s, &error, &onerror))
+ return NULL;
+
+ if (s == NULL) {
+ name = PyObject_GetAttrString(fn, "__name__");
+ if (name == NULL)
+ return NULL;
+ s = PyText_AsUTF8(name);
+ if (s == NULL) {
+ Py_DECREF(name);
+ return NULL;
+ }
+ }
+
+ types_builder = &ffi->types_builder;
+ index = search_in_globals(&types_builder->ctx, s, strlen(s));
+ if (index < 0)
+ goto not_found;
+ g = &types_builder->ctx.globals[index];
+ if (_CFFI_GETOP(g->type_op) != _CFFI_OP_EXTERN_PYTHON)
+ goto not_found;
+ Py_XDECREF(name);
+
+ ct = realize_c_type(types_builder, types_builder->ctx.types,
+ _CFFI_GETARG(g->type_op));
+ if (ct == NULL)
+ return NULL;
+
+ infotuple = prepare_callback_info_tuple(ct, fn, error, onerror, 0);
+ Py_DECREF(ct);
+ if (infotuple == NULL)
+ return NULL;
+
+ /* don't directly attach infotuple to externpy: in the presence of
+ subinterpreters, each time we switch to a different
+ subinterpreter and call the C function, it will notice the
+ change and look up infotuple from the interpstate_dict.
+ */
+ interpstate_dict = _get_interpstate_dict();
+ if (interpstate_dict == NULL) {
+ Py_DECREF(infotuple);
+ return PyErr_NoMemory();
+ }
+
+ externpy = (struct _cffi_externpy_s *)g->address;
+ interpstate_key = PyLong_FromVoidPtr((void *)externpy);
+ if (interpstate_key == NULL) {
+ Py_DECREF(infotuple);
+ return NULL;
+ }
+
+ err = PyDict_SetItem(interpstate_dict, interpstate_key, infotuple);
+ Py_DECREF(interpstate_key);
+ Py_DECREF(infotuple); /* interpstate_dict owns the last ref */
+ if (err < 0)
+ return NULL;
+
+ /* force _update_cache_to_call_python() to be called the next time
+ the C function invokes cffi_call_python, to update the cache */
+ old1 = externpy->reserved1;
+ externpy->reserved1 = Py_None; /* a non-NULL value */
+ Py_INCREF(Py_None);
+ Py_XDECREF(old1);
+
+ /* return the function object unmodified */
+ Py_INCREF(fn);
+ return fn;
+
+ not_found:
+ PyErr_Format(FFIError, "ffi.def_extern('%s'): no 'extern \"Python\"' "
+ "function with this name", s);
+ Py_XDECREF(name);
+ return NULL;
+}
+
+
+static int _update_cache_to_call_python(struct _cffi_externpy_s *externpy)
+{
+ PyObject *interpstate_dict, *interpstate_key, *infotuple, *old1, *new1;
+ PyObject *old2;
+
+ interpstate_dict = _get_interpstate_dict();
+ if (interpstate_dict == NULL)
+ return 4; /* oops, shutdown issue? */
+
+ interpstate_key = PyLong_FromVoidPtr((void *)externpy);
+ if (interpstate_key == NULL)
+ goto error;
+
+ infotuple = PyDict_GetItem(interpstate_dict, interpstate_key);
+ Py_DECREF(interpstate_key);
+ if (infotuple == NULL)
+ return 3; /* no ffi.def_extern() from this subinterpreter */
+
+ new1 = _current_interp_key();
+ Py_INCREF(new1);
+ Py_INCREF(infotuple);
+ old1 = (PyObject *)externpy->reserved1;
+ old2 = (PyObject *)externpy->reserved2;
+ externpy->reserved1 = new1; /* holds a reference */
+ externpy->reserved2 = infotuple; /* holds a reference (issue #246) */
+ Py_XDECREF(old1);
+ Py_XDECREF(old2);
+
+ return 0; /* no error */
+
+ error:
+ PyErr_Clear();
+ return 2; /* out of memory? */
+}
+
+#if (defined(WITH_THREAD) && !defined(_MSC_VER) && \
+ !defined(__amd64__) && !defined(__x86_64__) && \
+ !defined(__i386__) && !defined(__i386))
+# if defined(HAVE_SYNC_SYNCHRONIZE)
+# define read_barrier() __sync_synchronize()
+# elif defined(_AIX)
+# define read_barrier() __lwsync()
+# elif defined(__SUNPRO_C) || defined(__SUNPRO_CC)
+# error #include <mbarrier.h>
+# define read_barrier() __compiler_barrier()
+# elif defined(__hpux)
+# define read_barrier() _Asm_mf()
+# else
+# define read_barrier() /* missing */
+# warning "no definition for read_barrier(), missing synchronization for\
+ multi-thread initialization in embedded mode"
+# endif
+#else
+# define read_barrier() (void)0
+#endif
+
+static void cffi_call_python(struct _cffi_externpy_s *externpy, char *args)
+{
+ /* Invoked by the helpers generated from extern "Python" in the cdef.
+
+ 'externpy' is a static structure that describes which of the
+ extern "Python" functions is called. It has got fields 'name' and
+ 'type_index' describing the function, and more reserved fields
+ that are initially zero. These reserved fields are set up by
+ ffi.def_extern(), which invokes _ffi_def_extern_decorator() above.
+
+ 'args' is a pointer to an array of 8-byte entries. Each entry
+ contains an argument. If an argument is less than 8 bytes, only
+ the part at the beginning of the entry is initialized. If an
+ argument is 'long double' or a struct/union, then it is passed
+ by reference.
+
+ 'args' is also used as the place to write the result to
+ (directly, even if more than 8 bytes). In all cases, 'args' is
+ at least 8 bytes in size.
+ */
+ int err = 0;
+
+ /* This read barrier is needed for _embedding.h. It is paired
+ with the write_barrier() there. Without this barrier, we can
+ in theory see the following situation: the Python
+ initialization code already ran (in another thread), and the
+ '_cffi_call_python' function pointer directed execution here;
+ but any number of other data could still be seen as
+ uninitialized below. For example, 'externpy' would still
+ contain NULLs even though it was correctly set up, or
+ 'interpreter_lock' (the GIL inside CPython) would still be seen
+ as NULL, or 'autoInterpreterState' (used by
+ PyGILState_Ensure()) would be NULL or contain bogus fields.
+ */
+ read_barrier();
+
+ save_errno();
+
+ /* We need the infotuple here. We could always go through
+ _update_cache_to_call_python(), but to avoid the extra dict
+ lookups, we cache in (reserved1, reserved2) the last seen pair
+ (interp->modules, infotuple). The first item in this tuple is
+ a random PyObject that identifies the subinterpreter.
+ */
+ if (externpy->reserved1 == NULL) {
+ /* Not initialized! We didn't call @ffi.def_extern() on this
+ externpy object from any subinterpreter at all. */
+ err = 1;
+ }
+ else {
+ PyGILState_STATE state = gil_ensure();
+ if (externpy->reserved1 != _current_interp_key()) {
+ /* Update the (reserved1, reserved2) cache. This will fail
+ if we didn't call @ffi.def_extern() in this particular
+ subinterpreter. */
+ err = _update_cache_to_call_python(externpy);
+ }
+ if (!err) {
+ general_invoke_callback(0, args, args, externpy->reserved2);
+ }
+ gil_release(state);
+ }
+ if (err) {
+ static const char *msg[] = {
+ "no code was attached to it yet with @ffi.def_extern()",
+ "got internal exception (out of memory?)",
+ "@ffi.def_extern() was not called in the current subinterpreter",
+ "got internal exception (shutdown issue?)",
+ };
+ fprintf(stderr, "extern \"Python\": function %s() called, "
+ "but %s. Returning 0.\n", externpy->name, msg[err-1]);
+ memset(args, 0, externpy->size_of_result);
+ }
+ restore_errno();
+}
diff --git a/contrib/python/cffi/py3/c/cdlopen.c b/contrib/python/cffi/py3/c/cdlopen.c
new file mode 100644
index 0000000000..0ed319b8b5
--- /dev/null
+++ b/contrib/python/cffi/py3/c/cdlopen.c
@@ -0,0 +1,362 @@
+/* ffi.dlopen() interface with dlopen()/dlsym()/dlclose() */
+
+static void *cdlopen_fetch(PyObject *libname, void *libhandle,
+ const char *symbol)
+{
+ void *address;
+
+ if (libhandle == NULL) {
+ PyErr_Format(FFIError, "library '%s' has been closed",
+ PyText_AS_UTF8(libname));
+ return NULL;
+ }
+
+ dlerror(); /* clear error condition */
+ address = dlsym(libhandle, symbol);
+ if (address == NULL) {
+ const char *error = dlerror();
+ PyErr_Format(FFIError, "symbol '%s' not found in library '%s': %s",
+ symbol, PyText_AS_UTF8(libname), error);
+ }
+ return address;
+}
+
+static void cdlopen_close_ignore_errors(void *libhandle)
+{
+ if (libhandle != NULL)
+ dlclose(libhandle);
+}
+
+static int cdlopen_close(PyObject *libname, void *libhandle)
+{
+ if (libhandle != NULL && dlclose(libhandle) != 0) {
+ const char *error = dlerror();
+ PyErr_Format(FFIError, "closing library '%s': %s",
+ PyText_AS_UTF8(libname), error);
+ return -1;
+ }
+ return 0;
+}
+
+static PyObject *ffi_dlopen(PyObject *self, PyObject *args)
+{
+ const char *modname;
+ PyObject *temp, *result = NULL;
+ void *handle;
+ int auto_close;
+
+ handle = b_do_dlopen(args, &modname, &temp, &auto_close);
+ if (handle != NULL)
+ {
+ result = (PyObject *)lib_internal_new((FFIObject *)self,
+ modname, handle, auto_close);
+ }
+ Py_XDECREF(temp);
+ return result;
+}
+
+static PyObject *ffi_dlclose(PyObject *self, PyObject *args)
+{
+ LibObject *lib;
+ void *libhandle;
+ if (!PyArg_ParseTuple(args, "O!", &Lib_Type, &lib))
+ return NULL;
+
+ libhandle = lib->l_libhandle;
+ if (libhandle != NULL)
+ {
+ lib->l_libhandle = NULL;
+
+ /* Clear the dict to force further accesses to do cdlopen_fetch()
+ again, and fail because the library was closed. */
+ PyDict_Clear(lib->l_dict);
+
+ if (cdlopen_close(lib->l_libname, libhandle) < 0)
+ return NULL;
+ }
+ Py_INCREF(Py_None);
+ return Py_None;
+}
+
+
+static Py_ssize_t cdl_4bytes(char *src)
+{
+ /* read 4 bytes in little-endian order; return it as a signed integer */
+ signed char *ssrc = (signed char *)src;
+ unsigned char *usrc = (unsigned char *)src;
+ return (ssrc[0] << 24) | (usrc[1] << 16) | (usrc[2] << 8) | usrc[3];
+}
+
+static _cffi_opcode_t cdl_opcode(char *src)
+{
+ return (_cffi_opcode_t)cdl_4bytes(src);
+}
+
+typedef struct {
+ unsigned long long value;
+ int neg;
+} cdl_intconst_t;
+
+static int _cdl_realize_global_int(struct _cffi_getconst_s *gc)
+{
+ /* The 'address' field of 'struct _cffi_global_s' is set to point
+ to this function in case ffiobj_init() sees constant integers.
+ This fishes around after the 'ctx->globals' array, which is
+ initialized to contain another array, this time of
+ 'cdl_intconst_t' structures. We get the nth one and it tells
+ us what to return.
+ */
+ cdl_intconst_t *ic;
+ ic = (cdl_intconst_t *)(gc->ctx->globals + gc->ctx->num_globals);
+ ic += gc->gindex;
+ gc->value = ic->value;
+ return ic->neg;
+}
+
+static int ffiobj_init(PyObject *self, PyObject *args, PyObject *kwds)
+{
+ FFIObject *ffi;
+ static char *keywords[] = {"module_name", "_version", "_types",
+ "_globals", "_struct_unions", "_enums",
+ "_typenames", "_includes", NULL};
+ char *ffiname = "?", *types = NULL, *building = NULL;
+ Py_ssize_t version = -1;
+ Py_ssize_t types_len = 0;
+ PyObject *globals = NULL, *struct_unions = NULL, *enums = NULL;
+ PyObject *typenames = NULL, *includes = NULL;
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds,
+ "|sns#O!O!O!O!O!:FFI", keywords,
+ &ffiname, &version, &types, &types_len,
+ &PyTuple_Type, &globals,
+ &PyTuple_Type, &struct_unions,
+ &PyTuple_Type, &enums,
+ &PyTuple_Type, &typenames,
+ &PyTuple_Type, &includes))
+ return -1;
+
+ ffi = (FFIObject *)self;
+ if (ffi->ctx_is_nonempty) {
+ PyErr_SetString(PyExc_ValueError,
+ "cannot call FFI.__init__() more than once");
+ return -1;
+ }
+ ffi->ctx_is_nonempty = 1;
+
+ if (version == -1 && types_len == 0)
+ return 0;
+ if (version < CFFI_VERSION_MIN || version > CFFI_VERSION_MAX) {
+ PyErr_Format(PyExc_ImportError,
+ "cffi out-of-line Python module '%s' has unknown "
+ "version %p", ffiname, (void *)version);
+ return -1;
+ }
+
+ if (types_len > 0) {
+ /* unpack a string of 4-byte entries into an array of _cffi_opcode_t */
+ _cffi_opcode_t *ntypes;
+ Py_ssize_t i, n = types_len / 4;
+
+ building = PyMem_Malloc(n * sizeof(_cffi_opcode_t));
+ if (building == NULL)
+ goto error;
+ ntypes = (_cffi_opcode_t *)building;
+
+ for (i = 0; i < n; i++) {
+ ntypes[i] = cdl_opcode(types);
+ types += 4;
+ }
+ ffi->types_builder.ctx.types = ntypes;
+ ffi->types_builder.ctx.num_types = n;
+ building = NULL;
+ }
+
+ if (globals != NULL) {
+ /* unpack a tuple alternating strings and ints, each two together
+ describing one global_s entry with no specified address or size.
+ The int is only used with integer constants. */
+ struct _cffi_global_s *nglobs;
+ cdl_intconst_t *nintconsts;
+ Py_ssize_t i, n = PyTuple_GET_SIZE(globals) / 2;
+
+ i = n * (sizeof(struct _cffi_global_s) + sizeof(cdl_intconst_t));
+ building = PyMem_Malloc(i);
+ if (building == NULL)
+ goto error;
+ memset(building, 0, i);
+ nglobs = (struct _cffi_global_s *)building;
+ nintconsts = (cdl_intconst_t *)(nglobs + n);
+
+ for (i = 0; i < n; i++) {
+ char *g = PyBytes_AS_STRING(PyTuple_GET_ITEM(globals, i * 2));
+ nglobs[i].type_op = cdl_opcode(g); g += 4;
+ nglobs[i].name = g;
+ if (_CFFI_GETOP(nglobs[i].type_op) == _CFFI_OP_CONSTANT_INT ||
+ _CFFI_GETOP(nglobs[i].type_op) == _CFFI_OP_ENUM) {
+ PyObject *o = PyTuple_GET_ITEM(globals, i * 2 + 1);
+ nglobs[i].address = &_cdl_realize_global_int;
+#if PY_MAJOR_VERSION < 3
+ if (PyInt_Check(o)) {
+ nintconsts[i].neg = PyInt_AS_LONG(o) <= 0;
+ nintconsts[i].value = (long long)PyInt_AS_LONG(o);
+ }
+ else
+#endif
+ {
+ nintconsts[i].neg = PyObject_RichCompareBool(o, Py_False,
+ Py_LE);
+ nintconsts[i].value = PyLong_AsUnsignedLongLongMask(o);
+ if (PyErr_Occurred())
+ goto error;
+ }
+ }
+ }
+ ffi->types_builder.ctx.globals = nglobs;
+ ffi->types_builder.ctx.num_globals = n;
+ building = NULL;
+ }
+
+ if (struct_unions != NULL) {
+ /* unpack a tuple of struct/unions, each described as a sub-tuple;
+ the item 0 of each sub-tuple describes the struct/union, and
+ the items 1..N-1 describe the fields, if any */
+ struct _cffi_struct_union_s *nstructs;
+ struct _cffi_field_s *nfields;
+ Py_ssize_t i, n = PyTuple_GET_SIZE(struct_unions);
+ Py_ssize_t nf = 0; /* total number of fields */
+
+ for (i = 0; i < n; i++) {
+ nf += PyTuple_GET_SIZE(PyTuple_GET_ITEM(struct_unions, i)) - 1;
+ }
+ i = (n * sizeof(struct _cffi_struct_union_s) +
+ nf * sizeof(struct _cffi_field_s));
+ building = PyMem_Malloc(i);
+ if (building == NULL)
+ goto error;
+ memset(building, 0, i);
+ nstructs = (struct _cffi_struct_union_s *)building;
+ nfields = (struct _cffi_field_s *)(nstructs + n);
+ nf = 0;
+
+ for (i = 0; i < n; i++) {
+ /* 'desc' is the tuple of strings (desc_struct, desc_field_1, ..) */
+ PyObject *desc = PyTuple_GET_ITEM(struct_unions, i);
+ Py_ssize_t j, nf1 = PyTuple_GET_SIZE(desc) - 1;
+ char *s = PyBytes_AS_STRING(PyTuple_GET_ITEM(desc, 0));
+ /* 's' is the first string, describing the struct/union */
+ nstructs[i].type_index = cdl_4bytes(s); s += 4;
+ nstructs[i].flags = cdl_4bytes(s); s += 4;
+ nstructs[i].name = s;
+ if (nstructs[i].flags & (_CFFI_F_OPAQUE | _CFFI_F_EXTERNAL)) {
+ nstructs[i].size = (size_t)-1;
+ nstructs[i].alignment = -1;
+ nstructs[i].first_field_index = -1;
+ nstructs[i].num_fields = 0;
+ assert(nf1 == 0);
+ }
+ else {
+ nstructs[i].size = (size_t)-2;
+ nstructs[i].alignment = -2;
+ nstructs[i].first_field_index = nf;
+ nstructs[i].num_fields = nf1;
+ }
+ for (j = 0; j < nf1; j++) {
+ char *f = PyBytes_AS_STRING(PyTuple_GET_ITEM(desc, j + 1));
+ /* 'f' is one of the other strings beyond the first one,
+ describing one field each */
+ nfields[nf].field_type_op = cdl_opcode(f); f += 4;
+ nfields[nf].field_offset = (size_t)-1;
+ if (_CFFI_GETOP(nfields[nf].field_type_op) != _CFFI_OP_NOOP) {
+ nfields[nf].field_size = cdl_4bytes(f); f += 4;
+ }
+ else {
+ nfields[nf].field_size = (size_t)-1;
+ }
+ nfields[nf].name = f;
+ nf++;
+ }
+ }
+ ffi->types_builder.ctx.struct_unions = nstructs;
+ ffi->types_builder.ctx.fields = nfields;
+ ffi->types_builder.ctx.num_struct_unions = n;
+ building = NULL;
+ }
+
+ if (enums != NULL) {
+ /* unpack a tuple of strings, each of which describes one enum_s
+ entry */
+ struct _cffi_enum_s *nenums;
+ Py_ssize_t i, n = PyTuple_GET_SIZE(enums);
+
+ i = n * sizeof(struct _cffi_enum_s);
+ building = PyMem_Malloc(i);
+ if (building == NULL)
+ goto error;
+ memset(building, 0, i);
+ nenums = (struct _cffi_enum_s *)building;
+
+ for (i = 0; i < n; i++) {
+ char *e = PyBytes_AS_STRING(PyTuple_GET_ITEM(enums, i));
+ /* 'e' is a string describing the enum */
+ nenums[i].type_index = cdl_4bytes(e); e += 4;
+ nenums[i].type_prim = cdl_4bytes(e); e += 4;
+ nenums[i].name = e; e += strlen(e) + 1;
+ nenums[i].enumerators = e;
+ }
+ ffi->types_builder.ctx.enums = nenums;
+ ffi->types_builder.ctx.num_enums = n;
+ building = NULL;
+ }
+
+ if (typenames != NULL) {
+ /* unpack a tuple of strings, each of which describes one typename_s
+ entry */
+ struct _cffi_typename_s *ntypenames;
+ Py_ssize_t i, n = PyTuple_GET_SIZE(typenames);
+
+ i = n * sizeof(struct _cffi_typename_s);
+ building = PyMem_Malloc(i);
+ if (building == NULL)
+ goto error;
+ memset(building, 0, i);
+ ntypenames = (struct _cffi_typename_s *)building;
+
+ for (i = 0; i < n; i++) {
+ char *t = PyBytes_AS_STRING(PyTuple_GET_ITEM(typenames, i));
+ /* 't' is a string describing the typename */
+ ntypenames[i].type_index = cdl_4bytes(t); t += 4;
+ ntypenames[i].name = t;
+ }
+ ffi->types_builder.ctx.typenames = ntypenames;
+ ffi->types_builder.ctx.num_typenames = n;
+ building = NULL;
+ }
+
+ if (includes != NULL) {
+ PyObject *included_libs;
+
+ included_libs = PyTuple_New(PyTuple_GET_SIZE(includes));
+ if (included_libs == NULL)
+ return -1;
+
+ Py_INCREF(includes);
+ ffi->types_builder.included_ffis = includes;
+ ffi->types_builder.included_libs = included_libs;
+ }
+
+ /* Above, we took directly some "char *" strings out of the strings,
+ typically from somewhere inside tuples. Keep them alive by
+ incref'ing the whole input arguments. */
+ Py_INCREF(args);
+ Py_XINCREF(kwds);
+ ffi->types_builder._keepalive1 = args;
+ ffi->types_builder._keepalive2 = kwds;
+ return 0;
+
+ error:
+ if (building != NULL)
+ PyMem_Free(building);
+ if (!PyErr_Occurred())
+ PyErr_NoMemory();
+ return -1;
+}
diff --git a/contrib/python/cffi/py3/c/cffi1_module.c b/contrib/python/cffi/py3/c/cffi1_module.c
new file mode 100644
index 0000000000..06a84fea37
--- /dev/null
+++ b/contrib/python/cffi/py3/c/cffi1_module.c
@@ -0,0 +1,216 @@
+
+#include "parse_c_type.c"
+#include "realize_c_type.c"
+
+#define CFFI_VERSION_MIN 0x2601
+#define CFFI_VERSION_CHAR16CHAR32 0x2801
+#define CFFI_VERSION_MAX 0x28FF
+
+typedef struct FFIObject_s FFIObject;
+typedef struct LibObject_s LibObject;
+
+static PyTypeObject FFI_Type; /* forward */
+static PyTypeObject Lib_Type; /* forward */
+
+#include "ffi_obj.c"
+#include "cglob.c"
+#include "lib_obj.c"
+#include "cdlopen.c"
+#include "commontypes.c"
+#include "call_python.c"
+
+
+static int init_ffi_lib(PyObject *m)
+{
+ PyObject *x;
+ int i, res;
+ static char init_done = 0;
+
+ if (!init_done) {
+ if (init_global_types_dict(FFI_Type.tp_dict) < 0)
+ return -1;
+
+ FFIError = PyErr_NewException("ffi.error", NULL, NULL);
+ if (FFIError == NULL)
+ return -1;
+ if (PyDict_SetItemString(FFI_Type.tp_dict, "error", FFIError) < 0)
+ return -1;
+ if (PyDict_SetItemString(FFI_Type.tp_dict, "CType",
+ (PyObject *)&CTypeDescr_Type) < 0)
+ return -1;
+ if (PyDict_SetItemString(FFI_Type.tp_dict, "CData",
+ (PyObject *)&CData_Type) < 0)
+ return -1;
+ if (PyDict_SetItemString(FFI_Type.tp_dict, "buffer",
+ (PyObject *)&MiniBuffer_Type) < 0)
+ return -1;
+
+ for (i = 0; all_dlopen_flags[i].name != NULL; i++) {
+ x = PyInt_FromLong(all_dlopen_flags[i].value);
+ if (x == NULL)
+ return -1;
+ res = PyDict_SetItemString(FFI_Type.tp_dict,
+ all_dlopen_flags[i].name, x);
+ Py_DECREF(x);
+ if (res < 0)
+ return -1;
+ }
+ init_done = 1;
+ }
+ return 0;
+}
+
+static int make_included_tuples(char *module_name,
+ const char *const *ctx_includes,
+ PyObject **included_ffis,
+ PyObject **included_libs)
+{
+ Py_ssize_t num = 0;
+ const char *const *p_include;
+
+ if (ctx_includes == NULL)
+ return 0;
+
+ for (p_include = ctx_includes; *p_include; p_include++) {
+ num++;
+ }
+ *included_ffis = PyTuple_New(num);
+ *included_libs = PyTuple_New(num);
+ if (*included_ffis == NULL || *included_libs == NULL)
+ goto error;
+
+ num = 0;
+ for (p_include = ctx_includes; *p_include; p_include++) {
+ PyObject *included_ffi, *included_lib;
+ PyObject *m = PyImport_ImportModule(*p_include);
+ if (m == NULL)
+ goto import_error;
+
+ included_ffi = PyObject_GetAttrString(m, "ffi");
+ PyTuple_SET_ITEM(*included_ffis, num, included_ffi);
+
+ included_lib = (included_ffi == NULL) ? NULL :
+ PyObject_GetAttrString(m, "lib");
+ PyTuple_SET_ITEM(*included_libs, num, included_lib);
+
+ Py_DECREF(m);
+ if (included_lib == NULL)
+ goto import_error;
+
+ if (!FFIObject_Check(included_ffi) ||
+ !LibObject_Check(included_lib))
+ goto import_error;
+ num++;
+ }
+ return 0;
+
+ import_error:
+ PyErr_Format(PyExc_ImportError,
+ "while loading %.200s: failed to import ffi, lib from %.200s",
+ module_name, *p_include);
+ error:
+ Py_XDECREF(*included_ffis); *included_ffis = NULL;
+ Py_XDECREF(*included_libs); *included_libs = NULL;
+ return -1;
+}
+
+static PyObject *_my_Py_InitModule(char *module_name)
+{
+#if PY_MAJOR_VERSION >= 3
+ struct PyModuleDef *module_def, local_module_def = {
+ PyModuleDef_HEAD_INIT,
+ module_name,
+ NULL,
+ -1,
+ NULL, NULL, NULL, NULL, NULL
+ };
+ /* note: the 'module_def' is allocated dynamically and leaks,
+ but anyway the C extension module can never be unloaded */
+ module_def = PyMem_Malloc(sizeof(struct PyModuleDef));
+ if (module_def == NULL)
+ return PyErr_NoMemory();
+ *module_def = local_module_def;
+ return PyModule_Create(module_def);
+#else
+ return Py_InitModule(module_name, NULL);
+#endif
+}
+
+static PyObject *b_init_cffi_1_0_external_module(PyObject *self, PyObject *arg)
+{
+ PyObject *m, *modules_dict;
+ FFIObject *ffi;
+ LibObject *lib;
+ Py_ssize_t version, num_exports;
+ char *module_name, *exports, *module_name_with_lib;
+ void **raw;
+ const struct _cffi_type_context_s *ctx;
+
+ raw = (void **)PyLong_AsVoidPtr(arg);
+ if (raw == NULL)
+ return NULL;
+
+ module_name = (char *)raw[0];
+ version = (Py_ssize_t)raw[1];
+ exports = (char *)raw[2];
+ ctx = (const struct _cffi_type_context_s *)raw[3];
+
+ if (version < CFFI_VERSION_MIN || version > CFFI_VERSION_MAX) {
+ if (!PyErr_Occurred())
+ PyErr_Format(PyExc_ImportError,
+ "cffi extension module '%s' uses an unknown version tag %p. "
+ "This module might need a more recent version of cffi "
+ "than the one currently installed, which is %s",
+ module_name, (void *)version, CFFI_VERSION);
+ return NULL;
+ }
+
+ /* initialize the exports array */
+ num_exports = 25;
+ if (ctx->flags & 1) /* set to mean that 'extern "Python"' is used */
+ num_exports = 26;
+ if (version >= CFFI_VERSION_CHAR16CHAR32)
+ num_exports = 28;
+ memcpy(exports, (char *)cffi_exports, num_exports * sizeof(void *));
+
+ /* make the module object */
+ m = _my_Py_InitModule(module_name);
+ if (m == NULL)
+ return NULL;
+
+ /* build the FFI and Lib object inside this new module */
+ ffi = ffi_internal_new(&FFI_Type, ctx);
+ Py_XINCREF(ffi); /* make the ffi object really immortal */
+ if (ffi == NULL || PyModule_AddObject(m, "ffi", (PyObject *)ffi) < 0)
+ return NULL;
+
+ lib = lib_internal_new(ffi, module_name, NULL, 0);
+ if (lib == NULL || PyModule_AddObject(m, "lib", (PyObject *)lib) < 0)
+ return NULL;
+
+ if (make_included_tuples(module_name, ctx->includes,
+ &ffi->types_builder.included_ffis,
+ &lib->l_types_builder->included_libs) < 0)
+ return NULL;
+
+ /* add manually 'module_name.lib' in sys.modules:
+ see test_import_from_lib */
+ modules_dict = PySys_GetObject("modules");
+ if (!modules_dict)
+ return NULL;
+ module_name_with_lib = alloca(strlen(module_name) + 5);
+ strcpy(module_name_with_lib, module_name);
+ strcat(module_name_with_lib, ".lib");
+ if (PyDict_SetItemString(modules_dict, module_name_with_lib,
+ (PyObject *)lib) < 0)
+ return NULL;
+
+#if PY_MAJOR_VERSION >= 3
+ /* add manually 'module_name' in sys.modules: it seems that
+ Py_InitModule() is not enough to do that */
+ if (PyDict_SetItemString(modules_dict, module_name, m) < 0)
+ return NULL;
+#endif
+
+ return m;
+}
diff --git a/contrib/python/cffi/py3/c/cglob.c b/contrib/python/cffi/py3/c/cglob.c
new file mode 100644
index 0000000000..e97767c9d7
--- /dev/null
+++ b/contrib/python/cffi/py3/c/cglob.c
@@ -0,0 +1,113 @@
+
+typedef void *(*gs_fetch_addr_fn)(void);
+
+typedef struct {
+ PyObject_HEAD
+
+ PyObject *gs_name;
+ CTypeDescrObject *gs_type;
+ char *gs_data;
+ gs_fetch_addr_fn gs_fetch_addr;
+
+} GlobSupportObject;
+
+static void glob_support_dealloc(GlobSupportObject *gs)
+{
+ Py_DECREF(gs->gs_name);
+ Py_DECREF(gs->gs_type);
+ PyObject_Del(gs);
+}
+
+static PyTypeObject GlobSupport_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.__FFIGlobSupport",
+ sizeof(GlobSupportObject),
+ 0,
+ (destructor)glob_support_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ 0, /* tp_repr */
+ 0, /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* tp_as_mapping */
+ 0, /* tp_hash */
+ 0, /* tp_call */
+ 0, /* tp_str */
+ PyObject_GenericGetAttr, /* tp_getattro */
+ 0, /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT, /* tp_flags */
+};
+
+#define GlobSupport_Check(ob) (Py_TYPE(ob) == &GlobSupport_Type)
+
+static PyObject *make_global_var(PyObject *name, CTypeDescrObject *type,
+ char *addr, gs_fetch_addr_fn fetch_addr)
+{
+ GlobSupportObject *gs = PyObject_New(GlobSupportObject, &GlobSupport_Type);
+ if (gs == NULL)
+ return NULL;
+
+ Py_INCREF(name);
+ Py_INCREF(type);
+ gs->gs_name = name;
+ gs->gs_type = type;
+ gs->gs_data = addr;
+ gs->gs_fetch_addr = fetch_addr;
+ return (PyObject *)gs;
+}
+
+static void *fetch_global_var_addr(GlobSupportObject *gs)
+{
+ void *data;
+ if (gs->gs_data != NULL) {
+ data = gs->gs_data;
+ }
+ else {
+ Py_BEGIN_ALLOW_THREADS
+ restore_errno();
+ data = gs->gs_fetch_addr();
+ save_errno();
+ Py_END_ALLOW_THREADS
+ }
+ if (data == NULL) {
+ PyErr_Format(FFIError, "global variable '%s' is at address NULL",
+ PyText_AS_UTF8(gs->gs_name));
+ return NULL;
+ }
+ return data;
+}
+
+static PyObject *read_global_var(GlobSupportObject *gs)
+{
+ void *data = fetch_global_var_addr(gs);
+ if (data == NULL)
+ return NULL;
+ return convert_to_object(data, gs->gs_type);
+}
+
+static int write_global_var(GlobSupportObject *gs, PyObject *obj)
+{
+ void *data = fetch_global_var_addr(gs);
+ if (data == NULL)
+ return -1;
+ return convert_from_object(data, gs->gs_type, obj);
+}
+
+static PyObject *cg_addressof_global_var(GlobSupportObject *gs)
+{
+ void *data;
+ PyObject *x, *ptrtype = new_pointer_type(gs->gs_type);
+ if (ptrtype == NULL)
+ return NULL;
+
+ data = fetch_global_var_addr(gs);
+ if (data != NULL)
+ x = new_simple_cdata(data, (CTypeDescrObject *)ptrtype);
+ else
+ x = NULL;
+ Py_DECREF(ptrtype);
+ return x;
+}
diff --git a/contrib/python/cffi/py3/c/commontypes.c b/contrib/python/cffi/py3/c/commontypes.c
new file mode 100644
index 0000000000..a41c2fdd2b
--- /dev/null
+++ b/contrib/python/cffi/py3/c/commontypes.c
@@ -0,0 +1,216 @@
+/* This file must be kept in alphabetical order. See test_commontypes.py */
+
+#define EQ(key, value) key "\0" value /* string concatenation */
+#ifdef _WIN64
+# define W32_64(X,Y) Y
+# else
+# define W32_64(X,Y) X
+# endif
+
+
+static const char *common_simple_types[] = {
+
+#ifdef MS_WIN32 /* Windows types */
+ EQ("ATOM", "WORD"),
+ EQ("BOOL", "int"),
+ EQ("BOOLEAN", "BYTE"),
+ EQ("BYTE", "unsigned char"),
+ EQ("CCHAR", "char"),
+ EQ("CHAR", "char"),
+ EQ("COLORREF", "DWORD"),
+ EQ("DWORD", "unsigned long"),
+ EQ("DWORD32", "unsigned int"),
+ EQ("DWORD64", "unsigned long long"),
+ EQ("DWORDLONG", "ULONGLONG"),
+ EQ("DWORD_PTR", "ULONG_PTR"),
+#endif
+
+ EQ("FILE", "struct _IO_FILE"),
+
+#ifdef MS_WIN32 /* more Windows types */
+ EQ("FLOAT", "float"),
+ EQ("HACCEL", "HANDLE"),
+ EQ("HALF_PTR", W32_64("short","int")),
+ EQ("HANDLE", "PVOID"),
+ EQ("HBITMAP", "HANDLE"),
+ EQ("HBRUSH", "HANDLE"),
+ EQ("HCOLORSPACE", "HANDLE"),
+ EQ("HCONV", "HANDLE"),
+ EQ("HCONVLIST", "HANDLE"),
+ EQ("HCURSOR", "HICON"),
+ EQ("HDC", "HANDLE"),
+ EQ("HDDEDATA", "HANDLE"),
+ EQ("HDESK", "HANDLE"),
+ EQ("HDROP", "HANDLE"),
+ EQ("HDWP", "HANDLE"),
+ EQ("HENHMETAFILE", "HANDLE"),
+ EQ("HFILE", "int"),
+ EQ("HFONT", "HANDLE"),
+ EQ("HGDIOBJ", "HANDLE"),
+ EQ("HGLOBAL", "HANDLE"),
+ EQ("HHOOK", "HANDLE"),
+ EQ("HICON", "HANDLE"),
+ EQ("HINSTANCE", "HANDLE"),
+ EQ("HKEY", "HANDLE"),
+ EQ("HKL", "HANDLE"),
+ EQ("HLOCAL", "HANDLE"),
+ EQ("HMENU", "HANDLE"),
+ EQ("HMETAFILE", "HANDLE"),
+ EQ("HMODULE", "HINSTANCE"),
+ EQ("HMONITOR", "HANDLE"),
+ EQ("HPALETTE", "HANDLE"),
+ EQ("HPEN", "HANDLE"),
+ EQ("HRESULT", "LONG"),
+ EQ("HRGN", "HANDLE"),
+ EQ("HRSRC", "HANDLE"),
+ EQ("HSZ", "HANDLE"),
+ EQ("HWND", "HANDLE"),
+ EQ("INT", "int"),
+ EQ("INT16", "short"),
+ EQ("INT32", "int"),
+ EQ("INT64", "long long"),
+ EQ("INT8", "signed char"),
+ EQ("INT_PTR", W32_64("int","long long")),
+ EQ("LANGID", "WORD"),
+ EQ("LCID", "DWORD"),
+ EQ("LCTYPE", "DWORD"),
+ EQ("LGRPID", "DWORD"),
+ EQ("LONG", "long"),
+ EQ("LONG32", "int"),
+ EQ("LONG64", "long long"),
+ EQ("LONGLONG", "long long"),
+ EQ("LONG_PTR", W32_64("long","long long")),
+ EQ("LPARAM", "LONG_PTR"),
+ EQ("LPBOOL", "BOOL *"),
+ EQ("LPBYTE", "BYTE *"),
+ EQ("LPCOLORREF", "DWORD *"),
+ EQ("LPCSTR", "const char *"),
+ EQ("LPCVOID", "const void *"),
+ EQ("LPCWSTR", "const WCHAR *"),
+ EQ("LPDWORD", "DWORD *"),
+ EQ("LPHANDLE", "HANDLE *"),
+ EQ("LPINT", "int *"),
+ EQ("LPLONG", "long *"),
+ EQ("LPSTR", "CHAR *"),
+ EQ("LPVOID", "void *"),
+ EQ("LPWORD", "WORD *"),
+ EQ("LPWSTR", "WCHAR *"),
+ EQ("LRESULT", "LONG_PTR"),
+ EQ("PBOOL", "BOOL *"),
+ EQ("PBOOLEAN", "BOOLEAN *"),
+ EQ("PBYTE", "BYTE *"),
+ EQ("PCHAR", "CHAR *"),
+ EQ("PCSTR", "const CHAR *"),
+ EQ("PCWSTR", "const WCHAR *"),
+ EQ("PDWORD", "DWORD *"),
+ EQ("PDWORD32", "DWORD32 *"),
+ EQ("PDWORD64", "DWORD64 *"),
+ EQ("PDWORDLONG", "DWORDLONG *"),
+ EQ("PDWORD_PTR", "DWORD_PTR *"),
+ EQ("PFLOAT", "FLOAT *"),
+ EQ("PHALF_PTR", "HALF_PTR *"),
+ EQ("PHANDLE", "HANDLE *"),
+ EQ("PHKEY", "HKEY *"),
+ EQ("PINT", "int *"),
+ EQ("PINT16", "INT16 *"),
+ EQ("PINT32", "INT32 *"),
+ EQ("PINT64", "INT64 *"),
+ EQ("PINT8", "INT8 *"),
+ EQ("PINT_PTR", "INT_PTR *"),
+ EQ("PLCID", "PDWORD"),
+ EQ("PLONG", "LONG *"),
+ EQ("PLONG32", "LONG32 *"),
+ EQ("PLONG64", "LONG64 *"),
+ EQ("PLONGLONG", "LONGLONG *"),
+ EQ("PLONG_PTR", "LONG_PTR *"),
+ EQ("PSHORT", "SHORT *"),
+ EQ("PSIZE_T", "SIZE_T *"),
+ EQ("PSSIZE_T", "SSIZE_T *"),
+ EQ("PSTR", "CHAR *"),
+ EQ("PUCHAR", "UCHAR *"),
+ EQ("PUHALF_PTR", "UHALF_PTR *"),
+ EQ("PUINT", "UINT *"),
+ EQ("PUINT16", "UINT16 *"),
+ EQ("PUINT32", "UINT32 *"),
+ EQ("PUINT64", "UINT64 *"),
+ EQ("PUINT8", "UINT8 *"),
+ EQ("PUINT_PTR", "UINT_PTR *"),
+ EQ("PULONG", "ULONG *"),
+ EQ("PULONG32", "ULONG32 *"),
+ EQ("PULONG64", "ULONG64 *"),
+ EQ("PULONGLONG", "ULONGLONG *"),
+ EQ("PULONG_PTR", "ULONG_PTR *"),
+ EQ("PUSHORT", "USHORT *"),
+ EQ("PVOID", "void *"),
+ EQ("PWCHAR", "WCHAR *"),
+ EQ("PWORD", "WORD *"),
+ EQ("PWSTR", "WCHAR *"),
+ EQ("QWORD", "unsigned long long"),
+ EQ("SC_HANDLE", "HANDLE"),
+ EQ("SC_LOCK", "LPVOID"),
+ EQ("SERVICE_STATUS_HANDLE", "HANDLE"),
+ EQ("SHORT", "short"),
+ EQ("SIZE_T", "ULONG_PTR"),
+ EQ("SSIZE_T", "LONG_PTR"),
+ EQ("UCHAR", "unsigned char"),
+ EQ("UHALF_PTR", W32_64("unsigned short","unsigned int")),
+ EQ("UINT", "unsigned int"),
+ EQ("UINT16", "unsigned short"),
+ EQ("UINT32", "unsigned int"),
+ EQ("UINT64", "unsigned long long"),
+ EQ("UINT8", "unsigned char"),
+ EQ("UINT_PTR", W32_64("unsigned int","unsigned long long")),
+ EQ("ULONG", "unsigned long"),
+ EQ("ULONG32", "unsigned int"),
+ EQ("ULONG64", "unsigned long long"),
+ EQ("ULONGLONG", "unsigned long long"),
+ EQ("ULONG_PTR", W32_64("unsigned long","unsigned long long")),
+ EQ("USHORT", "unsigned short"),
+ EQ("USN", "LONGLONG"),
+ EQ("VOID", "void"),
+ EQ("WCHAR", "wchar_t"),
+ EQ("WINSTA", "HANDLE"),
+ EQ("WORD", "unsigned short"),
+ EQ("WPARAM", "UINT_PTR"),
+#endif
+
+ EQ("bool", "_Bool"),
+};
+
+
+#undef EQ
+#undef W32_64
+
+#define num_common_simple_types \
+ (sizeof(common_simple_types) / sizeof(common_simple_types[0]))
+
+
+static const char *get_common_type(const char *search, size_t search_len)
+{
+ const char *entry;
+ int index = search_sorted(common_simple_types, sizeof(const char *),
+ num_common_simple_types, search, search_len);
+ if (index < 0)
+ return NULL;
+
+ entry = common_simple_types[index];
+ return entry + strlen(entry) + 1;
+}
+
+static PyObject *b__get_common_types(PyObject *self, PyObject *arg)
+{
+ int err;
+ size_t i;
+ for (i = 0; i < num_common_simple_types; i++) {
+ const char *s = common_simple_types[i];
+ PyObject *o = PyText_FromString(s + strlen(s) + 1);
+ if (o == NULL)
+ return NULL;
+ err = PyDict_SetItemString(arg, s, o);
+ Py_DECREF(o);
+ if (err < 0)
+ return NULL;
+ }
+ Py_INCREF(Py_None);
+ return Py_None;
+}
diff --git a/contrib/python/cffi/py3/c/ffi_obj.c b/contrib/python/cffi/py3/c/ffi_obj.c
new file mode 100644
index 0000000000..f154146621
--- /dev/null
+++ b/contrib/python/cffi/py3/c/ffi_obj.c
@@ -0,0 +1,1221 @@
+
+/* An FFI object has methods like ffi.new(). It is also a container
+ for the type declarations (typedefs and structs) that you can use,
+ say in ffi.new().
+
+ CTypeDescrObjects are internally stored in the dict 'types_dict'.
+ The types_dict is lazily filled with CTypeDescrObjects made from
+ reading a _cffi_type_context_s structure.
+
+ In "modern" mode, the FFI instance is made by the C extension
+ module originally created by recompile(). The _cffi_type_context_s
+ structure comes from global data in the C extension module.
+
+ In "compatibility" mode, an FFI instance is created explicitly by
+ the user, and its _cffi_type_context_s is initially empty. You
+ need to call ffi.cdef() to add more information to it.
+*/
+
+#define FFI_COMPLEXITY_OUTPUT 1200 /* xxx should grow as needed */
+
+#define FFIObject_Check(op) PyObject_TypeCheck(op, &FFI_Type)
+#define LibObject_Check(ob) ((Py_TYPE(ob) == &Lib_Type))
+
+struct FFIObject_s {
+ PyObject_HEAD
+ PyObject *gc_wrefs, *gc_wrefs_freelist;
+ PyObject *init_once_cache;
+ struct _cffi_parse_info_s info;
+ char ctx_is_static, ctx_is_nonempty;
+ builder_c_t types_builder;
+};
+
+static FFIObject *ffi_internal_new(PyTypeObject *ffitype,
+ const struct _cffi_type_context_s *static_ctx)
+{
+ static _cffi_opcode_t internal_output[FFI_COMPLEXITY_OUTPUT];
+
+ FFIObject *ffi;
+ if (static_ctx != NULL) {
+ ffi = (FFIObject *)PyObject_GC_New(FFIObject, ffitype);
+ /* we don't call PyObject_GC_Track() here: from _cffi_init_module()
+ it is not needed, because in this case the ffi object is immortal */
+ }
+ else {
+ ffi = (FFIObject *)ffitype->tp_alloc(ffitype, 0);
+ }
+ if (ffi == NULL)
+ return NULL;
+
+ if (init_builder_c(&ffi->types_builder, static_ctx) < 0) {
+ Py_DECREF(ffi);
+ return NULL;
+ }
+ ffi->gc_wrefs = NULL;
+ ffi->gc_wrefs_freelist = NULL;
+ ffi->init_once_cache = NULL;
+ ffi->info.ctx = &ffi->types_builder.ctx;
+ ffi->info.output = internal_output;
+ ffi->info.output_size = FFI_COMPLEXITY_OUTPUT;
+ ffi->ctx_is_static = (static_ctx != NULL);
+ ffi->ctx_is_nonempty = (static_ctx != NULL);
+ return ffi;
+}
+
+static void ffi_dealloc(FFIObject *ffi)
+{
+ PyObject_GC_UnTrack(ffi);
+ Py_XDECREF(ffi->gc_wrefs);
+ Py_XDECREF(ffi->gc_wrefs_freelist);
+ Py_XDECREF(ffi->init_once_cache);
+
+ free_builder_c(&ffi->types_builder, ffi->ctx_is_static);
+
+ Py_TYPE(ffi)->tp_free((PyObject *)ffi);
+}
+
+static int ffi_traverse(FFIObject *ffi, visitproc visit, void *arg)
+{
+ Py_VISIT(ffi->types_builder.types_dict);
+ Py_VISIT(ffi->types_builder.included_ffis);
+ Py_VISIT(ffi->types_builder.included_libs);
+ Py_VISIT(ffi->gc_wrefs);
+ return 0;
+}
+
+static PyObject *ffiobj_new(PyTypeObject *type, PyObject *args, PyObject *kwds)
+{
+ /* user-facing initialization code, for explicit FFI() calls */
+ return (PyObject *)ffi_internal_new(type, NULL);
+}
+
+/* forward, declared in cdlopen.c because it's mostly useful for this case */
+static int ffiobj_init(PyObject *self, PyObject *args, PyObject *kwds);
+
+static PyObject *ffi_fetch_int_constant(FFIObject *ffi, const char *name,
+ int recursion)
+{
+ int index;
+
+ index = search_in_globals(&ffi->types_builder.ctx, name, strlen(name));
+ if (index >= 0) {
+ const struct _cffi_global_s *g;
+ g = &ffi->types_builder.ctx.globals[index];
+
+ switch (_CFFI_GETOP(g->type_op)) {
+ case _CFFI_OP_CONSTANT_INT:
+ case _CFFI_OP_ENUM:
+ return realize_global_int(&ffi->types_builder, index);
+
+ default:
+ PyErr_Format(FFIError,
+ "function, global variable or non-integer constant "
+ "'%.200s' must be fetched from its original 'lib' "
+ "object", name);
+ return NULL;
+ }
+ }
+
+ if (ffi->types_builder.included_ffis != NULL) {
+ Py_ssize_t i;
+ PyObject *included_ffis = ffi->types_builder.included_ffis;
+
+ if (recursion > 100) {
+ PyErr_SetString(PyExc_RuntimeError,
+ "recursion overflow in ffi.include() delegations");
+ return NULL;
+ }
+
+ for (i = 0; i < PyTuple_GET_SIZE(included_ffis); i++) {
+ FFIObject *ffi1;
+ PyObject *x;
+
+ ffi1 = (FFIObject *)PyTuple_GET_ITEM(included_ffis, i);
+ x = ffi_fetch_int_constant(ffi1, name, recursion + 1);
+ if (x != NULL || PyErr_Occurred())
+ return x;
+ }
+ }
+ return NULL; /* no exception set, means "not found" */
+}
+
+#define ACCEPT_STRING 1
+#define ACCEPT_CTYPE 2
+#define ACCEPT_CDATA 4
+#define ACCEPT_ALL (ACCEPT_STRING | ACCEPT_CTYPE | ACCEPT_CDATA)
+#define CONSIDER_FN_AS_FNPTR 8
+
+static CTypeDescrObject *_ffi_bad_type(FFIObject *ffi, const char *input_text)
+{
+ size_t length = strlen(input_text);
+ char *extra;
+
+ if (length > 500) {
+ extra = "";
+ }
+ else {
+ char *p;
+ size_t i, num_spaces = ffi->info.error_location;
+ extra = alloca(length + num_spaces + 4);
+ p = extra;
+ *p++ = '\n';
+ for (i = 0; i < length; i++) {
+ if (' ' <= input_text[i] && input_text[i] < 0x7f)
+ *p++ = input_text[i];
+ else if (input_text[i] == '\t' || input_text[i] == '\n')
+ *p++ = ' ';
+ else
+ *p++ = '?';
+ }
+ *p++ = '\n';
+ memset(p, ' ', num_spaces);
+ p += num_spaces;
+ *p++ = '^';
+ *p++ = 0;
+ }
+ PyErr_Format(FFIError, "%s%s", ffi->info.error_message, extra);
+ return NULL;
+}
+
+static CTypeDescrObject *_ffi_type(FFIObject *ffi, PyObject *arg,
+ int accept)
+{
+ /* Returns the CTypeDescrObject from the user-supplied 'arg'.
+ Does not return a new reference!
+ */
+ if ((accept & ACCEPT_STRING) && PyText_Check(arg)) {
+ PyObject *types_dict = ffi->types_builder.types_dict;
+ PyObject *x = PyDict_GetItem(types_dict, arg);
+
+ if (x == NULL) {
+ const char *input_text = PyText_AS_UTF8(arg);
+ int err, index = parse_c_type(&ffi->info, input_text);
+ if (index < 0)
+ return _ffi_bad_type(ffi, input_text);
+
+ x = realize_c_type_or_func(&ffi->types_builder,
+ ffi->info.output, index);
+ if (x == NULL)
+ return NULL;
+
+ /* Cache under the name given by 'arg', in addition to the
+ fact that the same ct is probably already cached under
+ its standardized name. In a few cases, it is not, e.g.
+ if it is a primitive; for the purpose of this function,
+ the important point is the following line, which makes
+ sure that in any case the next _ffi_type() with the same
+ 'arg' will succeed early, in PyDict_GetItem() above.
+ */
+ err = PyDict_SetItem(types_dict, arg, x);
+ Py_DECREF(x); /* we know it was written in types_dict (unless out
+ of mem), so there is at least that ref left */
+ if (err < 0)
+ return NULL;
+ }
+
+ if (CTypeDescr_Check(x))
+ return (CTypeDescrObject *)x;
+ else if (accept & CONSIDER_FN_AS_FNPTR)
+ return unwrap_fn_as_fnptr(x);
+ else
+ return unexpected_fn_type(x);
+ }
+ else if ((accept & ACCEPT_CTYPE) && CTypeDescr_Check(arg)) {
+ return (CTypeDescrObject *)arg;
+ }
+ else if ((accept & ACCEPT_CDATA) && CData_Check(arg)) {
+ return ((CDataObject *)arg)->c_type;
+ }
+#if PY_MAJOR_VERSION < 3
+ else if (PyUnicode_Check(arg)) {
+ CTypeDescrObject *result;
+ arg = PyUnicode_AsASCIIString(arg);
+ if (arg == NULL)
+ return NULL;
+ result = _ffi_type(ffi, arg, accept);
+ Py_DECREF(arg);
+ return result;
+ }
+#endif
+ else {
+ const char *m1 = (accept & ACCEPT_STRING) ? "string" : "";
+ const char *m2 = (accept & ACCEPT_CTYPE) ? "ctype object" : "";
+ const char *m3 = (accept & ACCEPT_CDATA) ? "cdata object" : "";
+ const char *s12 = (*m1 && (*m2 || *m3)) ? " or " : "";
+ const char *s23 = (*m2 && *m3) ? " or " : "";
+ PyErr_Format(PyExc_TypeError, "expected a %s%s%s%s%s, got '%.200s'",
+ m1, s12, m2, s23, m3,
+ Py_TYPE(arg)->tp_name);
+ return NULL;
+ }
+}
+
+PyDoc_STRVAR(ffi_sizeof_doc,
+"Return the size in bytes of the argument.\n"
+"It can be a string naming a C type, or a 'cdata' instance.");
+
+static PyObject *ffi_sizeof(FFIObject *self, PyObject *arg)
+{
+ Py_ssize_t size;
+
+ if (CData_Check(arg)) {
+ size = direct_sizeof_cdata((CDataObject *)arg);
+ }
+ else {
+ CTypeDescrObject *ct = _ffi_type(self, arg, ACCEPT_ALL);
+ if (ct == NULL)
+ return NULL;
+ size = ct->ct_size;
+ if (size < 0) {
+ PyErr_Format(FFIError, "don't know the size of ctype '%s'",
+ ct->ct_name);
+ return NULL;
+ }
+ }
+ return PyInt_FromSsize_t(size);
+}
+
+PyDoc_STRVAR(ffi_alignof_doc,
+"Return the natural alignment size in bytes of the argument.\n"
+"It can be a string naming a C type, or a 'cdata' instance.");
+
+static PyObject *ffi_alignof(FFIObject *self, PyObject *arg)
+{
+ int align;
+ CTypeDescrObject *ct = _ffi_type(self, arg, ACCEPT_ALL);
+ if (ct == NULL)
+ return NULL;
+
+ align = get_alignment(ct);
+ if (align < 0)
+ return NULL;
+ return PyInt_FromLong(align);
+}
+
+PyDoc_STRVAR(ffi_typeof_doc,
+"Parse the C type given as a string and return the\n"
+"corresponding <ctype> object.\n"
+"It can also be used on 'cdata' instance to get its C type.");
+
+static PyObject *_cpyextfunc_type_index(PyObject *x); /* forward */
+
+static PyObject *ffi_typeof(FFIObject *self, PyObject *arg)
+{
+ PyObject *x = (PyObject *)_ffi_type(self, arg, ACCEPT_STRING|ACCEPT_CDATA);
+ if (x != NULL) {
+ Py_INCREF(x);
+ }
+ else {
+ x = _cpyextfunc_type_index(arg);
+ }
+ return x;
+}
+
+PyDoc_STRVAR(ffi_new_doc,
+"Allocate an instance according to the specified C type and return a\n"
+"pointer to it. The specified C type must be either a pointer or an\n"
+"array: ``new('X *')`` allocates an X and returns a pointer to it,\n"
+"whereas ``new('X[n]')`` allocates an array of n X'es and returns an\n"
+"array referencing it (which works mostly like a pointer, like in C).\n"
+"You can also use ``new('X[]', n)`` to allocate an array of a\n"
+"non-constant length n.\n"
+"\n"
+"The memory is initialized following the rules of declaring a global\n"
+"variable in C: by default it is zero-initialized, but an explicit\n"
+"initializer can be given which can be used to fill all or part of the\n"
+"memory.\n"
+"\n"
+"When the returned <cdata> object goes out of scope, the memory is\n"
+"freed. In other words the returned <cdata> object has ownership of\n"
+"the value of type 'cdecl' that it points to. This means that the raw\n"
+"data can be used as long as this object is kept alive, but must not be\n"
+"used for a longer time. Be careful about that when copying the\n"
+"pointer to the memory somewhere else, e.g. into another structure.");
+
+static PyObject *_ffi_new(FFIObject *self, PyObject *args, PyObject *kwds,
+ const cffi_allocator_t *allocator)
+{
+ CTypeDescrObject *ct;
+ PyObject *arg, *init = Py_None;
+ static char *keywords[] = {"cdecl", "init", NULL};
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "O|O:new", keywords,
+ &arg, &init))
+ return NULL;
+
+ ct = _ffi_type(self, arg, ACCEPT_STRING|ACCEPT_CTYPE);
+ if (ct == NULL)
+ return NULL;
+
+ return direct_newp(ct, init, allocator);
+}
+
+static PyObject *ffi_new(FFIObject *self, PyObject *args, PyObject *kwds)
+{
+ return _ffi_new(self, args, kwds, &default_allocator);
+}
+
+static PyObject *_ffi_new_with_allocator(PyObject *allocator, PyObject *args,
+ PyObject *kwds)
+{
+ cffi_allocator_t alloc1;
+ PyObject *my_alloc, *my_free;
+ my_alloc = PyTuple_GET_ITEM(allocator, 1);
+ my_free = PyTuple_GET_ITEM(allocator, 2);
+ alloc1.ca_alloc = (my_alloc == Py_None ? NULL : my_alloc);
+ alloc1.ca_free = (my_free == Py_None ? NULL : my_free);
+ alloc1.ca_dont_clear = (PyTuple_GET_ITEM(allocator, 3) == Py_False);
+
+ return _ffi_new((FFIObject *)PyTuple_GET_ITEM(allocator, 0),
+ args, kwds, &alloc1);
+}
+
+PyDoc_STRVAR(ffi_new_allocator_doc,
+"Return a new allocator, i.e. a function that behaves like ffi.new()\n"
+"but uses the provided low-level 'alloc' and 'free' functions.\n"
+"\n"
+"'alloc' is called with the size as argument. If it returns NULL, a\n"
+"MemoryError is raised. 'free' is called with the result of 'alloc'\n"
+"as argument. Both can be either Python functions or directly C\n"
+"functions. If 'free' is None, then no free function is called.\n"
+"If both 'alloc' and 'free' are None, the default is used.\n"
+"\n"
+"If 'should_clear_after_alloc' is set to False, then the memory\n"
+"returned by 'alloc' is assumed to be already cleared (or you are\n"
+"fine with garbage); otherwise CFFI will clear it.");
+
+static PyObject *ffi_new_allocator(FFIObject *self, PyObject *args,
+ PyObject *kwds)
+{
+ PyObject *allocator, *result;
+ PyObject *my_alloc = Py_None, *my_free = Py_None;
+ int should_clear_after_alloc = 1;
+ static char *keywords[] = {"alloc", "free", "should_clear_after_alloc",
+ NULL};
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "|OOi:new_allocator", keywords,
+ &my_alloc, &my_free,
+ &should_clear_after_alloc))
+ return NULL;
+
+ if (my_alloc == Py_None && my_free != Py_None) {
+ PyErr_SetString(PyExc_TypeError, "cannot pass 'free' without 'alloc'");
+ return NULL;
+ }
+
+ allocator = PyTuple_Pack(4,
+ (PyObject *)self,
+ my_alloc,
+ my_free,
+ PyBool_FromLong(should_clear_after_alloc));
+ if (allocator == NULL)
+ return NULL;
+
+ {
+ static PyMethodDef md = {"allocator",
+ (PyCFunction)_ffi_new_with_allocator,
+ METH_VARARGS | METH_KEYWORDS};
+ result = PyCFunction_New(&md, allocator);
+ }
+ Py_DECREF(allocator);
+ return result;
+}
+
+PyDoc_STRVAR(ffi_cast_doc,
+"Similar to a C cast: returns an instance of the named C\n"
+"type initialized with the given 'source'. The source is\n"
+"casted between integers or pointers of any type.");
+
+static PyObject *ffi_cast(FFIObject *self, PyObject *args)
+{
+ CTypeDescrObject *ct;
+ PyObject *ob, *arg;
+ if (!PyArg_ParseTuple(args, "OO:cast", &arg, &ob))
+ return NULL;
+
+ ct = _ffi_type(self, arg, ACCEPT_STRING|ACCEPT_CTYPE);
+ if (ct == NULL)
+ return NULL;
+
+ return do_cast(ct, ob);
+}
+
+PyDoc_STRVAR(ffi_string_doc,
+"Return a Python string (or unicode string) from the 'cdata'. If\n"
+"'cdata' is a pointer or array of characters or bytes, returns the\n"
+"null-terminated string. The returned string extends until the first\n"
+"null character, or at most 'maxlen' characters. If 'cdata' is an\n"
+"array then 'maxlen' defaults to its length.\n"
+"\n"
+"If 'cdata' is a pointer or array of wchar_t, returns a unicode string\n"
+"following the same rules.\n"
+"\n"
+"If 'cdata' is a single character or byte or a wchar_t, returns it as a\n"
+"string or unicode string.\n"
+"\n"
+"If 'cdata' is an enum, returns the value of the enumerator as a\n"
+"string, or 'NUMBER' if the value is out of range.");
+
+#define ffi_string b_string /* ffi_string() => b_string()
+ from _cffi_backend.c */
+
+PyDoc_STRVAR(ffi_unpack_doc,
+"Unpack an array of C data of the given length,\n"
+"returning a Python string/unicode/list.\n"
+"\n"
+"If 'cdata' is a pointer to 'char', returns a byte string.\n"
+"It does not stop at the first null. This is equivalent to:\n"
+"ffi.buffer(cdata, length)[:]\n"
+"\n"
+"If 'cdata' is a pointer to 'wchar_t', returns a unicode string.\n"
+"'length' is measured in wchar_t's; it is not the size in bytes.\n"
+"\n"
+"If 'cdata' is a pointer to anything else, returns a list of\n"
+"'length' items. This is a faster equivalent to:\n"
+"[cdata[i] for i in range(length)]");
+
+#define ffi_unpack b_unpack /* ffi_unpack() => b_unpack()
+ from _cffi_backend.c */
+
+
+PyDoc_STRVAR(ffi_offsetof_doc,
+"Return the offset of the named field inside the given structure or\n"
+"array, which must be given as a C type name. You can give several\n"
+"field names in case of nested structures. You can also give numeric\n"
+"values which correspond to array items, in case of an array type.");
+
+static PyObject *ffi_offsetof(FFIObject *self, PyObject *args)
+{
+ PyObject *arg;
+ CTypeDescrObject *ct;
+ Py_ssize_t i, offset;
+
+ if (PyTuple_Size(args) < 2) {
+ PyErr_SetString(PyExc_TypeError,
+ "offsetof() expects at least 2 arguments");
+ return NULL;
+ }
+
+ arg = PyTuple_GET_ITEM(args, 0);
+ ct = _ffi_type(self, arg, ACCEPT_STRING|ACCEPT_CTYPE);
+ if (ct == NULL)
+ return NULL;
+
+ offset = 0;
+ for (i = 1; i < PyTuple_GET_SIZE(args); i++) {
+ Py_ssize_t ofs1;
+ ct = direct_typeoffsetof(ct, PyTuple_GET_ITEM(args, i), i > 1, &ofs1);
+ if (ct == NULL)
+ return NULL;
+ offset += ofs1;
+ }
+ return PyInt_FromSsize_t(offset);
+}
+
+PyDoc_STRVAR(ffi_addressof_doc,
+"Limited equivalent to the '&' operator in C:\n"
+"\n"
+"1. ffi.addressof(<cdata 'struct-or-union'>) returns a cdata that is a\n"
+"pointer to this struct or union.\n"
+"\n"
+"2. ffi.addressof(<cdata>, field-or-index...) returns the address of a\n"
+"field or array item inside the given structure or array, recursively\n"
+"in case of nested structures or arrays.\n"
+"\n"
+"3. ffi.addressof(<library>, \"name\") returns the address of the named\n"
+"function or global variable.");
+
+static PyObject *address_of_global_var(PyObject *args); /* forward */
+
+static PyObject *ffi_addressof(FFIObject *self, PyObject *args)
+{
+ PyObject *arg, *z, *result;
+ CTypeDescrObject *ct;
+ Py_ssize_t i, offset = 0;
+ int accepted_flags;
+
+ if (PyTuple_Size(args) < 1) {
+ PyErr_SetString(PyExc_TypeError,
+ "addressof() expects at least 1 argument");
+ return NULL;
+ }
+
+ arg = PyTuple_GET_ITEM(args, 0);
+ if (LibObject_Check(arg)) {
+ /* case 3 in the docstring */
+ return address_of_global_var(args);
+ }
+
+ ct = _ffi_type(self, arg, ACCEPT_CDATA);
+ if (ct == NULL)
+ return NULL;
+
+ if (PyTuple_GET_SIZE(args) == 1) {
+ /* case 1 in the docstring */
+ accepted_flags = CT_STRUCT | CT_UNION | CT_ARRAY;
+ if ((ct->ct_flags & accepted_flags) == 0) {
+ PyErr_SetString(PyExc_TypeError,
+ "expected a cdata struct/union/array object");
+ return NULL;
+ }
+ }
+ else {
+ /* case 2 in the docstring */
+ accepted_flags = CT_STRUCT | CT_UNION | CT_ARRAY | CT_POINTER;
+ if ((ct->ct_flags & accepted_flags) == 0) {
+ PyErr_SetString(PyExc_TypeError,
+ "expected a cdata struct/union/array/pointer object");
+ return NULL;
+ }
+ for (i = 1; i < PyTuple_GET_SIZE(args); i++) {
+ Py_ssize_t ofs1;
+ ct = direct_typeoffsetof(ct, PyTuple_GET_ITEM(args, i),
+ i > 1, &ofs1);
+ if (ct == NULL)
+ return NULL;
+ offset += ofs1;
+ }
+ }
+
+ z = new_pointer_type(ct);
+ if (z == NULL)
+ return NULL;
+
+ result = new_simple_cdata(((CDataObject *)arg)->c_data + offset,
+ (CTypeDescrObject *)z);
+ Py_DECREF(z);
+ return result;
+}
+
+static PyObject *_combine_type_name_l(CTypeDescrObject *ct,
+ size_t extra_text_len)
+{
+ size_t base_name_len;
+ PyObject *result;
+ char *p;
+
+ base_name_len = strlen(ct->ct_name);
+ result = PyBytes_FromStringAndSize(NULL, base_name_len + extra_text_len);
+ if (result == NULL)
+ return NULL;
+
+ p = PyBytes_AS_STRING(result);
+ memcpy(p, ct->ct_name, ct->ct_name_position);
+ p += ct->ct_name_position;
+ p += extra_text_len;
+ memcpy(p, ct->ct_name + ct->ct_name_position,
+ base_name_len - ct->ct_name_position);
+ return result;
+}
+
+PyDoc_STRVAR(ffi_getctype_doc,
+"Return a string giving the C type 'cdecl', which may be itself a\n"
+"string or a <ctype> object. If 'replace_with' is given, it gives\n"
+"extra text to append (or insert for more complicated C types), like a\n"
+"variable name, or '*' to get actually the C type 'pointer-to-cdecl'.");
+
+static PyObject *ffi_getctype(FFIObject *self, PyObject *args, PyObject *kwds)
+{
+ PyObject *c_decl, *res;
+ char *p, *replace_with = "";
+ int add_paren, add_space;
+ CTypeDescrObject *ct;
+ size_t replace_with_len;
+ static char *keywords[] = {"cdecl", "replace_with", NULL};
+#if PY_MAJOR_VERSION >= 3
+ PyObject *u;
+#endif
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "O|s:getctype", keywords,
+ &c_decl, &replace_with))
+ return NULL;
+
+ ct = _ffi_type(self, c_decl, ACCEPT_STRING|ACCEPT_CTYPE);
+ if (ct == NULL)
+ return NULL;
+
+ while (replace_with[0] != 0 && isspace(replace_with[0]))
+ replace_with++;
+ replace_with_len = strlen(replace_with);
+ while (replace_with_len > 0 && isspace(replace_with[replace_with_len - 1]))
+ replace_with_len--;
+
+ add_paren = (replace_with[0] == '*' &&
+ ((ct->ct_flags & CT_ARRAY) != 0));
+ add_space = (!add_paren && replace_with_len > 0 &&
+ replace_with[0] != '[' && replace_with[0] != '(');
+
+ res = _combine_type_name_l(ct, replace_with_len + add_space + 2*add_paren);
+ if (res == NULL)
+ return NULL;
+
+ p = PyBytes_AS_STRING(res) + ct->ct_name_position;
+ if (add_paren)
+ *p++ = '(';
+ if (add_space)
+ *p++ = ' ';
+ memcpy(p, replace_with, replace_with_len);
+ if (add_paren)
+ p[replace_with_len] = ')';
+
+#if PY_MAJOR_VERSION >= 3
+ /* bytes -> unicode string */
+ u = PyUnicode_DecodeLatin1(PyBytes_AS_STRING(res),
+ PyBytes_GET_SIZE(res),
+ NULL);
+ Py_DECREF(res);
+ res = u;
+#endif
+
+ return res;
+}
+
+PyDoc_STRVAR(ffi_new_handle_doc,
+"Return a non-NULL cdata of type 'void *' that contains an opaque\n"
+"reference to the argument, which can be any Python object. To cast it\n"
+"back to the original object, use from_handle(). You must keep alive\n"
+"the cdata object returned by new_handle()!");
+
+static PyObject *ffi_new_handle(FFIObject *self, PyObject *arg)
+{
+ /* g_ct_voidp is equal to <ctype 'void *'> */
+ return newp_handle(g_ct_voidp, arg);
+}
+
+PyDoc_STRVAR(ffi_from_handle_doc,
+"Cast a 'void *' back to a Python object. Must be used *only* on the\n"
+"pointers returned by new_handle(), and *only* as long as the exact\n"
+"cdata object returned by new_handle() is still alive (somewhere else\n"
+"in the program). Failure to follow these rules will crash.");
+
+#define ffi_from_handle b_from_handle /* ffi_from_handle => b_from_handle
+ from _cffi_backend.c */
+
+PyDoc_STRVAR(ffi_from_buffer_doc,
+"Return a <cdata 'char[]'> that points to the data of the given Python\n"
+"object, which must support the buffer interface. Note that this is\n"
+"not meant to be used on the built-in types str or unicode\n"
+"(you can build 'char[]' arrays explicitly) but only on objects\n"
+"containing large quantities of raw data in some other format, like\n"
+"'array.array' or numpy arrays.");
+
+static PyObject *ffi_from_buffer(FFIObject *self, PyObject *args,
+ PyObject *kwds)
+{
+ PyObject *cdecl1, *python_buf = NULL;
+ CTypeDescrObject *ct;
+ int require_writable = 0;
+ static char *keywords[] = {"cdecl", "python_buffer",
+ "require_writable", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "O|Oi:from_buffer", keywords,
+ &cdecl1, &python_buf, &require_writable))
+ return NULL;
+
+ if (python_buf == NULL) {
+ python_buf = cdecl1;
+ ct = g_ct_chararray;
+ }
+ else {
+ ct = _ffi_type(self, cdecl1, ACCEPT_STRING|ACCEPT_CTYPE);
+ if (ct == NULL)
+ return NULL;
+ }
+ return direct_from_buffer(ct, python_buf, require_writable);
+}
+
+PyDoc_STRVAR(ffi_gc_doc,
+"Return a new cdata object that points to the same data.\n"
+"Later, when this new cdata object is garbage-collected,\n"
+"'destructor(old_cdata_object)' will be called.\n"
+"\n"
+"The optional 'size' gives an estimate of the size, used to\n"
+"trigger the garbage collection more eagerly. So far only used\n"
+"on PyPy. It tells the GC that the returned object keeps alive\n"
+"roughly 'size' bytes of external memory.");
+
+#define ffi_gc b_gcp /* ffi_gc() => b_gcp()
+ from _cffi_backend.c */
+
+PyDoc_STRVAR(ffi_def_extern_doc,
+"A decorator. Attaches the decorated Python function to the C code\n"
+"generated for the 'extern \"Python\"' function of the same name.\n"
+"Calling the C function will then invoke the Python function.\n"
+"\n"
+"Optional arguments: 'name' is the name of the C function, if\n"
+"different from the Python function; and 'error' and 'onerror'\n"
+"handle what occurs if the Python function raises an exception\n"
+"(see the docs for details).");
+
+/* forward; see call_python.c */
+static PyObject *_ffi_def_extern_decorator(PyObject *, PyObject *);
+
+static PyObject *ffi_def_extern(FFIObject *self, PyObject *args,
+ PyObject *kwds)
+{
+ static PyMethodDef md = {"def_extern_decorator",
+ (PyCFunction)_ffi_def_extern_decorator, METH_O};
+ PyObject *name = Py_None, *error = Py_None;
+ PyObject *res, *onerror = Py_None;
+ static char *keywords[] = {"name", "error", "onerror", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "|OOO", keywords,
+ &name, &error, &onerror))
+ return NULL;
+
+ args = Py_BuildValue("(OOOO)", (PyObject *)self, name, error, onerror);
+ if (args == NULL)
+ return NULL;
+
+ res = PyCFunction_New(&md, args);
+ Py_DECREF(args);
+ return res;
+}
+
+PyDoc_STRVAR(ffi_callback_doc,
+"Return a callback object or a decorator making such a callback object.\n"
+"'cdecl' must name a C function pointer type. The callback invokes the\n"
+"specified 'python_callable' (which may be provided either directly or\n"
+"via a decorator). Important: the callback object must be manually\n"
+"kept alive for as long as the callback may be invoked from the C code.");
+
+static PyObject *_ffi_callback_decorator(PyObject *outer_args, PyObject *fn)
+{
+ PyObject *res, *old;
+
+ old = PyTuple_GET_ITEM(outer_args, 1);
+ PyTuple_SET_ITEM(outer_args, 1, fn);
+ res = b_callback(NULL, outer_args);
+ PyTuple_SET_ITEM(outer_args, 1, old);
+ return res;
+}
+
+static PyObject *ffi_callback(FFIObject *self, PyObject *args, PyObject *kwds)
+{
+ PyObject *c_decl, *python_callable = Py_None, *error = Py_None;
+ PyObject *res, *onerror = Py_None;
+ static char *keywords[] = {"cdecl", "python_callable", "error",
+ "onerror", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "O|OOO", keywords,
+ &c_decl, &python_callable, &error,
+ &onerror))
+ return NULL;
+
+ c_decl = (PyObject *)_ffi_type(self, c_decl, ACCEPT_STRING | ACCEPT_CTYPE |
+ CONSIDER_FN_AS_FNPTR);
+ if (c_decl == NULL)
+ return NULL;
+
+ args = Py_BuildValue("(OOOO)", c_decl, python_callable, error, onerror);
+ if (args == NULL)
+ return NULL;
+
+ if (python_callable != Py_None) {
+ res = b_callback(NULL, args);
+ }
+ else {
+ static PyMethodDef md = {"callback_decorator",
+ (PyCFunction)_ffi_callback_decorator, METH_O};
+ res = PyCFunction_New(&md, args);
+ }
+ Py_DECREF(args);
+ return res;
+}
+
+#ifdef MS_WIN32
+PyDoc_STRVAR(ffi_getwinerror_doc,
+"Return either the GetLastError() or the error number given by the\n"
+"optional 'code' argument, as a tuple '(code, message)'.");
+
+#define ffi_getwinerror b_getwinerror /* ffi_getwinerror() => b_getwinerror()
+ from misc_win32.h */
+#endif
+
+PyDoc_STRVAR(ffi_errno_doc, "the value of 'errno' from/to the C calls");
+
+static PyObject *ffi_get_errno(PyObject *self, void *closure)
+{
+ /* xxx maybe think about how to make the saved errno local
+ to an ffi instance */
+ return b_get_errno(NULL, NULL);
+}
+
+static int ffi_set_errno(PyObject *self, PyObject *newval, void *closure)
+{
+ PyObject *x = b_set_errno(NULL, newval);
+ if (x == NULL)
+ return -1;
+ Py_DECREF(x);
+ return 0;
+}
+
+PyDoc_STRVAR(ffi_dlopen_doc,
+"Load and return a dynamic library identified by 'name'. The standard\n"
+"C library can be loaded by passing None.\n"
+"\n"
+"Note that functions and types declared with 'ffi.cdef()' are not\n"
+"linked to a particular library, just like C headers. In the library\n"
+"we only look for the actual (untyped) symbols at the time of their\n"
+"first access.");
+
+PyDoc_STRVAR(ffi_dlclose_doc,
+"Close a library obtained with ffi.dlopen(). After this call, access to\n"
+"functions or variables from the library will fail (possibly with a\n"
+"segmentation fault).");
+
+static PyObject *ffi_dlopen(PyObject *self, PyObject *args); /* forward */
+static PyObject *ffi_dlclose(PyObject *self, PyObject *args); /* forward */
+
+PyDoc_STRVAR(ffi_int_const_doc,
+"Get the value of an integer constant.\n"
+"\n"
+"'ffi.integer_const(\"xxx\")' is equivalent to 'lib.xxx' if xxx names an\n"
+"integer constant. The point of this function is limited to use cases\n"
+"where you have an 'ffi' object but not any associated 'lib' object.");
+
+static PyObject *ffi_int_const(FFIObject *self, PyObject *args, PyObject *kwds)
+{
+ char *name;
+ PyObject *x;
+ static char *keywords[] = {"name", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "s", keywords, &name))
+ return NULL;
+
+ x = ffi_fetch_int_constant(self, name, 0);
+
+ if (x == NULL && !PyErr_Occurred()) {
+ PyErr_Format(PyExc_AttributeError,
+ "integer constant '%.200s' not found", name);
+ }
+ return x;
+}
+
+PyDoc_STRVAR(ffi_list_types_doc,
+"Returns the user type names known to this FFI instance.\n"
+"This returns a tuple containing three lists of names:\n"
+"(typedef_names, names_of_structs, names_of_unions)");
+
+static PyObject *ffi_list_types(FFIObject *self, PyObject *noargs)
+{
+ Py_ssize_t i, n1 = self->types_builder.ctx.num_typenames;
+ Py_ssize_t n23 = self->types_builder.ctx.num_struct_unions;
+ PyObject *o, *lst[3] = {NULL, NULL, NULL}, *result = NULL;
+
+ lst[0] = PyList_New(n1);
+ if (lst[0] == NULL)
+ goto error;
+ lst[1] = PyList_New(0);
+ if (lst[1] == NULL)
+ goto error;
+ lst[2] = PyList_New(0);
+ if (lst[2] == NULL)
+ goto error;
+
+ for (i = 0; i < n1; i++) {
+ o = PyText_FromString(self->types_builder.ctx.typenames[i].name);
+ if (o == NULL)
+ goto error;
+ PyList_SET_ITEM(lst[0], i, o);
+ }
+
+ for (i = 0; i < n23; i++) {
+ const struct _cffi_struct_union_s *s;
+ int err, index;
+
+ s = &self->types_builder.ctx.struct_unions[i];
+ if (s->name[0] == '$')
+ continue;
+
+ o = PyText_FromString(s->name);
+ if (o == NULL)
+ goto error;
+ index = (s->flags & _CFFI_F_UNION) ? 2 : 1;
+ err = PyList_Append(lst[index], o);
+ Py_DECREF(o);
+ if (err < 0)
+ goto error;
+ }
+ result = PyTuple_Pack(3, lst[0], lst[1], lst[2]);
+ /* fall-through */
+ error:
+ Py_XDECREF(lst[2]);
+ Py_XDECREF(lst[1]);
+ Py_XDECREF(lst[0]);
+ return result;
+}
+
+PyDoc_STRVAR(ffi_memmove_doc,
+"ffi.memmove(dest, src, n) copies n bytes of memory from src to dest.\n"
+"\n"
+"Like the C function memmove(), the memory areas may overlap;\n"
+"apart from that it behaves like the C function memcpy().\n"
+"\n"
+"'src' can be any cdata ptr or array, or any Python buffer object.\n"
+"'dest' can be any cdata ptr or array, or a writable Python buffer\n"
+"object. The size to copy, 'n', is always measured in bytes.\n"
+"\n"
+"Unlike other methods, this one supports all Python buffer including\n"
+"byte strings and bytearrays---but it still does not support\n"
+"non-contiguous buffers.");
+
+#define ffi_memmove b_memmove /* ffi_memmove() => b_memmove()
+ from _cffi_backend.c */
+
+PyDoc_STRVAR(ffi_init_once_doc,
+"init_once(function, tag): run function() once. More precisely,\n"
+"'function()' is called the first time we see a given 'tag'.\n"
+"\n"
+"The return value of function() is remembered and returned by the current\n"
+"and all future init_once() with the same tag. If init_once() is called\n"
+"from multiple threads in parallel, all calls block until the execution\n"
+"of function() is done. If function() raises an exception, it is\n"
+"propagated and nothing is cached.");
+
+#if PY_MAJOR_VERSION < 3
+/* PyCapsule_New is redefined to be PyCObject_FromVoidPtr in _cffi_backend,
+ which gives 2.6 compatibility; but the destructor signature is different */
+static void _free_init_once_lock(void *lock)
+{
+ PyThread_free_lock((PyThread_type_lock)lock);
+}
+#else
+static void _free_init_once_lock(PyObject *capsule)
+{
+ PyThread_type_lock lock;
+ lock = PyCapsule_GetPointer(capsule, "cffi_init_once_lock");
+ if (lock != NULL)
+ PyThread_free_lock(lock);
+}
+#endif
+
+static PyObject *ffi_init_once(FFIObject *self, PyObject *args, PyObject *kwds)
+{
+ static char *keywords[] = {"func", "tag", NULL};
+ PyObject *cache, *func, *tag, *tup, *res, *x, *lockobj;
+ PyThread_type_lock lock;
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "OO", keywords, &func, &tag))
+ return NULL;
+
+ /* a lot of fun with reference counting and error checking
+ in this function */
+
+ /* atomically get or create a new dict (no GIL release) */
+ cache = self->init_once_cache;
+ if (cache == NULL) {
+ cache = PyDict_New();
+ if (cache == NULL)
+ return NULL;
+ self->init_once_cache = cache;
+ }
+
+ /* get the tuple from cache[tag], or make a new one: (False, lock) */
+ tup = PyDict_GetItem(cache, tag);
+ if (tup == NULL) {
+ lock = PyThread_allocate_lock();
+ if (lock == NULL)
+ return NULL;
+ x = PyCapsule_New(lock, "cffi_init_once_lock", _free_init_once_lock);
+ if (x == NULL) {
+ PyThread_free_lock(lock);
+ return NULL;
+ }
+ tup = PyTuple_Pack(2, Py_False, x);
+ Py_DECREF(x);
+ if (tup == NULL)
+ return NULL;
+ x = tup;
+
+ /* Possible corner case if 'tag' is an object overriding __eq__
+ in pure Python: the GIL may be released when we are running it.
+ We really need to call dict.setdefault(). */
+ tup = PyObject_CallMethod(cache, "setdefault", "OO", tag, x);
+ Py_DECREF(x);
+ if (tup == NULL)
+ return NULL;
+
+ Py_DECREF(tup); /* there is still a ref inside the dict */
+ }
+
+ res = PyTuple_GET_ITEM(tup, 1);
+ Py_INCREF(res);
+
+ if (PyTuple_GET_ITEM(tup, 0) == Py_True) {
+ /* tup == (True, result): return the result. */
+ return res;
+ }
+
+ /* tup == (False, lock) */
+ lockobj = res;
+ lock = (PyThread_type_lock)PyCapsule_GetPointer(lockobj,
+ "cffi_init_once_lock");
+ if (lock == NULL) {
+ Py_DECREF(lockobj);
+ return NULL;
+ }
+
+ Py_BEGIN_ALLOW_THREADS
+ PyThread_acquire_lock(lock, WAIT_LOCK);
+ Py_END_ALLOW_THREADS
+
+ x = PyDict_GetItem(cache, tag);
+ if (x != NULL && PyTuple_GET_ITEM(x, 0) == Py_True) {
+ /* the real result was put in the dict while we were waiting
+ for PyThread_acquire_lock() above */
+ res = PyTuple_GET_ITEM(x, 1);
+ Py_INCREF(res);
+ }
+ else {
+ res = PyObject_CallFunction(func, "");
+ if (res != NULL) {
+ tup = PyTuple_Pack(2, Py_True, res);
+ if (tup == NULL || PyDict_SetItem(cache, tag, tup) < 0) {
+ Py_DECREF(res);
+ res = NULL;
+ }
+ Py_XDECREF(tup);
+ }
+ }
+
+ PyThread_release_lock(lock);
+ Py_DECREF(lockobj);
+ return res;
+}
+
+PyDoc_STRVAR(ffi_release_doc,
+"Release now the resources held by a 'cdata' object from ffi.new(),\n"
+"ffi.gc() or ffi.from_buffer(). The cdata object must not be used\n"
+"afterwards.\n"
+"\n"
+"'ffi.release(cdata)' is equivalent to 'cdata.__exit__()'.\n"
+"\n"
+"Note that on CPython this method has no effect (so far) on objects\n"
+"returned by ffi.new(), because the memory is allocated inline with the\n"
+"cdata object and cannot be freed independently. It might be fixed in\n"
+"future releases of cffi.");
+
+#define ffi_release b_release /* ffi_release() => b_release()
+ from _cffi_backend.c */
+
+
+#define METH_VKW (METH_VARARGS | METH_KEYWORDS)
+static PyMethodDef ffi_methods[] = {
+ {"addressof", (PyCFunction)ffi_addressof, METH_VARARGS, ffi_addressof_doc},
+ {"alignof", (PyCFunction)ffi_alignof, METH_O, ffi_alignof_doc},
+ {"def_extern", (PyCFunction)ffi_def_extern, METH_VKW, ffi_def_extern_doc},
+ {"callback", (PyCFunction)ffi_callback, METH_VKW, ffi_callback_doc},
+ {"cast", (PyCFunction)ffi_cast, METH_VARARGS, ffi_cast_doc},
+ {"dlclose", (PyCFunction)ffi_dlclose, METH_VARARGS, ffi_dlclose_doc},
+ {"dlopen", (PyCFunction)ffi_dlopen, METH_VARARGS, ffi_dlopen_doc},
+ {"from_buffer",(PyCFunction)ffi_from_buffer,METH_VKW, ffi_from_buffer_doc},
+ {"from_handle",(PyCFunction)ffi_from_handle,METH_O, ffi_from_handle_doc},
+ {"gc", (PyCFunction)ffi_gc, METH_VKW, ffi_gc_doc},
+ {"getctype", (PyCFunction)ffi_getctype, METH_VKW, ffi_getctype_doc},
+#ifdef MS_WIN32
+ {"getwinerror",(PyCFunction)ffi_getwinerror,METH_VKW, ffi_getwinerror_doc},
+#endif
+ {"init_once", (PyCFunction)ffi_init_once, METH_VKW, ffi_init_once_doc},
+ {"integer_const",(PyCFunction)ffi_int_const,METH_VKW, ffi_int_const_doc},
+ {"list_types", (PyCFunction)ffi_list_types, METH_NOARGS, ffi_list_types_doc},
+ {"memmove", (PyCFunction)ffi_memmove, METH_VKW, ffi_memmove_doc},
+ {"new", (PyCFunction)ffi_new, METH_VKW, ffi_new_doc},
+{"new_allocator",(PyCFunction)ffi_new_allocator,METH_VKW,ffi_new_allocator_doc},
+ {"new_handle", (PyCFunction)ffi_new_handle, METH_O, ffi_new_handle_doc},
+ {"offsetof", (PyCFunction)ffi_offsetof, METH_VARARGS, ffi_offsetof_doc},
+ {"release", (PyCFunction)ffi_release, METH_O, ffi_release_doc},
+ {"sizeof", (PyCFunction)ffi_sizeof, METH_O, ffi_sizeof_doc},
+ {"string", (PyCFunction)ffi_string, METH_VKW, ffi_string_doc},
+ {"typeof", (PyCFunction)ffi_typeof, METH_O, ffi_typeof_doc},
+ {"unpack", (PyCFunction)ffi_unpack, METH_VKW, ffi_unpack_doc},
+ {NULL}
+};
+
+static PyGetSetDef ffi_getsets[] = {
+ {"errno", ffi_get_errno, ffi_set_errno, ffi_errno_doc},
+ {NULL}
+};
+
+static PyTypeObject FFI_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.FFI",
+ sizeof(FFIObject),
+ 0,
+ (destructor)ffi_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ 0, /* tp_repr */
+ 0, /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* tp_as_mapping */
+ 0, /* tp_hash */
+ 0, /* tp_call */
+ 0, /* tp_str */
+ PyObject_GenericGetAttr, /* tp_getattro */
+ 0, /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC |
+ Py_TPFLAGS_BASETYPE, /* tp_flags */
+ 0, /* tp_doc */
+ (traverseproc)ffi_traverse, /* tp_traverse */
+ 0, /* tp_clear */
+ 0, /* tp_richcompare */
+ 0, /* tp_weaklistoffset */
+ 0, /* tp_iter */
+ 0, /* tp_iternext */
+ ffi_methods, /* tp_methods */
+ 0, /* tp_members */
+ ffi_getsets, /* tp_getset */
+ 0, /* tp_base */
+ 0, /* tp_dict */
+ 0, /* tp_descr_get */
+ 0, /* tp_descr_set */
+ 0, /* tp_dictoffset */
+ ffiobj_init, /* tp_init */
+ 0, /* tp_alloc */
+ ffiobj_new, /* tp_new */
+ PyObject_GC_Del, /* tp_free */
+};
+
+
+static PyObject *
+_fetch_external_struct_or_union(const struct _cffi_struct_union_s *s,
+ PyObject *included_ffis, int recursion)
+{
+ Py_ssize_t i;
+
+ if (included_ffis == NULL)
+ return NULL;
+
+ if (recursion > 100) {
+ PyErr_SetString(PyExc_RuntimeError,
+ "recursion overflow in ffi.include() delegations");
+ return NULL;
+ }
+
+ for (i = 0; i < PyTuple_GET_SIZE(included_ffis); i++) {
+ FFIObject *ffi1;
+ const struct _cffi_struct_union_s *s1;
+ int sindex;
+ PyObject *x;
+
+ ffi1 = (FFIObject *)PyTuple_GET_ITEM(included_ffis, i);
+ sindex = search_in_struct_unions(&ffi1->types_builder.ctx, s->name,
+ strlen(s->name));
+ if (sindex < 0) /* not found at all */
+ continue;
+ s1 = &ffi1->types_builder.ctx.struct_unions[sindex];
+ if ((s1->flags & (_CFFI_F_EXTERNAL | _CFFI_F_UNION))
+ == (s->flags & _CFFI_F_UNION)) {
+ /* s1 is not external, and the same kind (struct or union) as s */
+ return _realize_c_struct_or_union(&ffi1->types_builder, sindex);
+ }
+ /* not found, look more recursively */
+ x = _fetch_external_struct_or_union(
+ s, ffi1->types_builder.included_ffis, recursion + 1);
+ if (x != NULL || PyErr_Occurred())
+ return x; /* either found, or got an error */
+ }
+ return NULL; /* not found at all, leave without an error */
+}
diff --git a/contrib/python/cffi/py3/c/file_emulator.h b/contrib/python/cffi/py3/c/file_emulator.h
new file mode 100644
index 0000000000..82a34c0c72
--- /dev/null
+++ b/contrib/python/cffi/py3/c/file_emulator.h
@@ -0,0 +1,93 @@
+
+/* Emulation of PyFile_Check() and PyFile_AsFile() for Python 3. */
+
+static PyObject *PyIOBase_TypeObj;
+
+static int init_file_emulator(void)
+{
+ if (PyIOBase_TypeObj == NULL) {
+ PyObject *io = PyImport_ImportModule("_io");
+ if (io == NULL)
+ return -1;
+ PyIOBase_TypeObj = PyObject_GetAttrString(io, "_IOBase");
+ if (PyIOBase_TypeObj == NULL)
+ return -1;
+ }
+ return 0;
+}
+
+
+#define PyFile_Check(p) PyObject_IsInstance(p, PyIOBase_TypeObj)
+
+
+static void _close_file_capsule(PyObject *ob_capsule)
+{
+ FILE *f = (FILE *)PyCapsule_GetPointer(ob_capsule, "FILE");
+ if (f != NULL)
+ fclose(f);
+}
+
+
+static FILE *PyFile_AsFile(PyObject *ob_file)
+{
+ PyObject *ob, *ob_capsule = NULL, *ob_mode = NULL;
+ FILE *f;
+ int fd;
+ const char *mode;
+
+ ob = PyObject_CallMethod(ob_file, "flush", NULL);
+ if (ob == NULL)
+ goto fail;
+ Py_DECREF(ob);
+
+ ob_capsule = PyObject_GetAttrString(ob_file, "__cffi_FILE");
+ if (ob_capsule == NULL) {
+ PyErr_Clear();
+
+ fd = PyObject_AsFileDescriptor(ob_file);
+ if (fd < 0)
+ goto fail;
+
+ ob_mode = PyObject_GetAttrString(ob_file, "mode");
+ if (ob_mode == NULL)
+ goto fail;
+ mode = PyText_AsUTF8(ob_mode);
+ if (mode == NULL)
+ goto fail;
+
+ fd = dup(fd);
+ if (fd < 0) {
+ PyErr_SetFromErrno(PyExc_OSError);
+ goto fail;
+ }
+
+ f = fdopen(fd, mode);
+ if (f == NULL) {
+ close(fd);
+ PyErr_SetFromErrno(PyExc_OSError);
+ goto fail;
+ }
+ setbuf(f, NULL); /* non-buffered */
+ Py_DECREF(ob_mode);
+ ob_mode = NULL;
+
+ ob_capsule = PyCapsule_New(f, "FILE", _close_file_capsule);
+ if (ob_capsule == NULL) {
+ fclose(f);
+ goto fail;
+ }
+
+ if (PyObject_SetAttrString(ob_file, "__cffi_FILE", ob_capsule) < 0)
+ goto fail;
+ }
+ else {
+ f = PyCapsule_GetPointer(ob_capsule, "FILE");
+ }
+ Py_DECREF(ob_capsule); /* assumes still at least one reference */
+ return f;
+
+ fail:
+ Py_XDECREF(ob_mode);
+ Py_XDECREF(ob_capsule);
+ return NULL;
+}
diff --git a/contrib/python/cffi/py3/c/lib_obj.c b/contrib/python/cffi/py3/c/lib_obj.c
new file mode 100644
index 0000000000..be389838db
--- /dev/null
+++ b/contrib/python/cffi/py3/c/lib_obj.c
@@ -0,0 +1,729 @@
+
+/* A Lib object is what is in the "lib" attribute of a C extension
+ module originally created by recompile().
+
+ A Lib object is special in the sense that it has a custom
+ __getattr__ which returns C globals, functions and constants. The
+ original idea was to raise AttributeError for anything else, even
+ attrs like '__class__', but it breaks various things; now, standard
+ attrs are returned, but in the unlikely case where a user cdef()s
+ the same name, then the standard attr is hidden (and the various
+ things like introspection might break).
+
+ A Lib object has got a reference to the _cffi_type_context_s
+ structure, which is used to create lazily the objects returned by
+ __getattr__.
+*/
+
+#if defined(_asan_enabled_)
+void __lsan_ignore_object(const void* p);
+#endif
+
+inline static void MarkAsIntentionallyLeaked(const void* ptr) {
+#if defined(_asan_enabled_)
+ __lsan_ignore_object(ptr);
+#else
+ (void)ptr;
+#endif
+}
+
+struct CPyExtFunc_s {
+ PyMethodDef md;
+ void *direct_fn;
+ int type_index;
+ char doc[1];
+};
+
+struct LibObject_s {
+ PyObject_HEAD
+ builder_c_t *l_types_builder; /* same as the one on the ffi object */
+ PyObject *l_dict; /* content, built lazily */
+ PyObject *l_libname; /* some string that gives the name of the lib */
+ FFIObject *l_ffi; /* reference back to the ffi object */
+ void *l_libhandle; /* the dlopen()ed handle, if any */
+ int l_auto_close; /* if we must dlclose() this handle */
+};
+
+static struct CPyExtFunc_s *_cpyextfunc_get(PyObject *x)
+{
+ PyObject *y;
+ LibObject *lo;
+ PyCFunctionObject *fo;
+
+ if (!PyCFunction_Check(x))
+ return NULL;
+ y = PyCFunction_GET_SELF(x);
+ if (!LibObject_Check(y))
+ return NULL;
+
+ fo = (PyCFunctionObject *)x;
+ lo = (LibObject *)y;
+ if (lo->l_libname != fo->m_module)
+ return NULL;
+
+ return (struct CPyExtFunc_s *)(fo->m_ml);
+}
+
+static PyObject *_cpyextfunc_type(LibObject *lib, struct CPyExtFunc_s *exf)
+{
+ PyObject *tuple, *result;
+ tuple = realize_c_type_or_func(lib->l_types_builder,
+ lib->l_types_builder->ctx.types,
+ exf->type_index);
+ if (tuple == NULL)
+ return NULL;
+
+ /* 'tuple' is a tuple of length 1 containing the real CT_FUNCTIONPTR
+ object */
+ result = PyTuple_GetItem(tuple, 0);
+ Py_XINCREF(result);
+ Py_DECREF(tuple);
+ return result;
+}
+
+static PyObject *_cpyextfunc_type_index(PyObject *x)
+{
+ struct CPyExtFunc_s *exf;
+ LibObject *lib;
+
+ assert(PyErr_Occurred());
+ exf = _cpyextfunc_get(x);
+ if (exf == NULL)
+ return NULL; /* still the same exception is set */
+
+ PyErr_Clear();
+
+ lib = (LibObject *)PyCFunction_GET_SELF(x);
+ return _cpyextfunc_type(lib, exf);
+}
+
+static void cdlopen_close_ignore_errors(void *libhandle); /* forward */
+static void *cdlopen_fetch(PyObject *libname, void *libhandle,
+ const char *symbol);
+
+static void lib_dealloc(LibObject *lib)
+{
+ PyObject_GC_UnTrack(lib);
+ if (lib->l_auto_close)
+ cdlopen_close_ignore_errors(lib->l_libhandle);
+ Py_DECREF(lib->l_dict);
+ Py_DECREF(lib->l_libname);
+ Py_DECREF(lib->l_ffi);
+ PyObject_GC_Del(lib);
+}
+
+static int lib_traverse(LibObject *lib, visitproc visit, void *arg)
+{
+ Py_VISIT(lib->l_dict);
+ Py_VISIT(lib->l_libname);
+ Py_VISIT(lib->l_ffi);
+ return 0;
+}
+
+static PyObject *lib_repr(LibObject *lib)
+{
+ return PyText_FromFormat("<Lib object for '%.200s'>",
+ PyText_AS_UTF8(lib->l_libname));
+}
+
+static PyObject *lib_build_cpython_func(LibObject *lib,
+ const struct _cffi_global_s *g,
+ const char *s, int flags)
+{
+ /* First make sure the argument types and return type are really
+ built. The C extension code can then assume that they are,
+ by calling _cffi_type().
+ */
+ PyObject *result = NULL;
+ CTypeDescrObject **pfargs = NULL;
+ CTypeDescrObject *fresult;
+ Py_ssize_t nargs = 0;
+ struct CPyExtFunc_s *xfunc;
+ int i, type_index = _CFFI_GETARG(g->type_op);
+ _cffi_opcode_t *opcodes = lib->l_types_builder->ctx.types;
+ static const char *const format = ";\n\nCFFI C function from %s.lib";
+ const char *libname = PyText_AS_UTF8(lib->l_libname);
+ struct funcbuilder_s funcbuilder;
+
+ /* return type: */
+ fresult = realize_c_func_return_type(lib->l_types_builder, opcodes,
+ type_index);
+ if (fresult == NULL)
+ goto error;
+
+ /* argument types: */
+ /* note that if the arguments are already built, they have a
+ pointer in the 'opcodes' array, and GETOP() returns a
+ random even value. But OP_FUNCTION_END is odd, so the
+ condition below still works correctly. */
+ i = type_index + 1;
+ while (_CFFI_GETOP(opcodes[i]) != _CFFI_OP_FUNCTION_END)
+ i++;
+ pfargs = alloca(sizeof(CTypeDescrObject *) * (i - type_index - 1));
+ i = type_index + 1;
+ while (_CFFI_GETOP(opcodes[i]) != _CFFI_OP_FUNCTION_END) {
+ CTypeDescrObject *ct = realize_c_type(lib->l_types_builder, opcodes, i);
+ if (ct == NULL)
+ goto error;
+ pfargs[nargs++] = ct;
+ i++;
+ }
+
+ memset(&funcbuilder, 0, sizeof(funcbuilder));
+ if (fb_build_name(&funcbuilder, g->name, pfargs, nargs, fresult, 0) < 0)
+ goto error;
+
+ /* The few bytes of memory we allocate here appear to leak, but
+ this is not a real leak. Indeed, CPython never unloads its C
+ extension modules. There is only one PyMem_Malloc() per real
+ C function in a CFFI C extension module. That means that this
+ PyMem_Malloc() could also have been written with a static
+ global variable generated for each CPYTHON_BLTN defined in the
+ C extension, and the effect would be the same (but a bit more
+ complicated).
+ */
+ xfunc = PyMem_Malloc(sizeof(struct CPyExtFunc_s) +
+ funcbuilder.nb_bytes +
+ strlen(format) + strlen(libname));
+ if (xfunc == NULL) {
+ PyErr_NoMemory();
+ goto error;
+ }
+ memset((char *)xfunc, 0, sizeof(struct CPyExtFunc_s));
+ assert(g->address);
+ xfunc->md.ml_meth = (PyCFunction)g->address;
+ xfunc->md.ml_flags = flags;
+ xfunc->md.ml_name = g->name;
+ xfunc->md.ml_doc = xfunc->doc;
+ xfunc->direct_fn = g->size_or_direct_fn;
+ xfunc->type_index = type_index;
+
+ /* build the docstring */
+ funcbuilder.bufferp = xfunc->doc;
+ if (fb_build_name(&funcbuilder, g->name, pfargs, nargs, fresult, 0) < 0)
+ goto error;
+ sprintf(funcbuilder.bufferp - 1, format, libname);
+ /* done building the docstring */
+
+ result = PyCFunction_NewEx(&xfunc->md, (PyObject *)lib, lib->l_libname);
+ /* fall-through */
+ error:
+ Py_XDECREF(fresult);
+ while (nargs > 0) {
+ --nargs;
+ Py_DECREF(pfargs[nargs]);
+ }
+ return result;
+}
+
+static PyObject *lib_build_and_cache_attr(LibObject *lib, PyObject *name,
+ int recursion)
+{
+ /* does not return a new reference! */
+ PyObject *x;
+ int index;
+ const struct _cffi_global_s *g;
+ CTypeDescrObject *ct;
+ builder_c_t *types_builder = lib->l_types_builder;
+ const char *s = PyText_AsUTF8(name);
+ if (s == NULL)
+ return NULL;
+
+ index = search_in_globals(&types_builder->ctx, s, strlen(s));
+ if (index < 0) {
+
+ if (types_builder->included_libs != NULL) {
+ Py_ssize_t i;
+ PyObject *included_ffis = types_builder->included_ffis;
+ PyObject *included_libs = types_builder->included_libs;
+
+ if (recursion > 100) {
+ PyErr_SetString(PyExc_RuntimeError,
+ "recursion overflow in ffi.include() delegations");
+ return NULL;
+ }
+
+ for (i = 0; i < PyTuple_GET_SIZE(included_libs); i++) {
+ LibObject *lib1;
+
+ lib1 = (LibObject *)PyTuple_GET_ITEM(included_libs, i);
+ if (lib1 != NULL) {
+ x = PyDict_GetItem(lib1->l_dict, name);
+ if (x != NULL) {
+ Py_INCREF(x);
+ goto found;
+ }
+ x = lib_build_and_cache_attr(lib1, name, recursion + 1);
+ if (x != NULL) {
+ Py_INCREF(x);
+ goto found;
+ }
+ }
+ else {
+ FFIObject *ffi1;
+
+ ffi1 = (FFIObject *)PyTuple_GetItem(included_ffis, i);
+ if (ffi1 == NULL)
+ return NULL;
+ x = ffi_fetch_int_constant(ffi1, s, recursion + 1);
+ if (x != NULL)
+ goto found;
+ }
+ if (PyErr_Occurred())
+ return NULL;
+ }
+ }
+
+ if (recursion > 0)
+ return NULL; /* no error set, continue looking elsewhere */
+
+ PyErr_Format(PyExc_AttributeError,
+ "cffi library '%.200s' has no function, constant "
+ "or global variable named '%.200s'",
+ PyText_AS_UTF8(lib->l_libname), s);
+ return NULL;
+ }
+
+ g = &types_builder->ctx.globals[index];
+
+ switch (_CFFI_GETOP(g->type_op)) {
+
+ case _CFFI_OP_CPYTHON_BLTN_V:
+ x = lib_build_cpython_func(lib, g, s, METH_VARARGS);
+ break;
+
+ case _CFFI_OP_CPYTHON_BLTN_N:
+ x = lib_build_cpython_func(lib, g, s, METH_NOARGS);
+ break;
+
+ case _CFFI_OP_CPYTHON_BLTN_O:
+ x = lib_build_cpython_func(lib, g, s, METH_O);
+ break;
+
+ case _CFFI_OP_CONSTANT_INT:
+ case _CFFI_OP_ENUM:
+ {
+ /* a constant integer whose value, in an "unsigned long long",
+ is obtained by calling the function at g->address */
+ x = realize_global_int(types_builder, index);
+ break;
+ }
+
+ case _CFFI_OP_CONSTANT:
+ case _CFFI_OP_DLOPEN_CONST:
+ {
+ /* a constant which is not of integer type */
+ char *data;
+ ct = realize_c_type(types_builder, types_builder->ctx.types,
+ _CFFI_GETARG(g->type_op));
+ if (ct == NULL)
+ return NULL;
+
+ if (ct->ct_size <= 0) {
+ PyErr_Format(FFIError, "constant '%s' is of type '%s', "
+ "whose size is not known", s, ct->ct_name);
+ return NULL;
+ }
+ if (g->address == NULL) {
+ /* for dlopen() style */
+ assert(_CFFI_GETOP(g->type_op) == _CFFI_OP_DLOPEN_CONST);
+ data = cdlopen_fetch(lib->l_libname, lib->l_libhandle, s);
+ if (data == NULL)
+ return NULL;
+ }
+ else {
+ /* The few bytes of memory we allocate here appear to leak, but
+ this is not a real leak. Indeed, CPython never unloads its C
+ extension modules. There is only one PyMem_Malloc() per real
+ non-integer C constant in a CFFI C extension module. That
+ means that this PyMem_Malloc() could also have been written
+ with a static global variable generated for each OP_CONSTANT
+ defined in the C extension, and the effect would be the same
+ (but a bit more complicated).
+
+ Note that we used to do alloca(), but see issue #198. We
+ could still do alloca(), or explicit PyMem_Free(), in some
+ cases; but there is no point and it only makes the remaining
+ less-common cases more suspicious.
+ */
+ assert(_CFFI_GETOP(g->type_op) == _CFFI_OP_CONSTANT);
+ data = PyMem_Malloc(ct->ct_size);
+ if (data == NULL) {
+ PyErr_NoMemory();
+ return NULL;
+ }
+ MarkAsIntentionallyLeaked(data);
+ ((void(*)(char*))g->address)(data);
+ }
+ x = convert_to_object(data, ct);
+ Py_DECREF(ct);
+ break;
+ }
+
+ case _CFFI_OP_GLOBAL_VAR:
+ {
+ /* global variable of the exact type specified here
+ (nowadays, only used by the ABI mode or backward
+ compatibility; see _CFFI_OP_GLOBAL_VAR_F for the API mode)
+ */
+ Py_ssize_t g_size = (Py_ssize_t)g->size_or_direct_fn;
+ ct = realize_c_type(types_builder, types_builder->ctx.types,
+ _CFFI_GETARG(g->type_op));
+ if (ct == NULL)
+ return NULL;
+ if (g_size != ct->ct_size && g_size != 0 && ct->ct_size > 0) {
+ PyErr_Format(FFIError,
+ "global variable '%.200s' should be %zd bytes "
+ "according to the cdef, but is actually %zd",
+ s, ct->ct_size, g_size);
+ x = NULL;
+ }
+ else {
+ void *address = g->address;
+ if (address == NULL) {
+ /* for dlopen() style */
+ address = cdlopen_fetch(lib->l_libname, lib->l_libhandle, s);
+ if (address == NULL)
+ return NULL;
+ }
+ x = make_global_var(name, ct, address, NULL);
+ }
+ Py_DECREF(ct);
+ break;
+ }
+
+ case _CFFI_OP_GLOBAL_VAR_F:
+ ct = realize_c_type(types_builder, types_builder->ctx.types,
+ _CFFI_GETARG(g->type_op));
+ if (ct == NULL)
+ return NULL;
+ x = make_global_var(name, ct, NULL, (gs_fetch_addr_fn)g->address);
+ Py_DECREF(ct);
+ break;
+
+ case _CFFI_OP_DLOPEN_FUNC:
+ {
+ /* For dlopen(): the function of the given 'name'. We use
+ dlsym() to get the address of something in the dynamic
+ library, which we interpret as being exactly a function of
+ the specified type.
+ */
+ PyObject *ct1;
+ void *address = cdlopen_fetch(lib->l_libname, lib->l_libhandle, s);
+ if (address == NULL)
+ return NULL;
+
+ ct1 = realize_c_type_or_func(types_builder,
+ types_builder->ctx.types,
+ _CFFI_GETARG(g->type_op));
+ if (ct1 == NULL)
+ return NULL;
+
+ assert(!CTypeDescr_Check(ct1)); /* must be a function */
+ x = new_simple_cdata(address, unwrap_fn_as_fnptr(ct1));
+
+ Py_DECREF(ct1);
+ break;
+ }
+
+ case _CFFI_OP_EXTERN_PYTHON:
+ /* for reading 'lib.bar' where bar is declared with extern "Python" */
+ ct = realize_c_type(types_builder, types_builder->ctx.types,
+ _CFFI_GETARG(g->type_op));
+ if (ct == NULL)
+ return NULL;
+ x = convert_to_object((char *)&g->size_or_direct_fn, ct);
+ Py_DECREF(ct);
+ break;
+
+ default:
+ PyErr_Format(PyExc_NotImplementedError, "in lib_build_attr: op=%d",
+ (int)_CFFI_GETOP(g->type_op));
+ return NULL;
+ }
+
+ found:
+ if (x != NULL) {
+ int err = PyDict_SetItem(lib->l_dict, name, x);
+ Py_DECREF(x);
+ if (err < 0) /* else there is still one ref left in the dict */
+ return NULL;
+ }
+ return x;
+}
+
+#define LIB_GET_OR_CACHE_ADDR(x, lib, name, error) \
+ do { \
+ x = PyDict_GetItem(lib->l_dict, name); \
+ if (x == NULL) { \
+ x = lib_build_and_cache_attr(lib, name, 0); \
+ if (x == NULL) { \
+ error; \
+ } \
+ } \
+ } while (0)
+
+static PyObject *_lib_dir1(LibObject *lib, int ignore_global_vars)
+{
+ const struct _cffi_global_s *g = lib->l_types_builder->ctx.globals;
+ int i, count = 0, total = lib->l_types_builder->ctx.num_globals;
+ PyObject *s, *lst = PyList_New(total);
+ if (lst == NULL)
+ return NULL;
+
+ for (i = 0; i < total; i++) {
+ if (ignore_global_vars) {
+ int op = _CFFI_GETOP(g[i].type_op);
+ if (op == _CFFI_OP_GLOBAL_VAR || op == _CFFI_OP_GLOBAL_VAR_F)
+ continue;
+ }
+ s = PyText_FromString(g[i].name);
+ if (s == NULL)
+ goto error;
+ PyList_SET_ITEM(lst, count, s);
+ count++;
+ }
+ if (PyList_SetSlice(lst, count, total, NULL) < 0)
+ goto error;
+ return lst;
+
+ error:
+ Py_DECREF(lst);
+ return NULL;
+}
+
+static PyObject *_lib_dict(LibObject *lib)
+{
+ const struct _cffi_global_s *g = lib->l_types_builder->ctx.globals;
+ int i, total = lib->l_types_builder->ctx.num_globals;
+ PyObject *name, *x, *d = PyDict_New();
+ if (d == NULL)
+ return NULL;
+
+ for (i = 0; i < total; i++) {
+ name = PyText_FromString(g[i].name);
+ if (name == NULL)
+ goto error;
+
+ LIB_GET_OR_CACHE_ADDR(x, lib, name, goto error);
+
+ if (PyDict_SetItem(d, name, x) < 0)
+ goto error;
+ Py_DECREF(name);
+ }
+ return d;
+
+ error:
+ Py_XDECREF(name);
+ Py_DECREF(d);
+ return NULL;
+}
+
+static PyObject *lib_getattr(LibObject *lib, PyObject *name)
+{
+ const char *p;
+ PyObject *x;
+ LIB_GET_OR_CACHE_ADDR(x, lib, name, goto missing);
+
+ if (GlobSupport_Check(x)) {
+ return read_global_var((GlobSupportObject *)x);
+ }
+ Py_INCREF(x);
+ return x;
+
+ missing:
+ /*** ATTRIBUTEERROR IS SET HERE ***/
+ p = PyText_AsUTF8(name);
+ if (p == NULL)
+ return NULL;
+ if (strcmp(p, "__all__") == 0) {
+ PyErr_Clear();
+ return _lib_dir1(lib, 1);
+ }
+ if (strcmp(p, "__dict__") == 0) {
+ PyErr_Clear();
+ return _lib_dict(lib);
+ }
+ if (strcmp(p, "__class__") == 0) {
+ PyErr_Clear();
+ x = (PyObject *)&PyModule_Type;
+ /* ^^^ used to be Py_TYPE(lib). But HAAAAAACK! That makes
+ help() behave correctly. I couldn't find a more reasonable
+ way. Urgh. */
+ Py_INCREF(x);
+ return x;
+ }
+ /* this hack is for Python 3.5, and also to give a more
+ module-like behavior */
+ if (strcmp(p, "__name__") == 0) {
+ PyErr_Clear();
+ return PyText_FromFormat("%s.lib", PyText_AS_UTF8(lib->l_libname));
+ }
+#if PY_MAJOR_VERSION >= 3
+ if (strcmp(p, "__loader__") == 0 || strcmp(p, "__spec__") == 0) {
+ /* some more module-like behavior hacks */
+ PyErr_Clear();
+ Py_INCREF(Py_None);
+ return Py_None;
+ }
+#endif
+ return NULL;
+}
+
+static int lib_setattr(LibObject *lib, PyObject *name, PyObject *val)
+{
+ PyObject *x;
+ LIB_GET_OR_CACHE_ADDR(x, lib, name, return -1);
+
+ if (val == NULL) {
+ PyErr_SetString(PyExc_AttributeError, "C attribute cannot be deleted");
+ return -1;
+ }
+
+ if (GlobSupport_Check(x)) {
+ return write_global_var((GlobSupportObject *)x, val);
+ }
+
+ PyErr_Format(PyExc_AttributeError,
+ "cannot write to function or constant '%.200s'",
+ PyText_Check(name) ? PyText_AS_UTF8(name) : "?");
+ return -1;
+}
+
+static PyObject *lib_dir(PyObject *self, PyObject *noarg)
+{
+ return _lib_dir1((LibObject *)self, 0);
+}
+
+static PyMethodDef lib_methods[] = {
+ {"__dir__", lib_dir, METH_NOARGS},
+ {NULL, NULL} /* sentinel */
+};
+
+static PyTypeObject Lib_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.Lib",
+ sizeof(LibObject),
+ 0,
+ (destructor)lib_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ (reprfunc)lib_repr, /* tp_repr */
+ 0, /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* tp_as_mapping */
+ 0, /* tp_hash */
+ 0, /* tp_call */
+ 0, /* tp_str */
+ (getattrofunc)lib_getattr, /* tp_getattro */
+ (setattrofunc)lib_setattr, /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC, /* tp_flags */
+ 0, /* tp_doc */
+ (traverseproc)lib_traverse, /* tp_traverse */
+ 0, /* tp_clear */
+ 0, /* tp_richcompare */
+ 0, /* tp_weaklistoffset */
+ 0, /* tp_iter */
+ 0, /* tp_iternext */
+ lib_methods, /* tp_methods */
+ 0, /* tp_members */
+ 0, /* tp_getset */
+ 0, /* tp_base */
+ 0, /* tp_dict */
+ 0, /* tp_descr_get */
+ 0, /* tp_descr_set */
+ offsetof(LibObject, l_dict), /* tp_dictoffset */
+};
+
+static LibObject *lib_internal_new(FFIObject *ffi, const char *module_name,
+ void *dlopen_libhandle, int auto_close)
+{
+ LibObject *lib;
+ PyObject *libname, *dict;
+
+ libname = PyText_FromString(module_name);
+ if (libname == NULL)
+ goto err1;
+
+ dict = PyDict_New();
+ if (dict == NULL)
+ goto err2;
+
+ lib = (LibObject *)PyType_GenericAlloc(&Lib_Type, 0);
+ if (lib == NULL)
+ goto err3;
+
+ lib->l_types_builder = &ffi->types_builder;
+ lib->l_dict = dict;
+ lib->l_libname = libname;
+ Py_INCREF(ffi);
+ lib->l_ffi = ffi;
+ lib->l_libhandle = dlopen_libhandle;
+ lib->l_auto_close = auto_close;
+ return lib;
+
+ err3:
+ Py_DECREF(dict);
+ err2:
+ Py_DECREF(libname);
+ err1:
+ if (auto_close)
+ cdlopen_close_ignore_errors(dlopen_libhandle);
+ return NULL;
+}
+
+static PyObject *address_of_global_var(PyObject *args)
+{
+ LibObject *lib;
+ PyObject *x, *o_varname;
+ char *varname;
+
+ if (!PyArg_ParseTuple(args, "O!s", &Lib_Type, &lib, &varname))
+ return NULL;
+
+ /* rebuild a string from 'varname', to do typechecks and to force
+ a unicode back to a plain string (on python 2) */
+ o_varname = PyText_FromString(varname);
+ if (o_varname == NULL)
+ return NULL;
+
+ LIB_GET_OR_CACHE_ADDR(x, lib, o_varname, goto error);
+ Py_DECREF(o_varname);
+ if (GlobSupport_Check(x)) {
+ return cg_addressof_global_var((GlobSupportObject *)x);
+ }
+ else {
+ struct CPyExtFunc_s *exf = _cpyextfunc_get(x);
+ if (exf != NULL) { /* an OP_CPYTHON_BLTN: '&func' returns a cdata */
+ PyObject *ct;
+ if (exf->direct_fn == NULL) {
+ Py_INCREF(x); /* backward compatibility */
+ return x;
+ }
+ ct = _cpyextfunc_type(lib, exf);
+ if (ct == NULL)
+ return NULL;
+ x = new_simple_cdata(exf->direct_fn, (CTypeDescrObject *)ct);
+ Py_DECREF(ct);
+ return x;
+ }
+ if (CData_Check(x) && /* a constant functionptr cdata: 'f == &f' */
+ (((CDataObject *)x)->c_type->ct_flags & CT_FUNCTIONPTR) != 0) {
+ Py_INCREF(x);
+ return x;
+ }
+ else {
+ PyErr_Format(PyExc_AttributeError,
+ "cannot take the address of the constant '%.200s'",
+ varname);
+ return NULL;
+ }
+ }
+
+ error:
+ Py_DECREF(o_varname);
+ return NULL;
+}
diff --git a/contrib/python/cffi/py3/c/malloc_closure.h b/contrib/python/cffi/py3/c/malloc_closure.h
new file mode 100644
index 0000000000..bebb93dc15
--- /dev/null
+++ b/contrib/python/cffi/py3/c/malloc_closure.h
@@ -0,0 +1,176 @@
+/*
+ * This file is from CPython's Modules/_ctypes/malloc_closure.c
+ * and has received some edits.
+ */
+
+#include <ffi.h>
+#ifdef MS_WIN32
+#include <windows.h>
+#else
+#include <sys/mman.h>
+#include <unistd.h>
+# if !defined(MAP_ANONYMOUS) && defined(MAP_ANON)
+# define MAP_ANONYMOUS MAP_ANON
+# endif
+#endif
+
+/* On PaX enable kernels that have MPROTECT enable we can't use PROT_EXEC.
+
+ This is, apparently, an undocumented change to ffi_prep_closure():
+ depending on the Linux kernel we're running on, we must give it a
+ mmap that is either PROT_READ|PROT_WRITE|PROT_EXEC or only
+ PROT_READ|PROT_WRITE. In the latter case, just trying to obtain a
+ mmap with PROT_READ|PROT_WRITE|PROT_EXEC would kill our process(!),
+ but in that situation libffi is fine with only PROT_READ|PROT_WRITE.
+ There is nothing in the libffi API to know that, though, so we have
+ to guess by parsing /proc/self/status. "Meh."
+ */
+#ifdef __linux__
+#include <stdlib.h>
+
+static int emutramp_enabled = -1;
+
+static int
+emutramp_enabled_check (void)
+{
+ char *buf = NULL;
+ size_t len = 0;
+ FILE *f;
+ int ret;
+ f = fopen ("/proc/self/status", "r");
+ if (f == NULL)
+ return 0;
+ ret = 0;
+
+ while (getline (&buf, &len, f) != -1)
+ if (!strncmp (buf, "PaX:", 4))
+ {
+ char emutramp;
+ if (sscanf (buf, "%*s %*c%c", &emutramp) == 1)
+ ret = (emutramp == 'E');
+ break;
+ }
+ free (buf);
+ fclose (f);
+ return ret;
+}
+
+#define is_emutramp_enabled() (emutramp_enabled >= 0 ? emutramp_enabled \
+ : (emutramp_enabled = emutramp_enabled_check ()))
+#else
+#define is_emutramp_enabled() 0
+#endif
+
+
+/* 'allocate_num_pages' is dynamically adjusted starting from one
+ page. It grows by a factor of PAGE_ALLOCATION_GROWTH_RATE. This is
+ meant to handle both the common case of not needing a lot of pages,
+ and the rare case of needing many of them. Systems in general have a
+ limit of how many mmap'd blocks can be open.
+*/
+
+#define PAGE_ALLOCATION_GROWTH_RATE 1.3
+
+static Py_ssize_t allocate_num_pages = 0;
+
+/* #define MALLOC_CLOSURE_DEBUG */ /* enable for some debugging output */
+
+/******************************************************************/
+
+union mmaped_block {
+ ffi_closure closure;
+ union mmaped_block *next;
+};
+
+static union mmaped_block *free_list = 0;
+static Py_ssize_t _pagesize = 0;
+
+static void more_core(void)
+{
+ union mmaped_block *item;
+ Py_ssize_t count, i;
+
+/* determine the pagesize */
+#ifdef MS_WIN32
+ if (!_pagesize) {
+ SYSTEM_INFO systeminfo;
+ GetSystemInfo(&systeminfo);
+ _pagesize = systeminfo.dwPageSize;
+ }
+#else
+ if (!_pagesize) {
+#ifdef _SC_PAGESIZE
+ _pagesize = sysconf(_SC_PAGESIZE);
+#else
+ _pagesize = getpagesize();
+#endif
+ }
+#endif
+ if (_pagesize <= 0)
+ _pagesize = 4096;
+
+ /* bump 'allocate_num_pages' */
+ allocate_num_pages = 1 + (
+ (Py_ssize_t)(allocate_num_pages * PAGE_ALLOCATION_GROWTH_RATE));
+
+ /* calculate the number of mmaped_blocks to allocate */
+ count = (allocate_num_pages * _pagesize) / sizeof(union mmaped_block);
+
+ /* allocate a memory block */
+#ifdef MS_WIN32
+ item = (union mmaped_block *)VirtualAlloc(NULL,
+ count * sizeof(union mmaped_block),
+ MEM_COMMIT,
+ PAGE_EXECUTE_READWRITE);
+ if (item == NULL)
+ return;
+#else
+ {
+ int prot = PROT_READ | PROT_WRITE | PROT_EXEC;
+ if (is_emutramp_enabled ())
+ prot &= ~PROT_EXEC;
+ item = (union mmaped_block *)mmap(NULL,
+ allocate_num_pages * _pagesize,
+ prot,
+ MAP_PRIVATE | MAP_ANONYMOUS,
+ -1,
+ 0);
+ if (item == (void *)MAP_FAILED)
+ return;
+ }
+#endif
+
+#ifdef MALLOC_CLOSURE_DEBUG
+ printf("block at %p allocated (%ld bytes), %ld mmaped_blocks\n",
+ item, (long)(allocate_num_pages * _pagesize), (long)count);
+#endif
+ /* put them into the free list */
+ for (i = 0; i < count; ++i) {
+ item->next = free_list;
+ free_list = item;
+ ++item;
+ }
+}
+
+/******************************************************************/
+
+/* put the item back into the free list */
+static void cffi_closure_free(ffi_closure *p)
+{
+ union mmaped_block *item = (union mmaped_block *)p;
+ item->next = free_list;
+ free_list = item;
+}
+
+/* return one item from the free list, allocating more if needed */
+static ffi_closure *cffi_closure_alloc(void)
+{
+ union mmaped_block *item;
+ if (!free_list)
+ more_core();
+ if (!free_list)
+ return NULL;
+ item = free_list;
+ free_list = item->next;
+ return &item->closure;
+}
diff --git a/contrib/python/cffi/py3/c/minibuffer.h b/contrib/python/cffi/py3/c/minibuffer.h
new file mode 100644
index 0000000000..f3f5ca15c4
--- /dev/null
+++ b/contrib/python/cffi/py3/c/minibuffer.h
@@ -0,0 +1,408 @@
+
+/* Implementation of a C object with the 'buffer' or 'memoryview'
+ * interface at C-level (as approriate for the version of Python we're
+ * compiling for), but only a minimal but *consistent* part of the
+ * 'buffer' interface at application level.
+ */
+
+typedef struct {
+ PyObject_HEAD
+ char *mb_data;
+ Py_ssize_t mb_size;
+ PyObject *mb_keepalive;
+ PyObject *mb_weakreflist; /* weakref support */
+} MiniBufferObj;
+
+static Py_ssize_t mb_length(MiniBufferObj *self)
+{
+ return self->mb_size;
+}
+
+static PyObject *mb_item(MiniBufferObj *self, Py_ssize_t idx)
+{
+ if (idx < 0 || idx >= self->mb_size ) {
+ PyErr_SetString(PyExc_IndexError, "buffer index out of range");
+ return NULL;
+ }
+ return PyBytes_FromStringAndSize(self->mb_data + idx, 1);
+}
+
+static PyObject *mb_slice(MiniBufferObj *self,
+ Py_ssize_t left, Py_ssize_t right)
+{
+ Py_ssize_t size = self->mb_size;
+ if (left < 0) left = 0;
+ if (right > size) right = size;
+ if (left > right) left = right;
+ return PyBytes_FromStringAndSize(self->mb_data + left, right - left);
+}
+
+static int mb_ass_item(MiniBufferObj *self, Py_ssize_t idx, PyObject *other)
+{
+ if (idx < 0 || idx >= self->mb_size) {
+ PyErr_SetString(PyExc_IndexError,
+ "buffer assignment index out of range");
+ return -1;
+ }
+ if (PyBytes_Check(other) && PyBytes_GET_SIZE(other) == 1) {
+ self->mb_data[idx] = PyBytes_AS_STRING(other)[0];
+ return 0;
+ }
+ else {
+ PyErr_Format(PyExc_TypeError,
+ "must assign a "STR_OR_BYTES
+ " of length 1, not %.200s", Py_TYPE(other)->tp_name);
+ return -1;
+ }
+}
+
+/* forward: from _cffi_backend.c */
+static int _fetch_as_buffer(PyObject *x, Py_buffer *view, int writable_only);
+
+static int mb_ass_slice(MiniBufferObj *self,
+ Py_ssize_t left, Py_ssize_t right, PyObject *other)
+{
+ Py_ssize_t count;
+ Py_ssize_t size = self->mb_size;
+ Py_buffer src_view;
+
+ if (_fetch_as_buffer(other, &src_view, 0) < 0)
+ return -1;
+
+ if (left < 0) left = 0;
+ if (right > size) right = size;
+ if (left > right) left = right;
+
+ count = right - left;
+ if (count != src_view.len) {
+ PyBuffer_Release(&src_view);
+ PyErr_SetString(PyExc_ValueError,
+ "right operand length must match slice length");
+ return -1;
+ }
+ memcpy(self->mb_data + left, src_view.buf, count);
+ PyBuffer_Release(&src_view);
+ return 0;
+}
+
+#if PY_MAJOR_VERSION < 3
+static Py_ssize_t mb_getdata(MiniBufferObj *self, Py_ssize_t idx, void **pp)
+{
+ *pp = self->mb_data;
+ return self->mb_size;
+}
+
+static Py_ssize_t mb_getsegcount(MiniBufferObj *self, Py_ssize_t *lenp)
+{
+ if (lenp)
+ *lenp = self->mb_size;
+ return 1;
+}
+
+static PyObject *mb_str(MiniBufferObj *self)
+{
+ /* Python 2: we want str(buffer) to behave like buffer[:], because
+ that's what bytes(buffer) does on Python 3 and there is no way
+ we can prevent this. */
+ return PyString_FromStringAndSize(self->mb_data, self->mb_size);
+}
+#endif
+
+static int mb_getbuf(MiniBufferObj *self, Py_buffer *view, int flags)
+{
+ return PyBuffer_FillInfo(view, (PyObject *)self,
+ self->mb_data, self->mb_size,
+ /*readonly=*/0, flags);
+}
+
+static PySequenceMethods mb_as_sequence = {
+ (lenfunc)mb_length, /*sq_length*/
+ (binaryfunc)0, /*sq_concat*/
+ (ssizeargfunc)0, /*sq_repeat*/
+ (ssizeargfunc)mb_item, /*sq_item*/
+ (ssizessizeargfunc)mb_slice, /*sq_slice*/
+ (ssizeobjargproc)mb_ass_item, /*sq_ass_item*/
+ (ssizessizeobjargproc)mb_ass_slice, /*sq_ass_slice*/
+};
+
+static PyBufferProcs mb_as_buffer = {
+#if PY_MAJOR_VERSION < 3
+ (readbufferproc)mb_getdata,
+ (writebufferproc)mb_getdata,
+ (segcountproc)mb_getsegcount,
+ (charbufferproc)mb_getdata,
+#endif
+ (getbufferproc)mb_getbuf,
+ (releasebufferproc)0,
+};
+
+static void
+mb_dealloc(MiniBufferObj *ob)
+{
+ PyObject_GC_UnTrack(ob);
+ if (ob->mb_weakreflist != NULL)
+ PyObject_ClearWeakRefs((PyObject *)ob);
+ Py_XDECREF(ob->mb_keepalive);
+ Py_TYPE(ob)->tp_free((PyObject *)ob);
+}
+
+static int
+mb_traverse(MiniBufferObj *ob, visitproc visit, void *arg)
+{
+ Py_VISIT(ob->mb_keepalive);
+ return 0;
+}
+
+static int
+mb_clear(MiniBufferObj *ob)
+{
+ Py_CLEAR(ob->mb_keepalive);
+ return 0;
+}
+
+static PyObject *
+mb_richcompare(PyObject *self, PyObject *other, int op)
+{
+ Py_ssize_t self_size, other_size;
+ Py_buffer self_bytes, other_bytes;
+ PyObject *res;
+ Py_ssize_t minsize;
+ int cmp, rc;
+
+ /* Bytes can be compared to anything that supports the (binary)
+ buffer API. Except that a comparison with Unicode is always an
+ error, even if the comparison is for equality. */
+ rc = PyObject_IsInstance(self, (PyObject*)&PyUnicode_Type);
+ if (!rc)
+ rc = PyObject_IsInstance(other, (PyObject*)&PyUnicode_Type);
+ if (rc < 0)
+ return NULL;
+ if (rc) {
+ Py_INCREF(Py_NotImplemented);
+ return Py_NotImplemented;
+ }
+
+ if (PyObject_GetBuffer(self, &self_bytes, PyBUF_SIMPLE) != 0) {
+ PyErr_Clear();
+ Py_INCREF(Py_NotImplemented);
+ return Py_NotImplemented;
+
+ }
+ self_size = self_bytes.len;
+
+ if (PyObject_GetBuffer(other, &other_bytes, PyBUF_SIMPLE) != 0) {
+ PyErr_Clear();
+ PyBuffer_Release(&self_bytes);
+ Py_INCREF(Py_NotImplemented);
+ return Py_NotImplemented;
+
+ }
+ other_size = other_bytes.len;
+
+ if (self_size != other_size && (op == Py_EQ || op == Py_NE)) {
+ /* Shortcut: if the lengths differ, the objects differ */
+ cmp = (op == Py_NE);
+ }
+ else {
+ minsize = self_size;
+ if (other_size < minsize)
+ minsize = other_size;
+
+ cmp = memcmp(self_bytes.buf, other_bytes.buf, minsize);
+ /* In ISO C, memcmp() guarantees to use unsigned bytes! */
+
+ if (cmp == 0) {
+ if (self_size < other_size)
+ cmp = -1;
+ else if (self_size > other_size)
+ cmp = 1;
+ }
+
+ switch (op) {
+ case Py_LT: cmp = cmp < 0; break;
+ case Py_LE: cmp = cmp <= 0; break;
+ case Py_EQ: cmp = cmp == 0; break;
+ case Py_NE: cmp = cmp != 0; break;
+ case Py_GT: cmp = cmp > 0; break;
+ case Py_GE: cmp = cmp >= 0; break;
+ }
+ }
+
+ res = cmp ? Py_True : Py_False;
+ PyBuffer_Release(&self_bytes);
+ PyBuffer_Release(&other_bytes);
+ Py_INCREF(res);
+ return res;
+}
+
+#if PY_MAJOR_VERSION >= 3
+/* pfffffffffffff pages of copy-paste from listobject.c */
+
+/* pfffffffffffff#2: the PySlice_GetIndicesEx() *macro* should not
+ be called, because C extension modules compiled with it differ
+ on ABI between 3.6.0, 3.6.1 and 3.6.2. */
+#if PY_VERSION_HEX < 0x03070000 && defined(PySlice_GetIndicesEx) && !defined(PYPY_VERSION)
+#undef PySlice_GetIndicesEx
+#endif
+
+static PyObject *mb_subscript(MiniBufferObj *self, PyObject *item)
+{
+ if (PyIndex_Check(item)) {
+ Py_ssize_t i;
+ i = PyNumber_AsSsize_t(item, PyExc_IndexError);
+ if (i == -1 && PyErr_Occurred())
+ return NULL;
+ if (i < 0)
+ i += self->mb_size;
+ return mb_item(self, i);
+ }
+ else if (PySlice_Check(item)) {
+ Py_ssize_t start, stop, step, slicelength;
+
+ if (PySlice_GetIndicesEx(item, self->mb_size,
+ &start, &stop, &step, &slicelength) < 0)
+ return NULL;
+
+ if (step == 1)
+ return mb_slice(self, start, stop);
+ else {
+ PyErr_SetString(PyExc_TypeError,
+ "buffer doesn't support slicing with step != 1");
+ return NULL;
+ }
+ }
+ else {
+ PyErr_Format(PyExc_TypeError,
+ "buffer indices must be integers, not %.200s",
+ item->ob_type->tp_name);
+ return NULL;
+ }
+}
+static int
+mb_ass_subscript(MiniBufferObj* self, PyObject* item, PyObject* value)
+{
+ if (PyIndex_Check(item)) {
+ Py_ssize_t i = PyNumber_AsSsize_t(item, PyExc_IndexError);
+ if (i == -1 && PyErr_Occurred())
+ return -1;
+ if (i < 0)
+ i += self->mb_size;
+ return mb_ass_item(self, i, value);
+ }
+ else if (PySlice_Check(item)) {
+ Py_ssize_t start, stop, step, slicelength;
+
+ if (PySlice_GetIndicesEx(item, self->mb_size,
+ &start, &stop, &step, &slicelength) < 0) {
+ return -1;
+ }
+
+ if (step == 1)
+ return mb_ass_slice(self, start, stop, value);
+ else {
+ PyErr_SetString(PyExc_TypeError,
+ "buffer doesn't support slicing with step != 1");
+ return -1;
+ }
+ }
+ else {
+ PyErr_Format(PyExc_TypeError,
+ "buffer indices must be integers, not %.200s",
+ item->ob_type->tp_name);
+ return -1;
+ }
+}
+
+static PyMappingMethods mb_as_mapping = {
+ (lenfunc)mb_length, /*mp_length*/
+ (binaryfunc)mb_subscript, /*mp_subscript*/
+ (objobjargproc)mb_ass_subscript, /*mp_ass_subscript*/
+};
+#endif
+
+#if PY_MAJOR_VERSION >= 3
+# define MINIBUF_TPFLAGS 0
+#else
+# define MINIBUF_TPFLAGS (Py_TPFLAGS_HAVE_GETCHARBUFFER | Py_TPFLAGS_HAVE_NEWBUFFER)
+#endif
+
+PyDoc_STRVAR(ffi_buffer_doc,
+"ffi.buffer(cdata[, byte_size]):\n"
+"Return a read-write buffer object that references the raw C data\n"
+"pointed to by the given 'cdata'. The 'cdata' must be a pointer or an\n"
+"array. Can be passed to functions expecting a buffer, or directly\n"
+"manipulated with:\n"
+"\n"
+" buf[:] get a copy of it in a regular string, or\n"
+" buf[idx] as a single character\n"
+" buf[:] = ...\n"
+" buf[idx] = ... change the content");
+
+static PyObject * /* forward, implemented in _cffi_backend.c */
+b_buffer_new(PyTypeObject *type, PyObject *args, PyObject *kwds);
+
+
+static PyTypeObject MiniBuffer_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.buffer",
+ sizeof(MiniBufferObj),
+ 0,
+ (destructor)mb_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ 0, /* tp_repr */
+ 0, /* tp_as_number */
+ &mb_as_sequence, /* tp_as_sequence */
+#if PY_MAJOR_VERSION < 3
+ 0, /* tp_as_mapping */
+#else
+ &mb_as_mapping, /* tp_as_mapping */
+#endif
+ 0, /* tp_hash */
+ 0, /* tp_call */
+#if PY_MAJOR_VERSION < 3
+ (reprfunc)mb_str, /* tp_str */
+#else
+ 0, /* tp_str */
+#endif
+ PyObject_GenericGetAttr, /* tp_getattro */
+ 0, /* tp_setattro */
+ &mb_as_buffer, /* tp_as_buffer */
+ (Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC |
+ MINIBUF_TPFLAGS), /* tp_flags */
+ ffi_buffer_doc, /* tp_doc */
+ (traverseproc)mb_traverse, /* tp_traverse */
+ (inquiry)mb_clear, /* tp_clear */
+ (richcmpfunc)mb_richcompare, /* tp_richcompare */
+ offsetof(MiniBufferObj, mb_weakreflist), /* tp_weaklistoffset */
+ 0, /* tp_iter */
+ 0, /* tp_iternext */
+ 0, /* tp_methods */
+ 0, /* tp_members */
+ 0, /* tp_getset */
+ 0, /* tp_base */
+ 0, /* tp_dict */
+ 0, /* tp_descr_get */
+ 0, /* tp_descr_set */
+ 0, /* tp_dictoffset */
+ 0, /* tp_init */
+ 0, /* tp_alloc */
+ b_buffer_new, /* tp_new */
+ 0, /* tp_free */
+};
+
+static PyObject *minibuffer_new(char *data, Py_ssize_t size,
+ PyObject *keepalive)
+{
+ MiniBufferObj *ob = PyObject_GC_New(MiniBufferObj, &MiniBuffer_Type);
+ if (ob != NULL) {
+ ob->mb_data = data;
+ ob->mb_size = size;
+ ob->mb_keepalive = keepalive; Py_INCREF(keepalive);
+ ob->mb_weakreflist = NULL;
+ PyObject_GC_Track(ob);
+ }
+ return (PyObject *)ob;
+}
diff --git a/contrib/python/cffi/py3/c/misc_thread_common.h b/contrib/python/cffi/py3/c/misc_thread_common.h
new file mode 100644
index 0000000000..66e283545b
--- /dev/null
+++ b/contrib/python/cffi/py3/c/misc_thread_common.h
@@ -0,0 +1,371 @@
+#ifndef WITH_THREAD
+# error "xxx no-thread configuration not tested, please report if you need that"
+#endif
+#include "pythread.h"
+
+
+struct cffi_tls_s {
+ /* The current thread's ThreadCanaryObj. This is only non-null in
+ case cffi builds the thread state here. It remains null if this
+ thread had already a thread state provided by CPython. */
+ struct thread_canary_s *local_thread_canary;
+
+#ifndef USE__THREAD
+ /* The saved errno. If the C compiler supports '__thread', then
+ we use that instead. */
+ int saved_errno;
+#endif
+
+#ifdef MS_WIN32
+ /* The saved lasterror, on Windows. */
+ int saved_lasterror;
+#endif
+};
+
+static struct cffi_tls_s *get_cffi_tls(void); /* in misc_thread_posix.h
+ or misc_win32.h */
+
+
+/* We try to keep the PyThreadState around in a thread not started by
+ * Python but where cffi callbacks occur. If we didn't do that, then
+ * the standard logic in PyGILState_Ensure() and PyGILState_Release()
+ * would create a new PyThreadState and completely free it for every
+ * single call. For some applications, this is a huge slow-down.
+ *
+ * As shown by issue #362, it is quite messy to do. The current
+ * solution is to keep the PyThreadState alive by incrementing its
+ * 'gilstate_counter'. We detect thread shut-down, and we put the
+ * PyThreadState inside a list of zombies (we can't free it
+ * immediately because we don't have the GIL at that point in time).
+ * We also detect other pieces of code (notably Py_Finalize()) which
+ * clear and free PyThreadStates under our feet, using ThreadCanaryObj.
+ */
+
+#define TLS_ZOM_LOCK() PyThread_acquire_lock(cffi_zombie_lock, WAIT_LOCK)
+#define TLS_ZOM_UNLOCK() PyThread_release_lock(cffi_zombie_lock)
+static PyThread_type_lock cffi_zombie_lock = NULL;
+
+
+/* A 'canary' object is created in a thread when there is a callback
+ invoked, and that thread has no PyThreadState so far. It is an
+ object of reference count equal to 1, which is stored in the
+ PyThreadState->dict. Two things can occur then:
+
+ 1. The PyThreadState can be forcefully cleared by Py_Finalize().
+ Then thread_canary_dealloc() is called, and we have to cancel
+ the hacks we did to keep the PyThreadState alive.
+
+ 2. The thread finishes. In that case, we put the canary in a list
+ of zombies, and at some convenient time later when we have the
+ GIL, we free all PyThreadStates in the zombie list.
+
+ Some more fun comes from the fact that thread_canary_dealloc() can
+ be called at a point where the canary is in the zombie list already.
+ Also, the various pieces are freed at specific points in time, and
+ we must make sure not to access already-freed structures:
+
+ - the struct cffi_tls_s is valid until the thread shuts down, and
+ then it is freed by cffi_thread_shutdown().
+
+ - the canary is a normal Python object, but we have a borrowed
+ reference to it from cffi_tls_s.local_thread_canary.
+ */
+
+typedef struct thread_canary_s {
+ PyObject_HEAD
+ struct thread_canary_s *zombie_prev, *zombie_next;
+ PyThreadState *tstate;
+ struct cffi_tls_s *tls;
+} ThreadCanaryObj;
+
+static PyTypeObject ThreadCanary_Type; /* forward */
+static ThreadCanaryObj cffi_zombie_head;
+
+static void
+_thread_canary_detach_with_lock(ThreadCanaryObj *ob)
+{
+ /* must be called with both the GIL and TLS_ZOM_LOCK. */
+ ThreadCanaryObj *p, *n;
+ p = ob->zombie_prev;
+ n = ob->zombie_next;
+ p->zombie_next = n;
+ n->zombie_prev = p;
+ ob->zombie_prev = NULL;
+ ob->zombie_next = NULL;
+}
+
+static void
+thread_canary_dealloc(ThreadCanaryObj *ob)
+{
+ /* this ThreadCanaryObj is being freed: if it is in the zombie
+ chained list, remove it. Thread-safety: 'zombie_next' amd
+ 'local_thread_canary' accesses need to be protected with
+ the TLS_ZOM_LOCK.
+ */
+ TLS_ZOM_LOCK();
+ if (ob->zombie_next != NULL) {
+ //fprintf(stderr, "thread_canary_dealloc(%p): ZOMBIE\n", ob);
+ _thread_canary_detach_with_lock(ob);
+ }
+ else {
+ //fprintf(stderr, "thread_canary_dealloc(%p): not a zombie\n", ob);
+ }
+
+ if (ob->tls != NULL) {
+ //fprintf(stderr, "thread_canary_dealloc(%p): was local_thread_canary\n", ob);
+ assert(ob->tls->local_thread_canary == ob);
+ ob->tls->local_thread_canary = NULL;
+ }
+ TLS_ZOM_UNLOCK();
+
+ PyObject_Del((PyObject *)ob);
+}
+
+static void
+thread_canary_make_zombie(ThreadCanaryObj *ob)
+{
+ /* This must be called without the GIL, but with the TLS_ZOM_LOCK.
+ It must be called at most once for a given ThreadCanaryObj. */
+ ThreadCanaryObj *last;
+
+ //fprintf(stderr, "thread_canary_make_zombie(%p)\n", ob);
+ if (ob->zombie_next)
+ Py_FatalError("cffi: ThreadCanaryObj is already a zombie");
+ last = cffi_zombie_head.zombie_prev;
+ ob->zombie_next = &cffi_zombie_head;
+ ob->zombie_prev = last;
+ last->zombie_next = ob;
+ cffi_zombie_head.zombie_prev = ob;
+}
+
+static void
+thread_canary_free_zombies(void)
+{
+ /* This must be called with the GIL. */
+ if (cffi_zombie_head.zombie_next == &cffi_zombie_head)
+ return; /* fast path */
+
+ while (1) {
+ ThreadCanaryObj *ob;
+ PyThreadState *tstate = NULL;
+
+ TLS_ZOM_LOCK();
+ ob = cffi_zombie_head.zombie_next;
+ if (ob != &cffi_zombie_head) {
+ tstate = ob->tstate;
+ //fprintf(stderr, "thread_canary_free_zombie(%p) tstate=%p\n", ob, tstate);
+ _thread_canary_detach_with_lock(ob);
+ if (tstate == NULL)
+ Py_FatalError("cffi: invalid ThreadCanaryObj->tstate");
+ }
+ TLS_ZOM_UNLOCK();
+
+ if (tstate == NULL)
+ break;
+ PyThreadState_Clear(tstate); /* calls thread_canary_dealloc on 'ob',
+ but now ob->zombie_next == NULL. */
+ PyThreadState_Delete(tstate);
+ //fprintf(stderr, "thread_canary_free_zombie: cleared and deleted tstate=%p\n", tstate);
+ }
+ //fprintf(stderr, "thread_canary_free_zombie: end\n");
+}
+
+static void
+thread_canary_register(PyThreadState *tstate)
+{
+ /* called with the GIL; 'tstate' is the current PyThreadState. */
+ ThreadCanaryObj *canary;
+ PyObject *tdict;
+ struct cffi_tls_s *tls;
+ int err;
+
+ /* first free the zombies, if any */
+ thread_canary_free_zombies();
+
+ tls = get_cffi_tls();
+ if (tls == NULL)
+ goto ignore_error;
+
+ tdict = PyThreadState_GetDict();
+ if (tdict == NULL)
+ goto ignore_error;
+
+ canary = PyObject_New(ThreadCanaryObj, &ThreadCanary_Type);
+ //fprintf(stderr, "thread_canary_register(%p): tstate=%p tls=%p\n", canary, tstate, tls);
+ if (canary == NULL)
+ goto ignore_error;
+ canary->zombie_prev = NULL;
+ canary->zombie_next = NULL;
+ canary->tstate = tstate;
+ canary->tls = tls;
+
+ err = PyDict_SetItemString(tdict, "cffi.thread.canary", (PyObject *)canary);
+ Py_DECREF(canary);
+ if (err < 0)
+ goto ignore_error;
+
+ /* thread-safety: we have the GIL here, and 'tstate' is the one that
+ corresponds to our own thread. We are allocating a new 'canary'
+ and setting it up for our own thread, both in 'tdict' (which owns
+ the reference) and in 'tls->local_thread_canary' (which doesn't). */
+ assert(Py_REFCNT(canary) == 1);
+ tls->local_thread_canary = canary;
+ tstate->gilstate_counter++;
+ /* ^^^ this means 'tstate' will never be automatically freed by
+ PyGILState_Release() */
+ return;
+
+ ignore_error:
+ PyErr_Clear();
+}
+
+static PyTypeObject ThreadCanary_Type = {
+ PyVarObject_HEAD_INIT(NULL, 0)
+ "_cffi_backend.thread_canary",
+ sizeof(ThreadCanaryObj),
+ 0,
+ (destructor)thread_canary_dealloc, /* tp_dealloc */
+ 0, /* tp_print */
+ 0, /* tp_getattr */
+ 0, /* tp_setattr */
+ 0, /* tp_compare */
+ 0, /* tp_repr */
+ 0, /* tp_as_number */
+ 0, /* tp_as_sequence */
+ 0, /* tp_as_mapping */
+ 0, /* tp_hash */
+ 0, /* tp_call */
+ 0, /* tp_str */
+ 0, /* tp_getattro */
+ 0, /* tp_setattro */
+ 0, /* tp_as_buffer */
+ Py_TPFLAGS_DEFAULT, /* tp_flags */
+};
+
+static void init_cffi_tls_zombie(void)
+{
+ cffi_zombie_head.zombie_next = &cffi_zombie_head;
+ cffi_zombie_head.zombie_prev = &cffi_zombie_head;
+ cffi_zombie_lock = PyThread_allocate_lock();
+ if (cffi_zombie_lock == NULL)
+ PyErr_SetString(PyExc_SystemError, "can't allocate cffi_zombie_lock");
+}
+
+static void cffi_thread_shutdown(void *p)
+{
+ /* this function is called from misc_thread_posix or misc_win32
+ when a thread is about to end. */
+ struct cffi_tls_s *tls = (struct cffi_tls_s *)p;
+
+ /* thread-safety: this field 'local_thread_canary' can be reset
+ to NULL in parallel, protected by TLS_ZOM_LOCK. */
+ TLS_ZOM_LOCK();
+ if (tls->local_thread_canary != NULL) {
+ tls->local_thread_canary->tls = NULL;
+ thread_canary_make_zombie(tls->local_thread_canary);
+ }
+ TLS_ZOM_UNLOCK();
+ //fprintf(stderr, "thread_shutdown(%p)\n", tls);
+ free(tls);
+}
+
+/* USE__THREAD is defined by setup.py if it finds that it is
+ syntactically valid to use "__thread" with this C compiler. */
+#ifdef USE__THREAD
+
+static __thread int cffi_saved_errno = 0;
+static void save_errno_only(void) { cffi_saved_errno = errno; }
+static void restore_errno_only(void) { errno = cffi_saved_errno; }
+
+#else
+
+static void save_errno_only(void)
+{
+ int saved = errno;
+ struct cffi_tls_s *tls = get_cffi_tls();
+ if (tls != NULL)
+ tls->saved_errno = saved;
+}
+
+static void restore_errno_only(void)
+{
+ struct cffi_tls_s *tls = get_cffi_tls();
+ if (tls != NULL)
+ errno = tls->saved_errno;
+}
+
+#endif
+
+
+/* MESS. We can't use PyThreadState_GET(), because that calls
+ PyThreadState_Get() which fails an assert if the result is NULL.
+
+ * in Python 2.7 and <= 3.4, the variable _PyThreadState_Current
+ is directly available, so use that.
+
+ * in Python 3.5, the variable is available too, but it might be
+ the case that the headers don't define it (this changed in 3.5.1).
+ In case we're compiling with 3.5.x with x >= 1, we need to
+ manually define this variable.
+
+ * in Python >= 3.6 there is _PyThreadState_UncheckedGet().
+ It was added in 3.5.2 but should never be used in 3.5.x
+ because it is not available in 3.5.0 or 3.5.1.
+*/
+#if PY_VERSION_HEX >= 0x03050100 && PY_VERSION_HEX < 0x03060000
+PyAPI_DATA(void *volatile) _PyThreadState_Current;
+#endif
+
+static PyThreadState *get_current_ts(void)
+{
+#if PY_VERSION_HEX >= 0x03060000
+ return _PyThreadState_UncheckedGet();
+#elif defined(_Py_atomic_load_relaxed)
+ return (PyThreadState*)_Py_atomic_load_relaxed(&_PyThreadState_Current);
+#else
+ return (PyThreadState*)_PyThreadState_Current; /* assume atomic read */
+#endif
+}
+
+static PyGILState_STATE gil_ensure(void)
+{
+ /* Called at the start of a callback. Replacement for
+ PyGILState_Ensure().
+ */
+ PyGILState_STATE result;
+ PyThreadState *ts = PyGILState_GetThisThreadState();
+
+ if (ts != NULL) {
+ ts->gilstate_counter++;
+ if (ts != get_current_ts()) {
+ /* common case: 'ts' is our non-current thread state and
+ we have to make it current and acquire the GIL */
+ PyEval_RestoreThread(ts);
+ return PyGILState_UNLOCKED;
+ }
+ else {
+ return PyGILState_LOCKED;
+ }
+ }
+ else {
+ /* no thread state here so far. */
+ result = PyGILState_Ensure();
+ assert(result == PyGILState_UNLOCKED);
+
+ ts = PyGILState_GetThisThreadState();
+ assert(ts != NULL);
+ assert(ts == get_current_ts());
+ assert(ts->gilstate_counter >= 1);
+
+ /* Use the ThreadCanary mechanism to keep 'ts' alive until the
+ thread really shuts down */
+ thread_canary_register(ts);
+
+ return result;
+ }
+}
+
+static void gil_release(PyGILState_STATE oldstate)
+{
+ PyGILState_Release(oldstate);
+}
diff --git a/contrib/python/cffi/py3/c/misc_thread_posix.h b/contrib/python/cffi/py3/c/misc_thread_posix.h
new file mode 100644
index 0000000000..bcc017737b
--- /dev/null
+++ b/contrib/python/cffi/py3/c/misc_thread_posix.h
@@ -0,0 +1,49 @@
+/*
+ Logic for a better replacement of PyGILState_Ensure().
+
+ This version is ready to handle the case of a non-Python-started
+ thread in which we do a large number of calls to CFFI callbacks. If
+ we were to rely on PyGILState_Ensure() for that, we would constantly
+ be creating and destroying PyThreadStates---it is slow, and
+ PyThreadState_Delete() will actually walk the list of all thread
+ states, making it O(n). :-(
+
+ This version only creates one PyThreadState object the first time we
+ see a given thread, and keep it alive until the thread is really
+ shut down, using a destructor on the tls key.
+*/
+
+#include <pthread.h>
+#include "misc_thread_common.h"
+
+
+static pthread_key_t cffi_tls_key;
+
+static void init_cffi_tls(void)
+{
+ if (pthread_key_create(&cffi_tls_key, &cffi_thread_shutdown) != 0)
+ PyErr_SetString(PyExc_OSError, "pthread_key_create() failed");
+}
+
+static struct cffi_tls_s *_make_cffi_tls(void)
+{
+ void *p = calloc(1, sizeof(struct cffi_tls_s));
+ if (p == NULL)
+ return NULL;
+ if (pthread_setspecific(cffi_tls_key, p) != 0) {
+ free(p);
+ return NULL;
+ }
+ return p;
+}
+
+static struct cffi_tls_s *get_cffi_tls(void)
+{
+ void *p = pthread_getspecific(cffi_tls_key);
+ if (p == NULL)
+ p = _make_cffi_tls();
+ return (struct cffi_tls_s *)p;
+}
+
+#define save_errno save_errno_only
+#define restore_errno restore_errno_only
diff --git a/contrib/python/cffi/py3/c/misc_win32.h b/contrib/python/cffi/py3/c/misc_win32.h
new file mode 100644
index 0000000000..2946721801
--- /dev/null
+++ b/contrib/python/cffi/py3/c/misc_win32.h
@@ -0,0 +1,218 @@
+#include <malloc.h> /* for alloca() */
+
+
+/************************************************************/
+/* errno and GetLastError support */
+
+#include "misc_thread_common.h"
+
+static DWORD cffi_tls_index = TLS_OUT_OF_INDEXES;
+
+static void init_cffi_tls(void)
+{
+ if (cffi_tls_index == TLS_OUT_OF_INDEXES) {
+ cffi_tls_index = TlsAlloc();
+ if (cffi_tls_index == TLS_OUT_OF_INDEXES)
+ PyErr_SetString(PyExc_WindowsError, "TlsAlloc() failed");
+ }
+}
+
+static struct cffi_tls_s *get_cffi_tls(void)
+{
+ LPVOID p = TlsGetValue(cffi_tls_index);
+
+ if (p == NULL) {
+ p = malloc(sizeof(struct cffi_tls_s));
+ if (p == NULL)
+ return NULL;
+ memset(p, 0, sizeof(struct cffi_tls_s));
+ TlsSetValue(cffi_tls_index, p);
+ }
+ return (struct cffi_tls_s *)p;
+}
+
+#ifdef USE__THREAD
+# error "unexpected USE__THREAD on Windows"
+#endif
+
+static void save_errno(void)
+{
+ int current_err = errno;
+ int current_lasterr = GetLastError();
+ struct cffi_tls_s *p = get_cffi_tls();
+ if (p != NULL) {
+ p->saved_errno = current_err;
+ p->saved_lasterror = current_lasterr;
+ }
+ /* else: cannot report the error */
+}
+
+static void restore_errno(void)
+{
+ struct cffi_tls_s *p = get_cffi_tls();
+ if (p != NULL) {
+ SetLastError(p->saved_lasterror);
+ errno = p->saved_errno;
+ }
+ /* else: cannot report the error */
+}
+
+/************************************************************/
+
+
+#if PY_MAJOR_VERSION >= 3
+static PyObject *b_getwinerror(PyObject *self, PyObject *args, PyObject *kwds)
+{
+ int err = -1;
+ int len;
+ WCHAR *s_buf = NULL; /* Free via LocalFree */
+ PyObject *v, *message;
+ static char *keywords[] = {"code", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "|i", keywords, &err))
+ return NULL;
+
+ if (err == -1) {
+ struct cffi_tls_s *p = get_cffi_tls();
+ if (p == NULL)
+ return PyErr_NoMemory();
+ err = p->saved_lasterror;
+ }
+
+ len = FormatMessageW(
+ /* Error API error */
+ FORMAT_MESSAGE_ALLOCATE_BUFFER |
+ FORMAT_MESSAGE_FROM_SYSTEM |
+ FORMAT_MESSAGE_IGNORE_INSERTS,
+ NULL, /* no message source */
+ err,
+ MAKELANGID(LANG_NEUTRAL,
+ SUBLANG_DEFAULT), /* Default language */
+ (LPWSTR) &s_buf,
+ 0, /* size not used */
+ NULL); /* no args */
+ if (len==0) {
+ /* Only seen this in out of mem situations */
+ message = PyUnicode_FromFormat("Windows Error 0x%X", err);
+ } else {
+ /* remove trailing cr/lf and dots */
+ while (len > 0 && (s_buf[len-1] <= L' ' || s_buf[len-1] == L'.'))
+ s_buf[--len] = L'\0';
+ message = PyUnicode_FromWideChar(s_buf, len);
+ }
+ if (message != NULL) {
+ v = Py_BuildValue("(iO)", err, message);
+ Py_DECREF(message);
+ }
+ else
+ v = NULL;
+ LocalFree(s_buf);
+ return v;
+}
+#else
+static PyObject *b_getwinerror(PyObject *self, PyObject *args, PyObject *kwds)
+{
+ int err = -1;
+ int len;
+ char *s;
+ char *s_buf = NULL; /* Free via LocalFree */
+ char s_small_buf[40]; /* Room for "Windows Error 0xFFFFFFFFFFFFFFFF" */
+ PyObject *v;
+ static char *keywords[] = {"code", NULL};
+
+ if (!PyArg_ParseTupleAndKeywords(args, kwds, "|i", keywords, &err))
+ return NULL;
+
+ if (err == -1) {
+ struct cffi_tls_s *p = get_cffi_tls();
+ if (p == NULL)
+ return PyErr_NoMemory();
+ err = p->saved_lasterror;
+ }
+
+ len = FormatMessage(
+ /* Error API error */
+ FORMAT_MESSAGE_ALLOCATE_BUFFER |
+ FORMAT_MESSAGE_FROM_SYSTEM |
+ FORMAT_MESSAGE_IGNORE_INSERTS,
+ NULL, /* no message source */
+ err,
+ MAKELANGID(LANG_NEUTRAL,
+ SUBLANG_DEFAULT), /* Default language */
+ (LPTSTR) &s_buf,
+ 0, /* size not used */
+ NULL); /* no args */
+ if (len==0) {
+ /* Only seen this in out of mem situations */
+ sprintf(s_small_buf, "Windows Error 0x%X", err);
+ s = s_small_buf;
+ } else {
+ s = s_buf;
+ /* remove trailing cr/lf and dots */
+ while (len > 0 && (s[len-1] <= ' ' || s[len-1] == '.'))
+ s[--len] = '\0';
+ }
+ v = Py_BuildValue("(is)", err, s);
+ LocalFree(s_buf);
+ return v;
+}
+#endif
+
+
+/************************************************************/
+/* Emulate dlopen()&co. from the Windows API */
+
+#define RTLD_LAZY 0
+#define RTLD_NOW 0
+#define RTLD_GLOBAL 0
+#define RTLD_LOCAL 0
+
+static void *dlopen(const char *filename, int flag)
+{
+ return (void *)LoadLibraryA(filename);
+}
+
+static void *dlopenW(const wchar_t *filename)
+{
+ return (void *)LoadLibraryW(filename);
+}
+
+static void *dlsym(void *handle, const char *symbol)
+{
+ void *address = GetProcAddress((HMODULE)handle, symbol);
+#ifndef MS_WIN64
+ if (!address) {
+ /* If 'symbol' is not found, then try '_symbol@N' for N in
+ (0, 4, 8, 12, ..., 124). Unlike ctypes, we try to do that
+ for any symbol, although in theory it should only be done
+ for __stdcall functions.
+ */
+ int i;
+ char *mangled_name = alloca(1 + strlen(symbol) + 1 + 3 + 1);
+ if (!mangled_name)
+ return NULL;
+ for (i = 0; i < 32; i++) {
+ sprintf(mangled_name, "_%s@%d", symbol, i * 4);
+ address = GetProcAddress((HMODULE)handle, mangled_name);
+ if (address)
+ break;
+ }
+ }
+#endif
+ return address;
+}
+
+static int dlclose(void *handle)
+{
+ return FreeLibrary((HMODULE)handle) ? 0 : -1;
+}
+
+static const char *dlerror(void)
+{
+ static char buf[32];
+ DWORD dw = GetLastError();
+ if (dw == 0)
+ return NULL;
+ sprintf(buf, "error 0x%x", (unsigned int)dw);
+ return buf;
+}
diff --git a/contrib/python/cffi/py3/c/parse_c_type.c b/contrib/python/cffi/py3/c/parse_c_type.c
new file mode 100644
index 0000000000..698ef6451e
--- /dev/null
+++ b/contrib/python/cffi/py3/c/parse_c_type.c
@@ -0,0 +1,847 @@
+#include <stdlib.h>
+#include <string.h>
+#include <assert.h>
+#include <errno.h>
+
+#define _CFFI_INTERNAL
+#include "../cffi/parse_c_type.h"
+
+
+enum token_e {
+ TOK_STAR='*',
+ TOK_OPEN_PAREN='(',
+ TOK_CLOSE_PAREN=')',
+ TOK_OPEN_BRACKET='[',
+ TOK_CLOSE_BRACKET=']',
+ TOK_COMMA=',',
+
+ TOK_START=256,
+ TOK_END,
+ TOK_ERROR,
+ TOK_IDENTIFIER,
+ TOK_INTEGER,
+ TOK_DOTDOTDOT,
+
+ /* keywords */
+ TOK__BOOL,
+ TOK_CHAR,
+ TOK__COMPLEX,
+ TOK_CONST,
+ TOK_DOUBLE,
+ TOK_ENUM,
+ TOK_FLOAT,
+ //TOK__IMAGINARY,
+ TOK_INT,
+ TOK_LONG,
+ TOK_SHORT,
+ TOK_SIGNED,
+ TOK_STRUCT,
+ TOK_UNION,
+ TOK_UNSIGNED,
+ TOK_VOID,
+ TOK_VOLATILE,
+
+ TOK_CDECL,
+ TOK_STDCALL,
+};
+
+typedef struct {
+ struct _cffi_parse_info_s *info;
+ const char *input, *p;
+ size_t size; // the next token is at 'p' and of length 'size'
+ enum token_e kind;
+ _cffi_opcode_t *output;
+ size_t output_index;
+} token_t;
+
+static int is_space(char x)
+{
+ return (x == ' ' || x == '\f' || x == '\n' || x == '\r' ||
+ x == '\t' || x == '\v');
+}
+
+static int is_ident_first(char x)
+{
+ return (('A' <= x && x <= 'Z') || ('a' <= x && x <= 'z') || x == '_' ||
+ x == '$'); /* '$' in names is supported here, for the struct
+ names invented by cparser */
+}
+
+static int is_digit(char x)
+{
+ return ('0' <= x && x <= '9');
+}
+
+static int is_hex_digit(char x)
+{
+ return (('0' <= x && x <= '9') ||
+ ('A' <= x && x <= 'F') ||
+ ('a' <= x && x <= 'f'));
+}
+
+static int is_ident_next(char x)
+{
+ return (is_ident_first(x) || is_digit(x));
+}
+
+static char get_following_char(token_t *tok)
+{
+ const char *p = tok->p + tok->size;
+ if (tok->kind == TOK_ERROR)
+ return 0;
+ while (is_space(*p))
+ p++;
+ return *p;
+}
+
+static int number_of_commas(token_t *tok)
+{
+ const char *p = tok->p;
+ int result = 0;
+ int nesting = 0;
+ while (1) {
+ switch (*p++) {
+ case ',': result += !nesting; break;
+ case '(': nesting++; break;
+ case ')': if ((--nesting) < 0) return result; break;
+ case 0: return result;
+ default: break;
+ }
+ }
+}
+
+static void next_token(token_t *tok)
+{
+ const char *p = tok->p + tok->size;
+ if (tok->kind == TOK_ERROR)
+ return;
+ while (!is_ident_first(*p)) {
+ if (is_space(*p)) {
+ p++;
+ }
+ else if (is_digit(*p)) {
+ tok->kind = TOK_INTEGER;
+ tok->p = p;
+ tok->size = 1;
+ if (p[1] == 'x' || p[1] == 'X')
+ tok->size = 2;
+ while (is_hex_digit(p[tok->size]))
+ tok->size++;
+ return;
+ }
+ else if (p[0] == '.' && p[1] == '.' && p[2] == '.') {
+ tok->kind = TOK_DOTDOTDOT;
+ tok->p = p;
+ tok->size = 3;
+ return;
+ }
+ else if (*p) {
+ tok->kind = *p;
+ tok->p = p;
+ tok->size = 1;
+ return;
+ }
+ else {
+ tok->kind = TOK_END;
+ tok->p = p;
+ tok->size = 0;
+ return;
+ }
+ }
+ tok->kind = TOK_IDENTIFIER;
+ tok->p = p;
+ tok->size = 1;
+ while (is_ident_next(p[tok->size]))
+ tok->size++;
+
+ switch (*p) {
+ case '_':
+ if (tok->size == 5 && !memcmp(p, "_Bool", 5)) tok->kind = TOK__BOOL;
+ if (tok->size == 7 && !memcmp(p,"__cdecl",7)) tok->kind = TOK_CDECL;
+ if (tok->size == 9 && !memcmp(p,"__stdcall",9))tok->kind = TOK_STDCALL;
+ if (tok->size == 8 && !memcmp(p,"_Complex",8)) tok->kind = TOK__COMPLEX;
+ break;
+ case 'c':
+ if (tok->size == 4 && !memcmp(p, "char", 4)) tok->kind = TOK_CHAR;
+ if (tok->size == 5 && !memcmp(p, "const", 5)) tok->kind = TOK_CONST;
+ break;
+ case 'd':
+ if (tok->size == 6 && !memcmp(p, "double", 6)) tok->kind = TOK_DOUBLE;
+ break;
+ case 'e':
+ if (tok->size == 4 && !memcmp(p, "enum", 4)) tok->kind = TOK_ENUM;
+ break;
+ case 'f':
+ if (tok->size == 5 && !memcmp(p, "float", 5)) tok->kind = TOK_FLOAT;
+ break;
+ case 'i':
+ if (tok->size == 3 && !memcmp(p, "int", 3)) tok->kind = TOK_INT;
+ break;
+ case 'l':
+ if (tok->size == 4 && !memcmp(p, "long", 4)) tok->kind = TOK_LONG;
+ break;
+ case 's':
+ if (tok->size == 5 && !memcmp(p, "short", 5)) tok->kind = TOK_SHORT;
+ if (tok->size == 6 && !memcmp(p, "signed", 6)) tok->kind = TOK_SIGNED;
+ if (tok->size == 6 && !memcmp(p, "struct", 6)) tok->kind = TOK_STRUCT;
+ break;
+ case 'u':
+ if (tok->size == 5 && !memcmp(p, "union", 5)) tok->kind = TOK_UNION;
+ if (tok->size == 8 && !memcmp(p,"unsigned",8)) tok->kind = TOK_UNSIGNED;
+ break;
+ case 'v':
+ if (tok->size == 4 && !memcmp(p, "void", 4)) tok->kind = TOK_VOID;
+ if (tok->size == 8 && !memcmp(p,"volatile",8)) tok->kind = TOK_VOLATILE;
+ break;
+ }
+}
+
+static int parse_error(token_t *tok, const char *msg)
+{
+ if (tok->kind != TOK_ERROR) {
+ tok->kind = TOK_ERROR;
+ tok->info->error_location = tok->p - tok->input;
+ tok->info->error_message = msg;
+ }
+ return -1;
+}
+
+static int write_ds(token_t *tok, _cffi_opcode_t ds)
+{
+ size_t index = tok->output_index;
+ if (index >= tok->info->output_size) {
+ parse_error(tok, "internal type complexity limit reached");
+ return -1;
+ }
+ tok->output[index] = ds;
+ tok->output_index = index + 1;
+ return index;
+}
+
+#define MAX_SSIZE_T (((size_t)-1) >> 1)
+
+static int parse_complete(token_t *tok);
+static const char *get_common_type(const char *search, size_t search_len);
+static int parse_common_type_replacement(token_t *tok, const char *replacement);
+
+static int parse_sequel(token_t *tok, int outer)
+{
+ /* Emit opcodes for the "sequel", which is the optional part of a
+ type declaration that follows the type name, i.e. everything
+ with '*', '[ ]', '( )'. Returns the entry point index pointing
+ the innermost opcode (the one that corresponds to the complete
+ type). The 'outer' argument is the index of the opcode outside
+ this "sequel".
+ */
+ int check_for_grouping, abi=0;
+ _cffi_opcode_t result, *p_current;
+
+ header:
+ switch (tok->kind) {
+ case TOK_STAR:
+ outer = write_ds(tok, _CFFI_OP(_CFFI_OP_POINTER, outer));
+ next_token(tok);
+ goto header;
+ case TOK_CONST:
+ /* ignored for now */
+ next_token(tok);
+ goto header;
+ case TOK_VOLATILE:
+ /* ignored for now */
+ next_token(tok);
+ goto header;
+ case TOK_CDECL:
+ case TOK_STDCALL:
+ /* must be in a function; checked below */
+ abi = tok->kind;
+ next_token(tok);
+ goto header;
+ default:
+ break;
+ }
+
+ check_for_grouping = 1;
+ if (tok->kind == TOK_IDENTIFIER) {
+ next_token(tok); /* skip a potential variable name */
+ check_for_grouping = 0;
+ }
+
+ result = 0;
+ p_current = &result;
+
+ while (tok->kind == TOK_OPEN_PAREN) {
+ next_token(tok);
+
+ if (tok->kind == TOK_CDECL || tok->kind == TOK_STDCALL) {
+ abi = tok->kind;
+ next_token(tok);
+ }
+
+ if ((check_for_grouping--) == 1 && (tok->kind == TOK_STAR ||
+ tok->kind == TOK_CONST ||
+ tok->kind == TOK_VOLATILE ||
+ tok->kind == TOK_OPEN_BRACKET)) {
+ /* just parentheses for grouping. Use a OP_NOOP to simplify */
+ int x;
+ assert(p_current == &result);
+ x = tok->output_index;
+ p_current = tok->output + x;
+
+ write_ds(tok, _CFFI_OP(_CFFI_OP_NOOP, 0));
+
+ x = parse_sequel(tok, x);
+ result = _CFFI_OP(_CFFI_GETOP(0), x);
+ }
+ else {
+ /* function type */
+ int arg_total, base_index, arg_next, flags=0;
+
+ if (abi == TOK_STDCALL) {
+ flags = 2;
+ /* note that an ellipsis below will overwrite this flags,
+ which is the goal: variadic functions are always cdecl */
+ }
+ abi = 0;
+
+ if (tok->kind == TOK_VOID && get_following_char(tok) == ')') {
+ next_token(tok);
+ }
+
+ /* (over-)estimate 'arg_total'. May return 1 when it is really 0 */
+ arg_total = number_of_commas(tok) + 1;
+
+ *p_current = _CFFI_OP(_CFFI_GETOP(*p_current), tok->output_index);
+ p_current = tok->output + tok->output_index;
+
+ base_index = write_ds(tok, _CFFI_OP(_CFFI_OP_FUNCTION, 0));
+ if (base_index < 0)
+ return -1;
+ /* reserve (arg_total + 1) slots for the arguments and the
+ final FUNCTION_END */
+ for (arg_next = 0; arg_next <= arg_total; arg_next++)
+ if (write_ds(tok, _CFFI_OP(0, 0)) < 0)
+ return -1;
+
+ arg_next = base_index + 1;
+
+ if (tok->kind != TOK_CLOSE_PAREN) {
+ while (1) {
+ int arg;
+ _cffi_opcode_t oarg;
+
+ if (tok->kind == TOK_DOTDOTDOT) {
+ flags = 1; /* ellipsis */
+ next_token(tok);
+ break;
+ }
+ arg = parse_complete(tok);
+ switch (_CFFI_GETOP(tok->output[arg])) {
+ case _CFFI_OP_ARRAY:
+ case _CFFI_OP_OPEN_ARRAY:
+ arg = _CFFI_GETARG(tok->output[arg]);
+ /* fall-through */
+ case _CFFI_OP_FUNCTION:
+ oarg = _CFFI_OP(_CFFI_OP_POINTER, arg);
+ break;
+ default:
+ oarg = _CFFI_OP(_CFFI_OP_NOOP, arg);
+ break;
+ }
+ assert(arg_next - base_index <= arg_total);
+ tok->output[arg_next++] = oarg;
+ if (tok->kind != TOK_COMMA)
+ break;
+ next_token(tok);
+ }
+ }
+ tok->output[arg_next] = _CFFI_OP(_CFFI_OP_FUNCTION_END, flags);
+ }
+
+ if (tok->kind != TOK_CLOSE_PAREN)
+ return parse_error(tok, "expected ')'");
+ next_token(tok);
+ }
+
+ if (abi != 0)
+ return parse_error(tok, "expected '('");
+
+ while (tok->kind == TOK_OPEN_BRACKET) {
+ *p_current = _CFFI_OP(_CFFI_GETOP(*p_current), tok->output_index);
+ p_current = tok->output + tok->output_index;
+
+ next_token(tok);
+ if (tok->kind != TOK_CLOSE_BRACKET) {
+ size_t length;
+ int gindex;
+ char *endptr;
+
+ switch (tok->kind) {
+
+ case TOK_INTEGER:
+ errno = 0;
+ if (sizeof(length) > sizeof(unsigned long)) {
+#ifdef MS_WIN32
+# ifdef _WIN64
+ length = _strtoui64(tok->p, &endptr, 0);
+# else
+ abort(); /* unreachable */
+# endif
+#else
+ length = strtoull(tok->p, &endptr, 0);
+#endif
+ }
+ else
+ length = strtoul(tok->p, &endptr, 0);
+ if (endptr != tok->p + tok->size)
+ return parse_error(tok, "invalid number");
+ if (errno == ERANGE || length > MAX_SSIZE_T)
+ return parse_error(tok, "number too large");
+ break;
+
+ case TOK_IDENTIFIER:
+ gindex = search_in_globals(tok->info->ctx, tok->p, tok->size);
+ if (gindex >= 0) {
+ const struct _cffi_global_s *g;
+ g = &tok->info->ctx->globals[gindex];
+ if (_CFFI_GETOP(g->type_op) == _CFFI_OP_CONSTANT_INT ||
+ _CFFI_GETOP(g->type_op) == _CFFI_OP_ENUM) {
+ int neg;
+ struct _cffi_getconst_s gc;
+ gc.ctx = tok->info->ctx;
+ gc.gindex = gindex;
+ neg = ((int(*)(struct _cffi_getconst_s*))g->address)
+ (&gc);
+ if (neg == 0 && gc.value > MAX_SSIZE_T)
+ return parse_error(tok,
+ "integer constant too large");
+ if (neg == 0 || gc.value == 0) {
+ length = (size_t)gc.value;
+ break;
+ }
+ if (neg != 1)
+ return parse_error(tok, "disagreement about"
+ " this constant's value");
+ }
+ }
+ /* fall-through to the default case */
+ default:
+ return parse_error(tok, "expected a positive integer constant");
+ }
+
+ next_token(tok);
+
+ write_ds(tok, _CFFI_OP(_CFFI_OP_ARRAY, 0));
+ write_ds(tok, (_cffi_opcode_t)length);
+ }
+ else
+ write_ds(tok, _CFFI_OP(_CFFI_OP_OPEN_ARRAY, 0));
+
+ if (tok->kind != TOK_CLOSE_BRACKET)
+ return parse_error(tok, "expected ']'");
+ next_token(tok);
+ }
+
+ *p_current = _CFFI_OP(_CFFI_GETOP(*p_current), outer);
+ return _CFFI_GETARG(result);
+}
+
+static int search_sorted(const char *const *base,
+ size_t item_size, int array_len,
+ const char *search, size_t search_len)
+{
+ int left = 0, right = array_len;
+ const char *baseptr = (const char *)base;
+
+ while (left < right) {
+ int middle = (left + right) / 2;
+ const char *src = *(const char *const *)(baseptr + middle * item_size);
+ int diff = strncmp(src, search, search_len);
+ if (diff == 0 && src[search_len] == '\0')
+ return middle;
+ else if (diff >= 0)
+ right = middle;
+ else
+ left = middle + 1;
+ }
+ return -1;
+}
+
+#define MAKE_SEARCH_FUNC(FIELD) \
+ static \
+ int search_in_##FIELD(const struct _cffi_type_context_s *ctx, \
+ const char *search, size_t search_len) \
+ { \
+ return search_sorted(&ctx->FIELD->name, sizeof(*ctx->FIELD), \
+ ctx->num_##FIELD, search, search_len); \
+ }
+
+MAKE_SEARCH_FUNC(globals)
+MAKE_SEARCH_FUNC(struct_unions)
+MAKE_SEARCH_FUNC(typenames)
+MAKE_SEARCH_FUNC(enums)
+
+#undef MAKE_SEARCH_FUNC
+
+
+static
+int search_standard_typename(const char *p, size_t size)
+{
+ if (size < 6 || p[size-2] != '_' || p[size-1] != 't')
+ return -1;
+
+ switch (p[4]) {
+
+ case '1':
+ if (size == 8 && !memcmp(p, "uint16", 6)) return _CFFI_PRIM_UINT16;
+ if (size == 8 && !memcmp(p, "char16", 6)) return _CFFI_PRIM_CHAR16;
+ break;
+
+ case '2':
+ if (size == 7 && !memcmp(p, "int32", 5)) return _CFFI_PRIM_INT32;
+ break;
+
+ case '3':
+ if (size == 8 && !memcmp(p, "uint32", 6)) return _CFFI_PRIM_UINT32;
+ if (size == 8 && !memcmp(p, "char32", 6)) return _CFFI_PRIM_CHAR32;
+ break;
+
+ case '4':
+ if (size == 7 && !memcmp(p, "int64", 5)) return _CFFI_PRIM_INT64;
+ break;
+
+ case '6':
+ if (size == 8 && !memcmp(p, "uint64", 6)) return _CFFI_PRIM_UINT64;
+ if (size == 7 && !memcmp(p, "int16", 5)) return _CFFI_PRIM_INT16;
+ break;
+
+ case '8':
+ if (size == 7 && !memcmp(p, "uint8", 5)) return _CFFI_PRIM_UINT8;
+ break;
+
+ case 'a':
+ if (size == 8 && !memcmp(p, "intmax", 6)) return _CFFI_PRIM_INTMAX;
+ break;
+
+ case 'e':
+ if (size == 7 && !memcmp(p, "ssize", 5)) return _CFFI_PRIM_SSIZE;
+ break;
+
+ case 'f':
+ if (size == 11 && !memcmp(p, "int_fast8", 9)) return _CFFI_PRIM_INT_FAST8;
+ if (size == 12 && !memcmp(p, "int_fast16", 10)) return _CFFI_PRIM_INT_FAST16;
+ if (size == 12 && !memcmp(p, "int_fast32", 10)) return _CFFI_PRIM_INT_FAST32;
+ if (size == 12 && !memcmp(p, "int_fast64", 10)) return _CFFI_PRIM_INT_FAST64;
+ break;
+
+ case 'i':
+ if (size == 9 && !memcmp(p, "ptrdiff", 7)) return _CFFI_PRIM_PTRDIFF;
+ break;
+
+ case 'l':
+ if (size == 12 && !memcmp(p, "int_least8", 10)) return _CFFI_PRIM_INT_LEAST8;
+ if (size == 13 && !memcmp(p, "int_least16", 11)) return _CFFI_PRIM_INT_LEAST16;
+ if (size == 13 && !memcmp(p, "int_least32", 11)) return _CFFI_PRIM_INT_LEAST32;
+ if (size == 13 && !memcmp(p, "int_least64", 11)) return _CFFI_PRIM_INT_LEAST64;
+ break;
+
+ case 'm':
+ if (size == 9 && !memcmp(p, "uintmax", 7)) return _CFFI_PRIM_UINTMAX;
+ break;
+
+ case 'p':
+ if (size == 9 && !memcmp(p, "uintptr", 7)) return _CFFI_PRIM_UINTPTR;
+ break;
+
+ case 'r':
+ if (size == 7 && !memcmp(p, "wchar", 5)) return _CFFI_PRIM_WCHAR;
+ break;
+
+ case 't':
+ if (size == 8 && !memcmp(p, "intptr", 6)) return _CFFI_PRIM_INTPTR;
+ break;
+
+ case '_':
+ if (size == 6 && !memcmp(p, "size", 4)) return _CFFI_PRIM_SIZE;
+ if (size == 6 && !memcmp(p, "int8", 4)) return _CFFI_PRIM_INT8;
+ if (size >= 12) {
+ switch (p[10]) {
+ case '1':
+ if (size == 14 && !memcmp(p, "uint_least16", 12)) return _CFFI_PRIM_UINT_LEAST16;
+ break;
+ case '2':
+ if (size == 13 && !memcmp(p, "uint_fast32", 11)) return _CFFI_PRIM_UINT_FAST32;
+ break;
+ case '3':
+ if (size == 14 && !memcmp(p, "uint_least32", 12)) return _CFFI_PRIM_UINT_LEAST32;
+ break;
+ case '4':
+ if (size == 13 && !memcmp(p, "uint_fast64", 11)) return _CFFI_PRIM_UINT_FAST64;
+ break;
+ case '6':
+ if (size == 14 && !memcmp(p, "uint_least64", 12)) return _CFFI_PRIM_UINT_LEAST64;
+ if (size == 13 && !memcmp(p, "uint_fast16", 11)) return _CFFI_PRIM_UINT_FAST16;
+ break;
+ case '8':
+ if (size == 13 && !memcmp(p, "uint_least8", 11)) return _CFFI_PRIM_UINT_LEAST8;
+ break;
+ case '_':
+ if (size == 12 && !memcmp(p, "uint_fast8", 10)) return _CFFI_PRIM_UINT_FAST8;
+ break;
+ default:
+ break;
+ }
+ }
+ break;
+
+ default:
+ break;
+ }
+ return -1;
+}
+
+
+static int parse_complete(token_t *tok)
+{
+ unsigned int t0;
+ _cffi_opcode_t t1;
+ _cffi_opcode_t t1complex;
+ int modifiers_length, modifiers_sign;
+
+ qualifiers:
+ switch (tok->kind) {
+ case TOK_CONST:
+ /* ignored for now */
+ next_token(tok);
+ goto qualifiers;
+ case TOK_VOLATILE:
+ /* ignored for now */
+ next_token(tok);
+ goto qualifiers;
+ default:
+ ;
+ }
+
+ modifiers_length = 0;
+ modifiers_sign = 0;
+ modifiers:
+ switch (tok->kind) {
+
+ case TOK_SHORT:
+ if (modifiers_length != 0)
+ return parse_error(tok, "'short' after another 'short' or 'long'");
+ modifiers_length--;
+ next_token(tok);
+ goto modifiers;
+
+ case TOK_LONG:
+ if (modifiers_length < 0)
+ return parse_error(tok, "'long' after 'short'");
+ if (modifiers_length >= 2)
+ return parse_error(tok, "'long long long' is too long");
+ modifiers_length++;
+ next_token(tok);
+ goto modifiers;
+
+ case TOK_SIGNED:
+ if (modifiers_sign)
+ return parse_error(tok, "multiple 'signed' or 'unsigned'");
+ modifiers_sign++;
+ next_token(tok);
+ goto modifiers;
+
+ case TOK_UNSIGNED:
+ if (modifiers_sign)
+ return parse_error(tok, "multiple 'signed' or 'unsigned'");
+ modifiers_sign--;
+ next_token(tok);
+ goto modifiers;
+
+ default:
+ break;
+ }
+
+ t1complex = 0;
+
+ if (modifiers_length || modifiers_sign) {
+
+ switch (tok->kind) {
+
+ case TOK_VOID:
+ case TOK__BOOL:
+ case TOK_FLOAT:
+ case TOK_STRUCT:
+ case TOK_UNION:
+ case TOK_ENUM:
+ case TOK__COMPLEX:
+ return parse_error(tok, "invalid combination of types");
+
+ case TOK_DOUBLE:
+ if (modifiers_sign != 0 || modifiers_length != 1)
+ return parse_error(tok, "invalid combination of types");
+ next_token(tok);
+ t0 = _CFFI_PRIM_LONGDOUBLE;
+ break;
+
+ case TOK_CHAR:
+ if (modifiers_length != 0)
+ return parse_error(tok, "invalid combination of types");
+ modifiers_length = -2;
+ /* fall-through */
+ case TOK_INT:
+ next_token(tok);
+ /* fall-through */
+ default:
+ if (modifiers_sign >= 0)
+ switch (modifiers_length) {
+ case -2: t0 = _CFFI_PRIM_SCHAR; break;
+ case -1: t0 = _CFFI_PRIM_SHORT; break;
+ case 1: t0 = _CFFI_PRIM_LONG; break;
+ case 2: t0 = _CFFI_PRIM_LONGLONG; break;
+ default: t0 = _CFFI_PRIM_INT; break;
+ }
+ else
+ switch (modifiers_length) {
+ case -2: t0 = _CFFI_PRIM_UCHAR; break;
+ case -1: t0 = _CFFI_PRIM_USHORT; break;
+ case 1: t0 = _CFFI_PRIM_ULONG; break;
+ case 2: t0 = _CFFI_PRIM_ULONGLONG; break;
+ default: t0 = _CFFI_PRIM_UINT; break;
+ }
+ }
+ t1 = _CFFI_OP(_CFFI_OP_PRIMITIVE, t0);
+ }
+ else {
+ switch (tok->kind) {
+ case TOK_INT:
+ t1 = _CFFI_OP(_CFFI_OP_PRIMITIVE, _CFFI_PRIM_INT);
+ break;
+ case TOK_CHAR:
+ t1 = _CFFI_OP(_CFFI_OP_PRIMITIVE, _CFFI_PRIM_CHAR);
+ break;
+ case TOK_VOID:
+ t1 = _CFFI_OP(_CFFI_OP_PRIMITIVE, _CFFI_PRIM_VOID);
+ break;
+ case TOK__BOOL:
+ t1 = _CFFI_OP(_CFFI_OP_PRIMITIVE, _CFFI_PRIM_BOOL);
+ break;
+ case TOK_FLOAT:
+ t1 = _CFFI_OP(_CFFI_OP_PRIMITIVE, _CFFI_PRIM_FLOAT);
+ t1complex = _CFFI_OP(_CFFI_OP_PRIMITIVE, _CFFI_PRIM_FLOATCOMPLEX);
+ break;
+ case TOK_DOUBLE:
+ t1 = _CFFI_OP(_CFFI_OP_PRIMITIVE, _CFFI_PRIM_DOUBLE);
+ t1complex = _CFFI_OP(_CFFI_OP_PRIMITIVE, _CFFI_PRIM_DOUBLECOMPLEX);
+ break;
+ case TOK_IDENTIFIER:
+ {
+ const char *replacement;
+ int n = search_in_typenames(tok->info->ctx, tok->p, tok->size);
+ if (n >= 0) {
+ t1 = _CFFI_OP(_CFFI_OP_TYPENAME, n);
+ break;
+ }
+ n = search_standard_typename(tok->p, tok->size);
+ if (n >= 0) {
+ t1 = _CFFI_OP(_CFFI_OP_PRIMITIVE, n);
+ break;
+ }
+ replacement = get_common_type(tok->p, tok->size);
+ if (replacement != NULL) {
+ n = parse_common_type_replacement(tok, replacement);
+ if (n < 0)
+ return parse_error(tok, "internal error, please report!");
+ t1 = _CFFI_OP(_CFFI_OP_NOOP, n);
+ break;
+ }
+ return parse_error(tok, "undefined type name");
+ }
+ case TOK_STRUCT:
+ case TOK_UNION:
+ {
+ int n, kind = tok->kind;
+ next_token(tok);
+ if (tok->kind != TOK_IDENTIFIER)
+ return parse_error(tok, "struct or union name expected");
+
+ n = search_in_struct_unions(tok->info->ctx, tok->p, tok->size);
+ if (n < 0) {
+ if (kind == TOK_STRUCT && tok->size == 8 &&
+ !memcmp(tok->p, "_IO_FILE", 8))
+ n = _CFFI__IO_FILE_STRUCT;
+ else
+ return parse_error(tok, "undefined struct/union name");
+ }
+ else if (((tok->info->ctx->struct_unions[n].flags & _CFFI_F_UNION)
+ != 0) ^ (kind == TOK_UNION))
+ return parse_error(tok, "wrong kind of tag: struct vs union");
+
+ t1 = _CFFI_OP(_CFFI_OP_STRUCT_UNION, n);
+ break;
+ }
+ case TOK_ENUM:
+ {
+ int n;
+ next_token(tok);
+ if (tok->kind != TOK_IDENTIFIER)
+ return parse_error(tok, "enum name expected");
+
+ n = search_in_enums(tok->info->ctx, tok->p, tok->size);
+ if (n < 0)
+ return parse_error(tok, "undefined enum name");
+
+ t1 = _CFFI_OP(_CFFI_OP_ENUM, n);
+ break;
+ }
+ default:
+ return parse_error(tok, "identifier expected");
+ }
+ next_token(tok);
+ }
+ if (tok->kind == TOK__COMPLEX)
+ {
+ if (t1complex == 0)
+ return parse_error(tok, "_Complex type combination unsupported");
+ t1 = t1complex;
+ next_token(tok);
+ }
+
+ return parse_sequel(tok, write_ds(tok, t1));
+}
+
+
+static
+int parse_c_type_from(struct _cffi_parse_info_s *info, size_t *output_index,
+ const char *input)
+{
+ int result;
+ token_t token;
+
+ token.info = info;
+ token.kind = TOK_START;
+ token.input = input;
+ token.p = input;
+ token.size = 0;
+ token.output = info->output;
+ token.output_index = *output_index;
+
+ next_token(&token);
+ result = parse_complete(&token);
+
+ *output_index = token.output_index;
+ if (token.kind != TOK_END)
+ return parse_error(&token, "unexpected symbol");
+ return result;
+}
+
+static
+int parse_c_type(struct _cffi_parse_info_s *info, const char *input)
+{
+ size_t output_index = 0;
+ return parse_c_type_from(info, &output_index, input);
+}
+
+static
+int parse_common_type_replacement(token_t *tok, const char *replacement)
+{
+ return parse_c_type_from(tok->info, &tok->output_index, replacement);
+}
diff --git a/contrib/python/cffi/py3/c/realize_c_type.c b/contrib/python/cffi/py3/c/realize_c_type.c
new file mode 100644
index 0000000000..82629b7ef1
--- /dev/null
+++ b/contrib/python/cffi/py3/c/realize_c_type.c
@@ -0,0 +1,820 @@
+
+typedef struct {
+ struct _cffi_type_context_s ctx; /* inlined substructure */
+ PyObject *types_dict;
+ PyObject *included_ffis;
+ PyObject *included_libs;
+ PyObject *_keepalive1;
+ PyObject *_keepalive2;
+} builder_c_t;
+
+
+static PyObject *all_primitives[_CFFI__NUM_PRIM];
+static CTypeDescrObject *g_ct_voidp, *g_ct_chararray;
+
+static PyObject *build_primitive_type(int num); /* forward */
+
+#define primitive_in_range(num) ((num) >= 0 && (num) < _CFFI__NUM_PRIM)
+#define get_primitive_type(num) \
+ ((primitive_in_range(num) && all_primitives[num] != NULL) ? \
+ all_primitives[num] : build_primitive_type(num))
+
+static int init_global_types_dict(PyObject *ffi_type_dict)
+{
+ int err;
+ PyObject *ct_void, *ct_char, *ct2, *pnull;
+ /* XXX some leaks in case these functions fail, but well,
+ MemoryErrors during importing an extension module are kind
+ of bad anyway */
+
+ ct_void = get_primitive_type(_CFFI_PRIM_VOID); // 'void'
+ if (ct_void == NULL)
+ return -1;
+
+ ct2 = new_pointer_type((CTypeDescrObject *)ct_void); // 'void *'
+ if (ct2 == NULL)
+ return -1;
+ g_ct_voidp = (CTypeDescrObject *)ct2;
+
+ ct_char = get_primitive_type(_CFFI_PRIM_CHAR); // 'char'
+ if (ct_char == NULL)
+ return -1;
+
+ ct2 = new_pointer_type((CTypeDescrObject *)ct_char); // 'char *'
+ if (ct2 == NULL)
+ return -1;
+
+ ct2 = new_array_type((CTypeDescrObject *)ct2, -1); // 'char[]'
+ if (ct2 == NULL)
+ return -1;
+ g_ct_chararray = (CTypeDescrObject *)ct2;
+
+ pnull = new_simple_cdata(NULL, g_ct_voidp);
+ if (pnull == NULL)
+ return -1;
+ err = PyDict_SetItemString(ffi_type_dict, "NULL", pnull);
+ Py_DECREF(pnull);
+ return err;
+}
+
+static void free_builder_c(builder_c_t *builder, int ctx_is_static)
+{
+ if (!ctx_is_static) {
+ size_t i;
+ const void *mem[] = {builder->ctx.types,
+ builder->ctx.globals,
+ builder->ctx.struct_unions,
+ //builder->ctx.fields: allocated with struct_unions
+ builder->ctx.enums,
+ builder->ctx.typenames};
+ for (i = 0; i < sizeof(mem) / sizeof(*mem); i++) {
+ if (mem[i] != NULL)
+ PyMem_Free((void *)mem[i]);
+ }
+ }
+ Py_XDECREF(builder->included_ffis);
+ Py_XDECREF(builder->included_libs);
+ Py_XDECREF(builder->types_dict);
+ Py_XDECREF(builder->_keepalive1);
+ Py_XDECREF(builder->_keepalive2);
+}
+
+static int init_builder_c(builder_c_t *builder,
+ const struct _cffi_type_context_s *ctx)
+{
+ PyObject *ldict = PyDict_New();
+ if (ldict == NULL)
+ return -1;
+
+ if (ctx)
+ builder->ctx = *ctx;
+ else
+ memset(&builder->ctx, 0, sizeof(builder->ctx));
+
+ builder->types_dict = ldict;
+ builder->included_ffis = NULL;
+ builder->included_libs = NULL;
+ builder->_keepalive1 = NULL;
+ builder->_keepalive2 = NULL;
+ return 0;
+}
+
+static PyObject *build_primitive_type(int num)
+{
+ /* XXX too many translations between here and new_primitive_type() */
+ static const char *primitive_name[] = {
+ NULL,
+ "_Bool",
+ "char",
+ "signed char",
+ "unsigned char",
+ "short",
+ "unsigned short",
+ "int",
+ "unsigned int",
+ "long",
+ "unsigned long",
+ "long long",
+ "unsigned long long",
+ "float",
+ "double",
+ "long double",
+ "wchar_t",
+ "int8_t",
+ "uint8_t",
+ "int16_t",
+ "uint16_t",
+ "int32_t",
+ "uint32_t",
+ "int64_t",
+ "uint64_t",
+ "intptr_t",
+ "uintptr_t",
+ "ptrdiff_t",
+ "size_t",
+ "ssize_t",
+ "int_least8_t",
+ "uint_least8_t",
+ "int_least16_t",
+ "uint_least16_t",
+ "int_least32_t",
+ "uint_least32_t",
+ "int_least64_t",
+ "uint_least64_t",
+ "int_fast8_t",
+ "uint_fast8_t",
+ "int_fast16_t",
+ "uint_fast16_t",
+ "int_fast32_t",
+ "uint_fast32_t",
+ "int_fast64_t",
+ "uint_fast64_t",
+ "intmax_t",
+ "uintmax_t",
+ "float _Complex",
+ "double _Complex",
+ "char16_t",
+ "char32_t",
+ };
+ PyObject *x;
+
+ assert(sizeof(primitive_name) == sizeof(*primitive_name) * _CFFI__NUM_PRIM);
+ if (num == _CFFI_PRIM_VOID) {
+ x = new_void_type();
+ }
+ else if (primitive_in_range(num) && primitive_name[num] != NULL) {
+ x = new_primitive_type(primitive_name[num]);
+ }
+ else if (num == _CFFI__UNKNOWN_PRIM) {
+ PyErr_SetString(FFIError, "primitive integer type with an unexpected "
+ "size (or not an integer type at all)");
+ return NULL;
+ }
+ else if (num == _CFFI__UNKNOWN_FLOAT_PRIM) {
+ PyErr_SetString(FFIError, "primitive floating-point type with an "
+ "unexpected size (or not a float type at all)");
+ return NULL;
+ }
+ else if (num == _CFFI__UNKNOWN_LONG_DOUBLE) {
+ PyErr_SetString(FFIError, "primitive floating-point type is "
+ "'long double', not supported for now with "
+ "the syntax 'typedef double... xxx;'");
+ return NULL;
+ }
+ else {
+ PyErr_Format(PyExc_NotImplementedError, "prim=%d", num);
+ return NULL;
+ }
+
+ all_primitives[num] = x;
+ return x;
+}
+
+static PyObject *realize_global_int(builder_c_t *builder, int gindex)
+{
+ int neg;
+ char got[64];
+ unsigned long long value;
+ struct _cffi_getconst_s gc;
+ const struct _cffi_global_s *g = &builder->ctx.globals[gindex];
+ gc.ctx = &builder->ctx;
+ gc.gindex = gindex;
+ /* note: we cast g->address to this function type; we do the same
+ in parse_c_type:parse_sequel() too. Note that the called function
+ may be declared simply with "unsigned long long *" as argument,
+ which is fine as it is the first field in _cffi_getconst_s. */
+ assert(&gc.value == (unsigned long long *)&gc);
+ neg = ((int(*)(struct _cffi_getconst_s *))g->address)(&gc);
+ value = gc.value;
+
+ switch (neg) {
+
+ case 0:
+ if (value <= (unsigned long long)LONG_MAX)
+ return PyInt_FromLong((long)value);
+ else
+ return PyLong_FromUnsignedLongLong(value);
+
+ case 1:
+ if ((long long)value >= (long long)LONG_MIN)
+ return PyInt_FromLong((long)value);
+ else
+ return PyLong_FromLongLong((long long)value);
+
+ default:
+ break;
+ }
+ if (neg == 2)
+ sprintf(got, "%llu (0x%llx)", value, value);
+ else
+ sprintf(got, "%lld", (long long)value);
+ PyErr_Format(FFIError, "the C compiler says '%.200s' is equal to %s, "
+ "but the cdef disagrees", g->name, got);
+ return NULL;
+}
+
+static CTypeDescrObject *
+unwrap_fn_as_fnptr(PyObject *x)
+{
+ assert(PyTuple_Check(x));
+ return (CTypeDescrObject *)PyTuple_GET_ITEM(x, 0);
+}
+
+static CTypeDescrObject *
+unexpected_fn_type(PyObject *x)
+{
+ CTypeDescrObject *ct = unwrap_fn_as_fnptr(x);
+ char *text1 = ct->ct_name;
+ char *text2 = text1 + ct->ct_name_position + 1;
+ assert(text2[-3] == '(');
+ text2[-3] = '\0';
+ PyErr_Format(FFIError, "the type '%s%s' is a function type, not a "
+ "pointer-to-function type", text1, text2);
+ text2[-3] = '(';
+ return NULL;
+}
+
+static PyObject *
+realize_c_type_or_func(builder_c_t *builder,
+ _cffi_opcode_t opcodes[], int index); /* forward */
+
+
+/* Interpret an opcodes[] array. If opcodes == ctx->types, store all
+ the intermediate types back in the opcodes[]. Returns a new
+ reference.
+*/
+static CTypeDescrObject *
+realize_c_type(builder_c_t *builder, _cffi_opcode_t opcodes[], int index)
+{
+ PyObject *x = realize_c_type_or_func(builder, opcodes, index);
+ if (x == NULL || CTypeDescr_Check(x))
+ return (CTypeDescrObject *)x;
+ else {
+ unexpected_fn_type(x);
+ Py_DECREF(x);
+ return NULL;
+ }
+}
+
+static void _realize_name(char *target, const char *prefix, const char *srcname)
+{
+ /* "xyz" => "struct xyz"
+ "$xyz" => "xyz"
+ "$1" => "struct $1"
+ */
+ if (srcname[0] == '$' && srcname[1] != '$' &&
+ !('0' <= srcname[1] && srcname[1] <= '9')) {
+ strcpy(target, &srcname[1]);
+ }
+ else {
+ strcpy(target, prefix);
+ strcat(target, srcname);
+ }
+}
+
+static void _unrealize_name(char *target, const char *srcname)
+{
+ /* reverse of _realize_name() */
+ if (strncmp(srcname, "struct ", 7) == 0) {
+ strcpy(target, &srcname[7]);
+ }
+ else if (strncmp(srcname, "union ", 6) == 0) {
+ strcpy(target, &srcname[6]);
+ }
+ else if (strncmp(srcname, "enum ", 5) == 0) {
+ strcpy(target, &srcname[5]);
+ }
+ else {
+ strcpy(target, "$");
+ strcat(target, srcname);
+ }
+}
+
+static PyObject * /* forward */
+_fetch_external_struct_or_union(const struct _cffi_struct_union_s *s,
+ PyObject *included_ffis, int recursion);
+
+static PyObject *
+_realize_c_struct_or_union(builder_c_t *builder, int sindex)
+{
+ PyObject *x;
+ _cffi_opcode_t op2;
+ const struct _cffi_struct_union_s *s;
+
+ if (sindex == _CFFI__IO_FILE_STRUCT) {
+ /* returns a single global cached opaque type */
+ static PyObject *file_struct = NULL;
+ if (file_struct == NULL)
+ file_struct = new_struct_or_union_type("FILE",
+ CT_STRUCT | CT_IS_FILE);
+ Py_XINCREF(file_struct);
+ return file_struct;
+ }
+
+ s = &builder->ctx.struct_unions[sindex];
+ op2 = builder->ctx.types[s->type_index];
+ if ((((uintptr_t)op2) & 1) == 0) {
+ x = (PyObject *)op2; /* found already in the "primary" slot */
+ Py_INCREF(x);
+ }
+ else {
+ CTypeDescrObject *ct = NULL;
+
+ if (!(s->flags & _CFFI_F_EXTERNAL)) {
+ int flags = (s->flags & _CFFI_F_UNION) ? CT_UNION : CT_STRUCT;
+ char *name = alloca(8 + strlen(s->name));
+ _realize_name(name,
+ (s->flags & _CFFI_F_UNION) ? "union " : "struct ",
+ s->name);
+ if (strcmp(name, "struct _IO_FILE") == 0)
+ x = _realize_c_struct_or_union(builder, _CFFI__IO_FILE_STRUCT);
+ else
+ x = new_struct_or_union_type(name, flags);
+ if (x == NULL)
+ return NULL;
+
+ if (!(s->flags & _CFFI_F_OPAQUE)) {
+ assert(s->first_field_index >= 0);
+ ct = (CTypeDescrObject *)x;
+ ct->ct_size = (Py_ssize_t)s->size;
+ ct->ct_length = s->alignment; /* may be -1 */
+ ct->ct_flags &= ~CT_IS_OPAQUE;
+ ct->ct_flags |= CT_LAZY_FIELD_LIST;
+ ct->ct_extra = builder;
+ }
+ else
+ assert(s->first_field_index < 0);
+ }
+ else {
+ assert(s->first_field_index < 0);
+ x = _fetch_external_struct_or_union(s, builder->included_ffis, 0);
+ if (x == NULL) {
+ if (!PyErr_Occurred())
+ PyErr_Format(FFIError, "'%s %.200s' should come from "
+ "ffi.include() but was not found",
+ (s->flags & _CFFI_F_UNION) ? "union"
+ : "struct", s->name);
+ return NULL;
+ }
+ if (!(s->flags & _CFFI_F_OPAQUE)) {
+ if (((CTypeDescrObject *)x)->ct_flags & CT_IS_OPAQUE) {
+ const char *prefix = (s->flags & _CFFI_F_UNION) ? "union"
+ : "struct";
+ PyErr_Format(PyExc_NotImplementedError,
+ "'%s %.200s' is opaque in the ffi.include(), "
+ "but no longer in the ffi doing the include "
+ "(workaround: don't use ffi.include() but "
+ "duplicate the declarations of everything "
+ "using %s %.200s)",
+ prefix, s->name, prefix, s->name);
+ Py_DECREF(x);
+ return NULL;
+ }
+ }
+ }
+
+ /* Update the "primary" OP_STRUCT_UNION slot */
+ assert((((uintptr_t)x) & 1) == 0);
+ assert(builder->ctx.types[s->type_index] == op2);
+ Py_INCREF(x);
+ builder->ctx.types[s->type_index] = x;
+
+ if (ct != NULL && s->size == (size_t)-2) {
+ /* oops, this struct is unnamed and we couldn't generate
+ a C expression to get its size. We have to rely on
+ complete_struct_or_union() to compute it now. */
+ if (do_realize_lazy_struct(ct) < 0) {
+ builder->ctx.types[s->type_index] = op2;
+ return NULL;
+ }
+ }
+ }
+ return x;
+}
+
+static PyObject *
+realize_c_type_or_func_now(builder_c_t *builder, _cffi_opcode_t op,
+ _cffi_opcode_t opcodes[], int index)
+{
+ PyObject *x, *y, *z;
+ Py_ssize_t length = -1;
+
+ switch (_CFFI_GETOP(op)) {
+
+ case _CFFI_OP_PRIMITIVE:
+ x = get_primitive_type(_CFFI_GETARG(op));
+ Py_XINCREF(x);
+ break;
+
+ case _CFFI_OP_POINTER:
+ y = realize_c_type_or_func(builder, opcodes, _CFFI_GETARG(op));
+ if (y == NULL)
+ return NULL;
+ if (CTypeDescr_Check(y)) {
+ x = new_pointer_type((CTypeDescrObject *)y);
+ }
+ else {
+ assert(PyTuple_Check(y)); /* from _CFFI_OP_FUNCTION */
+ x = PyTuple_GET_ITEM(y, 0);
+ Py_INCREF(x);
+ }
+ Py_DECREF(y);
+ break;
+
+ case _CFFI_OP_ARRAY:
+ length = (Py_ssize_t)opcodes[index + 1];
+ /* fall-through */
+ case _CFFI_OP_OPEN_ARRAY:
+ y = (PyObject *)realize_c_type(builder, opcodes, _CFFI_GETARG(op));
+ if (y == NULL)
+ return NULL;
+ z = new_pointer_type((CTypeDescrObject *)y);
+ Py_DECREF(y);
+ if (z == NULL)
+ return NULL;
+ x = new_array_type((CTypeDescrObject *)z, length);
+ Py_DECREF(z);
+ break;
+
+ case _CFFI_OP_STRUCT_UNION:
+ x = _realize_c_struct_or_union(builder, _CFFI_GETARG(op));
+ break;
+
+ case _CFFI_OP_ENUM:
+ {
+ const struct _cffi_enum_s *e;
+ _cffi_opcode_t op2;
+
+ e = &builder->ctx.enums[_CFFI_GETARG(op)];
+ op2 = builder->ctx.types[e->type_index];
+ if ((((uintptr_t)op2) & 1) == 0) {
+ x = (PyObject *)op2;
+ Py_INCREF(x);
+ }
+ else {
+ PyObject *enumerators = NULL, *enumvalues = NULL, *tmp;
+ Py_ssize_t i, j, n = 0;
+ const char *p;
+ int gindex;
+ PyObject *args;
+ PyObject *basetd = get_primitive_type(e->type_prim);
+ if (basetd == NULL)
+ return NULL;
+
+ if (*e->enumerators != '\0') {
+ n++;
+ for (p = e->enumerators; *p != '\0'; p++)
+ n += (*p == ',');
+ }
+ enumerators = PyTuple_New(n);
+ if (enumerators == NULL)
+ return NULL;
+
+ enumvalues = PyTuple_New(n);
+ if (enumvalues == NULL) {
+ Py_DECREF(enumerators);
+ return NULL;
+ }
+
+ p = e->enumerators;
+ for (i = 0; i < n; i++) {
+ j = 0;
+ while (p[j] != ',' && p[j] != '\0')
+ j++;
+ tmp = PyText_FromStringAndSize(p, j);
+ if (tmp == NULL)
+ break;
+ PyTuple_SET_ITEM(enumerators, i, tmp);
+
+ gindex = search_in_globals(&builder->ctx, p, j);
+ assert(gindex >= 0);
+ assert(builder->ctx.globals[gindex].type_op ==
+ _CFFI_OP(_CFFI_OP_ENUM, -1));
+
+ tmp = realize_global_int(builder, gindex);
+ if (tmp == NULL)
+ break;
+ PyTuple_SET_ITEM(enumvalues, i, tmp);
+
+ p += j + 1;
+ }
+
+ args = NULL;
+ if (!PyErr_Occurred()) {
+ char *name = alloca(6 + strlen(e->name));
+ _realize_name(name, "enum ", e->name);
+ args = Py_BuildValue("(sOOO)", name, enumerators,
+ enumvalues, basetd);
+ }
+ Py_DECREF(enumerators);
+ Py_DECREF(enumvalues);
+ if (args == NULL)
+ return NULL;
+
+ x = b_new_enum_type(NULL, args);
+ Py_DECREF(args);
+ if (x == NULL)
+ return NULL;
+
+ /* Update the "primary" _CFFI_OP_ENUM slot, which
+ may be the same or a different slot than the "current" one */
+ assert((((uintptr_t)x) & 1) == 0);
+ assert(builder->ctx.types[e->type_index] == op2);
+ Py_INCREF(x);
+ builder->ctx.types[e->type_index] = x;
+
+ /* Done, leave without updating the "current" slot because
+ it may be done already above. If not, never mind, the
+ next call to realize_c_type() will do it. */
+ return x;
+ }
+ break;
+ }
+
+ case _CFFI_OP_FUNCTION:
+ {
+ PyObject *fargs;
+ int i, base_index, num_args, ellipsis, abi;
+
+ y = (PyObject *)realize_c_type(builder, opcodes, _CFFI_GETARG(op));
+ if (y == NULL)
+ return NULL;
+
+ base_index = index + 1;
+ num_args = 0;
+ /* note that if the arguments are already built, they have a
+ pointer in the 'opcodes' array, and GETOP() returns a
+ random even value. But OP_FUNCTION_END is odd, so the
+ condition below still works correctly. */
+ while (_CFFI_GETOP(opcodes[base_index + num_args]) !=
+ _CFFI_OP_FUNCTION_END)
+ num_args++;
+
+ ellipsis = _CFFI_GETARG(opcodes[base_index + num_args]) & 0x01;
+ abi = _CFFI_GETARG(opcodes[base_index + num_args]) & 0xFE;
+ switch (abi) {
+ case 0:
+ abi = FFI_DEFAULT_ABI;
+ break;
+ case 2:
+#if defined(MS_WIN32) && !defined(_WIN64)
+ abi = FFI_STDCALL;
+#else
+ abi = FFI_DEFAULT_ABI;
+#endif
+ break;
+ default:
+ PyErr_Format(FFIError, "abi number %d not supported", abi);
+ Py_DECREF(y);
+ return NULL;
+ }
+
+ fargs = PyTuple_New(num_args);
+ if (fargs == NULL) {
+ Py_DECREF(y);
+ return NULL;
+ }
+
+ for (i = 0; i < num_args; i++) {
+ z = (PyObject *)realize_c_type(builder, opcodes, base_index + i);
+ if (z == NULL) {
+ Py_DECREF(fargs);
+ Py_DECREF(y);
+ return NULL;
+ }
+ PyTuple_SET_ITEM(fargs, i, z);
+ }
+
+ z = new_function_type(fargs, (CTypeDescrObject *)y, ellipsis, abi);
+ Py_DECREF(fargs);
+ Py_DECREF(y);
+ if (z == NULL)
+ return NULL;
+
+ x = PyTuple_Pack(1, z); /* hack: hide the CT_FUNCTIONPTR. it will
+ be revealed again by the OP_POINTER */
+ Py_DECREF(z);
+ break;
+ }
+
+ case _CFFI_OP_NOOP:
+ x = realize_c_type_or_func(builder, opcodes, _CFFI_GETARG(op));
+ break;
+
+ case _CFFI_OP_TYPENAME:
+ {
+ /* essential: the TYPENAME opcode resolves the type index looked
+ up in the 'ctx->typenames' array, but it does so in 'ctx->types'
+ instead of in 'opcodes'! */
+ int type_index = builder->ctx.typenames[_CFFI_GETARG(op)].type_index;
+ x = realize_c_type_or_func(builder, builder->ctx.types, type_index);
+ break;
+ }
+
+ default:
+ PyErr_Format(PyExc_NotImplementedError, "op=%d", (int)_CFFI_GETOP(op));
+ return NULL;
+ }
+
+ return x;
+}
+
+static int _realize_recursion_level;
+
+static PyObject *
+realize_c_type_or_func(builder_c_t *builder,
+ _cffi_opcode_t opcodes[], int index)
+{
+ PyObject *x;
+ _cffi_opcode_t op = opcodes[index];
+
+ if ((((uintptr_t)op) & 1) == 0) {
+ x = (PyObject *)op;
+ Py_INCREF(x);
+ return x;
+ }
+
+ if (_realize_recursion_level >= 1000) {
+ PyErr_Format(PyExc_RuntimeError,
+ "type-building recursion too deep or infinite. "
+ "This is known to occur e.g. in ``struct s { void(*callable)"
+ "(struct s); }''. Please report if you get this error and "
+ "really need support for your case.");
+ return NULL;
+ }
+ _realize_recursion_level++;
+ x = realize_c_type_or_func_now(builder, op, opcodes, index);
+ _realize_recursion_level--;
+
+ if (x != NULL && opcodes == builder->ctx.types && opcodes[index] != x) {
+ assert((((uintptr_t)x) & 1) == 0);
+ assert((((uintptr_t)opcodes[index]) & 1) == 1);
+ Py_INCREF(x);
+ opcodes[index] = x;
+ }
+ return x;
+}
+
+static CTypeDescrObject *
+realize_c_func_return_type(builder_c_t *builder,
+ _cffi_opcode_t opcodes[], int index)
+{
+ PyObject *x;
+ _cffi_opcode_t op = opcodes[index];
+
+ if ((((uintptr_t)op) & 1) == 0) {
+ /* already built: assert that it is a function and fish
+ for the return type */
+ x = (PyObject *)op;
+ assert(PyTuple_Check(x)); /* from _CFFI_OP_FUNCTION */
+ x = PyTuple_GET_ITEM(x, 0);
+ assert(CTypeDescr_Check(x));
+ assert(((CTypeDescrObject *)x)->ct_flags & CT_FUNCTIONPTR);
+ x = PyTuple_GET_ITEM(((CTypeDescrObject *)x)->ct_stuff, 1);
+ assert(CTypeDescr_Check(x));
+ Py_INCREF(x);
+ return (CTypeDescrObject *)x;
+ }
+ else {
+ assert(_CFFI_GETOP(op) == _CFFI_OP_FUNCTION);
+ return realize_c_type(builder, opcodes, _CFFI_GETARG(opcodes[index]));
+ }
+}
+
+static int do_realize_lazy_struct(CTypeDescrObject *ct)
+{
+ /* This is called by force_lazy_struct() in _cffi_backend.c */
+ assert(ct->ct_flags & (CT_STRUCT | CT_UNION));
+
+ if (ct->ct_flags & CT_LAZY_FIELD_LIST) {
+ builder_c_t *builder;
+ char *p;
+ int n, i, sflags;
+ const struct _cffi_struct_union_s *s;
+ const struct _cffi_field_s *fld;
+ PyObject *fields, *args, *res;
+
+ assert(!(ct->ct_flags & CT_IS_OPAQUE));
+
+ builder = ct->ct_extra;
+ assert(builder != NULL);
+
+ p = alloca(2 + strlen(ct->ct_name));
+ _unrealize_name(p, ct->ct_name);
+
+ n = search_in_struct_unions(&builder->ctx, p, strlen(p));
+ if (n < 0)
+ Py_FatalError("lost a struct/union!");
+
+ s = &builder->ctx.struct_unions[n];
+ fld = &builder->ctx.fields[s->first_field_index];
+
+ /* XXX painfully build all the Python objects that are the args
+ to b_complete_struct_or_union() */
+
+ fields = PyList_New(s->num_fields);
+ if (fields == NULL)
+ return -1;
+
+ for (i = 0; i < s->num_fields; i++, fld++) {
+ _cffi_opcode_t op = fld->field_type_op;
+ int fbitsize = -1;
+ PyObject *f;
+ CTypeDescrObject *ctf;
+
+ switch (_CFFI_GETOP(op)) {
+
+ case _CFFI_OP_BITFIELD:
+ assert(fld->field_size >= 0);
+ fbitsize = (int)fld->field_size;
+ /* fall-through */
+ case _CFFI_OP_NOOP:
+ ctf = realize_c_type(builder, builder->ctx.types,
+ _CFFI_GETARG(op));
+ break;
+
+ default:
+ Py_DECREF(fields);
+ PyErr_Format(PyExc_NotImplementedError, "field op=%d",
+ (int)_CFFI_GETOP(op));
+ return -1;
+ }
+
+ if (ctf != NULL && fld->field_offset == (size_t)-1) {
+ /* unnamed struct, with field positions and sizes entirely
+ determined by complete_struct_or_union() and not checked.
+ Or, bitfields (field_size >= 0), similarly not checked. */
+ assert(fld->field_size == (size_t)-1 || fbitsize >= 0);
+ }
+ else if (ctf == NULL || detect_custom_layout(ct, SF_STD_FIELD_POS,
+ ctf->ct_size, fld->field_size,
+ "wrong size for field '",
+ fld->name, "'") < 0) {
+ Py_DECREF(fields);
+ return -1;
+ }
+
+ f = Py_BuildValue("(sOin)", fld->name, ctf,
+ fbitsize, (Py_ssize_t)fld->field_offset);
+ if (f == NULL) {
+ Py_DECREF(fields);
+ return -1;
+ }
+ PyList_SET_ITEM(fields, i, f);
+ }
+
+ sflags = 0;
+ if (s->flags & _CFFI_F_CHECK_FIELDS)
+ sflags |= SF_STD_FIELD_POS;
+ if (s->flags & _CFFI_F_PACKED)
+ sflags |= SF_PACKED;
+
+ args = Py_BuildValue("(OOOnii)", ct, fields, Py_None,
+ (Py_ssize_t)s->size,
+ s->alignment,
+ sflags);
+ Py_DECREF(fields);
+ if (args == NULL)
+ return -1;
+
+ ct->ct_extra = NULL;
+ ct->ct_flags |= CT_IS_OPAQUE;
+ res = b_complete_struct_or_union(NULL, args);
+ ct->ct_flags &= ~CT_IS_OPAQUE;
+ Py_DECREF(args);
+
+ if (res == NULL) {
+ ct->ct_extra = builder;
+ return -1;
+ }
+
+ assert(ct->ct_stuff != NULL);
+ ct->ct_flags &= ~CT_LAZY_FIELD_LIST;
+ Py_DECREF(res);
+ return 1;
+ }
+ else {
+ assert(ct->ct_flags & CT_IS_OPAQUE);
+ return 0;
+ }
+}
diff --git a/contrib/python/cffi/py3/c/wchar_helper.h b/contrib/python/cffi/py3/c/wchar_helper.h
new file mode 100644
index 0000000000..399b55130b
--- /dev/null
+++ b/contrib/python/cffi/py3/c/wchar_helper.h
@@ -0,0 +1,246 @@
+/*
+ * wchar_t helpers
+ */
+
+typedef uint16_t cffi_char16_t;
+typedef uint32_t cffi_char32_t;
+
+
+#if Py_UNICODE_SIZE == 2
+
+/* Before Python 2.7, PyUnicode_FromWideChar is not able to convert
+ wchar_t values greater than 65535 into two-unicode-characters surrogates.
+ But even the Python 2.7 version doesn't detect wchar_t values that are
+ out of range(1114112), and just returns nonsense.
+
+ From cffi 1.11 we can't use it anyway, because we need a version
+ with char32_t input types.
+*/
+static PyObject *
+_my_PyUnicode_FromChar32(const cffi_char32_t *w, Py_ssize_t size)
+{
+ PyObject *unicode;
+ Py_ssize_t i;
+ Py_ssize_t alloc;
+ const cffi_char32_t *orig_w;
+
+ alloc = size;
+ orig_w = w;
+ for (i = size; i > 0; i--) {
+ if (*w > 0xFFFF)
+ alloc++;
+ w++;
+ }
+ w = orig_w;
+ unicode = PyUnicode_FromUnicode(NULL, alloc);
+ if (!unicode)
+ return NULL;
+
+ /* Copy the wchar_t data into the new object */
+ {
+ Py_UNICODE *u;
+ u = PyUnicode_AS_UNICODE(unicode);
+ for (i = size; i > 0; i--) {
+ if (*w > 0xFFFF) {
+ cffi_char32_t ordinal;
+ if (*w > 0x10FFFF) {
+ PyErr_Format(PyExc_ValueError,
+ "char32_t out of range for "
+ "conversion to unicode: 0x%x", (int)*w);
+ Py_DECREF(unicode);
+ return NULL;
+ }
+ ordinal = *w++;
+ ordinal -= 0x10000;
+ *u++ = 0xD800 | (ordinal >> 10);
+ *u++ = 0xDC00 | (ordinal & 0x3FF);
+ }
+ else
+ *u++ = *w++;
+ }
+ }
+ return unicode;
+}
+
+static PyObject *
+_my_PyUnicode_FromChar16(const cffi_char16_t *w, Py_ssize_t size)
+{
+ return PyUnicode_FromUnicode((const Py_UNICODE *)w, size);
+}
+
+#else /* Py_UNICODE_SIZE == 4 */
+
+static PyObject *
+_my_PyUnicode_FromChar32(const cffi_char32_t *w, Py_ssize_t size)
+{
+ return PyUnicode_FromUnicode((const Py_UNICODE *)w, size);
+}
+
+static PyObject *
+_my_PyUnicode_FromChar16(const cffi_char16_t *w, Py_ssize_t size)
+{
+ /* 'size' is the length of the 'w' array */
+ PyObject *result = PyUnicode_FromUnicode(NULL, size);
+
+ if (result != NULL) {
+ Py_UNICODE *u_base = PyUnicode_AS_UNICODE(result);
+ Py_UNICODE *u = u_base;
+
+ if (size == 1) { /* performance only */
+ *u = (cffi_char32_t)*w;
+ }
+ else {
+ while (size > 0) {
+ cffi_char32_t ch = *w++;
+ size--;
+ if (0xD800 <= ch && ch <= 0xDBFF && size > 0) {
+ cffi_char32_t ch2 = *w;
+ if (0xDC00 <= ch2 && ch2 <= 0xDFFF) {
+ ch = (((ch & 0x3FF)<<10) | (ch2 & 0x3FF)) + 0x10000;
+ w++;
+ size--;
+ }
+ }
+ *u++ = ch;
+ }
+ if (PyUnicode_Resize(&result, u - u_base) < 0) {
+ Py_DECREF(result);
+ return NULL;
+ }
+ }
+ }
+ return result;
+}
+
+#endif
+
+
+#define IS_SURROGATE(u) (0xD800 <= (u)[0] && (u)[0] <= 0xDBFF && \
+ 0xDC00 <= (u)[1] && (u)[1] <= 0xDFFF)
+#define AS_SURROGATE(u) (0x10000 + (((u)[0] - 0xD800) << 10) + \
+ ((u)[1] - 0xDC00))
+
+static int
+_my_PyUnicode_AsSingleChar16(PyObject *unicode, cffi_char16_t *result,
+ char *err_got)
+{
+ Py_UNICODE *u = PyUnicode_AS_UNICODE(unicode);
+ if (PyUnicode_GET_SIZE(unicode) != 1) {
+ sprintf(err_got, "unicode string of length %zd",
+ PyUnicode_GET_SIZE(unicode));
+ return -1;
+ }
+#if Py_UNICODE_SIZE == 4
+ if (((unsigned int)u[0]) > 0xFFFF)
+ {
+ sprintf(err_got, "larger-than-0xFFFF character");
+ return -1;
+ }
+#endif
+ *result = (cffi_char16_t)u[0];
+ return 0;
+}
+
+static int
+_my_PyUnicode_AsSingleChar32(PyObject *unicode, cffi_char32_t *result,
+ char *err_got)
+{
+ Py_UNICODE *u = PyUnicode_AS_UNICODE(unicode);
+ if (PyUnicode_GET_SIZE(unicode) == 1) {
+ *result = (cffi_char32_t)u[0];
+ return 0;
+ }
+#if Py_UNICODE_SIZE == 2
+ if (PyUnicode_GET_SIZE(unicode) == 2 && IS_SURROGATE(u)) {
+ *result = AS_SURROGATE(u);
+ return 0;
+ }
+#endif
+ sprintf(err_got, "unicode string of length %zd",
+ PyUnicode_GET_SIZE(unicode));
+ return -1;
+}
+
+static Py_ssize_t _my_PyUnicode_SizeAsChar16(PyObject *unicode)
+{
+ Py_ssize_t length = PyUnicode_GET_SIZE(unicode);
+ Py_ssize_t result = length;
+
+#if Py_UNICODE_SIZE == 4
+ Py_UNICODE *u = PyUnicode_AS_UNICODE(unicode);
+ Py_ssize_t i;
+
+ for (i=0; i<length; i++) {
+ if (u[i] > 0xFFFF)
+ result++;
+ }
+#endif
+ return result;
+}
+
+static Py_ssize_t _my_PyUnicode_SizeAsChar32(PyObject *unicode)
+{
+ Py_ssize_t length = PyUnicode_GET_SIZE(unicode);
+ Py_ssize_t result = length;
+
+#if Py_UNICODE_SIZE == 2
+ Py_UNICODE *u = PyUnicode_AS_UNICODE(unicode);
+ Py_ssize_t i;
+
+ for (i=0; i<length-1; i++) {
+ if (IS_SURROGATE(u+i))
+ result--;
+ }
+#endif
+ return result;
+}
+
+static int _my_PyUnicode_AsChar16(PyObject *unicode,
+ cffi_char16_t *result,
+ Py_ssize_t resultlen)
+{
+ Py_ssize_t len = PyUnicode_GET_SIZE(unicode);
+ Py_UNICODE *u = PyUnicode_AS_UNICODE(unicode);
+ Py_ssize_t i;
+ for (i=0; i<len; i++) {
+#if Py_UNICODE_SIZE == 2
+ cffi_char16_t ordinal = u[i];
+#else
+ cffi_char32_t ordinal = u[i];
+ if (ordinal > 0xFFFF) {
+ if (ordinal > 0x10FFFF) {
+ PyErr_Format(PyExc_ValueError,
+ "unicode character out of range for "
+ "conversion to char16_t: 0x%x", (int)ordinal);
+ return -1;
+ }
+ ordinal -= 0x10000;
+ *result++ = 0xD800 | (ordinal >> 10);
+ *result++ = 0xDC00 | (ordinal & 0x3FF);
+ continue;
+ }
+#endif
+ *result++ = ordinal;
+ }
+ return 0;
+}
+
+static int _my_PyUnicode_AsChar32(PyObject *unicode,
+ cffi_char32_t *result,
+ Py_ssize_t resultlen)
+{
+ Py_UNICODE *u = PyUnicode_AS_UNICODE(unicode);
+ Py_ssize_t i;
+ for (i=0; i<resultlen; i++) {
+ cffi_char32_t ordinal = *u;
+#if Py_UNICODE_SIZE == 2
+ if (IS_SURROGATE(u)) {
+ ordinal = AS_SURROGATE(u);
+ u++;
+ }
+#endif
+ result[i] = ordinal;
+ u++;
+ }
+ return 0;
+}
diff --git a/contrib/python/cffi/py3/c/wchar_helper_3.h b/contrib/python/cffi/py3/c/wchar_helper_3.h
new file mode 100644
index 0000000000..f15464ef60
--- /dev/null
+++ b/contrib/python/cffi/py3/c/wchar_helper_3.h
@@ -0,0 +1,149 @@
+/*
+ * wchar_t helpers, version CPython >= 3.3.
+ *
+ * CPython 3.3 added support for sys.maxunicode == 0x10FFFF on all
+ * platforms, even ones with wchar_t limited to 2 bytes. As such,
+ * this code here works from the outside like wchar_helper.h in the
+ * case Py_UNICODE_SIZE == 4, but the implementation is very different.
+ */
+
+typedef uint16_t cffi_char16_t;
+typedef uint32_t cffi_char32_t;
+
+
+static PyObject *
+_my_PyUnicode_FromChar32(const cffi_char32_t *w, Py_ssize_t size)
+{
+ return PyUnicode_FromKindAndData(PyUnicode_4BYTE_KIND, w, size);
+}
+
+static PyObject *
+_my_PyUnicode_FromChar16(const cffi_char16_t *w, Py_ssize_t size)
+{
+ /* are there any surrogate pairs, and if so, how many? */
+ Py_ssize_t i, count_surrogates = 0;
+ for (i = 0; i < size - 1; i++) {
+ if (0xD800 <= w[i] && w[i] <= 0xDBFF &&
+ 0xDC00 <= w[i+1] && w[i+1] <= 0xDFFF)
+ count_surrogates++;
+ }
+ if (count_surrogates == 0) {
+ /* no, fast path */
+ return PyUnicode_FromKindAndData(PyUnicode_2BYTE_KIND, w, size);
+ }
+ else
+ {
+ PyObject *result = PyUnicode_New(size - count_surrogates, 0x10FFFF);
+ Py_UCS4 *data;
+ assert(PyUnicode_KIND(result) == PyUnicode_4BYTE_KIND);
+ data = PyUnicode_4BYTE_DATA(result);
+
+ for (i = 0; i < size; i++)
+ {
+ cffi_char32_t ch = w[i];
+ if (0xD800 <= ch && ch <= 0xDBFF && i < size - 1) {
+ cffi_char32_t ch2 = w[i + 1];
+ if (0xDC00 <= ch2 && ch2 <= 0xDFFF) {
+ ch = (((ch & 0x3FF)<<10) | (ch2 & 0x3FF)) + 0x10000;
+ i++;
+ }
+ }
+ *data++ = ch;
+ }
+ return result;
+ }
+}
+
+static int
+_my_PyUnicode_AsSingleChar16(PyObject *unicode, cffi_char16_t *result,
+ char *err_got)
+{
+ cffi_char32_t ch;
+ if (PyUnicode_GET_LENGTH(unicode) != 1) {
+ sprintf(err_got, "unicode string of length %zd",
+ PyUnicode_GET_LENGTH(unicode));
+ return -1;
+ }
+ ch = PyUnicode_READ_CHAR(unicode, 0);
+
+ if (ch > 0xFFFF)
+ {
+ sprintf(err_got, "larger-than-0xFFFF character");
+ return -1;
+ }
+ *result = (cffi_char16_t)ch;
+ return 0;
+}
+
+static int
+_my_PyUnicode_AsSingleChar32(PyObject *unicode, cffi_char32_t *result,
+ char *err_got)
+{
+ if (PyUnicode_GET_LENGTH(unicode) != 1) {
+ sprintf(err_got, "unicode string of length %zd",
+ PyUnicode_GET_LENGTH(unicode));
+ return -1;
+ }
+ *result = PyUnicode_READ_CHAR(unicode, 0);
+ return 0;
+}
+
+static Py_ssize_t _my_PyUnicode_SizeAsChar16(PyObject *unicode)
+{
+ Py_ssize_t length = PyUnicode_GET_LENGTH(unicode);
+ Py_ssize_t result = length;
+ unsigned int kind = PyUnicode_KIND(unicode);
+
+ if (kind == PyUnicode_4BYTE_KIND)
+ {
+ Py_UCS4 *data = PyUnicode_4BYTE_DATA(unicode);
+ Py_ssize_t i;
+ for (i = 0; i < length; i++) {
+ if (data[i] > 0xFFFF)
+ result++;
+ }
+ }
+ return result;
+}
+
+static Py_ssize_t _my_PyUnicode_SizeAsChar32(PyObject *unicode)
+{
+ return PyUnicode_GET_LENGTH(unicode);
+}
+
+static int _my_PyUnicode_AsChar16(PyObject *unicode,
+ cffi_char16_t *result,
+ Py_ssize_t resultlen)
+{
+ Py_ssize_t len = PyUnicode_GET_LENGTH(unicode);
+ unsigned int kind = PyUnicode_KIND(unicode);
+ void *data = PyUnicode_DATA(unicode);
+ Py_ssize_t i;
+
+ for (i = 0; i < len; i++) {
+ cffi_char32_t ordinal = PyUnicode_READ(kind, data, i);
+ if (ordinal > 0xFFFF) {
+ if (ordinal > 0x10FFFF) {
+ PyErr_Format(PyExc_ValueError,
+ "unicode character out of range for "
+ "conversion to char16_t: 0x%x", (int)ordinal);
+ return -1;
+ }
+ ordinal -= 0x10000;
+ *result++ = 0xD800 | (ordinal >> 10);
+ *result++ = 0xDC00 | (ordinal & 0x3FF);
+ }
+ else
+ *result++ = ordinal;
+ }
+ return 0;
+}
+
+static int _my_PyUnicode_AsChar32(PyObject *unicode,
+ cffi_char32_t *result,
+ Py_ssize_t resultlen)
+{
+ if (PyUnicode_AsUCS4(unicode, (Py_UCS4 *)result, resultlen, 0) == NULL)
+ return -1;
+ return 0;
+}
diff --git a/contrib/python/cffi/py3/cffi/__init__.py b/contrib/python/cffi/py3/cffi/__init__.py
new file mode 100644
index 0000000000..90e2e6559d
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/__init__.py
@@ -0,0 +1,14 @@
+__all__ = ['FFI', 'VerificationError', 'VerificationMissing', 'CDefError',
+ 'FFIError']
+
+from .api import FFI
+from .error import CDefError, FFIError, VerificationError, VerificationMissing
+from .error import PkgConfigError
+
+__version__ = "1.15.1"
+__version_info__ = (1, 15, 1)
+
+# The verifier module file names are based on the CRC32 of a string that
+# contains the following version number. It may be older than __version__
+# if nothing is clearly incompatible.
+__version_verifier_modules__ = "0.8.6"
diff --git a/contrib/python/cffi/py3/cffi/_cffi_errors.h b/contrib/python/cffi/py3/cffi/_cffi_errors.h
new file mode 100644
index 0000000000..158e059034
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/_cffi_errors.h
@@ -0,0 +1,149 @@
+#ifndef CFFI_MESSAGEBOX
+# ifdef _MSC_VER
+# define CFFI_MESSAGEBOX 1
+# else
+# define CFFI_MESSAGEBOX 0
+# endif
+#endif
+
+
+#if CFFI_MESSAGEBOX
+/* Windows only: logic to take the Python-CFFI embedding logic
+ initialization errors and display them in a background thread
+ with MessageBox. The idea is that if the whole program closes
+ as a result of this problem, then likely it is already a console
+ program and you can read the stderr output in the console too.
+ If it is not a console program, then it will likely show its own
+ dialog to complain, or generally not abruptly close, and for this
+ case the background thread should stay alive.
+*/
+static void *volatile _cffi_bootstrap_text;
+
+static PyObject *_cffi_start_error_capture(void)
+{
+ PyObject *result = NULL;
+ PyObject *x, *m, *bi;
+
+ if (InterlockedCompareExchangePointer(&_cffi_bootstrap_text,
+ (void *)1, NULL) != NULL)
+ return (PyObject *)1;
+
+ m = PyImport_AddModule("_cffi_error_capture");
+ if (m == NULL)
+ goto error;
+
+ result = PyModule_GetDict(m);
+ if (result == NULL)
+ goto error;
+
+#if PY_MAJOR_VERSION >= 3
+ bi = PyImport_ImportModule("builtins");
+#else
+ bi = PyImport_ImportModule("__builtin__");
+#endif
+ if (bi == NULL)
+ goto error;
+ PyDict_SetItemString(result, "__builtins__", bi);
+ Py_DECREF(bi);
+
+ x = PyRun_String(
+ "import sys\n"
+ "class FileLike:\n"
+ " def write(self, x):\n"
+ " try:\n"
+ " of.write(x)\n"
+ " except: pass\n"
+ " self.buf += x\n"
+ " def flush(self):\n"
+ " pass\n"
+ "fl = FileLike()\n"
+ "fl.buf = ''\n"
+ "of = sys.stderr\n"
+ "sys.stderr = fl\n"
+ "def done():\n"
+ " sys.stderr = of\n"
+ " return fl.buf\n", /* make sure the returned value stays alive */
+ Py_file_input,
+ result, result);
+ Py_XDECREF(x);
+
+ error:
+ if (PyErr_Occurred())
+ {
+ PyErr_WriteUnraisable(Py_None);
+ PyErr_Clear();
+ }
+ return result;
+}
+
+#pragma comment(lib, "user32.lib")
+
+static DWORD WINAPI _cffi_bootstrap_dialog(LPVOID ignored)
+{
+ Sleep(666); /* may be interrupted if the whole process is closing */
+#if PY_MAJOR_VERSION >= 3
+ MessageBoxW(NULL, (wchar_t *)_cffi_bootstrap_text,
+ L"Python-CFFI error",
+ MB_OK | MB_ICONERROR);
+#else
+ MessageBoxA(NULL, (char *)_cffi_bootstrap_text,
+ "Python-CFFI error",
+ MB_OK | MB_ICONERROR);
+#endif
+ _cffi_bootstrap_text = NULL;
+ return 0;
+}
+
+static void _cffi_stop_error_capture(PyObject *ecap)
+{
+ PyObject *s;
+ void *text;
+
+ if (ecap == (PyObject *)1)
+ return;
+
+ if (ecap == NULL)
+ goto error;
+
+ s = PyRun_String("done()", Py_eval_input, ecap, ecap);
+ if (s == NULL)
+ goto error;
+
+ /* Show a dialog box, but in a background thread, and
+ never show multiple dialog boxes at once. */
+#if PY_MAJOR_VERSION >= 3
+ text = PyUnicode_AsWideCharString(s, NULL);
+#else
+ text = PyString_AsString(s);
+#endif
+
+ _cffi_bootstrap_text = text;
+
+ if (text != NULL)
+ {
+ HANDLE h;
+ h = CreateThread(NULL, 0, _cffi_bootstrap_dialog,
+ NULL, 0, NULL);
+ if (h != NULL)
+ CloseHandle(h);
+ }
+ /* decref the string, but it should stay alive as 'fl.buf'
+ in the small module above. It will really be freed only if
+ we later get another similar error. So it's a leak of at
+ most one copy of the small module. That's fine for this
+ situation which is usually a "fatal error" anyway. */
+ Py_DECREF(s);
+ PyErr_Clear();
+ return;
+
+ error:
+ _cffi_bootstrap_text = NULL;
+ PyErr_Clear();
+}
+
+#else
+
+static PyObject *_cffi_start_error_capture(void) { return NULL; }
+static void _cffi_stop_error_capture(PyObject *ecap) { }
+
+#endif
diff --git a/contrib/python/cffi/py3/cffi/_cffi_include.h b/contrib/python/cffi/py3/cffi/_cffi_include.h
new file mode 100644
index 0000000000..e4c0a67240
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/_cffi_include.h
@@ -0,0 +1,385 @@
+#define _CFFI_
+
+/* We try to define Py_LIMITED_API before including Python.h.
+
+ Mess: we can only define it if Py_DEBUG, Py_TRACE_REFS and
+ Py_REF_DEBUG are not defined. This is a best-effort approximation:
+ we can learn about Py_DEBUG from pyconfig.h, but it is unclear if
+ the same works for the other two macros. Py_DEBUG implies them,
+ but not the other way around.
+
+ The implementation is messy (issue #350): on Windows, with _MSC_VER,
+ we have to define Py_LIMITED_API even before including pyconfig.h.
+ In that case, we guess what pyconfig.h will do to the macros above,
+ and check our guess after the #include.
+
+ Note that on Windows, with CPython 3.x, you need >= 3.5 and virtualenv
+ version >= 16.0.0. With older versions of either, you don't get a
+ copy of PYTHON3.DLL in the virtualenv. We can't check the version of
+ CPython *before* we even include pyconfig.h. ffi.set_source() puts
+ a ``#define _CFFI_NO_LIMITED_API'' at the start of this file if it is
+ running on Windows < 3.5, as an attempt at fixing it, but that's
+ arguably wrong because it may not be the target version of Python.
+ Still better than nothing I guess. As another workaround, you can
+ remove the definition of Py_LIMITED_API here.
+
+ See also 'py_limited_api' in cffi/setuptools_ext.py.
+*/
+#if !defined(_CFFI_USE_EMBEDDING) && !defined(Py_LIMITED_API)
+# ifdef _MSC_VER
+# if !defined(_DEBUG) && !defined(Py_DEBUG) && !defined(Py_TRACE_REFS) && !defined(Py_REF_DEBUG) && !defined(_CFFI_NO_LIMITED_API)
+# define Py_LIMITED_API
+# endif
+# include <pyconfig.h>
+ /* sanity-check: Py_LIMITED_API will cause crashes if any of these
+ are also defined. Normally, the Python file PC/pyconfig.h does not
+ cause any of these to be defined, with the exception that _DEBUG
+ causes Py_DEBUG. Double-check that. */
+# ifdef Py_LIMITED_API
+# if defined(Py_DEBUG)
+# error "pyconfig.h unexpectedly defines Py_DEBUG, but Py_LIMITED_API is set"
+# endif
+# if defined(Py_TRACE_REFS)
+# error "pyconfig.h unexpectedly defines Py_TRACE_REFS, but Py_LIMITED_API is set"
+# endif
+# if defined(Py_REF_DEBUG)
+# error "pyconfig.h unexpectedly defines Py_REF_DEBUG, but Py_LIMITED_API is set"
+# endif
+# endif
+# else
+# include <pyconfig.h>
+# if !defined(Py_DEBUG) && !defined(Py_TRACE_REFS) && !defined(Py_REF_DEBUG) && !defined(_CFFI_NO_LIMITED_API)
+# define Py_LIMITED_API
+# endif
+# endif
+#endif
+
+#include <Python.h>
+#ifdef __cplusplus
+extern "C" {
+#endif
+#include <stddef.h>
+#include "parse_c_type.h"
+
+/* this block of #ifs should be kept exactly identical between
+ c/_cffi_backend.c, cffi/vengine_cpy.py, cffi/vengine_gen.py
+ and cffi/_cffi_include.h */
+#if defined(_MSC_VER)
+# include <malloc.h> /* for alloca() */
+# if _MSC_VER < 1600 /* MSVC < 2010 */
+ typedef __int8 int8_t;
+ typedef __int16 int16_t;
+ typedef __int32 int32_t;
+ typedef __int64 int64_t;
+ typedef unsigned __int8 uint8_t;
+ typedef unsigned __int16 uint16_t;
+ typedef unsigned __int32 uint32_t;
+ typedef unsigned __int64 uint64_t;
+ typedef __int8 int_least8_t;
+ typedef __int16 int_least16_t;
+ typedef __int32 int_least32_t;
+ typedef __int64 int_least64_t;
+ typedef unsigned __int8 uint_least8_t;
+ typedef unsigned __int16 uint_least16_t;
+ typedef unsigned __int32 uint_least32_t;
+ typedef unsigned __int64 uint_least64_t;
+ typedef __int8 int_fast8_t;
+ typedef __int16 int_fast16_t;
+ typedef __int32 int_fast32_t;
+ typedef __int64 int_fast64_t;
+ typedef unsigned __int8 uint_fast8_t;
+ typedef unsigned __int16 uint_fast16_t;
+ typedef unsigned __int32 uint_fast32_t;
+ typedef unsigned __int64 uint_fast64_t;
+ typedef __int64 intmax_t;
+ typedef unsigned __int64 uintmax_t;
+# else
+# include <stdint.h>
+# endif
+# if _MSC_VER < 1800 /* MSVC < 2013 */
+# ifndef __cplusplus
+ typedef unsigned char _Bool;
+# endif
+# endif
+#else
+# include <stdint.h>
+# if (defined (__SVR4) && defined (__sun)) || defined(_AIX) || defined(__hpux)
+# include <alloca.h>
+# endif
+#endif
+
+#ifdef __GNUC__
+# define _CFFI_UNUSED_FN __attribute__((unused))
+#else
+# define _CFFI_UNUSED_FN /* nothing */
+#endif
+
+#ifdef __cplusplus
+# ifndef _Bool
+ typedef bool _Bool; /* semi-hackish: C++ has no _Bool; bool is builtin */
+# endif
+#endif
+
+/********** CPython-specific section **********/
+#ifndef PYPY_VERSION
+
+
+#if PY_MAJOR_VERSION >= 3
+# define PyInt_FromLong PyLong_FromLong
+#endif
+
+#define _cffi_from_c_double PyFloat_FromDouble
+#define _cffi_from_c_float PyFloat_FromDouble
+#define _cffi_from_c_long PyInt_FromLong
+#define _cffi_from_c_ulong PyLong_FromUnsignedLong
+#define _cffi_from_c_longlong PyLong_FromLongLong
+#define _cffi_from_c_ulonglong PyLong_FromUnsignedLongLong
+#define _cffi_from_c__Bool PyBool_FromLong
+
+#define _cffi_to_c_double PyFloat_AsDouble
+#define _cffi_to_c_float PyFloat_AsDouble
+
+#define _cffi_from_c_int(x, type) \
+ (((type)-1) > 0 ? /* unsigned */ \
+ (sizeof(type) < sizeof(long) ? \
+ PyInt_FromLong((long)x) : \
+ sizeof(type) == sizeof(long) ? \
+ PyLong_FromUnsignedLong((unsigned long)x) : \
+ PyLong_FromUnsignedLongLong((unsigned long long)x)) : \
+ (sizeof(type) <= sizeof(long) ? \
+ PyInt_FromLong((long)x) : \
+ PyLong_FromLongLong((long long)x)))
+
+#define _cffi_to_c_int(o, type) \
+ ((type)( \
+ sizeof(type) == 1 ? (((type)-1) > 0 ? (type)_cffi_to_c_u8(o) \
+ : (type)_cffi_to_c_i8(o)) : \
+ sizeof(type) == 2 ? (((type)-1) > 0 ? (type)_cffi_to_c_u16(o) \
+ : (type)_cffi_to_c_i16(o)) : \
+ sizeof(type) == 4 ? (((type)-1) > 0 ? (type)_cffi_to_c_u32(o) \
+ : (type)_cffi_to_c_i32(o)) : \
+ sizeof(type) == 8 ? (((type)-1) > 0 ? (type)_cffi_to_c_u64(o) \
+ : (type)_cffi_to_c_i64(o)) : \
+ (Py_FatalError("unsupported size for type " #type), (type)0)))
+
+#define _cffi_to_c_i8 \
+ ((int(*)(PyObject *))_cffi_exports[1])
+#define _cffi_to_c_u8 \
+ ((int(*)(PyObject *))_cffi_exports[2])
+#define _cffi_to_c_i16 \
+ ((int(*)(PyObject *))_cffi_exports[3])
+#define _cffi_to_c_u16 \
+ ((int(*)(PyObject *))_cffi_exports[4])
+#define _cffi_to_c_i32 \
+ ((int(*)(PyObject *))_cffi_exports[5])
+#define _cffi_to_c_u32 \
+ ((unsigned int(*)(PyObject *))_cffi_exports[6])
+#define _cffi_to_c_i64 \
+ ((long long(*)(PyObject *))_cffi_exports[7])
+#define _cffi_to_c_u64 \
+ ((unsigned long long(*)(PyObject *))_cffi_exports[8])
+#define _cffi_to_c_char \
+ ((int(*)(PyObject *))_cffi_exports[9])
+#define _cffi_from_c_pointer \
+ ((PyObject *(*)(char *, struct _cffi_ctypedescr *))_cffi_exports[10])
+#define _cffi_to_c_pointer \
+ ((char *(*)(PyObject *, struct _cffi_ctypedescr *))_cffi_exports[11])
+#define _cffi_get_struct_layout \
+ not used any more
+#define _cffi_restore_errno \
+ ((void(*)(void))_cffi_exports[13])
+#define _cffi_save_errno \
+ ((void(*)(void))_cffi_exports[14])
+#define _cffi_from_c_char \
+ ((PyObject *(*)(char))_cffi_exports[15])
+#define _cffi_from_c_deref \
+ ((PyObject *(*)(char *, struct _cffi_ctypedescr *))_cffi_exports[16])
+#define _cffi_to_c \
+ ((int(*)(char *, struct _cffi_ctypedescr *, PyObject *))_cffi_exports[17])
+#define _cffi_from_c_struct \
+ ((PyObject *(*)(char *, struct _cffi_ctypedescr *))_cffi_exports[18])
+#define _cffi_to_c_wchar_t \
+ ((_cffi_wchar_t(*)(PyObject *))_cffi_exports[19])
+#define _cffi_from_c_wchar_t \
+ ((PyObject *(*)(_cffi_wchar_t))_cffi_exports[20])
+#define _cffi_to_c_long_double \
+ ((long double(*)(PyObject *))_cffi_exports[21])
+#define _cffi_to_c__Bool \
+ ((_Bool(*)(PyObject *))_cffi_exports[22])
+#define _cffi_prepare_pointer_call_argument \
+ ((Py_ssize_t(*)(struct _cffi_ctypedescr *, \
+ PyObject *, char **))_cffi_exports[23])
+#define _cffi_convert_array_from_object \
+ ((int(*)(char *, struct _cffi_ctypedescr *, PyObject *))_cffi_exports[24])
+#define _CFFI_CPIDX 25
+#define _cffi_call_python \
+ ((void(*)(struct _cffi_externpy_s *, char *))_cffi_exports[_CFFI_CPIDX])
+#define _cffi_to_c_wchar3216_t \
+ ((int(*)(PyObject *))_cffi_exports[26])
+#define _cffi_from_c_wchar3216_t \
+ ((PyObject *(*)(int))_cffi_exports[27])
+#define _CFFI_NUM_EXPORTS 28
+
+struct _cffi_ctypedescr;
+
+static void *_cffi_exports[_CFFI_NUM_EXPORTS];
+
+#define _cffi_type(index) ( \
+ assert((((uintptr_t)_cffi_types[index]) & 1) == 0), \
+ (struct _cffi_ctypedescr *)_cffi_types[index])
+
+static PyObject *_cffi_init(const char *module_name, Py_ssize_t version,
+ const struct _cffi_type_context_s *ctx)
+{
+ PyObject *module, *o_arg, *new_module;
+ void *raw[] = {
+ (void *)module_name,
+ (void *)version,
+ (void *)_cffi_exports,
+ (void *)ctx,
+ };
+
+ module = PyImport_ImportModule("_cffi_backend");
+ if (module == NULL)
+ goto failure;
+
+ o_arg = PyLong_FromVoidPtr((void *)raw);
+ if (o_arg == NULL)
+ goto failure;
+
+ new_module = PyObject_CallMethod(
+ module, (char *)"_init_cffi_1_0_external_module", (char *)"O", o_arg);
+
+ Py_DECREF(o_arg);
+ Py_DECREF(module);
+ return new_module;
+
+ failure:
+ Py_XDECREF(module);
+ return NULL;
+}
+
+
+#ifdef HAVE_WCHAR_H
+typedef wchar_t _cffi_wchar_t;
+#else
+typedef uint16_t _cffi_wchar_t; /* same random pick as _cffi_backend.c */
+#endif
+
+_CFFI_UNUSED_FN static uint16_t _cffi_to_c_char16_t(PyObject *o)
+{
+ if (sizeof(_cffi_wchar_t) == 2)
+ return (uint16_t)_cffi_to_c_wchar_t(o);
+ else
+ return (uint16_t)_cffi_to_c_wchar3216_t(o);
+}
+
+_CFFI_UNUSED_FN static PyObject *_cffi_from_c_char16_t(uint16_t x)
+{
+ if (sizeof(_cffi_wchar_t) == 2)
+ return _cffi_from_c_wchar_t((_cffi_wchar_t)x);
+ else
+ return _cffi_from_c_wchar3216_t((int)x);
+}
+
+_CFFI_UNUSED_FN static int _cffi_to_c_char32_t(PyObject *o)
+{
+ if (sizeof(_cffi_wchar_t) == 4)
+ return (int)_cffi_to_c_wchar_t(o);
+ else
+ return (int)_cffi_to_c_wchar3216_t(o);
+}
+
+_CFFI_UNUSED_FN static PyObject *_cffi_from_c_char32_t(unsigned int x)
+{
+ if (sizeof(_cffi_wchar_t) == 4)
+ return _cffi_from_c_wchar_t((_cffi_wchar_t)x);
+ else
+ return _cffi_from_c_wchar3216_t((int)x);
+}
+
+union _cffi_union_alignment_u {
+ unsigned char m_char;
+ unsigned short m_short;
+ unsigned int m_int;
+ unsigned long m_long;
+ unsigned long long m_longlong;
+ float m_float;
+ double m_double;
+ long double m_longdouble;
+};
+
+struct _cffi_freeme_s {
+ struct _cffi_freeme_s *next;
+ union _cffi_union_alignment_u alignment;
+};
+
+_CFFI_UNUSED_FN static int
+_cffi_convert_array_argument(struct _cffi_ctypedescr *ctptr, PyObject *arg,
+ char **output_data, Py_ssize_t datasize,
+ struct _cffi_freeme_s **freeme)
+{
+ char *p;
+ if (datasize < 0)
+ return -1;
+
+ p = *output_data;
+ if (p == NULL) {
+ struct _cffi_freeme_s *fp = (struct _cffi_freeme_s *)PyObject_Malloc(
+ offsetof(struct _cffi_freeme_s, alignment) + (size_t)datasize);
+ if (fp == NULL)
+ return -1;
+ fp->next = *freeme;
+ *freeme = fp;
+ p = *output_data = (char *)&fp->alignment;
+ }
+ memset((void *)p, 0, (size_t)datasize);
+ return _cffi_convert_array_from_object(p, ctptr, arg);
+}
+
+_CFFI_UNUSED_FN static void
+_cffi_free_array_arguments(struct _cffi_freeme_s *freeme)
+{
+ do {
+ void *p = (void *)freeme;
+ freeme = freeme->next;
+ PyObject_Free(p);
+ } while (freeme != NULL);
+}
+
+/********** end CPython-specific section **********/
+#else
+_CFFI_UNUSED_FN
+static void (*_cffi_call_python_org)(struct _cffi_externpy_s *, char *);
+# define _cffi_call_python _cffi_call_python_org
+#endif
+
+
+#define _cffi_array_len(array) (sizeof(array) / sizeof((array)[0]))
+
+#define _cffi_prim_int(size, sign) \
+ ((size) == 1 ? ((sign) ? _CFFI_PRIM_INT8 : _CFFI_PRIM_UINT8) : \
+ (size) == 2 ? ((sign) ? _CFFI_PRIM_INT16 : _CFFI_PRIM_UINT16) : \
+ (size) == 4 ? ((sign) ? _CFFI_PRIM_INT32 : _CFFI_PRIM_UINT32) : \
+ (size) == 8 ? ((sign) ? _CFFI_PRIM_INT64 : _CFFI_PRIM_UINT64) : \
+ _CFFI__UNKNOWN_PRIM)
+
+#define _cffi_prim_float(size) \
+ ((size) == sizeof(float) ? _CFFI_PRIM_FLOAT : \
+ (size) == sizeof(double) ? _CFFI_PRIM_DOUBLE : \
+ (size) == sizeof(long double) ? _CFFI__UNKNOWN_LONG_DOUBLE : \
+ _CFFI__UNKNOWN_FLOAT_PRIM)
+
+#define _cffi_check_int(got, got_nonpos, expected) \
+ ((got_nonpos) == (expected <= 0) && \
+ (got) == (unsigned long long)expected)
+
+#ifdef MS_WIN32
+# define _cffi_stdcall __stdcall
+#else
+# define _cffi_stdcall /* nothing */
+#endif
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/contrib/python/cffi/py3/cffi/_embedding.h b/contrib/python/cffi/py3/cffi/_embedding.h
new file mode 100644
index 0000000000..8e8df882d4
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/_embedding.h
@@ -0,0 +1,528 @@
+
+/***** Support code for embedding *****/
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+#if defined(_WIN32)
+# define CFFI_DLLEXPORT __declspec(dllexport)
+#elif defined(__GNUC__)
+# define CFFI_DLLEXPORT __attribute__((visibility("default")))
+#else
+# define CFFI_DLLEXPORT /* nothing */
+#endif
+
+
+/* There are two global variables of type _cffi_call_python_fnptr:
+
+ * _cffi_call_python, which we declare just below, is the one called
+ by ``extern "Python"`` implementations.
+
+ * _cffi_call_python_org, which on CPython is actually part of the
+ _cffi_exports[] array, is the function pointer copied from
+ _cffi_backend. If _cffi_start_python() fails, then this is set
+ to NULL; otherwise, it should never be NULL.
+
+ After initialization is complete, both are equal. However, the
+ first one remains equal to &_cffi_start_and_call_python until the
+ very end of initialization, when we are (or should be) sure that
+ concurrent threads also see a completely initialized world, and
+ only then is it changed.
+*/
+#undef _cffi_call_python
+typedef void (*_cffi_call_python_fnptr)(struct _cffi_externpy_s *, char *);
+static void _cffi_start_and_call_python(struct _cffi_externpy_s *, char *);
+static _cffi_call_python_fnptr _cffi_call_python = &_cffi_start_and_call_python;
+
+
+#ifndef _MSC_VER
+ /* --- Assuming a GCC not infinitely old --- */
+# define cffi_compare_and_swap(l,o,n) __sync_bool_compare_and_swap(l,o,n)
+# define cffi_write_barrier() __sync_synchronize()
+# if !defined(__amd64__) && !defined(__x86_64__) && \
+ !defined(__i386__) && !defined(__i386)
+# define cffi_read_barrier() __sync_synchronize()
+# else
+# define cffi_read_barrier() (void)0
+# endif
+#else
+ /* --- Windows threads version --- */
+# include <Windows.h>
+# define cffi_compare_and_swap(l,o,n) \
+ (InterlockedCompareExchangePointer(l,n,o) == (o))
+# define cffi_write_barrier() InterlockedCompareExchange(&_cffi_dummy,0,0)
+# define cffi_read_barrier() (void)0
+static volatile LONG _cffi_dummy;
+#endif
+
+#ifdef WITH_THREAD
+# ifndef _MSC_VER
+# include <pthread.h>
+ static pthread_mutex_t _cffi_embed_startup_lock;
+# else
+ static CRITICAL_SECTION _cffi_embed_startup_lock;
+# endif
+ static char _cffi_embed_startup_lock_ready = 0;
+#endif
+
+static void _cffi_acquire_reentrant_mutex(void)
+{
+ static void *volatile lock = NULL;
+
+ while (!cffi_compare_and_swap(&lock, NULL, (void *)1)) {
+ /* should ideally do a spin loop instruction here, but
+ hard to do it portably and doesn't really matter I
+ think: pthread_mutex_init() should be very fast, and
+ this is only run at start-up anyway. */
+ }
+
+#ifdef WITH_THREAD
+ if (!_cffi_embed_startup_lock_ready) {
+# ifndef _MSC_VER
+ pthread_mutexattr_t attr;
+ pthread_mutexattr_init(&attr);
+ pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE);
+ pthread_mutex_init(&_cffi_embed_startup_lock, &attr);
+# else
+ InitializeCriticalSection(&_cffi_embed_startup_lock);
+# endif
+ _cffi_embed_startup_lock_ready = 1;
+ }
+#endif
+
+ while (!cffi_compare_and_swap(&lock, (void *)1, NULL))
+ ;
+
+#ifndef _MSC_VER
+ pthread_mutex_lock(&_cffi_embed_startup_lock);
+#else
+ EnterCriticalSection(&_cffi_embed_startup_lock);
+#endif
+}
+
+static void _cffi_release_reentrant_mutex(void)
+{
+#ifndef _MSC_VER
+ pthread_mutex_unlock(&_cffi_embed_startup_lock);
+#else
+ LeaveCriticalSection(&_cffi_embed_startup_lock);
+#endif
+}
+
+
+/********** CPython-specific section **********/
+#ifndef PYPY_VERSION
+
+#include "_cffi_errors.h"
+
+
+#define _cffi_call_python_org _cffi_exports[_CFFI_CPIDX]
+
+PyMODINIT_FUNC _CFFI_PYTHON_STARTUP_FUNC(void); /* forward */
+
+static void _cffi_py_initialize(void)
+{
+ /* XXX use initsigs=0, which "skips initialization registration of
+ signal handlers, which might be useful when Python is
+ embedded" according to the Python docs. But review and think
+ if it should be a user-controllable setting.
+
+ XXX we should also give a way to write errors to a buffer
+ instead of to stderr.
+
+ XXX if importing 'site' fails, CPython (any version) calls
+ exit(). Should we try to work around this behavior here?
+ */
+ Py_InitializeEx(0);
+}
+
+static int _cffi_initialize_python(void)
+{
+ /* This initializes Python, imports _cffi_backend, and then the
+ present .dll/.so is set up as a CPython C extension module.
+ */
+ int result;
+ PyGILState_STATE state;
+ PyObject *pycode=NULL, *global_dict=NULL, *x;
+ PyObject *builtins;
+
+ state = PyGILState_Ensure();
+
+ /* Call the initxxx() function from the present module. It will
+ create and initialize us as a CPython extension module, instead
+ of letting the startup Python code do it---it might reimport
+ the same .dll/.so and get maybe confused on some platforms.
+ It might also have troubles locating the .dll/.so again for all
+ I know.
+ */
+ (void)_CFFI_PYTHON_STARTUP_FUNC();
+ if (PyErr_Occurred())
+ goto error;
+
+ /* Now run the Python code provided to ffi.embedding_init_code().
+ */
+ pycode = Py_CompileString(_CFFI_PYTHON_STARTUP_CODE,
+ "<init code for '" _CFFI_MODULE_NAME "'>",
+ Py_file_input);
+ if (pycode == NULL)
+ goto error;
+ global_dict = PyDict_New();
+ if (global_dict == NULL)
+ goto error;
+ builtins = PyEval_GetBuiltins();
+ if (builtins == NULL)
+ goto error;
+ if (PyDict_SetItemString(global_dict, "__builtins__", builtins) < 0)
+ goto error;
+ x = PyEval_EvalCode(
+#if PY_MAJOR_VERSION < 3
+ (PyCodeObject *)
+#endif
+ pycode, global_dict, global_dict);
+ if (x == NULL)
+ goto error;
+ Py_DECREF(x);
+
+ /* Done! Now if we've been called from
+ _cffi_start_and_call_python() in an ``extern "Python"``, we can
+ only hope that the Python code did correctly set up the
+ corresponding @ffi.def_extern() function. Otherwise, the
+ general logic of ``extern "Python"`` functions (inside the
+ _cffi_backend module) will find that the reference is still
+ missing and print an error.
+ */
+ result = 0;
+ done:
+ Py_XDECREF(pycode);
+ Py_XDECREF(global_dict);
+ PyGILState_Release(state);
+ return result;
+
+ error:;
+ {
+ /* Print as much information as potentially useful.
+ Debugging load-time failures with embedding is not fun
+ */
+ PyObject *ecap;
+ PyObject *exception, *v, *tb, *f, *modules, *mod;
+ PyErr_Fetch(&exception, &v, &tb);
+ ecap = _cffi_start_error_capture();
+ f = PySys_GetObject((char *)"stderr");
+ if (f != NULL && f != Py_None) {
+ PyFile_WriteString(
+ "Failed to initialize the Python-CFFI embedding logic:\n\n", f);
+ }
+
+ if (exception != NULL) {
+ PyErr_NormalizeException(&exception, &v, &tb);
+ PyErr_Display(exception, v, tb);
+ }
+ Py_XDECREF(exception);
+ Py_XDECREF(v);
+ Py_XDECREF(tb);
+
+ if (f != NULL && f != Py_None) {
+ PyFile_WriteString("\nFrom: " _CFFI_MODULE_NAME
+ "\ncompiled with cffi version: 1.15.1"
+ "\n_cffi_backend module: ", f);
+ modules = PyImport_GetModuleDict();
+ mod = PyDict_GetItemString(modules, "_cffi_backend");
+ if (mod == NULL) {
+ PyFile_WriteString("not loaded", f);
+ }
+ else {
+ v = PyObject_GetAttrString(mod, "__file__");
+ PyFile_WriteObject(v, f, 0);
+ Py_XDECREF(v);
+ }
+ PyFile_WriteString("\nsys.path: ", f);
+ PyFile_WriteObject(PySys_GetObject((char *)"path"), f, 0);
+ PyFile_WriteString("\n\n", f);
+ }
+ _cffi_stop_error_capture(ecap);
+ }
+ result = -1;
+ goto done;
+}
+
+#if PY_VERSION_HEX < 0x03080000
+PyAPI_DATA(char *) _PyParser_TokenNames[]; /* from CPython */
+#endif
+
+static int _cffi_carefully_make_gil(void)
+{
+ /* This does the basic initialization of Python. It can be called
+ completely concurrently from unrelated threads. It assumes
+ that we don't hold the GIL before (if it exists), and we don't
+ hold it afterwards.
+
+ (What it really does used to be completely different in Python 2
+ and Python 3, with the Python 2 solution avoiding the spin-lock
+ around the Py_InitializeEx() call. However, after recent changes
+ to CPython 2.7 (issue #358) it no longer works. So we use the
+ Python 3 solution everywhere.)
+
+ This initializes Python by calling Py_InitializeEx().
+ Important: this must not be called concurrently at all.
+ So we use a global variable as a simple spin lock. This global
+ variable must be from 'libpythonX.Y.so', not from this
+ cffi-based extension module, because it must be shared from
+ different cffi-based extension modules.
+
+ In Python < 3.8, we choose
+ _PyParser_TokenNames[0] as a completely arbitrary pointer value
+ that is never written to. The default is to point to the
+ string "ENDMARKER". We change it temporarily to point to the
+ next character in that string. (Yes, I know it's REALLY
+ obscure.)
+
+ In Python >= 3.8, this string array is no longer writable, so
+ instead we pick PyCapsuleType.tp_version_tag. We can't change
+ Python < 3.8 because someone might use a mixture of cffi
+ embedded modules, some of which were compiled before this file
+ changed.
+ */
+
+#ifdef WITH_THREAD
+# if PY_VERSION_HEX < 0x03080000
+ char *volatile *lock = (char *volatile *)_PyParser_TokenNames;
+ char *old_value, *locked_value;
+
+ while (1) { /* spin loop */
+ old_value = *lock;
+ locked_value = old_value + 1;
+ if (old_value[0] == 'E') {
+ assert(old_value[1] == 'N');
+ if (cffi_compare_and_swap(lock, old_value, locked_value))
+ break;
+ }
+ else {
+ assert(old_value[0] == 'N');
+ /* should ideally do a spin loop instruction here, but
+ hard to do it portably and doesn't really matter I
+ think: PyEval_InitThreads() should be very fast, and
+ this is only run at start-up anyway. */
+ }
+ }
+# else
+ int volatile *lock = (int volatile *)&PyCapsule_Type.tp_version_tag;
+ int old_value, locked_value;
+ assert(!(PyCapsule_Type.tp_flags & Py_TPFLAGS_HAVE_VERSION_TAG));
+
+ while (1) { /* spin loop */
+ old_value = *lock;
+ locked_value = -42;
+ if (old_value == 0) {
+ if (cffi_compare_and_swap(lock, old_value, locked_value))
+ break;
+ }
+ else {
+ assert(old_value == locked_value);
+ /* should ideally do a spin loop instruction here, but
+ hard to do it portably and doesn't really matter I
+ think: PyEval_InitThreads() should be very fast, and
+ this is only run at start-up anyway. */
+ }
+ }
+# endif
+#endif
+
+ /* call Py_InitializeEx() */
+ if (!Py_IsInitialized()) {
+ _cffi_py_initialize();
+#if PY_VERSION_HEX < 0x03070000
+ PyEval_InitThreads();
+#endif
+ PyEval_SaveThread(); /* release the GIL */
+ /* the returned tstate must be the one that has been stored into the
+ autoTLSkey by _PyGILState_Init() called from Py_Initialize(). */
+ }
+ else {
+#if PY_VERSION_HEX < 0x03070000
+ /* PyEval_InitThreads() is always a no-op from CPython 3.7 */
+ PyGILState_STATE state = PyGILState_Ensure();
+ PyEval_InitThreads();
+ PyGILState_Release(state);
+#endif
+ }
+
+#ifdef WITH_THREAD
+ /* release the lock */
+ while (!cffi_compare_and_swap(lock, locked_value, old_value))
+ ;
+#endif
+
+ return 0;
+}
+
+/********** end CPython-specific section **********/
+
+
+#else
+
+
+/********** PyPy-specific section **********/
+
+PyMODINIT_FUNC _CFFI_PYTHON_STARTUP_FUNC(const void *[]); /* forward */
+
+static struct _cffi_pypy_init_s {
+ const char *name;
+ void *func; /* function pointer */
+ const char *code;
+} _cffi_pypy_init = {
+ _CFFI_MODULE_NAME,
+ _CFFI_PYTHON_STARTUP_FUNC,
+ _CFFI_PYTHON_STARTUP_CODE,
+};
+
+extern int pypy_carefully_make_gil(const char *);
+extern int pypy_init_embedded_cffi_module(int, struct _cffi_pypy_init_s *);
+
+static int _cffi_carefully_make_gil(void)
+{
+ return pypy_carefully_make_gil(_CFFI_MODULE_NAME);
+}
+
+static int _cffi_initialize_python(void)
+{
+ return pypy_init_embedded_cffi_module(0xB011, &_cffi_pypy_init);
+}
+
+/********** end PyPy-specific section **********/
+
+
+#endif
+
+
+#ifdef __GNUC__
+__attribute__((noinline))
+#endif
+static _cffi_call_python_fnptr _cffi_start_python(void)
+{
+ /* Delicate logic to initialize Python. This function can be
+ called multiple times concurrently, e.g. when the process calls
+ its first ``extern "Python"`` functions in multiple threads at
+ once. It can also be called recursively, in which case we must
+ ignore it. We also have to consider what occurs if several
+ different cffi-based extensions reach this code in parallel
+ threads---it is a different copy of the code, then, and we
+ can't have any shared global variable unless it comes from
+ 'libpythonX.Y.so'.
+
+ Idea:
+
+ * _cffi_carefully_make_gil(): "carefully" call
+ PyEval_InitThreads() (possibly with Py_InitializeEx() first).
+
+ * then we use a (local) custom lock to make sure that a call to this
+ cffi-based extension will wait if another call to the *same*
+ extension is running the initialization in another thread.
+ It is reentrant, so that a recursive call will not block, but
+ only one from a different thread.
+
+ * then we grab the GIL and (Python 2) we call Py_InitializeEx().
+ At this point, concurrent calls to Py_InitializeEx() are not
+ possible: we have the GIL.
+
+ * do the rest of the specific initialization, which may
+ temporarily release the GIL but not the custom lock.
+ Only release the custom lock when we are done.
+ */
+ static char called = 0;
+
+ if (_cffi_carefully_make_gil() != 0)
+ return NULL;
+
+ _cffi_acquire_reentrant_mutex();
+
+ /* Here the GIL exists, but we don't have it. We're only protected
+ from concurrency by the reentrant mutex. */
+
+ /* This file only initializes the embedded module once, the first
+ time this is called, even if there are subinterpreters. */
+ if (!called) {
+ called = 1; /* invoke _cffi_initialize_python() only once,
+ but don't set '_cffi_call_python' right now,
+ otherwise concurrent threads won't call
+ this function at all (we need them to wait) */
+ if (_cffi_initialize_python() == 0) {
+ /* now initialization is finished. Switch to the fast-path. */
+
+ /* We would like nobody to see the new value of
+ '_cffi_call_python' without also seeing the rest of the
+ data initialized. However, this is not possible. But
+ the new value of '_cffi_call_python' is the function
+ 'cffi_call_python()' from _cffi_backend. So: */
+ cffi_write_barrier();
+ /* ^^^ we put a write barrier here, and a corresponding
+ read barrier at the start of cffi_call_python(). This
+ ensures that after that read barrier, we see everything
+ done here before the write barrier.
+ */
+
+ assert(_cffi_call_python_org != NULL);
+ _cffi_call_python = (_cffi_call_python_fnptr)_cffi_call_python_org;
+ }
+ else {
+ /* initialization failed. Reset this to NULL, even if it was
+ already set to some other value. Future calls to
+ _cffi_start_python() are still forced to occur, and will
+ always return NULL from now on. */
+ _cffi_call_python_org = NULL;
+ }
+ }
+
+ _cffi_release_reentrant_mutex();
+
+ return (_cffi_call_python_fnptr)_cffi_call_python_org;
+}
+
+static
+void _cffi_start_and_call_python(struct _cffi_externpy_s *externpy, char *args)
+{
+ _cffi_call_python_fnptr fnptr;
+ int current_err = errno;
+#ifdef _MSC_VER
+ int current_lasterr = GetLastError();
+#endif
+ fnptr = _cffi_start_python();
+ if (fnptr == NULL) {
+ fprintf(stderr, "function %s() called, but initialization code "
+ "failed. Returning 0.\n", externpy->name);
+ memset(args, 0, externpy->size_of_result);
+ }
+#ifdef _MSC_VER
+ SetLastError(current_lasterr);
+#endif
+ errno = current_err;
+
+ if (fnptr != NULL)
+ fnptr(externpy, args);
+}
+
+
+/* The cffi_start_python() function makes sure Python is initialized
+ and our cffi module is set up. It can be called manually from the
+ user C code. The same effect is obtained automatically from any
+ dll-exported ``extern "Python"`` function. This function returns
+ -1 if initialization failed, 0 if all is OK. */
+_CFFI_UNUSED_FN
+static int cffi_start_python(void)
+{
+ if (_cffi_call_python == &_cffi_start_and_call_python) {
+ if (_cffi_start_python() == NULL)
+ return -1;
+ }
+ cffi_read_barrier();
+ return 0;
+}
+
+#undef cffi_compare_and_swap
+#undef cffi_write_barrier
+#undef cffi_read_barrier
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/contrib/python/cffi/py3/cffi/api.py b/contrib/python/cffi/py3/cffi/api.py
new file mode 100644
index 0000000000..999a8aefc4
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/api.py
@@ -0,0 +1,965 @@
+import sys, types
+from .lock import allocate_lock
+from .error import CDefError
+from . import model
+
+try:
+ callable
+except NameError:
+ # Python 3.1
+ from collections import Callable
+ callable = lambda x: isinstance(x, Callable)
+
+try:
+ basestring
+except NameError:
+ # Python 3.x
+ basestring = str
+
+_unspecified = object()
+
+
+
+class FFI(object):
+ r'''
+ The main top-level class that you instantiate once, or once per module.
+
+ Example usage:
+
+ ffi = FFI()
+ ffi.cdef("""
+ int printf(const char *, ...);
+ """)
+
+ C = ffi.dlopen(None) # standard library
+ -or-
+ C = ffi.verify() # use a C compiler: verify the decl above is right
+
+ C.printf("hello, %s!\n", ffi.new("char[]", "world"))
+ '''
+
+ def __init__(self, backend=None):
+ """Create an FFI instance. The 'backend' argument is used to
+ select a non-default backend, mostly for tests.
+ """
+ if backend is None:
+ # You need PyPy (>= 2.0 beta), or a CPython (>= 2.6) with
+ # _cffi_backend.so compiled.
+ import _cffi_backend as backend
+ from . import __version__
+ if backend.__version__ != __version__:
+ # bad version! Try to be as explicit as possible.
+ if hasattr(backend, '__file__'):
+ # CPython
+ raise Exception("Version mismatch: this is the 'cffi' package version %s, located in %r. When we import the top-level '_cffi_backend' extension module, we get version %s, located in %r. The two versions should be equal; check your installation." % (
+ __version__, __file__,
+ backend.__version__, backend.__file__))
+ else:
+ # PyPy
+ raise Exception("Version mismatch: this is the 'cffi' package version %s, located in %r. This interpreter comes with a built-in '_cffi_backend' module, which is version %s. The two versions should be equal; check your installation." % (
+ __version__, __file__, backend.__version__))
+ # (If you insist you can also try to pass the option
+ # 'backend=backend_ctypes.CTypesBackend()', but don't
+ # rely on it! It's probably not going to work well.)
+
+ from . import cparser
+ self._backend = backend
+ self._lock = allocate_lock()
+ self._parser = cparser.Parser()
+ self._cached_btypes = {}
+ self._parsed_types = types.ModuleType('parsed_types').__dict__
+ self._new_types = types.ModuleType('new_types').__dict__
+ self._function_caches = []
+ self._libraries = []
+ self._cdefsources = []
+ self._included_ffis = []
+ self._windows_unicode = None
+ self._init_once_cache = {}
+ self._cdef_version = None
+ self._embedding = None
+ self._typecache = model.get_typecache(backend)
+ if hasattr(backend, 'set_ffi'):
+ backend.set_ffi(self)
+ for name in list(backend.__dict__):
+ if name.startswith('RTLD_'):
+ setattr(self, name, getattr(backend, name))
+ #
+ with self._lock:
+ self.BVoidP = self._get_cached_btype(model.voidp_type)
+ self.BCharA = self._get_cached_btype(model.char_array_type)
+ if isinstance(backend, types.ModuleType):
+ # _cffi_backend: attach these constants to the class
+ if not hasattr(FFI, 'NULL'):
+ FFI.NULL = self.cast(self.BVoidP, 0)
+ FFI.CData, FFI.CType = backend._get_types()
+ else:
+ # ctypes backend: attach these constants to the instance
+ self.NULL = self.cast(self.BVoidP, 0)
+ self.CData, self.CType = backend._get_types()
+ self.buffer = backend.buffer
+
+ def cdef(self, csource, override=False, packed=False, pack=None):
+ """Parse the given C source. This registers all declared functions,
+ types, and global variables. The functions and global variables can
+ then be accessed via either 'ffi.dlopen()' or 'ffi.verify()'.
+ The types can be used in 'ffi.new()' and other functions.
+ If 'packed' is specified as True, all structs declared inside this
+ cdef are packed, i.e. laid out without any field alignment at all.
+ Alternatively, 'pack' can be a small integer, and requests for
+ alignment greater than that are ignored (pack=1 is equivalent to
+ packed=True).
+ """
+ self._cdef(csource, override=override, packed=packed, pack=pack)
+
+ def embedding_api(self, csource, packed=False, pack=None):
+ self._cdef(csource, packed=packed, pack=pack, dllexport=True)
+ if self._embedding is None:
+ self._embedding = ''
+
+ def _cdef(self, csource, override=False, **options):
+ if not isinstance(csource, str): # unicode, on Python 2
+ if not isinstance(csource, basestring):
+ raise TypeError("cdef() argument must be a string")
+ csource = csource.encode('ascii')
+ with self._lock:
+ self._cdef_version = object()
+ self._parser.parse(csource, override=override, **options)
+ self._cdefsources.append(csource)
+ if override:
+ for cache in self._function_caches:
+ cache.clear()
+ finishlist = self._parser._recomplete
+ if finishlist:
+ self._parser._recomplete = []
+ for tp in finishlist:
+ tp.finish_backend_type(self, finishlist)
+
+ def dlopen(self, name, flags=0):
+ """Load and return a dynamic library identified by 'name'.
+ The standard C library can be loaded by passing None.
+ Note that functions and types declared by 'ffi.cdef()' are not
+ linked to a particular library, just like C headers; in the
+ library we only look for the actual (untyped) symbols.
+ """
+ if not (isinstance(name, basestring) or
+ name is None or
+ isinstance(name, self.CData)):
+ raise TypeError("dlopen(name): name must be a file name, None, "
+ "or an already-opened 'void *' handle")
+ with self._lock:
+ lib, function_cache = _make_ffi_library(self, name, flags)
+ self._function_caches.append(function_cache)
+ self._libraries.append(lib)
+ return lib
+
+ def dlclose(self, lib):
+ """Close a library obtained with ffi.dlopen(). After this call,
+ access to functions or variables from the library will fail
+ (possibly with a segmentation fault).
+ """
+ type(lib).__cffi_close__(lib)
+
+ def _typeof_locked(self, cdecl):
+ # call me with the lock!
+ key = cdecl
+ if key in self._parsed_types:
+ return self._parsed_types[key]
+ #
+ if not isinstance(cdecl, str): # unicode, on Python 2
+ cdecl = cdecl.encode('ascii')
+ #
+ type = self._parser.parse_type(cdecl)
+ really_a_function_type = type.is_raw_function
+ if really_a_function_type:
+ type = type.as_function_pointer()
+ btype = self._get_cached_btype(type)
+ result = btype, really_a_function_type
+ self._parsed_types[key] = result
+ return result
+
+ def _typeof(self, cdecl, consider_function_as_funcptr=False):
+ # string -> ctype object
+ try:
+ result = self._parsed_types[cdecl]
+ except KeyError:
+ with self._lock:
+ result = self._typeof_locked(cdecl)
+ #
+ btype, really_a_function_type = result
+ if really_a_function_type and not consider_function_as_funcptr:
+ raise CDefError("the type %r is a function type, not a "
+ "pointer-to-function type" % (cdecl,))
+ return btype
+
+ def typeof(self, cdecl):
+ """Parse the C type given as a string and return the
+ corresponding <ctype> object.
+ It can also be used on 'cdata' instance to get its C type.
+ """
+ if isinstance(cdecl, basestring):
+ return self._typeof(cdecl)
+ if isinstance(cdecl, self.CData):
+ return self._backend.typeof(cdecl)
+ if isinstance(cdecl, types.BuiltinFunctionType):
+ res = _builtin_function_type(cdecl)
+ if res is not None:
+ return res
+ if (isinstance(cdecl, types.FunctionType)
+ and hasattr(cdecl, '_cffi_base_type')):
+ with self._lock:
+ return self._get_cached_btype(cdecl._cffi_base_type)
+ raise TypeError(type(cdecl))
+
+ def sizeof(self, cdecl):
+ """Return the size in bytes of the argument. It can be a
+ string naming a C type, or a 'cdata' instance.
+ """
+ if isinstance(cdecl, basestring):
+ BType = self._typeof(cdecl)
+ return self._backend.sizeof(BType)
+ else:
+ return self._backend.sizeof(cdecl)
+
+ def alignof(self, cdecl):
+ """Return the natural alignment size in bytes of the C type
+ given as a string.
+ """
+ if isinstance(cdecl, basestring):
+ cdecl = self._typeof(cdecl)
+ return self._backend.alignof(cdecl)
+
+ def offsetof(self, cdecl, *fields_or_indexes):
+ """Return the offset of the named field inside the given
+ structure or array, which must be given as a C type name.
+ You can give several field names in case of nested structures.
+ You can also give numeric values which correspond to array
+ items, in case of an array type.
+ """
+ if isinstance(cdecl, basestring):
+ cdecl = self._typeof(cdecl)
+ return self._typeoffsetof(cdecl, *fields_or_indexes)[1]
+
+ def new(self, cdecl, init=None):
+ """Allocate an instance according to the specified C type and
+ return a pointer to it. The specified C type must be either a
+ pointer or an array: ``new('X *')`` allocates an X and returns
+ a pointer to it, whereas ``new('X[n]')`` allocates an array of
+ n X'es and returns an array referencing it (which works
+ mostly like a pointer, like in C). You can also use
+ ``new('X[]', n)`` to allocate an array of a non-constant
+ length n.
+
+ The memory is initialized following the rules of declaring a
+ global variable in C: by default it is zero-initialized, but
+ an explicit initializer can be given which can be used to
+ fill all or part of the memory.
+
+ When the returned <cdata> object goes out of scope, the memory
+ is freed. In other words the returned <cdata> object has
+ ownership of the value of type 'cdecl' that it points to. This
+ means that the raw data can be used as long as this object is
+ kept alive, but must not be used for a longer time. Be careful
+ about that when copying the pointer to the memory somewhere
+ else, e.g. into another structure.
+ """
+ if isinstance(cdecl, basestring):
+ cdecl = self._typeof(cdecl)
+ return self._backend.newp(cdecl, init)
+
+ def new_allocator(self, alloc=None, free=None,
+ should_clear_after_alloc=True):
+ """Return a new allocator, i.e. a function that behaves like ffi.new()
+ but uses the provided low-level 'alloc' and 'free' functions.
+
+ 'alloc' is called with the size as argument. If it returns NULL, a
+ MemoryError is raised. 'free' is called with the result of 'alloc'
+ as argument. Both can be either Python function or directly C
+ functions. If 'free' is None, then no free function is called.
+ If both 'alloc' and 'free' are None, the default is used.
+
+ If 'should_clear_after_alloc' is set to False, then the memory
+ returned by 'alloc' is assumed to be already cleared (or you are
+ fine with garbage); otherwise CFFI will clear it.
+ """
+ compiled_ffi = self._backend.FFI()
+ allocator = compiled_ffi.new_allocator(alloc, free,
+ should_clear_after_alloc)
+ def allocate(cdecl, init=None):
+ if isinstance(cdecl, basestring):
+ cdecl = self._typeof(cdecl)
+ return allocator(cdecl, init)
+ return allocate
+
+ def cast(self, cdecl, source):
+ """Similar to a C cast: returns an instance of the named C
+ type initialized with the given 'source'. The source is
+ casted between integers or pointers of any type.
+ """
+ if isinstance(cdecl, basestring):
+ cdecl = self._typeof(cdecl)
+ return self._backend.cast(cdecl, source)
+
+ def string(self, cdata, maxlen=-1):
+ """Return a Python string (or unicode string) from the 'cdata'.
+ If 'cdata' is a pointer or array of characters or bytes, returns
+ the null-terminated string. The returned string extends until
+ the first null character, or at most 'maxlen' characters. If
+ 'cdata' is an array then 'maxlen' defaults to its length.
+
+ If 'cdata' is a pointer or array of wchar_t, returns a unicode
+ string following the same rules.
+
+ If 'cdata' is a single character or byte or a wchar_t, returns
+ it as a string or unicode string.
+
+ If 'cdata' is an enum, returns the value of the enumerator as a
+ string, or 'NUMBER' if the value is out of range.
+ """
+ return self._backend.string(cdata, maxlen)
+
+ def unpack(self, cdata, length):
+ """Unpack an array of C data of the given length,
+ returning a Python string/unicode/list.
+
+ If 'cdata' is a pointer to 'char', returns a byte string.
+ It does not stop at the first null. This is equivalent to:
+ ffi.buffer(cdata, length)[:]
+
+ If 'cdata' is a pointer to 'wchar_t', returns a unicode string.
+ 'length' is measured in wchar_t's; it is not the size in bytes.
+
+ If 'cdata' is a pointer to anything else, returns a list of
+ 'length' items. This is a faster equivalent to:
+ [cdata[i] for i in range(length)]
+ """
+ return self._backend.unpack(cdata, length)
+
+ #def buffer(self, cdata, size=-1):
+ # """Return a read-write buffer object that references the raw C data
+ # pointed to by the given 'cdata'. The 'cdata' must be a pointer or
+ # an array. Can be passed to functions expecting a buffer, or directly
+ # manipulated with:
+ #
+ # buf[:] get a copy of it in a regular string, or
+ # buf[idx] as a single character
+ # buf[:] = ...
+ # buf[idx] = ... change the content
+ # """
+ # note that 'buffer' is a type, set on this instance by __init__
+
+ def from_buffer(self, cdecl, python_buffer=_unspecified,
+ require_writable=False):
+ """Return a cdata of the given type pointing to the data of the
+ given Python object, which must support the buffer interface.
+ Note that this is not meant to be used on the built-in types
+ str or unicode (you can build 'char[]' arrays explicitly)
+ but only on objects containing large quantities of raw data
+ in some other format, like 'array.array' or numpy arrays.
+
+ The first argument is optional and default to 'char[]'.
+ """
+ if python_buffer is _unspecified:
+ cdecl, python_buffer = self.BCharA, cdecl
+ elif isinstance(cdecl, basestring):
+ cdecl = self._typeof(cdecl)
+ return self._backend.from_buffer(cdecl, python_buffer,
+ require_writable)
+
+ def memmove(self, dest, src, n):
+ """ffi.memmove(dest, src, n) copies n bytes of memory from src to dest.
+
+ Like the C function memmove(), the memory areas may overlap;
+ apart from that it behaves like the C function memcpy().
+
+ 'src' can be any cdata ptr or array, or any Python buffer object.
+ 'dest' can be any cdata ptr or array, or a writable Python buffer
+ object. The size to copy, 'n', is always measured in bytes.
+
+ Unlike other methods, this one supports all Python buffer including
+ byte strings and bytearrays---but it still does not support
+ non-contiguous buffers.
+ """
+ return self._backend.memmove(dest, src, n)
+
+ def callback(self, cdecl, python_callable=None, error=None, onerror=None):
+ """Return a callback object or a decorator making such a
+ callback object. 'cdecl' must name a C function pointer type.
+ The callback invokes the specified 'python_callable' (which may
+ be provided either directly or via a decorator). Important: the
+ callback object must be manually kept alive for as long as the
+ callback may be invoked from the C level.
+ """
+ def callback_decorator_wrap(python_callable):
+ if not callable(python_callable):
+ raise TypeError("the 'python_callable' argument "
+ "is not callable")
+ return self._backend.callback(cdecl, python_callable,
+ error, onerror)
+ if isinstance(cdecl, basestring):
+ cdecl = self._typeof(cdecl, consider_function_as_funcptr=True)
+ if python_callable is None:
+ return callback_decorator_wrap # decorator mode
+ else:
+ return callback_decorator_wrap(python_callable) # direct mode
+
+ def getctype(self, cdecl, replace_with=''):
+ """Return a string giving the C type 'cdecl', which may be itself
+ a string or a <ctype> object. If 'replace_with' is given, it gives
+ extra text to append (or insert for more complicated C types), like
+ a variable name, or '*' to get actually the C type 'pointer-to-cdecl'.
+ """
+ if isinstance(cdecl, basestring):
+ cdecl = self._typeof(cdecl)
+ replace_with = replace_with.strip()
+ if (replace_with.startswith('*')
+ and '&[' in self._backend.getcname(cdecl, '&')):
+ replace_with = '(%s)' % replace_with
+ elif replace_with and not replace_with[0] in '[(':
+ replace_with = ' ' + replace_with
+ return self._backend.getcname(cdecl, replace_with)
+
+ def gc(self, cdata, destructor, size=0):
+ """Return a new cdata object that points to the same
+ data. Later, when this new cdata object is garbage-collected,
+ 'destructor(old_cdata_object)' will be called.
+
+ The optional 'size' gives an estimate of the size, used to
+ trigger the garbage collection more eagerly. So far only used
+ on PyPy. It tells the GC that the returned object keeps alive
+ roughly 'size' bytes of external memory.
+ """
+ return self._backend.gcp(cdata, destructor, size)
+
+ def _get_cached_btype(self, type):
+ assert self._lock.acquire(False) is False
+ # call me with the lock!
+ try:
+ BType = self._cached_btypes[type]
+ except KeyError:
+ finishlist = []
+ BType = type.get_cached_btype(self, finishlist)
+ for type in finishlist:
+ type.finish_backend_type(self, finishlist)
+ return BType
+
+ def verify(self, source='', tmpdir=None, **kwargs):
+ """Verify that the current ffi signatures compile on this
+ machine, and return a dynamic library object. The dynamic
+ library can be used to call functions and access global
+ variables declared in this 'ffi'. The library is compiled
+ by the C compiler: it gives you C-level API compatibility
+ (including calling macros). This is unlike 'ffi.dlopen()',
+ which requires binary compatibility in the signatures.
+ """
+ from .verifier import Verifier, _caller_dir_pycache
+ #
+ # If set_unicode(True) was called, insert the UNICODE and
+ # _UNICODE macro declarations
+ if self._windows_unicode:
+ self._apply_windows_unicode(kwargs)
+ #
+ # Set the tmpdir here, and not in Verifier.__init__: it picks
+ # up the caller's directory, which we want to be the caller of
+ # ffi.verify(), as opposed to the caller of Veritier().
+ tmpdir = tmpdir or _caller_dir_pycache()
+ #
+ # Make a Verifier() and use it to load the library.
+ self.verifier = Verifier(self, source, tmpdir, **kwargs)
+ lib = self.verifier.load_library()
+ #
+ # Save the loaded library for keep-alive purposes, even
+ # if the caller doesn't keep it alive itself (it should).
+ self._libraries.append(lib)
+ return lib
+
+ def _get_errno(self):
+ return self._backend.get_errno()
+ def _set_errno(self, errno):
+ self._backend.set_errno(errno)
+ errno = property(_get_errno, _set_errno, None,
+ "the value of 'errno' from/to the C calls")
+
+ def getwinerror(self, code=-1):
+ return self._backend.getwinerror(code)
+
+ def _pointer_to(self, ctype):
+ with self._lock:
+ return model.pointer_cache(self, ctype)
+
+ def addressof(self, cdata, *fields_or_indexes):
+ """Return the address of a <cdata 'struct-or-union'>.
+ If 'fields_or_indexes' are given, returns the address of that
+ field or array item in the structure or array, recursively in
+ case of nested structures.
+ """
+ try:
+ ctype = self._backend.typeof(cdata)
+ except TypeError:
+ if '__addressof__' in type(cdata).__dict__:
+ return type(cdata).__addressof__(cdata, *fields_or_indexes)
+ raise
+ if fields_or_indexes:
+ ctype, offset = self._typeoffsetof(ctype, *fields_or_indexes)
+ else:
+ if ctype.kind == "pointer":
+ raise TypeError("addressof(pointer)")
+ offset = 0
+ ctypeptr = self._pointer_to(ctype)
+ return self._backend.rawaddressof(ctypeptr, cdata, offset)
+
+ def _typeoffsetof(self, ctype, field_or_index, *fields_or_indexes):
+ ctype, offset = self._backend.typeoffsetof(ctype, field_or_index)
+ for field1 in fields_or_indexes:
+ ctype, offset1 = self._backend.typeoffsetof(ctype, field1, 1)
+ offset += offset1
+ return ctype, offset
+
+ def include(self, ffi_to_include):
+ """Includes the typedefs, structs, unions and enums defined
+ in another FFI instance. Usage is similar to a #include in C,
+ where a part of the program might include types defined in
+ another part for its own usage. Note that the include()
+ method has no effect on functions, constants and global
+ variables, which must anyway be accessed directly from the
+ lib object returned by the original FFI instance.
+ """
+ if not isinstance(ffi_to_include, FFI):
+ raise TypeError("ffi.include() expects an argument that is also of"
+ " type cffi.FFI, not %r" % (
+ type(ffi_to_include).__name__,))
+ if ffi_to_include is self:
+ raise ValueError("self.include(self)")
+ with ffi_to_include._lock:
+ with self._lock:
+ self._parser.include(ffi_to_include._parser)
+ self._cdefsources.append('[')
+ self._cdefsources.extend(ffi_to_include._cdefsources)
+ self._cdefsources.append(']')
+ self._included_ffis.append(ffi_to_include)
+
+ def new_handle(self, x):
+ return self._backend.newp_handle(self.BVoidP, x)
+
+ def from_handle(self, x):
+ return self._backend.from_handle(x)
+
+ def release(self, x):
+ self._backend.release(x)
+
+ def set_unicode(self, enabled_flag):
+ """Windows: if 'enabled_flag' is True, enable the UNICODE and
+ _UNICODE defines in C, and declare the types like TCHAR and LPTCSTR
+ to be (pointers to) wchar_t. If 'enabled_flag' is False,
+ declare these types to be (pointers to) plain 8-bit characters.
+ This is mostly for backward compatibility; you usually want True.
+ """
+ if self._windows_unicode is not None:
+ raise ValueError("set_unicode() can only be called once")
+ enabled_flag = bool(enabled_flag)
+ if enabled_flag:
+ self.cdef("typedef wchar_t TBYTE;"
+ "typedef wchar_t TCHAR;"
+ "typedef const wchar_t *LPCTSTR;"
+ "typedef const wchar_t *PCTSTR;"
+ "typedef wchar_t *LPTSTR;"
+ "typedef wchar_t *PTSTR;"
+ "typedef TBYTE *PTBYTE;"
+ "typedef TCHAR *PTCHAR;")
+ else:
+ self.cdef("typedef char TBYTE;"
+ "typedef char TCHAR;"
+ "typedef const char *LPCTSTR;"
+ "typedef const char *PCTSTR;"
+ "typedef char *LPTSTR;"
+ "typedef char *PTSTR;"
+ "typedef TBYTE *PTBYTE;"
+ "typedef TCHAR *PTCHAR;")
+ self._windows_unicode = enabled_flag
+
+ def _apply_windows_unicode(self, kwds):
+ defmacros = kwds.get('define_macros', ())
+ if not isinstance(defmacros, (list, tuple)):
+ raise TypeError("'define_macros' must be a list or tuple")
+ defmacros = list(defmacros) + [('UNICODE', '1'),
+ ('_UNICODE', '1')]
+ kwds['define_macros'] = defmacros
+
+ def _apply_embedding_fix(self, kwds):
+ # must include an argument like "-lpython2.7" for the compiler
+ def ensure(key, value):
+ lst = kwds.setdefault(key, [])
+ if value not in lst:
+ lst.append(value)
+ #
+ if '__pypy__' in sys.builtin_module_names:
+ import os
+ if sys.platform == "win32":
+ # we need 'libpypy-c.lib'. Current distributions of
+ # pypy (>= 4.1) contain it as 'libs/python27.lib'.
+ pythonlib = "python{0[0]}{0[1]}".format(sys.version_info)
+ if hasattr(sys, 'prefix'):
+ ensure('library_dirs', os.path.join(sys.prefix, 'libs'))
+ else:
+ # we need 'libpypy-c.{so,dylib}', which should be by
+ # default located in 'sys.prefix/bin' for installed
+ # systems.
+ if sys.version_info < (3,):
+ pythonlib = "pypy-c"
+ else:
+ pythonlib = "pypy3-c"
+ if hasattr(sys, 'prefix'):
+ ensure('library_dirs', os.path.join(sys.prefix, 'bin'))
+ # On uninstalled pypy's, the libpypy-c is typically found in
+ # .../pypy/goal/.
+ if hasattr(sys, 'prefix'):
+ ensure('library_dirs', os.path.join(sys.prefix, 'pypy', 'goal'))
+ else:
+ if sys.platform == "win32":
+ template = "python%d%d"
+ if hasattr(sys, 'gettotalrefcount'):
+ template += '_d'
+ else:
+ try:
+ import sysconfig
+ except ImportError: # 2.6
+ from distutils import sysconfig
+ template = "python%d.%d"
+ if sysconfig.get_config_var('DEBUG_EXT'):
+ template += sysconfig.get_config_var('DEBUG_EXT')
+ pythonlib = (template %
+ (sys.hexversion >> 24, (sys.hexversion >> 16) & 0xff))
+ if hasattr(sys, 'abiflags'):
+ pythonlib += sys.abiflags
+ ensure('libraries', pythonlib)
+ if sys.platform == "win32":
+ ensure('extra_link_args', '/MANIFEST')
+
+ def set_source(self, module_name, source, source_extension='.c', **kwds):
+ import os
+ if hasattr(self, '_assigned_source'):
+ raise ValueError("set_source() cannot be called several times "
+ "per ffi object")
+ if not isinstance(module_name, basestring):
+ raise TypeError("'module_name' must be a string")
+ if os.sep in module_name or (os.altsep and os.altsep in module_name):
+ raise ValueError("'module_name' must not contain '/': use a dotted "
+ "name to make a 'package.module' location")
+ self._assigned_source = (str(module_name), source,
+ source_extension, kwds)
+
+ def set_source_pkgconfig(self, module_name, pkgconfig_libs, source,
+ source_extension='.c', **kwds):
+ from . import pkgconfig
+ if not isinstance(pkgconfig_libs, list):
+ raise TypeError("the pkgconfig_libs argument must be a list "
+ "of package names")
+ kwds2 = pkgconfig.flags_from_pkgconfig(pkgconfig_libs)
+ pkgconfig.merge_flags(kwds, kwds2)
+ self.set_source(module_name, source, source_extension, **kwds)
+
+ def distutils_extension(self, tmpdir='build', verbose=True):
+ from distutils.dir_util import mkpath
+ from .recompiler import recompile
+ #
+ if not hasattr(self, '_assigned_source'):
+ if hasattr(self, 'verifier'): # fallback, 'tmpdir' ignored
+ return self.verifier.get_extension()
+ raise ValueError("set_source() must be called before"
+ " distutils_extension()")
+ module_name, source, source_extension, kwds = self._assigned_source
+ if source is None:
+ raise TypeError("distutils_extension() is only for C extension "
+ "modules, not for dlopen()-style pure Python "
+ "modules")
+ mkpath(tmpdir)
+ ext, updated = recompile(self, module_name,
+ source, tmpdir=tmpdir, extradir=tmpdir,
+ source_extension=source_extension,
+ call_c_compiler=False, **kwds)
+ if verbose:
+ if updated:
+ sys.stderr.write("regenerated: %r\n" % (ext.sources[0],))
+ else:
+ sys.stderr.write("not modified: %r\n" % (ext.sources[0],))
+ return ext
+
+ def emit_c_code(self, filename):
+ from .recompiler import recompile
+ #
+ if not hasattr(self, '_assigned_source'):
+ raise ValueError("set_source() must be called before emit_c_code()")
+ module_name, source, source_extension, kwds = self._assigned_source
+ if source is None:
+ raise TypeError("emit_c_code() is only for C extension modules, "
+ "not for dlopen()-style pure Python modules")
+ recompile(self, module_name, source,
+ c_file=filename, call_c_compiler=False, **kwds)
+
+ def emit_python_code(self, filename):
+ from .recompiler import recompile
+ #
+ if not hasattr(self, '_assigned_source'):
+ raise ValueError("set_source() must be called before emit_c_code()")
+ module_name, source, source_extension, kwds = self._assigned_source
+ if source is not None:
+ raise TypeError("emit_python_code() is only for dlopen()-style "
+ "pure Python modules, not for C extension modules")
+ recompile(self, module_name, source,
+ c_file=filename, call_c_compiler=False, **kwds)
+
+ def compile(self, tmpdir='.', verbose=0, target=None, debug=None):
+ """The 'target' argument gives the final file name of the
+ compiled DLL. Use '*' to force distutils' choice, suitable for
+ regular CPython C API modules. Use a file name ending in '.*'
+ to ask for the system's default extension for dynamic libraries
+ (.so/.dll/.dylib).
+
+ The default is '*' when building a non-embedded C API extension,
+ and (module_name + '.*') when building an embedded library.
+ """
+ from .recompiler import recompile
+ #
+ if not hasattr(self, '_assigned_source'):
+ raise ValueError("set_source() must be called before compile()")
+ module_name, source, source_extension, kwds = self._assigned_source
+ return recompile(self, module_name, source, tmpdir=tmpdir,
+ target=target, source_extension=source_extension,
+ compiler_verbose=verbose, debug=debug, **kwds)
+
+ def init_once(self, func, tag):
+ # Read _init_once_cache[tag], which is either (False, lock) if
+ # we're calling the function now in some thread, or (True, result).
+ # Don't call setdefault() in most cases, to avoid allocating and
+ # immediately freeing a lock; but still use setdefaut() to avoid
+ # races.
+ try:
+ x = self._init_once_cache[tag]
+ except KeyError:
+ x = self._init_once_cache.setdefault(tag, (False, allocate_lock()))
+ # Common case: we got (True, result), so we return the result.
+ if x[0]:
+ return x[1]
+ # Else, it's a lock. Acquire it to serialize the following tests.
+ with x[1]:
+ # Read again from _init_once_cache the current status.
+ x = self._init_once_cache[tag]
+ if x[0]:
+ return x[1]
+ # Call the function and store the result back.
+ result = func()
+ self._init_once_cache[tag] = (True, result)
+ return result
+
+ def embedding_init_code(self, pysource):
+ if self._embedding:
+ raise ValueError("embedding_init_code() can only be called once")
+ # fix 'pysource' before it gets dumped into the C file:
+ # - remove empty lines at the beginning, so it starts at "line 1"
+ # - dedent, if all non-empty lines are indented
+ # - check for SyntaxErrors
+ import re
+ match = re.match(r'\s*\n', pysource)
+ if match:
+ pysource = pysource[match.end():]
+ lines = pysource.splitlines() or ['']
+ prefix = re.match(r'\s*', lines[0]).group()
+ for i in range(1, len(lines)):
+ line = lines[i]
+ if line.rstrip():
+ while not line.startswith(prefix):
+ prefix = prefix[:-1]
+ i = len(prefix)
+ lines = [line[i:]+'\n' for line in lines]
+ pysource = ''.join(lines)
+ #
+ compile(pysource, "cffi_init", "exec")
+ #
+ self._embedding = pysource
+
+ def def_extern(self, *args, **kwds):
+ raise ValueError("ffi.def_extern() is only available on API-mode FFI "
+ "objects")
+
+ def list_types(self):
+ """Returns the user type names known to this FFI instance.
+ This returns a tuple containing three lists of names:
+ (typedef_names, names_of_structs, names_of_unions)
+ """
+ typedefs = []
+ structs = []
+ unions = []
+ for key in self._parser._declarations:
+ if key.startswith('typedef '):
+ typedefs.append(key[8:])
+ elif key.startswith('struct '):
+ structs.append(key[7:])
+ elif key.startswith('union '):
+ unions.append(key[6:])
+ typedefs.sort()
+ structs.sort()
+ unions.sort()
+ return (typedefs, structs, unions)
+
+
+def _load_backend_lib(backend, name, flags):
+ import os
+ if not isinstance(name, basestring):
+ if sys.platform != "win32" or name is not None:
+ return backend.load_library(name, flags)
+ name = "c" # Windows: load_library(None) fails, but this works
+ # on Python 2 (backward compatibility hack only)
+ first_error = None
+ if '.' in name or '/' in name or os.sep in name:
+ try:
+ return backend.load_library(name, flags)
+ except OSError as e:
+ first_error = e
+ import ctypes.util
+ path = ctypes.util.find_library(name)
+ if path is None:
+ if name == "c" and sys.platform == "win32" and sys.version_info >= (3,):
+ raise OSError("dlopen(None) cannot work on Windows for Python 3 "
+ "(see http://bugs.python.org/issue23606)")
+ msg = ("ctypes.util.find_library() did not manage "
+ "to locate a library called %r" % (name,))
+ if first_error is not None:
+ msg = "%s. Additionally, %s" % (first_error, msg)
+ raise OSError(msg)
+ return backend.load_library(path, flags)
+
+def _make_ffi_library(ffi, libname, flags):
+ backend = ffi._backend
+ backendlib = _load_backend_lib(backend, libname, flags)
+ #
+ def accessor_function(name):
+ key = 'function ' + name
+ tp, _ = ffi._parser._declarations[key]
+ BType = ffi._get_cached_btype(tp)
+ value = backendlib.load_function(BType, name)
+ library.__dict__[name] = value
+ #
+ def accessor_variable(name):
+ key = 'variable ' + name
+ tp, _ = ffi._parser._declarations[key]
+ BType = ffi._get_cached_btype(tp)
+ read_variable = backendlib.read_variable
+ write_variable = backendlib.write_variable
+ setattr(FFILibrary, name, property(
+ lambda self: read_variable(BType, name),
+ lambda self, value: write_variable(BType, name, value)))
+ #
+ def addressof_var(name):
+ try:
+ return addr_variables[name]
+ except KeyError:
+ with ffi._lock:
+ if name not in addr_variables:
+ key = 'variable ' + name
+ tp, _ = ffi._parser._declarations[key]
+ BType = ffi._get_cached_btype(tp)
+ if BType.kind != 'array':
+ BType = model.pointer_cache(ffi, BType)
+ p = backendlib.load_function(BType, name)
+ addr_variables[name] = p
+ return addr_variables[name]
+ #
+ def accessor_constant(name):
+ raise NotImplementedError("non-integer constant '%s' cannot be "
+ "accessed from a dlopen() library" % (name,))
+ #
+ def accessor_int_constant(name):
+ library.__dict__[name] = ffi._parser._int_constants[name]
+ #
+ accessors = {}
+ accessors_version = [False]
+ addr_variables = {}
+ #
+ def update_accessors():
+ if accessors_version[0] is ffi._cdef_version:
+ return
+ #
+ for key, (tp, _) in ffi._parser._declarations.items():
+ if not isinstance(tp, model.EnumType):
+ tag, name = key.split(' ', 1)
+ if tag == 'function':
+ accessors[name] = accessor_function
+ elif tag == 'variable':
+ accessors[name] = accessor_variable
+ elif tag == 'constant':
+ accessors[name] = accessor_constant
+ else:
+ for i, enumname in enumerate(tp.enumerators):
+ def accessor_enum(name, tp=tp, i=i):
+ tp.check_not_partial()
+ library.__dict__[name] = tp.enumvalues[i]
+ accessors[enumname] = accessor_enum
+ for name in ffi._parser._int_constants:
+ accessors.setdefault(name, accessor_int_constant)
+ accessors_version[0] = ffi._cdef_version
+ #
+ def make_accessor(name):
+ with ffi._lock:
+ if name in library.__dict__ or name in FFILibrary.__dict__:
+ return # added by another thread while waiting for the lock
+ if name not in accessors:
+ update_accessors()
+ if name not in accessors:
+ raise AttributeError(name)
+ accessors[name](name)
+ #
+ class FFILibrary(object):
+ def __getattr__(self, name):
+ make_accessor(name)
+ return getattr(self, name)
+ def __setattr__(self, name, value):
+ try:
+ property = getattr(self.__class__, name)
+ except AttributeError:
+ make_accessor(name)
+ setattr(self, name, value)
+ else:
+ property.__set__(self, value)
+ def __dir__(self):
+ with ffi._lock:
+ update_accessors()
+ return accessors.keys()
+ def __addressof__(self, name):
+ if name in library.__dict__:
+ return library.__dict__[name]
+ if name in FFILibrary.__dict__:
+ return addressof_var(name)
+ make_accessor(name)
+ if name in library.__dict__:
+ return library.__dict__[name]
+ if name in FFILibrary.__dict__:
+ return addressof_var(name)
+ raise AttributeError("cffi library has no function or "
+ "global variable named '%s'" % (name,))
+ def __cffi_close__(self):
+ backendlib.close_lib()
+ self.__dict__.clear()
+ #
+ if isinstance(libname, basestring):
+ try:
+ if not isinstance(libname, str): # unicode, on Python 2
+ libname = libname.encode('utf-8')
+ FFILibrary.__name__ = 'FFILibrary_%s' % libname
+ except UnicodeError:
+ pass
+ library = FFILibrary()
+ return library, library.__dict__
+
+def _builtin_function_type(func):
+ # a hack to make at least ffi.typeof(builtin_function) work,
+ # if the builtin function was obtained by 'vengine_cpy'.
+ import sys
+ try:
+ module = sys.modules[func.__module__]
+ ffi = module._cffi_original_ffi
+ types_of_builtin_funcs = module._cffi_types_of_builtin_funcs
+ tp = types_of_builtin_funcs[func]
+ except (KeyError, AttributeError, TypeError):
+ return None
+ else:
+ with ffi._lock:
+ return ffi._get_cached_btype(tp)
diff --git a/contrib/python/cffi/py3/cffi/backend_ctypes.py b/contrib/python/cffi/py3/cffi/backend_ctypes.py
new file mode 100644
index 0000000000..e7956a79cf
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/backend_ctypes.py
@@ -0,0 +1,1121 @@
+import ctypes, ctypes.util, operator, sys
+from . import model
+
+if sys.version_info < (3,):
+ bytechr = chr
+else:
+ unicode = str
+ long = int
+ xrange = range
+ bytechr = lambda num: bytes([num])
+
+class CTypesType(type):
+ pass
+
+class CTypesData(object):
+ __metaclass__ = CTypesType
+ __slots__ = ['__weakref__']
+ __name__ = '<cdata>'
+
+ def __init__(self, *args):
+ raise TypeError("cannot instantiate %r" % (self.__class__,))
+
+ @classmethod
+ def _newp(cls, init):
+ raise TypeError("expected a pointer or array ctype, got '%s'"
+ % (cls._get_c_name(),))
+
+ @staticmethod
+ def _to_ctypes(value):
+ raise TypeError
+
+ @classmethod
+ def _arg_to_ctypes(cls, *value):
+ try:
+ ctype = cls._ctype
+ except AttributeError:
+ raise TypeError("cannot create an instance of %r" % (cls,))
+ if value:
+ res = cls._to_ctypes(*value)
+ if not isinstance(res, ctype):
+ res = cls._ctype(res)
+ else:
+ res = cls._ctype()
+ return res
+
+ @classmethod
+ def _create_ctype_obj(cls, init):
+ if init is None:
+ return cls._arg_to_ctypes()
+ else:
+ return cls._arg_to_ctypes(init)
+
+ @staticmethod
+ def _from_ctypes(ctypes_value):
+ raise TypeError
+
+ @classmethod
+ def _get_c_name(cls, replace_with=''):
+ return cls._reftypename.replace(' &', replace_with)
+
+ @classmethod
+ def _fix_class(cls):
+ cls.__name__ = 'CData<%s>' % (cls._get_c_name(),)
+ cls.__qualname__ = 'CData<%s>' % (cls._get_c_name(),)
+ cls.__module__ = 'ffi'
+
+ def _get_own_repr(self):
+ raise NotImplementedError
+
+ def _addr_repr(self, address):
+ if address == 0:
+ return 'NULL'
+ else:
+ if address < 0:
+ address += 1 << (8*ctypes.sizeof(ctypes.c_void_p))
+ return '0x%x' % address
+
+ def __repr__(self, c_name=None):
+ own = self._get_own_repr()
+ return '<cdata %r %s>' % (c_name or self._get_c_name(), own)
+
+ def _convert_to_address(self, BClass):
+ if BClass is None:
+ raise TypeError("cannot convert %r to an address" % (
+ self._get_c_name(),))
+ else:
+ raise TypeError("cannot convert %r to %r" % (
+ self._get_c_name(), BClass._get_c_name()))
+
+ @classmethod
+ def _get_size(cls):
+ return ctypes.sizeof(cls._ctype)
+
+ def _get_size_of_instance(self):
+ return ctypes.sizeof(self._ctype)
+
+ @classmethod
+ def _cast_from(cls, source):
+ raise TypeError("cannot cast to %r" % (cls._get_c_name(),))
+
+ def _cast_to_integer(self):
+ return self._convert_to_address(None)
+
+ @classmethod
+ def _alignment(cls):
+ return ctypes.alignment(cls._ctype)
+
+ def __iter__(self):
+ raise TypeError("cdata %r does not support iteration" % (
+ self._get_c_name()),)
+
+ def _make_cmp(name):
+ cmpfunc = getattr(operator, name)
+ def cmp(self, other):
+ v_is_ptr = not isinstance(self, CTypesGenericPrimitive)
+ w_is_ptr = (isinstance(other, CTypesData) and
+ not isinstance(other, CTypesGenericPrimitive))
+ if v_is_ptr and w_is_ptr:
+ return cmpfunc(self._convert_to_address(None),
+ other._convert_to_address(None))
+ elif v_is_ptr or w_is_ptr:
+ return NotImplemented
+ else:
+ if isinstance(self, CTypesGenericPrimitive):
+ self = self._value
+ if isinstance(other, CTypesGenericPrimitive):
+ other = other._value
+ return cmpfunc(self, other)
+ cmp.func_name = name
+ return cmp
+
+ __eq__ = _make_cmp('__eq__')
+ __ne__ = _make_cmp('__ne__')
+ __lt__ = _make_cmp('__lt__')
+ __le__ = _make_cmp('__le__')
+ __gt__ = _make_cmp('__gt__')
+ __ge__ = _make_cmp('__ge__')
+
+ def __hash__(self):
+ return hash(self._convert_to_address(None))
+
+ def _to_string(self, maxlen):
+ raise TypeError("string(): %r" % (self,))
+
+
+class CTypesGenericPrimitive(CTypesData):
+ __slots__ = []
+
+ def __hash__(self):
+ return hash(self._value)
+
+ def _get_own_repr(self):
+ return repr(self._from_ctypes(self._value))
+
+
+class CTypesGenericArray(CTypesData):
+ __slots__ = []
+
+ @classmethod
+ def _newp(cls, init):
+ return cls(init)
+
+ def __iter__(self):
+ for i in xrange(len(self)):
+ yield self[i]
+
+ def _get_own_repr(self):
+ return self._addr_repr(ctypes.addressof(self._blob))
+
+
+class CTypesGenericPtr(CTypesData):
+ __slots__ = ['_address', '_as_ctype_ptr']
+ _automatic_casts = False
+ kind = "pointer"
+
+ @classmethod
+ def _newp(cls, init):
+ return cls(init)
+
+ @classmethod
+ def _cast_from(cls, source):
+ if source is None:
+ address = 0
+ elif isinstance(source, CTypesData):
+ address = source._cast_to_integer()
+ elif isinstance(source, (int, long)):
+ address = source
+ else:
+ raise TypeError("bad type for cast to %r: %r" %
+ (cls, type(source).__name__))
+ return cls._new_pointer_at(address)
+
+ @classmethod
+ def _new_pointer_at(cls, address):
+ self = cls.__new__(cls)
+ self._address = address
+ self._as_ctype_ptr = ctypes.cast(address, cls._ctype)
+ return self
+
+ def _get_own_repr(self):
+ try:
+ return self._addr_repr(self._address)
+ except AttributeError:
+ return '???'
+
+ def _cast_to_integer(self):
+ return self._address
+
+ def __nonzero__(self):
+ return bool(self._address)
+ __bool__ = __nonzero__
+
+ @classmethod
+ def _to_ctypes(cls, value):
+ if not isinstance(value, CTypesData):
+ raise TypeError("unexpected %s object" % type(value).__name__)
+ address = value._convert_to_address(cls)
+ return ctypes.cast(address, cls._ctype)
+
+ @classmethod
+ def _from_ctypes(cls, ctypes_ptr):
+ address = ctypes.cast(ctypes_ptr, ctypes.c_void_p).value or 0
+ return cls._new_pointer_at(address)
+
+ @classmethod
+ def _initialize(cls, ctypes_ptr, value):
+ if value:
+ ctypes_ptr.contents = cls._to_ctypes(value).contents
+
+ def _convert_to_address(self, BClass):
+ if (BClass in (self.__class__, None) or BClass._automatic_casts
+ or self._automatic_casts):
+ return self._address
+ else:
+ return CTypesData._convert_to_address(self, BClass)
+
+
+class CTypesBaseStructOrUnion(CTypesData):
+ __slots__ = ['_blob']
+
+ @classmethod
+ def _create_ctype_obj(cls, init):
+ # may be overridden
+ raise TypeError("cannot instantiate opaque type %s" % (cls,))
+
+ def _get_own_repr(self):
+ return self._addr_repr(ctypes.addressof(self._blob))
+
+ @classmethod
+ def _offsetof(cls, fieldname):
+ return getattr(cls._ctype, fieldname).offset
+
+ def _convert_to_address(self, BClass):
+ if getattr(BClass, '_BItem', None) is self.__class__:
+ return ctypes.addressof(self._blob)
+ else:
+ return CTypesData._convert_to_address(self, BClass)
+
+ @classmethod
+ def _from_ctypes(cls, ctypes_struct_or_union):
+ self = cls.__new__(cls)
+ self._blob = ctypes_struct_or_union
+ return self
+
+ @classmethod
+ def _to_ctypes(cls, value):
+ return value._blob
+
+ def __repr__(self, c_name=None):
+ return CTypesData.__repr__(self, c_name or self._get_c_name(' &'))
+
+
+class CTypesBackend(object):
+
+ PRIMITIVE_TYPES = {
+ 'char': ctypes.c_char,
+ 'short': ctypes.c_short,
+ 'int': ctypes.c_int,
+ 'long': ctypes.c_long,
+ 'long long': ctypes.c_longlong,
+ 'signed char': ctypes.c_byte,
+ 'unsigned char': ctypes.c_ubyte,
+ 'unsigned short': ctypes.c_ushort,
+ 'unsigned int': ctypes.c_uint,
+ 'unsigned long': ctypes.c_ulong,
+ 'unsigned long long': ctypes.c_ulonglong,
+ 'float': ctypes.c_float,
+ 'double': ctypes.c_double,
+ '_Bool': ctypes.c_bool,
+ }
+
+ for _name in ['unsigned long long', 'unsigned long',
+ 'unsigned int', 'unsigned short', 'unsigned char']:
+ _size = ctypes.sizeof(PRIMITIVE_TYPES[_name])
+ PRIMITIVE_TYPES['uint%d_t' % (8*_size)] = PRIMITIVE_TYPES[_name]
+ if _size == ctypes.sizeof(ctypes.c_void_p):
+ PRIMITIVE_TYPES['uintptr_t'] = PRIMITIVE_TYPES[_name]
+ if _size == ctypes.sizeof(ctypes.c_size_t):
+ PRIMITIVE_TYPES['size_t'] = PRIMITIVE_TYPES[_name]
+
+ for _name in ['long long', 'long', 'int', 'short', 'signed char']:
+ _size = ctypes.sizeof(PRIMITIVE_TYPES[_name])
+ PRIMITIVE_TYPES['int%d_t' % (8*_size)] = PRIMITIVE_TYPES[_name]
+ if _size == ctypes.sizeof(ctypes.c_void_p):
+ PRIMITIVE_TYPES['intptr_t'] = PRIMITIVE_TYPES[_name]
+ PRIMITIVE_TYPES['ptrdiff_t'] = PRIMITIVE_TYPES[_name]
+ if _size == ctypes.sizeof(ctypes.c_size_t):
+ PRIMITIVE_TYPES['ssize_t'] = PRIMITIVE_TYPES[_name]
+
+
+ def __init__(self):
+ self.RTLD_LAZY = 0 # not supported anyway by ctypes
+ self.RTLD_NOW = 0
+ self.RTLD_GLOBAL = ctypes.RTLD_GLOBAL
+ self.RTLD_LOCAL = ctypes.RTLD_LOCAL
+
+ def set_ffi(self, ffi):
+ self.ffi = ffi
+
+ def _get_types(self):
+ return CTypesData, CTypesType
+
+ def load_library(self, path, flags=0):
+ cdll = ctypes.CDLL(path, flags)
+ return CTypesLibrary(self, cdll)
+
+ def new_void_type(self):
+ class CTypesVoid(CTypesData):
+ __slots__ = []
+ _reftypename = 'void &'
+ @staticmethod
+ def _from_ctypes(novalue):
+ return None
+ @staticmethod
+ def _to_ctypes(novalue):
+ if novalue is not None:
+ raise TypeError("None expected, got %s object" %
+ (type(novalue).__name__,))
+ return None
+ CTypesVoid._fix_class()
+ return CTypesVoid
+
+ def new_primitive_type(self, name):
+ if name == 'wchar_t':
+ raise NotImplementedError(name)
+ ctype = self.PRIMITIVE_TYPES[name]
+ if name == 'char':
+ kind = 'char'
+ elif name in ('float', 'double'):
+ kind = 'float'
+ else:
+ if name in ('signed char', 'unsigned char'):
+ kind = 'byte'
+ elif name == '_Bool':
+ kind = 'bool'
+ else:
+ kind = 'int'
+ is_signed = (ctype(-1).value == -1)
+ #
+ def _cast_source_to_int(source):
+ if isinstance(source, (int, long, float)):
+ source = int(source)
+ elif isinstance(source, CTypesData):
+ source = source._cast_to_integer()
+ elif isinstance(source, bytes):
+ source = ord(source)
+ elif source is None:
+ source = 0
+ else:
+ raise TypeError("bad type for cast to %r: %r" %
+ (CTypesPrimitive, type(source).__name__))
+ return source
+ #
+ kind1 = kind
+ class CTypesPrimitive(CTypesGenericPrimitive):
+ __slots__ = ['_value']
+ _ctype = ctype
+ _reftypename = '%s &' % name
+ kind = kind1
+
+ def __init__(self, value):
+ self._value = value
+
+ @staticmethod
+ def _create_ctype_obj(init):
+ if init is None:
+ return ctype()
+ return ctype(CTypesPrimitive._to_ctypes(init))
+
+ if kind == 'int' or kind == 'byte':
+ @classmethod
+ def _cast_from(cls, source):
+ source = _cast_source_to_int(source)
+ source = ctype(source).value # cast within range
+ return cls(source)
+ def __int__(self):
+ return self._value
+
+ if kind == 'bool':
+ @classmethod
+ def _cast_from(cls, source):
+ if not isinstance(source, (int, long, float)):
+ source = _cast_source_to_int(source)
+ return cls(bool(source))
+ def __int__(self):
+ return int(self._value)
+
+ if kind == 'char':
+ @classmethod
+ def _cast_from(cls, source):
+ source = _cast_source_to_int(source)
+ source = bytechr(source & 0xFF)
+ return cls(source)
+ def __int__(self):
+ return ord(self._value)
+
+ if kind == 'float':
+ @classmethod
+ def _cast_from(cls, source):
+ if isinstance(source, float):
+ pass
+ elif isinstance(source, CTypesGenericPrimitive):
+ if hasattr(source, '__float__'):
+ source = float(source)
+ else:
+ source = int(source)
+ else:
+ source = _cast_source_to_int(source)
+ source = ctype(source).value # fix precision
+ return cls(source)
+ def __int__(self):
+ return int(self._value)
+ def __float__(self):
+ return self._value
+
+ _cast_to_integer = __int__
+
+ if kind == 'int' or kind == 'byte' or kind == 'bool':
+ @staticmethod
+ def _to_ctypes(x):
+ if not isinstance(x, (int, long)):
+ if isinstance(x, CTypesData):
+ x = int(x)
+ else:
+ raise TypeError("integer expected, got %s" %
+ type(x).__name__)
+ if ctype(x).value != x:
+ if not is_signed and x < 0:
+ raise OverflowError("%s: negative integer" % name)
+ else:
+ raise OverflowError("%s: integer out of bounds"
+ % name)
+ return x
+
+ if kind == 'char':
+ @staticmethod
+ def _to_ctypes(x):
+ if isinstance(x, bytes) and len(x) == 1:
+ return x
+ if isinstance(x, CTypesPrimitive): # <CData <char>>
+ return x._value
+ raise TypeError("character expected, got %s" %
+ type(x).__name__)
+ def __nonzero__(self):
+ return ord(self._value) != 0
+ else:
+ def __nonzero__(self):
+ return self._value != 0
+ __bool__ = __nonzero__
+
+ if kind == 'float':
+ @staticmethod
+ def _to_ctypes(x):
+ if not isinstance(x, (int, long, float, CTypesData)):
+ raise TypeError("float expected, got %s" %
+ type(x).__name__)
+ return ctype(x).value
+
+ @staticmethod
+ def _from_ctypes(value):
+ return getattr(value, 'value', value)
+
+ @staticmethod
+ def _initialize(blob, init):
+ blob.value = CTypesPrimitive._to_ctypes(init)
+
+ if kind == 'char':
+ def _to_string(self, maxlen):
+ return self._value
+ if kind == 'byte':
+ def _to_string(self, maxlen):
+ return chr(self._value & 0xff)
+ #
+ CTypesPrimitive._fix_class()
+ return CTypesPrimitive
+
+ def new_pointer_type(self, BItem):
+ getbtype = self.ffi._get_cached_btype
+ if BItem is getbtype(model.PrimitiveType('char')):
+ kind = 'charp'
+ elif BItem in (getbtype(model.PrimitiveType('signed char')),
+ getbtype(model.PrimitiveType('unsigned char'))):
+ kind = 'bytep'
+ elif BItem is getbtype(model.void_type):
+ kind = 'voidp'
+ else:
+ kind = 'generic'
+ #
+ class CTypesPtr(CTypesGenericPtr):
+ __slots__ = ['_own']
+ if kind == 'charp':
+ __slots__ += ['__as_strbuf']
+ _BItem = BItem
+ if hasattr(BItem, '_ctype'):
+ _ctype = ctypes.POINTER(BItem._ctype)
+ _bitem_size = ctypes.sizeof(BItem._ctype)
+ else:
+ _ctype = ctypes.c_void_p
+ if issubclass(BItem, CTypesGenericArray):
+ _reftypename = BItem._get_c_name('(* &)')
+ else:
+ _reftypename = BItem._get_c_name(' * &')
+
+ def __init__(self, init):
+ ctypeobj = BItem._create_ctype_obj(init)
+ if kind == 'charp':
+ self.__as_strbuf = ctypes.create_string_buffer(
+ ctypeobj.value + b'\x00')
+ self._as_ctype_ptr = ctypes.cast(
+ self.__as_strbuf, self._ctype)
+ else:
+ self._as_ctype_ptr = ctypes.pointer(ctypeobj)
+ self._address = ctypes.cast(self._as_ctype_ptr,
+ ctypes.c_void_p).value
+ self._own = True
+
+ def __add__(self, other):
+ if isinstance(other, (int, long)):
+ return self._new_pointer_at(self._address +
+ other * self._bitem_size)
+ else:
+ return NotImplemented
+
+ def __sub__(self, other):
+ if isinstance(other, (int, long)):
+ return self._new_pointer_at(self._address -
+ other * self._bitem_size)
+ elif type(self) is type(other):
+ return (self._address - other._address) // self._bitem_size
+ else:
+ return NotImplemented
+
+ def __getitem__(self, index):
+ if getattr(self, '_own', False) and index != 0:
+ raise IndexError
+ return BItem._from_ctypes(self._as_ctype_ptr[index])
+
+ def __setitem__(self, index, value):
+ self._as_ctype_ptr[index] = BItem._to_ctypes(value)
+
+ if kind == 'charp' or kind == 'voidp':
+ @classmethod
+ def _arg_to_ctypes(cls, *value):
+ if value and isinstance(value[0], bytes):
+ return ctypes.c_char_p(value[0])
+ else:
+ return super(CTypesPtr, cls)._arg_to_ctypes(*value)
+
+ if kind == 'charp' or kind == 'bytep':
+ def _to_string(self, maxlen):
+ if maxlen < 0:
+ maxlen = sys.maxsize
+ p = ctypes.cast(self._as_ctype_ptr,
+ ctypes.POINTER(ctypes.c_char))
+ n = 0
+ while n < maxlen and p[n] != b'\x00':
+ n += 1
+ return b''.join([p[i] for i in range(n)])
+
+ def _get_own_repr(self):
+ if getattr(self, '_own', False):
+ return 'owning %d bytes' % (
+ ctypes.sizeof(self._as_ctype_ptr.contents),)
+ return super(CTypesPtr, self)._get_own_repr()
+ #
+ if (BItem is self.ffi._get_cached_btype(model.void_type) or
+ BItem is self.ffi._get_cached_btype(model.PrimitiveType('char'))):
+ CTypesPtr._automatic_casts = True
+ #
+ CTypesPtr._fix_class()
+ return CTypesPtr
+
+ def new_array_type(self, CTypesPtr, length):
+ if length is None:
+ brackets = ' &[]'
+ else:
+ brackets = ' &[%d]' % length
+ BItem = CTypesPtr._BItem
+ getbtype = self.ffi._get_cached_btype
+ if BItem is getbtype(model.PrimitiveType('char')):
+ kind = 'char'
+ elif BItem in (getbtype(model.PrimitiveType('signed char')),
+ getbtype(model.PrimitiveType('unsigned char'))):
+ kind = 'byte'
+ else:
+ kind = 'generic'
+ #
+ class CTypesArray(CTypesGenericArray):
+ __slots__ = ['_blob', '_own']
+ if length is not None:
+ _ctype = BItem._ctype * length
+ else:
+ __slots__.append('_ctype')
+ _reftypename = BItem._get_c_name(brackets)
+ _declared_length = length
+ _CTPtr = CTypesPtr
+
+ def __init__(self, init):
+ if length is None:
+ if isinstance(init, (int, long)):
+ len1 = init
+ init = None
+ elif kind == 'char' and isinstance(init, bytes):
+ len1 = len(init) + 1 # extra null
+ else:
+ init = tuple(init)
+ len1 = len(init)
+ self._ctype = BItem._ctype * len1
+ self._blob = self._ctype()
+ self._own = True
+ if init is not None:
+ self._initialize(self._blob, init)
+
+ @staticmethod
+ def _initialize(blob, init):
+ if isinstance(init, bytes):
+ init = [init[i:i+1] for i in range(len(init))]
+ else:
+ if isinstance(init, CTypesGenericArray):
+ if (len(init) != len(blob) or
+ not isinstance(init, CTypesArray)):
+ raise TypeError("length/type mismatch: %s" % (init,))
+ init = tuple(init)
+ if len(init) > len(blob):
+ raise IndexError("too many initializers")
+ addr = ctypes.cast(blob, ctypes.c_void_p).value
+ PTR = ctypes.POINTER(BItem._ctype)
+ itemsize = ctypes.sizeof(BItem._ctype)
+ for i, value in enumerate(init):
+ p = ctypes.cast(addr + i * itemsize, PTR)
+ BItem._initialize(p.contents, value)
+
+ def __len__(self):
+ return len(self._blob)
+
+ def __getitem__(self, index):
+ if not (0 <= index < len(self._blob)):
+ raise IndexError
+ return BItem._from_ctypes(self._blob[index])
+
+ def __setitem__(self, index, value):
+ if not (0 <= index < len(self._blob)):
+ raise IndexError
+ self._blob[index] = BItem._to_ctypes(value)
+
+ if kind == 'char' or kind == 'byte':
+ def _to_string(self, maxlen):
+ if maxlen < 0:
+ maxlen = len(self._blob)
+ p = ctypes.cast(self._blob,
+ ctypes.POINTER(ctypes.c_char))
+ n = 0
+ while n < maxlen and p[n] != b'\x00':
+ n += 1
+ return b''.join([p[i] for i in range(n)])
+
+ def _get_own_repr(self):
+ if getattr(self, '_own', False):
+ return 'owning %d bytes' % (ctypes.sizeof(self._blob),)
+ return super(CTypesArray, self)._get_own_repr()
+
+ def _convert_to_address(self, BClass):
+ if BClass in (CTypesPtr, None) or BClass._automatic_casts:
+ return ctypes.addressof(self._blob)
+ else:
+ return CTypesData._convert_to_address(self, BClass)
+
+ @staticmethod
+ def _from_ctypes(ctypes_array):
+ self = CTypesArray.__new__(CTypesArray)
+ self._blob = ctypes_array
+ return self
+
+ @staticmethod
+ def _arg_to_ctypes(value):
+ return CTypesPtr._arg_to_ctypes(value)
+
+ def __add__(self, other):
+ if isinstance(other, (int, long)):
+ return CTypesPtr._new_pointer_at(
+ ctypes.addressof(self._blob) +
+ other * ctypes.sizeof(BItem._ctype))
+ else:
+ return NotImplemented
+
+ @classmethod
+ def _cast_from(cls, source):
+ raise NotImplementedError("casting to %r" % (
+ cls._get_c_name(),))
+ #
+ CTypesArray._fix_class()
+ return CTypesArray
+
+ def _new_struct_or_union(self, kind, name, base_ctypes_class):
+ #
+ class struct_or_union(base_ctypes_class):
+ pass
+ struct_or_union.__name__ = '%s_%s' % (kind, name)
+ kind1 = kind
+ #
+ class CTypesStructOrUnion(CTypesBaseStructOrUnion):
+ __slots__ = ['_blob']
+ _ctype = struct_or_union
+ _reftypename = '%s &' % (name,)
+ _kind = kind = kind1
+ #
+ CTypesStructOrUnion._fix_class()
+ return CTypesStructOrUnion
+
+ def new_struct_type(self, name):
+ return self._new_struct_or_union('struct', name, ctypes.Structure)
+
+ def new_union_type(self, name):
+ return self._new_struct_or_union('union', name, ctypes.Union)
+
+ def complete_struct_or_union(self, CTypesStructOrUnion, fields, tp,
+ totalsize=-1, totalalignment=-1, sflags=0,
+ pack=0):
+ if totalsize >= 0 or totalalignment >= 0:
+ raise NotImplementedError("the ctypes backend of CFFI does not support "
+ "structures completed by verify(); please "
+ "compile and install the _cffi_backend module.")
+ struct_or_union = CTypesStructOrUnion._ctype
+ fnames = [fname for (fname, BField, bitsize) in fields]
+ btypes = [BField for (fname, BField, bitsize) in fields]
+ bitfields = [bitsize for (fname, BField, bitsize) in fields]
+ #
+ bfield_types = {}
+ cfields = []
+ for (fname, BField, bitsize) in fields:
+ if bitsize < 0:
+ cfields.append((fname, BField._ctype))
+ bfield_types[fname] = BField
+ else:
+ cfields.append((fname, BField._ctype, bitsize))
+ bfield_types[fname] = Ellipsis
+ if sflags & 8:
+ struct_or_union._pack_ = 1
+ elif pack:
+ struct_or_union._pack_ = pack
+ struct_or_union._fields_ = cfields
+ CTypesStructOrUnion._bfield_types = bfield_types
+ #
+ @staticmethod
+ def _create_ctype_obj(init):
+ result = struct_or_union()
+ if init is not None:
+ initialize(result, init)
+ return result
+ CTypesStructOrUnion._create_ctype_obj = _create_ctype_obj
+ #
+ def initialize(blob, init):
+ if is_union:
+ if len(init) > 1:
+ raise ValueError("union initializer: %d items given, but "
+ "only one supported (use a dict if needed)"
+ % (len(init),))
+ if not isinstance(init, dict):
+ if isinstance(init, (bytes, unicode)):
+ raise TypeError("union initializer: got a str")
+ init = tuple(init)
+ if len(init) > len(fnames):
+ raise ValueError("too many values for %s initializer" %
+ CTypesStructOrUnion._get_c_name())
+ init = dict(zip(fnames, init))
+ addr = ctypes.addressof(blob)
+ for fname, value in init.items():
+ BField, bitsize = name2fieldtype[fname]
+ assert bitsize < 0, \
+ "not implemented: initializer with bit fields"
+ offset = CTypesStructOrUnion._offsetof(fname)
+ PTR = ctypes.POINTER(BField._ctype)
+ p = ctypes.cast(addr + offset, PTR)
+ BField._initialize(p.contents, value)
+ is_union = CTypesStructOrUnion._kind == 'union'
+ name2fieldtype = dict(zip(fnames, zip(btypes, bitfields)))
+ #
+ for fname, BField, bitsize in fields:
+ if fname == '':
+ raise NotImplementedError("nested anonymous structs/unions")
+ if hasattr(CTypesStructOrUnion, fname):
+ raise ValueError("the field name %r conflicts in "
+ "the ctypes backend" % fname)
+ if bitsize < 0:
+ def getter(self, fname=fname, BField=BField,
+ offset=CTypesStructOrUnion._offsetof(fname),
+ PTR=ctypes.POINTER(BField._ctype)):
+ addr = ctypes.addressof(self._blob)
+ p = ctypes.cast(addr + offset, PTR)
+ return BField._from_ctypes(p.contents)
+ def setter(self, value, fname=fname, BField=BField):
+ setattr(self._blob, fname, BField._to_ctypes(value))
+ #
+ if issubclass(BField, CTypesGenericArray):
+ setter = None
+ if BField._declared_length == 0:
+ def getter(self, fname=fname, BFieldPtr=BField._CTPtr,
+ offset=CTypesStructOrUnion._offsetof(fname),
+ PTR=ctypes.POINTER(BField._ctype)):
+ addr = ctypes.addressof(self._blob)
+ p = ctypes.cast(addr + offset, PTR)
+ return BFieldPtr._from_ctypes(p)
+ #
+ else:
+ def getter(self, fname=fname, BField=BField):
+ return BField._from_ctypes(getattr(self._blob, fname))
+ def setter(self, value, fname=fname, BField=BField):
+ # xxx obscure workaround
+ value = BField._to_ctypes(value)
+ oldvalue = getattr(self._blob, fname)
+ setattr(self._blob, fname, value)
+ if value != getattr(self._blob, fname):
+ setattr(self._blob, fname, oldvalue)
+ raise OverflowError("value too large for bitfield")
+ setattr(CTypesStructOrUnion, fname, property(getter, setter))
+ #
+ CTypesPtr = self.ffi._get_cached_btype(model.PointerType(tp))
+ for fname in fnames:
+ if hasattr(CTypesPtr, fname):
+ raise ValueError("the field name %r conflicts in "
+ "the ctypes backend" % fname)
+ def getter(self, fname=fname):
+ return getattr(self[0], fname)
+ def setter(self, value, fname=fname):
+ setattr(self[0], fname, value)
+ setattr(CTypesPtr, fname, property(getter, setter))
+
+ def new_function_type(self, BArgs, BResult, has_varargs):
+ nameargs = [BArg._get_c_name() for BArg in BArgs]
+ if has_varargs:
+ nameargs.append('...')
+ nameargs = ', '.join(nameargs)
+ #
+ class CTypesFunctionPtr(CTypesGenericPtr):
+ __slots__ = ['_own_callback', '_name']
+ _ctype = ctypes.CFUNCTYPE(getattr(BResult, '_ctype', None),
+ *[BArg._ctype for BArg in BArgs],
+ use_errno=True)
+ _reftypename = BResult._get_c_name('(* &)(%s)' % (nameargs,))
+
+ def __init__(self, init, error=None):
+ # create a callback to the Python callable init()
+ import traceback
+ assert not has_varargs, "varargs not supported for callbacks"
+ if getattr(BResult, '_ctype', None) is not None:
+ error = BResult._from_ctypes(
+ BResult._create_ctype_obj(error))
+ else:
+ error = None
+ def callback(*args):
+ args2 = []
+ for arg, BArg in zip(args, BArgs):
+ args2.append(BArg._from_ctypes(arg))
+ try:
+ res2 = init(*args2)
+ res2 = BResult._to_ctypes(res2)
+ except:
+ traceback.print_exc()
+ res2 = error
+ if issubclass(BResult, CTypesGenericPtr):
+ if res2:
+ res2 = ctypes.cast(res2, ctypes.c_void_p).value
+ # .value: http://bugs.python.org/issue1574593
+ else:
+ res2 = None
+ #print repr(res2)
+ return res2
+ if issubclass(BResult, CTypesGenericPtr):
+ # The only pointers callbacks can return are void*s:
+ # http://bugs.python.org/issue5710
+ callback_ctype = ctypes.CFUNCTYPE(
+ ctypes.c_void_p,
+ *[BArg._ctype for BArg in BArgs],
+ use_errno=True)
+ else:
+ callback_ctype = CTypesFunctionPtr._ctype
+ self._as_ctype_ptr = callback_ctype(callback)
+ self._address = ctypes.cast(self._as_ctype_ptr,
+ ctypes.c_void_p).value
+ self._own_callback = init
+
+ @staticmethod
+ def _initialize(ctypes_ptr, value):
+ if value:
+ raise NotImplementedError("ctypes backend: not supported: "
+ "initializers for function pointers")
+
+ def __repr__(self):
+ c_name = getattr(self, '_name', None)
+ if c_name:
+ i = self._reftypename.index('(* &)')
+ if self._reftypename[i-1] not in ' )*':
+ c_name = ' ' + c_name
+ c_name = self._reftypename.replace('(* &)', c_name)
+ return CTypesData.__repr__(self, c_name)
+
+ def _get_own_repr(self):
+ if getattr(self, '_own_callback', None) is not None:
+ return 'calling %r' % (self._own_callback,)
+ return super(CTypesFunctionPtr, self)._get_own_repr()
+
+ def __call__(self, *args):
+ if has_varargs:
+ assert len(args) >= len(BArgs)
+ extraargs = args[len(BArgs):]
+ args = args[:len(BArgs)]
+ else:
+ assert len(args) == len(BArgs)
+ ctypes_args = []
+ for arg, BArg in zip(args, BArgs):
+ ctypes_args.append(BArg._arg_to_ctypes(arg))
+ if has_varargs:
+ for i, arg in enumerate(extraargs):
+ if arg is None:
+ ctypes_args.append(ctypes.c_void_p(0)) # NULL
+ continue
+ if not isinstance(arg, CTypesData):
+ raise TypeError(
+ "argument %d passed in the variadic part "
+ "needs to be a cdata object (got %s)" %
+ (1 + len(BArgs) + i, type(arg).__name__))
+ ctypes_args.append(arg._arg_to_ctypes(arg))
+ result = self._as_ctype_ptr(*ctypes_args)
+ return BResult._from_ctypes(result)
+ #
+ CTypesFunctionPtr._fix_class()
+ return CTypesFunctionPtr
+
+ def new_enum_type(self, name, enumerators, enumvalues, CTypesInt):
+ assert isinstance(name, str)
+ reverse_mapping = dict(zip(reversed(enumvalues),
+ reversed(enumerators)))
+ #
+ class CTypesEnum(CTypesInt):
+ __slots__ = []
+ _reftypename = '%s &' % name
+
+ def _get_own_repr(self):
+ value = self._value
+ try:
+ return '%d: %s' % (value, reverse_mapping[value])
+ except KeyError:
+ return str(value)
+
+ def _to_string(self, maxlen):
+ value = self._value
+ try:
+ return reverse_mapping[value]
+ except KeyError:
+ return str(value)
+ #
+ CTypesEnum._fix_class()
+ return CTypesEnum
+
+ def get_errno(self):
+ return ctypes.get_errno()
+
+ def set_errno(self, value):
+ ctypes.set_errno(value)
+
+ def string(self, b, maxlen=-1):
+ return b._to_string(maxlen)
+
+ def buffer(self, bptr, size=-1):
+ raise NotImplementedError("buffer() with ctypes backend")
+
+ def sizeof(self, cdata_or_BType):
+ if isinstance(cdata_or_BType, CTypesData):
+ return cdata_or_BType._get_size_of_instance()
+ else:
+ assert issubclass(cdata_or_BType, CTypesData)
+ return cdata_or_BType._get_size()
+
+ def alignof(self, BType):
+ assert issubclass(BType, CTypesData)
+ return BType._alignment()
+
+ def newp(self, BType, source):
+ if not issubclass(BType, CTypesData):
+ raise TypeError
+ return BType._newp(source)
+
+ def cast(self, BType, source):
+ return BType._cast_from(source)
+
+ def callback(self, BType, source, error, onerror):
+ assert onerror is None # XXX not implemented
+ return BType(source, error)
+
+ _weakref_cache_ref = None
+
+ def gcp(self, cdata, destructor, size=0):
+ if self._weakref_cache_ref is None:
+ import weakref
+ class MyRef(weakref.ref):
+ def __eq__(self, other):
+ myref = self()
+ return self is other or (
+ myref is not None and myref is other())
+ def __ne__(self, other):
+ return not (self == other)
+ def __hash__(self):
+ try:
+ return self._hash
+ except AttributeError:
+ self._hash = hash(self())
+ return self._hash
+ self._weakref_cache_ref = {}, MyRef
+ weak_cache, MyRef = self._weakref_cache_ref
+
+ if destructor is None:
+ try:
+ del weak_cache[MyRef(cdata)]
+ except KeyError:
+ raise TypeError("Can remove destructor only on a object "
+ "previously returned by ffi.gc()")
+ return None
+
+ def remove(k):
+ cdata, destructor = weak_cache.pop(k, (None, None))
+ if destructor is not None:
+ destructor(cdata)
+
+ new_cdata = self.cast(self.typeof(cdata), cdata)
+ assert new_cdata is not cdata
+ weak_cache[MyRef(new_cdata, remove)] = (cdata, destructor)
+ return new_cdata
+
+ typeof = type
+
+ def getcname(self, BType, replace_with):
+ return BType._get_c_name(replace_with)
+
+ def typeoffsetof(self, BType, fieldname, num=0):
+ if isinstance(fieldname, str):
+ if num == 0 and issubclass(BType, CTypesGenericPtr):
+ BType = BType._BItem
+ if not issubclass(BType, CTypesBaseStructOrUnion):
+ raise TypeError("expected a struct or union ctype")
+ BField = BType._bfield_types[fieldname]
+ if BField is Ellipsis:
+ raise TypeError("not supported for bitfields")
+ return (BField, BType._offsetof(fieldname))
+ elif isinstance(fieldname, (int, long)):
+ if issubclass(BType, CTypesGenericArray):
+ BType = BType._CTPtr
+ if not issubclass(BType, CTypesGenericPtr):
+ raise TypeError("expected an array or ptr ctype")
+ BItem = BType._BItem
+ offset = BItem._get_size() * fieldname
+ if offset > sys.maxsize:
+ raise OverflowError
+ return (BItem, offset)
+ else:
+ raise TypeError(type(fieldname))
+
+ def rawaddressof(self, BTypePtr, cdata, offset=None):
+ if isinstance(cdata, CTypesBaseStructOrUnion):
+ ptr = ctypes.pointer(type(cdata)._to_ctypes(cdata))
+ elif isinstance(cdata, CTypesGenericPtr):
+ if offset is None or not issubclass(type(cdata)._BItem,
+ CTypesBaseStructOrUnion):
+ raise TypeError("unexpected cdata type")
+ ptr = type(cdata)._to_ctypes(cdata)
+ elif isinstance(cdata, CTypesGenericArray):
+ ptr = type(cdata)._to_ctypes(cdata)
+ else:
+ raise TypeError("expected a <cdata 'struct-or-union'>")
+ if offset:
+ ptr = ctypes.cast(
+ ctypes.c_void_p(
+ ctypes.cast(ptr, ctypes.c_void_p).value + offset),
+ type(ptr))
+ return BTypePtr._from_ctypes(ptr)
+
+
+class CTypesLibrary(object):
+
+ def __init__(self, backend, cdll):
+ self.backend = backend
+ self.cdll = cdll
+
+ def load_function(self, BType, name):
+ c_func = getattr(self.cdll, name)
+ funcobj = BType._from_ctypes(c_func)
+ funcobj._name = name
+ return funcobj
+
+ def read_variable(self, BType, name):
+ try:
+ ctypes_obj = BType._ctype.in_dll(self.cdll, name)
+ except AttributeError as e:
+ raise NotImplementedError(e)
+ return BType._from_ctypes(ctypes_obj)
+
+ def write_variable(self, BType, name, value):
+ new_ctypes_obj = BType._to_ctypes(value)
+ ctypes_obj = BType._ctype.in_dll(self.cdll, name)
+ ctypes.memmove(ctypes.addressof(ctypes_obj),
+ ctypes.addressof(new_ctypes_obj),
+ ctypes.sizeof(BType._ctype))
diff --git a/contrib/python/cffi/py3/cffi/cffi_opcode.py b/contrib/python/cffi/py3/cffi/cffi_opcode.py
new file mode 100644
index 0000000000..a0df98d1c7
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/cffi_opcode.py
@@ -0,0 +1,187 @@
+from .error import VerificationError
+
+class CffiOp(object):
+ def __init__(self, op, arg):
+ self.op = op
+ self.arg = arg
+
+ def as_c_expr(self):
+ if self.op is None:
+ assert isinstance(self.arg, str)
+ return '(_cffi_opcode_t)(%s)' % (self.arg,)
+ classname = CLASS_NAME[self.op]
+ return '_CFFI_OP(_CFFI_OP_%s, %s)' % (classname, self.arg)
+
+ def as_python_bytes(self):
+ if self.op is None and self.arg.isdigit():
+ value = int(self.arg) # non-negative: '-' not in self.arg
+ if value >= 2**31:
+ raise OverflowError("cannot emit %r: limited to 2**31-1"
+ % (self.arg,))
+ return format_four_bytes(value)
+ if isinstance(self.arg, str):
+ raise VerificationError("cannot emit to Python: %r" % (self.arg,))
+ return format_four_bytes((self.arg << 8) | self.op)
+
+ def __str__(self):
+ classname = CLASS_NAME.get(self.op, self.op)
+ return '(%s %s)' % (classname, self.arg)
+
+def format_four_bytes(num):
+ return '\\x%02X\\x%02X\\x%02X\\x%02X' % (
+ (num >> 24) & 0xFF,
+ (num >> 16) & 0xFF,
+ (num >> 8) & 0xFF,
+ (num ) & 0xFF)
+
+OP_PRIMITIVE = 1
+OP_POINTER = 3
+OP_ARRAY = 5
+OP_OPEN_ARRAY = 7
+OP_STRUCT_UNION = 9
+OP_ENUM = 11
+OP_FUNCTION = 13
+OP_FUNCTION_END = 15
+OP_NOOP = 17
+OP_BITFIELD = 19
+OP_TYPENAME = 21
+OP_CPYTHON_BLTN_V = 23 # varargs
+OP_CPYTHON_BLTN_N = 25 # noargs
+OP_CPYTHON_BLTN_O = 27 # O (i.e. a single arg)
+OP_CONSTANT = 29
+OP_CONSTANT_INT = 31
+OP_GLOBAL_VAR = 33
+OP_DLOPEN_FUNC = 35
+OP_DLOPEN_CONST = 37
+OP_GLOBAL_VAR_F = 39
+OP_EXTERN_PYTHON = 41
+
+PRIM_VOID = 0
+PRIM_BOOL = 1
+PRIM_CHAR = 2
+PRIM_SCHAR = 3
+PRIM_UCHAR = 4
+PRIM_SHORT = 5
+PRIM_USHORT = 6
+PRIM_INT = 7
+PRIM_UINT = 8
+PRIM_LONG = 9
+PRIM_ULONG = 10
+PRIM_LONGLONG = 11
+PRIM_ULONGLONG = 12
+PRIM_FLOAT = 13
+PRIM_DOUBLE = 14
+PRIM_LONGDOUBLE = 15
+
+PRIM_WCHAR = 16
+PRIM_INT8 = 17
+PRIM_UINT8 = 18
+PRIM_INT16 = 19
+PRIM_UINT16 = 20
+PRIM_INT32 = 21
+PRIM_UINT32 = 22
+PRIM_INT64 = 23
+PRIM_UINT64 = 24
+PRIM_INTPTR = 25
+PRIM_UINTPTR = 26
+PRIM_PTRDIFF = 27
+PRIM_SIZE = 28
+PRIM_SSIZE = 29
+PRIM_INT_LEAST8 = 30
+PRIM_UINT_LEAST8 = 31
+PRIM_INT_LEAST16 = 32
+PRIM_UINT_LEAST16 = 33
+PRIM_INT_LEAST32 = 34
+PRIM_UINT_LEAST32 = 35
+PRIM_INT_LEAST64 = 36
+PRIM_UINT_LEAST64 = 37
+PRIM_INT_FAST8 = 38
+PRIM_UINT_FAST8 = 39
+PRIM_INT_FAST16 = 40
+PRIM_UINT_FAST16 = 41
+PRIM_INT_FAST32 = 42
+PRIM_UINT_FAST32 = 43
+PRIM_INT_FAST64 = 44
+PRIM_UINT_FAST64 = 45
+PRIM_INTMAX = 46
+PRIM_UINTMAX = 47
+PRIM_FLOATCOMPLEX = 48
+PRIM_DOUBLECOMPLEX = 49
+PRIM_CHAR16 = 50
+PRIM_CHAR32 = 51
+
+_NUM_PRIM = 52
+_UNKNOWN_PRIM = -1
+_UNKNOWN_FLOAT_PRIM = -2
+_UNKNOWN_LONG_DOUBLE = -3
+
+_IO_FILE_STRUCT = -1
+
+PRIMITIVE_TO_INDEX = {
+ 'char': PRIM_CHAR,
+ 'short': PRIM_SHORT,
+ 'int': PRIM_INT,
+ 'long': PRIM_LONG,
+ 'long long': PRIM_LONGLONG,
+ 'signed char': PRIM_SCHAR,
+ 'unsigned char': PRIM_UCHAR,
+ 'unsigned short': PRIM_USHORT,
+ 'unsigned int': PRIM_UINT,
+ 'unsigned long': PRIM_ULONG,
+ 'unsigned long long': PRIM_ULONGLONG,
+ 'float': PRIM_FLOAT,
+ 'double': PRIM_DOUBLE,
+ 'long double': PRIM_LONGDOUBLE,
+ 'float _Complex': PRIM_FLOATCOMPLEX,
+ 'double _Complex': PRIM_DOUBLECOMPLEX,
+ '_Bool': PRIM_BOOL,
+ 'wchar_t': PRIM_WCHAR,
+ 'char16_t': PRIM_CHAR16,
+ 'char32_t': PRIM_CHAR32,
+ 'int8_t': PRIM_INT8,
+ 'uint8_t': PRIM_UINT8,
+ 'int16_t': PRIM_INT16,
+ 'uint16_t': PRIM_UINT16,
+ 'int32_t': PRIM_INT32,
+ 'uint32_t': PRIM_UINT32,
+ 'int64_t': PRIM_INT64,
+ 'uint64_t': PRIM_UINT64,
+ 'intptr_t': PRIM_INTPTR,
+ 'uintptr_t': PRIM_UINTPTR,
+ 'ptrdiff_t': PRIM_PTRDIFF,
+ 'size_t': PRIM_SIZE,
+ 'ssize_t': PRIM_SSIZE,
+ 'int_least8_t': PRIM_INT_LEAST8,
+ 'uint_least8_t': PRIM_UINT_LEAST8,
+ 'int_least16_t': PRIM_INT_LEAST16,
+ 'uint_least16_t': PRIM_UINT_LEAST16,
+ 'int_least32_t': PRIM_INT_LEAST32,
+ 'uint_least32_t': PRIM_UINT_LEAST32,
+ 'int_least64_t': PRIM_INT_LEAST64,
+ 'uint_least64_t': PRIM_UINT_LEAST64,
+ 'int_fast8_t': PRIM_INT_FAST8,
+ 'uint_fast8_t': PRIM_UINT_FAST8,
+ 'int_fast16_t': PRIM_INT_FAST16,
+ 'uint_fast16_t': PRIM_UINT_FAST16,
+ 'int_fast32_t': PRIM_INT_FAST32,
+ 'uint_fast32_t': PRIM_UINT_FAST32,
+ 'int_fast64_t': PRIM_INT_FAST64,
+ 'uint_fast64_t': PRIM_UINT_FAST64,
+ 'intmax_t': PRIM_INTMAX,
+ 'uintmax_t': PRIM_UINTMAX,
+ }
+
+F_UNION = 0x01
+F_CHECK_FIELDS = 0x02
+F_PACKED = 0x04
+F_EXTERNAL = 0x08
+F_OPAQUE = 0x10
+
+G_FLAGS = dict([('_CFFI_' + _key, globals()[_key])
+ for _key in ['F_UNION', 'F_CHECK_FIELDS', 'F_PACKED',
+ 'F_EXTERNAL', 'F_OPAQUE']])
+
+CLASS_NAME = {}
+for _name, _value in list(globals().items()):
+ if _name.startswith('OP_') and isinstance(_value, int):
+ CLASS_NAME[_value] = _name[3:]
diff --git a/contrib/python/cffi/py3/cffi/commontypes.py b/contrib/python/cffi/py3/cffi/commontypes.py
new file mode 100644
index 0000000000..8ec97c756a
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/commontypes.py
@@ -0,0 +1,80 @@
+import sys
+from . import model
+from .error import FFIError
+
+
+COMMON_TYPES = {}
+
+try:
+ # fetch "bool" and all simple Windows types
+ from _cffi_backend import _get_common_types
+ _get_common_types(COMMON_TYPES)
+except ImportError:
+ pass
+
+COMMON_TYPES['FILE'] = model.unknown_type('FILE', '_IO_FILE')
+COMMON_TYPES['bool'] = '_Bool' # in case we got ImportError above
+
+for _type in model.PrimitiveType.ALL_PRIMITIVE_TYPES:
+ if _type.endswith('_t'):
+ COMMON_TYPES[_type] = _type
+del _type
+
+_CACHE = {}
+
+def resolve_common_type(parser, commontype):
+ try:
+ return _CACHE[commontype]
+ except KeyError:
+ cdecl = COMMON_TYPES.get(commontype, commontype)
+ if not isinstance(cdecl, str):
+ result, quals = cdecl, 0 # cdecl is already a BaseType
+ elif cdecl in model.PrimitiveType.ALL_PRIMITIVE_TYPES:
+ result, quals = model.PrimitiveType(cdecl), 0
+ elif cdecl == 'set-unicode-needed':
+ raise FFIError("The Windows type %r is only available after "
+ "you call ffi.set_unicode()" % (commontype,))
+ else:
+ if commontype == cdecl:
+ raise FFIError(
+ "Unsupported type: %r. Please look at "
+ "http://cffi.readthedocs.io/en/latest/cdef.html#ffi-cdef-limitations "
+ "and file an issue if you think this type should really "
+ "be supported." % (commontype,))
+ result, quals = parser.parse_type_and_quals(cdecl) # recursive
+
+ assert isinstance(result, model.BaseTypeByIdentity)
+ _CACHE[commontype] = result, quals
+ return result, quals
+
+
+# ____________________________________________________________
+# extra types for Windows (most of them are in commontypes.c)
+
+
+def win_common_types():
+ return {
+ "UNICODE_STRING": model.StructType(
+ "_UNICODE_STRING",
+ ["Length",
+ "MaximumLength",
+ "Buffer"],
+ [model.PrimitiveType("unsigned short"),
+ model.PrimitiveType("unsigned short"),
+ model.PointerType(model.PrimitiveType("wchar_t"))],
+ [-1, -1, -1]),
+ "PUNICODE_STRING": "UNICODE_STRING *",
+ "PCUNICODE_STRING": "const UNICODE_STRING *",
+
+ "TBYTE": "set-unicode-needed",
+ "TCHAR": "set-unicode-needed",
+ "LPCTSTR": "set-unicode-needed",
+ "PCTSTR": "set-unicode-needed",
+ "LPTSTR": "set-unicode-needed",
+ "PTSTR": "set-unicode-needed",
+ "PTBYTE": "set-unicode-needed",
+ "PTCHAR": "set-unicode-needed",
+ }
+
+if sys.platform == 'win32':
+ COMMON_TYPES.update(win_common_types())
diff --git a/contrib/python/cffi/py3/cffi/cparser.py b/contrib/python/cffi/py3/cffi/cparser.py
new file mode 100644
index 0000000000..74830e913f
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/cparser.py
@@ -0,0 +1,1006 @@
+from . import model
+from .commontypes import COMMON_TYPES, resolve_common_type
+from .error import FFIError, CDefError
+try:
+ from . import _pycparser as pycparser
+except ImportError:
+ import pycparser
+import weakref, re, sys
+
+try:
+ if sys.version_info < (3,):
+ import thread as _thread
+ else:
+ import _thread
+ lock = _thread.allocate_lock()
+except ImportError:
+ lock = None
+
+def _workaround_for_static_import_finders():
+ # Issue #392: packaging tools like cx_Freeze can not find these
+ # because pycparser uses exec dynamic import. This is an obscure
+ # workaround. This function is never called.
+ import pycparser.yacctab
+ import pycparser.lextab
+
+CDEF_SOURCE_STRING = "<cdef source string>"
+_r_comment = re.compile(r"/\*.*?\*/|//([^\n\\]|\\.)*?$",
+ re.DOTALL | re.MULTILINE)
+_r_define = re.compile(r"^\s*#\s*define\s+([A-Za-z_][A-Za-z_0-9]*)"
+ r"\b((?:[^\n\\]|\\.)*?)$",
+ re.DOTALL | re.MULTILINE)
+_r_line_directive = re.compile(r"^[ \t]*#[ \t]*(?:line|\d+)\b.*$", re.MULTILINE)
+_r_partial_enum = re.compile(r"=\s*\.\.\.\s*[,}]|\.\.\.\s*\}")
+_r_enum_dotdotdot = re.compile(r"__dotdotdot\d+__$")
+_r_partial_array = re.compile(r"\[\s*\.\.\.\s*\]")
+_r_words = re.compile(r"\w+|\S")
+_parser_cache = None
+_r_int_literal = re.compile(r"-?0?x?[0-9a-f]+[lu]*$", re.IGNORECASE)
+_r_stdcall1 = re.compile(r"\b(__stdcall|WINAPI)\b")
+_r_stdcall2 = re.compile(r"[(]\s*(__stdcall|WINAPI)\b")
+_r_cdecl = re.compile(r"\b__cdecl\b")
+_r_extern_python = re.compile(r'\bextern\s*"'
+ r'(Python|Python\s*\+\s*C|C\s*\+\s*Python)"\s*.')
+_r_star_const_space = re.compile( # matches "* const "
+ r"[*]\s*((const|volatile|restrict)\b\s*)+")
+_r_int_dotdotdot = re.compile(r"(\b(int|long|short|signed|unsigned|char)\s*)+"
+ r"\.\.\.")
+_r_float_dotdotdot = re.compile(r"\b(double|float)\s*\.\.\.")
+
+def _get_parser():
+ global _parser_cache
+ if _parser_cache is None:
+ _parser_cache = pycparser.CParser()
+ return _parser_cache
+
+def _workaround_for_old_pycparser(csource):
+ # Workaround for a pycparser issue (fixed between pycparser 2.10 and
+ # 2.14): "char*const***" gives us a wrong syntax tree, the same as
+ # for "char***(*const)". This means we can't tell the difference
+ # afterwards. But "char(*const(***))" gives us the right syntax
+ # tree. The issue only occurs if there are several stars in
+ # sequence with no parenthesis inbetween, just possibly qualifiers.
+ # Attempt to fix it by adding some parentheses in the source: each
+ # time we see "* const" or "* const *", we add an opening
+ # parenthesis before each star---the hard part is figuring out where
+ # to close them.
+ parts = []
+ while True:
+ match = _r_star_const_space.search(csource)
+ if not match:
+ break
+ #print repr(''.join(parts)+csource), '=>',
+ parts.append(csource[:match.start()])
+ parts.append('('); closing = ')'
+ parts.append(match.group()) # e.g. "* const "
+ endpos = match.end()
+ if csource.startswith('*', endpos):
+ parts.append('('); closing += ')'
+ level = 0
+ i = endpos
+ while i < len(csource):
+ c = csource[i]
+ if c == '(':
+ level += 1
+ elif c == ')':
+ if level == 0:
+ break
+ level -= 1
+ elif c in ',;=':
+ if level == 0:
+ break
+ i += 1
+ csource = csource[endpos:i] + closing + csource[i:]
+ #print repr(''.join(parts)+csource)
+ parts.append(csource)
+ return ''.join(parts)
+
+def _preprocess_extern_python(csource):
+ # input: `extern "Python" int foo(int);` or
+ # `extern "Python" { int foo(int); }`
+ # output:
+ # void __cffi_extern_python_start;
+ # int foo(int);
+ # void __cffi_extern_python_stop;
+ #
+ # input: `extern "Python+C" int foo(int);`
+ # output:
+ # void __cffi_extern_python_plus_c_start;
+ # int foo(int);
+ # void __cffi_extern_python_stop;
+ parts = []
+ while True:
+ match = _r_extern_python.search(csource)
+ if not match:
+ break
+ endpos = match.end() - 1
+ #print
+ #print ''.join(parts)+csource
+ #print '=>'
+ parts.append(csource[:match.start()])
+ if 'C' in match.group(1):
+ parts.append('void __cffi_extern_python_plus_c_start; ')
+ else:
+ parts.append('void __cffi_extern_python_start; ')
+ if csource[endpos] == '{':
+ # grouping variant
+ closing = csource.find('}', endpos)
+ if closing < 0:
+ raise CDefError("'extern \"Python\" {': no '}' found")
+ if csource.find('{', endpos + 1, closing) >= 0:
+ raise NotImplementedError("cannot use { } inside a block "
+ "'extern \"Python\" { ... }'")
+ parts.append(csource[endpos+1:closing])
+ csource = csource[closing+1:]
+ else:
+ # non-grouping variant
+ semicolon = csource.find(';', endpos)
+ if semicolon < 0:
+ raise CDefError("'extern \"Python\": no ';' found")
+ parts.append(csource[endpos:semicolon+1])
+ csource = csource[semicolon+1:]
+ parts.append(' void __cffi_extern_python_stop;')
+ #print ''.join(parts)+csource
+ #print
+ parts.append(csource)
+ return ''.join(parts)
+
+def _warn_for_string_literal(csource):
+ if '"' not in csource:
+ return
+ for line in csource.splitlines():
+ if '"' in line and not line.lstrip().startswith('#'):
+ import warnings
+ warnings.warn("String literal found in cdef() or type source. "
+ "String literals are ignored here, but you should "
+ "remove them anyway because some character sequences "
+ "confuse pre-parsing.")
+ break
+
+def _warn_for_non_extern_non_static_global_variable(decl):
+ if not decl.storage:
+ import warnings
+ warnings.warn("Global variable '%s' in cdef(): for consistency "
+ "with C it should have a storage class specifier "
+ "(usually 'extern')" % (decl.name,))
+
+def _remove_line_directives(csource):
+ # _r_line_directive matches whole lines, without the final \n, if they
+ # start with '#line' with some spacing allowed, or '#NUMBER'. This
+ # function stores them away and replaces them with exactly the string
+ # '#line@N', where N is the index in the list 'line_directives'.
+ line_directives = []
+ def replace(m):
+ i = len(line_directives)
+ line_directives.append(m.group())
+ return '#line@%d' % i
+ csource = _r_line_directive.sub(replace, csource)
+ return csource, line_directives
+
+def _put_back_line_directives(csource, line_directives):
+ def replace(m):
+ s = m.group()
+ if not s.startswith('#line@'):
+ raise AssertionError("unexpected #line directive "
+ "(should have been processed and removed")
+ return line_directives[int(s[6:])]
+ return _r_line_directive.sub(replace, csource)
+
+def _preprocess(csource):
+ # First, remove the lines of the form '#line N "filename"' because
+ # the "filename" part could confuse the rest
+ csource, line_directives = _remove_line_directives(csource)
+ # Remove comments. NOTE: this only work because the cdef() section
+ # should not contain any string literals (except in line directives)!
+ def replace_keeping_newlines(m):
+ return ' ' + m.group().count('\n') * '\n'
+ csource = _r_comment.sub(replace_keeping_newlines, csource)
+ # Remove the "#define FOO x" lines
+ macros = {}
+ for match in _r_define.finditer(csource):
+ macroname, macrovalue = match.groups()
+ macrovalue = macrovalue.replace('\\\n', '').strip()
+ macros[macroname] = macrovalue
+ csource = _r_define.sub('', csource)
+ #
+ if pycparser.__version__ < '2.14':
+ csource = _workaround_for_old_pycparser(csource)
+ #
+ # BIG HACK: replace WINAPI or __stdcall with "volatile const".
+ # It doesn't make sense for the return type of a function to be
+ # "volatile volatile const", so we abuse it to detect __stdcall...
+ # Hack number 2 is that "int(volatile *fptr)();" is not valid C
+ # syntax, so we place the "volatile" before the opening parenthesis.
+ csource = _r_stdcall2.sub(' volatile volatile const(', csource)
+ csource = _r_stdcall1.sub(' volatile volatile const ', csource)
+ csource = _r_cdecl.sub(' ', csource)
+ #
+ # Replace `extern "Python"` with start/end markers
+ csource = _preprocess_extern_python(csource)
+ #
+ # Now there should not be any string literal left; warn if we get one
+ _warn_for_string_literal(csource)
+ #
+ # Replace "[...]" with "[__dotdotdotarray__]"
+ csource = _r_partial_array.sub('[__dotdotdotarray__]', csource)
+ #
+ # Replace "...}" with "__dotdotdotNUM__}". This construction should
+ # occur only at the end of enums; at the end of structs we have "...;}"
+ # and at the end of vararg functions "...);". Also replace "=...[,}]"
+ # with ",__dotdotdotNUM__[,}]": this occurs in the enums too, when
+ # giving an unknown value.
+ matches = list(_r_partial_enum.finditer(csource))
+ for number, match in enumerate(reversed(matches)):
+ p = match.start()
+ if csource[p] == '=':
+ p2 = csource.find('...', p, match.end())
+ assert p2 > p
+ csource = '%s,__dotdotdot%d__ %s' % (csource[:p], number,
+ csource[p2+3:])
+ else:
+ assert csource[p:p+3] == '...'
+ csource = '%s __dotdotdot%d__ %s' % (csource[:p], number,
+ csource[p+3:])
+ # Replace "int ..." or "unsigned long int..." with "__dotdotdotint__"
+ csource = _r_int_dotdotdot.sub(' __dotdotdotint__ ', csource)
+ # Replace "float ..." or "double..." with "__dotdotdotfloat__"
+ csource = _r_float_dotdotdot.sub(' __dotdotdotfloat__ ', csource)
+ # Replace all remaining "..." with the same name, "__dotdotdot__",
+ # which is declared with a typedef for the purpose of C parsing.
+ csource = csource.replace('...', ' __dotdotdot__ ')
+ # Finally, put back the line directives
+ csource = _put_back_line_directives(csource, line_directives)
+ return csource, macros
+
+def _common_type_names(csource):
+ # Look in the source for what looks like usages of types from the
+ # list of common types. A "usage" is approximated here as the
+ # appearance of the word, minus a "definition" of the type, which
+ # is the last word in a "typedef" statement. Approximative only
+ # but should be fine for all the common types.
+ look_for_words = set(COMMON_TYPES)
+ look_for_words.add(';')
+ look_for_words.add(',')
+ look_for_words.add('(')
+ look_for_words.add(')')
+ look_for_words.add('typedef')
+ words_used = set()
+ is_typedef = False
+ paren = 0
+ previous_word = ''
+ for word in _r_words.findall(csource):
+ if word in look_for_words:
+ if word == ';':
+ if is_typedef:
+ words_used.discard(previous_word)
+ look_for_words.discard(previous_word)
+ is_typedef = False
+ elif word == 'typedef':
+ is_typedef = True
+ paren = 0
+ elif word == '(':
+ paren += 1
+ elif word == ')':
+ paren -= 1
+ elif word == ',':
+ if is_typedef and paren == 0:
+ words_used.discard(previous_word)
+ look_for_words.discard(previous_word)
+ else: # word in COMMON_TYPES
+ words_used.add(word)
+ previous_word = word
+ return words_used
+
+
+class Parser(object):
+
+ def __init__(self):
+ self._declarations = {}
+ self._included_declarations = set()
+ self._anonymous_counter = 0
+ self._structnode2type = weakref.WeakKeyDictionary()
+ self._options = {}
+ self._int_constants = {}
+ self._recomplete = []
+ self._uses_new_feature = None
+
+ def _parse(self, csource):
+ csource, macros = _preprocess(csource)
+ # XXX: for more efficiency we would need to poke into the
+ # internals of CParser... the following registers the
+ # typedefs, because their presence or absence influences the
+ # parsing itself (but what they are typedef'ed to plays no role)
+ ctn = _common_type_names(csource)
+ typenames = []
+ for name in sorted(self._declarations):
+ if name.startswith('typedef '):
+ name = name[8:]
+ typenames.append(name)
+ ctn.discard(name)
+ typenames += sorted(ctn)
+ #
+ csourcelines = []
+ csourcelines.append('# 1 "<cdef automatic initialization code>"')
+ for typename in typenames:
+ csourcelines.append('typedef int %s;' % typename)
+ csourcelines.append('typedef int __dotdotdotint__, __dotdotdotfloat__,'
+ ' __dotdotdot__;')
+ # this forces pycparser to consider the following in the file
+ # called <cdef source string> from line 1
+ csourcelines.append('# 1 "%s"' % (CDEF_SOURCE_STRING,))
+ csourcelines.append(csource)
+ fullcsource = '\n'.join(csourcelines)
+ if lock is not None:
+ lock.acquire() # pycparser is not thread-safe...
+ try:
+ ast = _get_parser().parse(fullcsource)
+ except pycparser.c_parser.ParseError as e:
+ self.convert_pycparser_error(e, csource)
+ finally:
+ if lock is not None:
+ lock.release()
+ # csource will be used to find buggy source text
+ return ast, macros, csource
+
+ def _convert_pycparser_error(self, e, csource):
+ # xxx look for "<cdef source string>:NUM:" at the start of str(e)
+ # and interpret that as a line number. This will not work if
+ # the user gives explicit ``# NUM "FILE"`` directives.
+ line = None
+ msg = str(e)
+ match = re.match(r"%s:(\d+):" % (CDEF_SOURCE_STRING,), msg)
+ if match:
+ linenum = int(match.group(1), 10)
+ csourcelines = csource.splitlines()
+ if 1 <= linenum <= len(csourcelines):
+ line = csourcelines[linenum-1]
+ return line
+
+ def convert_pycparser_error(self, e, csource):
+ line = self._convert_pycparser_error(e, csource)
+
+ msg = str(e)
+ if line:
+ msg = 'cannot parse "%s"\n%s' % (line.strip(), msg)
+ else:
+ msg = 'parse error\n%s' % (msg,)
+ raise CDefError(msg)
+
+ def parse(self, csource, override=False, packed=False, pack=None,
+ dllexport=False):
+ if packed:
+ if packed != True:
+ raise ValueError("'packed' should be False or True; use "
+ "'pack' to give another value")
+ if pack:
+ raise ValueError("cannot give both 'pack' and 'packed'")
+ pack = 1
+ elif pack:
+ if pack & (pack - 1):
+ raise ValueError("'pack' must be a power of two, not %r" %
+ (pack,))
+ else:
+ pack = 0
+ prev_options = self._options
+ try:
+ self._options = {'override': override,
+ 'packed': pack,
+ 'dllexport': dllexport}
+ self._internal_parse(csource)
+ finally:
+ self._options = prev_options
+
+ def _internal_parse(self, csource):
+ ast, macros, csource = self._parse(csource)
+ # add the macros
+ self._process_macros(macros)
+ # find the first "__dotdotdot__" and use that as a separator
+ # between the repeated typedefs and the real csource
+ iterator = iter(ast.ext)
+ for decl in iterator:
+ if decl.name == '__dotdotdot__':
+ break
+ else:
+ assert 0
+ current_decl = None
+ #
+ try:
+ self._inside_extern_python = '__cffi_extern_python_stop'
+ for decl in iterator:
+ current_decl = decl
+ if isinstance(decl, pycparser.c_ast.Decl):
+ self._parse_decl(decl)
+ elif isinstance(decl, pycparser.c_ast.Typedef):
+ if not decl.name:
+ raise CDefError("typedef does not declare any name",
+ decl)
+ quals = 0
+ if (isinstance(decl.type.type, pycparser.c_ast.IdentifierType) and
+ decl.type.type.names[-1].startswith('__dotdotdot')):
+ realtype = self._get_unknown_type(decl)
+ elif (isinstance(decl.type, pycparser.c_ast.PtrDecl) and
+ isinstance(decl.type.type, pycparser.c_ast.TypeDecl) and
+ isinstance(decl.type.type.type,
+ pycparser.c_ast.IdentifierType) and
+ decl.type.type.type.names[-1].startswith('__dotdotdot')):
+ realtype = self._get_unknown_ptr_type(decl)
+ else:
+ realtype, quals = self._get_type_and_quals(
+ decl.type, name=decl.name, partial_length_ok=True,
+ typedef_example="*(%s *)0" % (decl.name,))
+ self._declare('typedef ' + decl.name, realtype, quals=quals)
+ elif decl.__class__.__name__ == 'Pragma':
+ pass # skip pragma, only in pycparser 2.15
+ else:
+ raise CDefError("unexpected <%s>: this construct is valid "
+ "C but not valid in cdef()" %
+ decl.__class__.__name__, decl)
+ except CDefError as e:
+ if len(e.args) == 1:
+ e.args = e.args + (current_decl,)
+ raise
+ except FFIError as e:
+ msg = self._convert_pycparser_error(e, csource)
+ if msg:
+ e.args = (e.args[0] + "\n *** Err: %s" % msg,)
+ raise
+
+ def _add_constants(self, key, val):
+ if key in self._int_constants:
+ if self._int_constants[key] == val:
+ return # ignore identical double declarations
+ raise FFIError(
+ "multiple declarations of constant: %s" % (key,))
+ self._int_constants[key] = val
+
+ def _add_integer_constant(self, name, int_str):
+ int_str = int_str.lower().rstrip("ul")
+ neg = int_str.startswith('-')
+ if neg:
+ int_str = int_str[1:]
+ # "010" is not valid oct in py3
+ if (int_str.startswith("0") and int_str != '0'
+ and not int_str.startswith("0x")):
+ int_str = "0o" + int_str[1:]
+ pyvalue = int(int_str, 0)
+ if neg:
+ pyvalue = -pyvalue
+ self._add_constants(name, pyvalue)
+ self._declare('macro ' + name, pyvalue)
+
+ def _process_macros(self, macros):
+ for key, value in macros.items():
+ value = value.strip()
+ if _r_int_literal.match(value):
+ self._add_integer_constant(key, value)
+ elif value == '...':
+ self._declare('macro ' + key, value)
+ else:
+ raise CDefError(
+ 'only supports one of the following syntax:\n'
+ ' #define %s ... (literally dot-dot-dot)\n'
+ ' #define %s NUMBER (with NUMBER an integer'
+ ' constant, decimal/hex/octal)\n'
+ 'got:\n'
+ ' #define %s %s'
+ % (key, key, key, value))
+
+ def _declare_function(self, tp, quals, decl):
+ tp = self._get_type_pointer(tp, quals)
+ if self._options.get('dllexport'):
+ tag = 'dllexport_python '
+ elif self._inside_extern_python == '__cffi_extern_python_start':
+ tag = 'extern_python '
+ elif self._inside_extern_python == '__cffi_extern_python_plus_c_start':
+ tag = 'extern_python_plus_c '
+ else:
+ tag = 'function '
+ self._declare(tag + decl.name, tp)
+
+ def _parse_decl(self, decl):
+ node = decl.type
+ if isinstance(node, pycparser.c_ast.FuncDecl):
+ tp, quals = self._get_type_and_quals(node, name=decl.name)
+ assert isinstance(tp, model.RawFunctionType)
+ self._declare_function(tp, quals, decl)
+ else:
+ if isinstance(node, pycparser.c_ast.Struct):
+ self._get_struct_union_enum_type('struct', node)
+ elif isinstance(node, pycparser.c_ast.Union):
+ self._get_struct_union_enum_type('union', node)
+ elif isinstance(node, pycparser.c_ast.Enum):
+ self._get_struct_union_enum_type('enum', node)
+ elif not decl.name:
+ raise CDefError("construct does not declare any variable",
+ decl)
+ #
+ if decl.name:
+ tp, quals = self._get_type_and_quals(node,
+ partial_length_ok=True)
+ if tp.is_raw_function:
+ self._declare_function(tp, quals, decl)
+ elif (tp.is_integer_type() and
+ hasattr(decl, 'init') and
+ hasattr(decl.init, 'value') and
+ _r_int_literal.match(decl.init.value)):
+ self._add_integer_constant(decl.name, decl.init.value)
+ elif (tp.is_integer_type() and
+ isinstance(decl.init, pycparser.c_ast.UnaryOp) and
+ decl.init.op == '-' and
+ hasattr(decl.init.expr, 'value') and
+ _r_int_literal.match(decl.init.expr.value)):
+ self._add_integer_constant(decl.name,
+ '-' + decl.init.expr.value)
+ elif (tp is model.void_type and
+ decl.name.startswith('__cffi_extern_python_')):
+ # hack: `extern "Python"` in the C source is replaced
+ # with "void __cffi_extern_python_start;" and
+ # "void __cffi_extern_python_stop;"
+ self._inside_extern_python = decl.name
+ else:
+ if self._inside_extern_python !='__cffi_extern_python_stop':
+ raise CDefError(
+ "cannot declare constants or "
+ "variables with 'extern \"Python\"'")
+ if (quals & model.Q_CONST) and not tp.is_array_type:
+ self._declare('constant ' + decl.name, tp, quals=quals)
+ else:
+ _warn_for_non_extern_non_static_global_variable(decl)
+ self._declare('variable ' + decl.name, tp, quals=quals)
+
+ def parse_type(self, cdecl):
+ return self.parse_type_and_quals(cdecl)[0]
+
+ def parse_type_and_quals(self, cdecl):
+ ast, macros = self._parse('void __dummy(\n%s\n);' % cdecl)[:2]
+ assert not macros
+ exprnode = ast.ext[-1].type.args.params[0]
+ if isinstance(exprnode, pycparser.c_ast.ID):
+ raise CDefError("unknown identifier '%s'" % (exprnode.name,))
+ return self._get_type_and_quals(exprnode.type)
+
+ def _declare(self, name, obj, included=False, quals=0):
+ if name in self._declarations:
+ prevobj, prevquals = self._declarations[name]
+ if prevobj is obj and prevquals == quals:
+ return
+ if not self._options.get('override'):
+ raise FFIError(
+ "multiple declarations of %s (for interactive usage, "
+ "try cdef(xx, override=True))" % (name,))
+ assert '__dotdotdot__' not in name.split()
+ self._declarations[name] = (obj, quals)
+ if included:
+ self._included_declarations.add(obj)
+
+ def _extract_quals(self, type):
+ quals = 0
+ if isinstance(type, (pycparser.c_ast.TypeDecl,
+ pycparser.c_ast.PtrDecl)):
+ if 'const' in type.quals:
+ quals |= model.Q_CONST
+ if 'volatile' in type.quals:
+ quals |= model.Q_VOLATILE
+ if 'restrict' in type.quals:
+ quals |= model.Q_RESTRICT
+ return quals
+
+ def _get_type_pointer(self, type, quals, declname=None):
+ if isinstance(type, model.RawFunctionType):
+ return type.as_function_pointer()
+ if (isinstance(type, model.StructOrUnionOrEnum) and
+ type.name.startswith('$') and type.name[1:].isdigit() and
+ type.forcename is None and declname is not None):
+ return model.NamedPointerType(type, declname, quals)
+ return model.PointerType(type, quals)
+
+ def _get_type_and_quals(self, typenode, name=None, partial_length_ok=False,
+ typedef_example=None):
+ # first, dereference typedefs, if we have it already parsed, we're good
+ if (isinstance(typenode, pycparser.c_ast.TypeDecl) and
+ isinstance(typenode.type, pycparser.c_ast.IdentifierType) and
+ len(typenode.type.names) == 1 and
+ ('typedef ' + typenode.type.names[0]) in self._declarations):
+ tp, quals = self._declarations['typedef ' + typenode.type.names[0]]
+ quals |= self._extract_quals(typenode)
+ return tp, quals
+ #
+ if isinstance(typenode, pycparser.c_ast.ArrayDecl):
+ # array type
+ if typenode.dim is None:
+ length = None
+ else:
+ length = self._parse_constant(
+ typenode.dim, partial_length_ok=partial_length_ok)
+ # a hack: in 'typedef int foo_t[...][...];', don't use '...' as
+ # the length but use directly the C expression that would be
+ # generated by recompiler.py. This lets the typedef be used in
+ # many more places within recompiler.py
+ if typedef_example is not None:
+ if length == '...':
+ length = '_cffi_array_len(%s)' % (typedef_example,)
+ typedef_example = "*" + typedef_example
+ #
+ tp, quals = self._get_type_and_quals(typenode.type,
+ partial_length_ok=partial_length_ok,
+ typedef_example=typedef_example)
+ return model.ArrayType(tp, length), quals
+ #
+ if isinstance(typenode, pycparser.c_ast.PtrDecl):
+ # pointer type
+ itemtype, itemquals = self._get_type_and_quals(typenode.type)
+ tp = self._get_type_pointer(itemtype, itemquals, declname=name)
+ quals = self._extract_quals(typenode)
+ return tp, quals
+ #
+ if isinstance(typenode, pycparser.c_ast.TypeDecl):
+ quals = self._extract_quals(typenode)
+ type = typenode.type
+ if isinstance(type, pycparser.c_ast.IdentifierType):
+ # assume a primitive type. get it from .names, but reduce
+ # synonyms to a single chosen combination
+ names = list(type.names)
+ if names != ['signed', 'char']: # keep this unmodified
+ prefixes = {}
+ while names:
+ name = names[0]
+ if name in ('short', 'long', 'signed', 'unsigned'):
+ prefixes[name] = prefixes.get(name, 0) + 1
+ del names[0]
+ else:
+ break
+ # ignore the 'signed' prefix below, and reorder the others
+ newnames = []
+ for prefix in ('unsigned', 'short', 'long'):
+ for i in range(prefixes.get(prefix, 0)):
+ newnames.append(prefix)
+ if not names:
+ names = ['int'] # implicitly
+ if names == ['int']: # but kill it if 'short' or 'long'
+ if 'short' in prefixes or 'long' in prefixes:
+ names = []
+ names = newnames + names
+ ident = ' '.join(names)
+ if ident == 'void':
+ return model.void_type, quals
+ if ident == '__dotdotdot__':
+ raise FFIError(':%d: bad usage of "..."' %
+ typenode.coord.line)
+ tp0, quals0 = resolve_common_type(self, ident)
+ return tp0, (quals | quals0)
+ #
+ if isinstance(type, pycparser.c_ast.Struct):
+ # 'struct foobar'
+ tp = self._get_struct_union_enum_type('struct', type, name)
+ return tp, quals
+ #
+ if isinstance(type, pycparser.c_ast.Union):
+ # 'union foobar'
+ tp = self._get_struct_union_enum_type('union', type, name)
+ return tp, quals
+ #
+ if isinstance(type, pycparser.c_ast.Enum):
+ # 'enum foobar'
+ tp = self._get_struct_union_enum_type('enum', type, name)
+ return tp, quals
+ #
+ if isinstance(typenode, pycparser.c_ast.FuncDecl):
+ # a function type
+ return self._parse_function_type(typenode, name), 0
+ #
+ # nested anonymous structs or unions end up here
+ if isinstance(typenode, pycparser.c_ast.Struct):
+ return self._get_struct_union_enum_type('struct', typenode, name,
+ nested=True), 0
+ if isinstance(typenode, pycparser.c_ast.Union):
+ return self._get_struct_union_enum_type('union', typenode, name,
+ nested=True), 0
+ #
+ raise FFIError(":%d: bad or unsupported type declaration" %
+ typenode.coord.line)
+
+ def _parse_function_type(self, typenode, funcname=None):
+ params = list(getattr(typenode.args, 'params', []))
+ for i, arg in enumerate(params):
+ if not hasattr(arg, 'type'):
+ raise CDefError("%s arg %d: unknown type '%s'"
+ " (if you meant to use the old C syntax of giving"
+ " untyped arguments, it is not supported)"
+ % (funcname or 'in expression', i + 1,
+ getattr(arg, 'name', '?')))
+ ellipsis = (
+ len(params) > 0 and
+ isinstance(params[-1].type, pycparser.c_ast.TypeDecl) and
+ isinstance(params[-1].type.type,
+ pycparser.c_ast.IdentifierType) and
+ params[-1].type.type.names == ['__dotdotdot__'])
+ if ellipsis:
+ params.pop()
+ if not params:
+ raise CDefError(
+ "%s: a function with only '(...)' as argument"
+ " is not correct C" % (funcname or 'in expression'))
+ args = [self._as_func_arg(*self._get_type_and_quals(argdeclnode.type))
+ for argdeclnode in params]
+ if not ellipsis and args == [model.void_type]:
+ args = []
+ result, quals = self._get_type_and_quals(typenode.type)
+ # the 'quals' on the result type are ignored. HACK: we absure them
+ # to detect __stdcall functions: we textually replace "__stdcall"
+ # with "volatile volatile const" above.
+ abi = None
+ if hasattr(typenode.type, 'quals'): # else, probable syntax error anyway
+ if typenode.type.quals[-3:] == ['volatile', 'volatile', 'const']:
+ abi = '__stdcall'
+ return model.RawFunctionType(tuple(args), result, ellipsis, abi)
+
+ def _as_func_arg(self, type, quals):
+ if isinstance(type, model.ArrayType):
+ return model.PointerType(type.item, quals)
+ elif isinstance(type, model.RawFunctionType):
+ return type.as_function_pointer()
+ else:
+ return type
+
+ def _get_struct_union_enum_type(self, kind, type, name=None, nested=False):
+ # First, a level of caching on the exact 'type' node of the AST.
+ # This is obscure, but needed because pycparser "unrolls" declarations
+ # such as "typedef struct { } foo_t, *foo_p" and we end up with
+ # an AST that is not a tree, but a DAG, with the "type" node of the
+ # two branches foo_t and foo_p of the trees being the same node.
+ # It's a bit silly but detecting "DAG-ness" in the AST tree seems
+ # to be the only way to distinguish this case from two independent
+ # structs. See test_struct_with_two_usages.
+ try:
+ return self._structnode2type[type]
+ except KeyError:
+ pass
+ #
+ # Note that this must handle parsing "struct foo" any number of
+ # times and always return the same StructType object. Additionally,
+ # one of these times (not necessarily the first), the fields of
+ # the struct can be specified with "struct foo { ...fields... }".
+ # If no name is given, then we have to create a new anonymous struct
+ # with no caching; in this case, the fields are either specified
+ # right now or never.
+ #
+ force_name = name
+ name = type.name
+ #
+ # get the type or create it if needed
+ if name is None:
+ # 'force_name' is used to guess a more readable name for
+ # anonymous structs, for the common case "typedef struct { } foo".
+ if force_name is not None:
+ explicit_name = '$%s' % force_name
+ else:
+ self._anonymous_counter += 1
+ explicit_name = '$%d' % self._anonymous_counter
+ tp = None
+ else:
+ explicit_name = name
+ key = '%s %s' % (kind, name)
+ tp, _ = self._declarations.get(key, (None, None))
+ #
+ if tp is None:
+ if kind == 'struct':
+ tp = model.StructType(explicit_name, None, None, None)
+ elif kind == 'union':
+ tp = model.UnionType(explicit_name, None, None, None)
+ elif kind == 'enum':
+ if explicit_name == '__dotdotdot__':
+ raise CDefError("Enums cannot be declared with ...")
+ tp = self._build_enum_type(explicit_name, type.values)
+ else:
+ raise AssertionError("kind = %r" % (kind,))
+ if name is not None:
+ self._declare(key, tp)
+ else:
+ if kind == 'enum' and type.values is not None:
+ raise NotImplementedError(
+ "enum %s: the '{}' declaration should appear on the first "
+ "time the enum is mentioned, not later" % explicit_name)
+ if not tp.forcename:
+ tp.force_the_name(force_name)
+ if tp.forcename and '$' in tp.name:
+ self._declare('anonymous %s' % tp.forcename, tp)
+ #
+ self._structnode2type[type] = tp
+ #
+ # enums: done here
+ if kind == 'enum':
+ return tp
+ #
+ # is there a 'type.decls'? If yes, then this is the place in the
+ # C sources that declare the fields. If no, then just return the
+ # existing type, possibly still incomplete.
+ if type.decls is None:
+ return tp
+ #
+ if tp.fldnames is not None:
+ raise CDefError("duplicate declaration of struct %s" % name)
+ fldnames = []
+ fldtypes = []
+ fldbitsize = []
+ fldquals = []
+ for decl in type.decls:
+ if (isinstance(decl.type, pycparser.c_ast.IdentifierType) and
+ ''.join(decl.type.names) == '__dotdotdot__'):
+ # XXX pycparser is inconsistent: 'names' should be a list
+ # of strings, but is sometimes just one string. Use
+ # str.join() as a way to cope with both.
+ self._make_partial(tp, nested)
+ continue
+ if decl.bitsize is None:
+ bitsize = -1
+ else:
+ bitsize = self._parse_constant(decl.bitsize)
+ self._partial_length = False
+ type, fqual = self._get_type_and_quals(decl.type,
+ partial_length_ok=True)
+ if self._partial_length:
+ self._make_partial(tp, nested)
+ if isinstance(type, model.StructType) and type.partial:
+ self._make_partial(tp, nested)
+ fldnames.append(decl.name or '')
+ fldtypes.append(type)
+ fldbitsize.append(bitsize)
+ fldquals.append(fqual)
+ tp.fldnames = tuple(fldnames)
+ tp.fldtypes = tuple(fldtypes)
+ tp.fldbitsize = tuple(fldbitsize)
+ tp.fldquals = tuple(fldquals)
+ if fldbitsize != [-1] * len(fldbitsize):
+ if isinstance(tp, model.StructType) and tp.partial:
+ raise NotImplementedError("%s: using both bitfields and '...;'"
+ % (tp,))
+ tp.packed = self._options.get('packed')
+ if tp.completed: # must be re-completed: it is not opaque any more
+ tp.completed = 0
+ self._recomplete.append(tp)
+ return tp
+
+ def _make_partial(self, tp, nested):
+ if not isinstance(tp, model.StructOrUnion):
+ raise CDefError("%s cannot be partial" % (tp,))
+ if not tp.has_c_name() and not nested:
+ raise NotImplementedError("%s is partial but has no C name" %(tp,))
+ tp.partial = True
+
+ def _parse_constant(self, exprnode, partial_length_ok=False):
+ # for now, limited to expressions that are an immediate number
+ # or positive/negative number
+ if isinstance(exprnode, pycparser.c_ast.Constant):
+ s = exprnode.value
+ if '0' <= s[0] <= '9':
+ s = s.rstrip('uUlL')
+ try:
+ if s.startswith('0'):
+ return int(s, 8)
+ else:
+ return int(s, 10)
+ except ValueError:
+ if len(s) > 1:
+ if s.lower()[0:2] == '0x':
+ return int(s, 16)
+ elif s.lower()[0:2] == '0b':
+ return int(s, 2)
+ raise CDefError("invalid constant %r" % (s,))
+ elif s[0] == "'" and s[-1] == "'" and (
+ len(s) == 3 or (len(s) == 4 and s[1] == "\\")):
+ return ord(s[-2])
+ else:
+ raise CDefError("invalid constant %r" % (s,))
+ #
+ if (isinstance(exprnode, pycparser.c_ast.UnaryOp) and
+ exprnode.op == '+'):
+ return self._parse_constant(exprnode.expr)
+ #
+ if (isinstance(exprnode, pycparser.c_ast.UnaryOp) and
+ exprnode.op == '-'):
+ return -self._parse_constant(exprnode.expr)
+ # load previously defined int constant
+ if (isinstance(exprnode, pycparser.c_ast.ID) and
+ exprnode.name in self._int_constants):
+ return self._int_constants[exprnode.name]
+ #
+ if (isinstance(exprnode, pycparser.c_ast.ID) and
+ exprnode.name == '__dotdotdotarray__'):
+ if partial_length_ok:
+ self._partial_length = True
+ return '...'
+ raise FFIError(":%d: unsupported '[...]' here, cannot derive "
+ "the actual array length in this context"
+ % exprnode.coord.line)
+ #
+ if isinstance(exprnode, pycparser.c_ast.BinaryOp):
+ left = self._parse_constant(exprnode.left)
+ right = self._parse_constant(exprnode.right)
+ if exprnode.op == '+':
+ return left + right
+ elif exprnode.op == '-':
+ return left - right
+ elif exprnode.op == '*':
+ return left * right
+ elif exprnode.op == '/':
+ return self._c_div(left, right)
+ elif exprnode.op == '%':
+ return left - self._c_div(left, right) * right
+ elif exprnode.op == '<<':
+ return left << right
+ elif exprnode.op == '>>':
+ return left >> right
+ elif exprnode.op == '&':
+ return left & right
+ elif exprnode.op == '|':
+ return left | right
+ elif exprnode.op == '^':
+ return left ^ right
+ #
+ raise FFIError(":%d: unsupported expression: expected a "
+ "simple numeric constant" % exprnode.coord.line)
+
+ def _c_div(self, a, b):
+ result = a // b
+ if ((a < 0) ^ (b < 0)) and (a % b) != 0:
+ result += 1
+ return result
+
+ def _build_enum_type(self, explicit_name, decls):
+ if decls is not None:
+ partial = False
+ enumerators = []
+ enumvalues = []
+ nextenumvalue = 0
+ for enum in decls.enumerators:
+ if _r_enum_dotdotdot.match(enum.name):
+ partial = True
+ continue
+ if enum.value is not None:
+ nextenumvalue = self._parse_constant(enum.value)
+ enumerators.append(enum.name)
+ enumvalues.append(nextenumvalue)
+ self._add_constants(enum.name, nextenumvalue)
+ nextenumvalue += 1
+ enumerators = tuple(enumerators)
+ enumvalues = tuple(enumvalues)
+ tp = model.EnumType(explicit_name, enumerators, enumvalues)
+ tp.partial = partial
+ else: # opaque enum
+ tp = model.EnumType(explicit_name, (), ())
+ return tp
+
+ def include(self, other):
+ for name, (tp, quals) in other._declarations.items():
+ if name.startswith('anonymous $enum_$'):
+ continue # fix for test_anonymous_enum_include
+ kind = name.split(' ', 1)[0]
+ if kind in ('struct', 'union', 'enum', 'anonymous', 'typedef'):
+ self._declare(name, tp, included=True, quals=quals)
+ for k, v in other._int_constants.items():
+ self._add_constants(k, v)
+
+ def _get_unknown_type(self, decl):
+ typenames = decl.type.type.names
+ if typenames == ['__dotdotdot__']:
+ return model.unknown_type(decl.name)
+
+ if typenames == ['__dotdotdotint__']:
+ if self._uses_new_feature is None:
+ self._uses_new_feature = "'typedef int... %s'" % decl.name
+ return model.UnknownIntegerType(decl.name)
+
+ if typenames == ['__dotdotdotfloat__']:
+ # note: not for 'long double' so far
+ if self._uses_new_feature is None:
+ self._uses_new_feature = "'typedef float... %s'" % decl.name
+ return model.UnknownFloatType(decl.name)
+
+ raise FFIError(':%d: unsupported usage of "..." in typedef'
+ % decl.coord.line)
+
+ def _get_unknown_ptr_type(self, decl):
+ if decl.type.type.type.names == ['__dotdotdot__']:
+ return model.unknown_ptr_type(decl.name)
+ raise FFIError(':%d: unsupported usage of "..." in typedef'
+ % decl.coord.line)
diff --git a/contrib/python/cffi/py3/cffi/error.py b/contrib/python/cffi/py3/cffi/error.py
new file mode 100644
index 0000000000..0a27247c32
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/error.py
@@ -0,0 +1,31 @@
+
+class FFIError(Exception):
+ __module__ = 'cffi'
+
+class CDefError(Exception):
+ __module__ = 'cffi'
+ def __str__(self):
+ try:
+ current_decl = self.args[1]
+ filename = current_decl.coord.file
+ linenum = current_decl.coord.line
+ prefix = '%s:%d: ' % (filename, linenum)
+ except (AttributeError, TypeError, IndexError):
+ prefix = ''
+ return '%s%s' % (prefix, self.args[0])
+
+class VerificationError(Exception):
+ """ An error raised when verification fails
+ """
+ __module__ = 'cffi'
+
+class VerificationMissing(Exception):
+ """ An error raised when incomplete structures are passed into
+ cdef, but no verification has been done
+ """
+ __module__ = 'cffi'
+
+class PkgConfigError(Exception):
+ """ An error raised for missing modules in pkg-config
+ """
+ __module__ = 'cffi'
diff --git a/contrib/python/cffi/py3/cffi/ffiplatform.py b/contrib/python/cffi/py3/cffi/ffiplatform.py
new file mode 100644
index 0000000000..85313460a6
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/ffiplatform.py
@@ -0,0 +1,127 @@
+import sys, os
+from .error import VerificationError
+
+
+LIST_OF_FILE_NAMES = ['sources', 'include_dirs', 'library_dirs',
+ 'extra_objects', 'depends']
+
+def get_extension(srcfilename, modname, sources=(), **kwds):
+ _hack_at_distutils()
+ from distutils.core import Extension
+ allsources = [srcfilename]
+ for src in sources:
+ allsources.append(os.path.normpath(src))
+ return Extension(name=modname, sources=allsources, **kwds)
+
+def compile(tmpdir, ext, compiler_verbose=0, debug=None):
+ """Compile a C extension module using distutils."""
+
+ _hack_at_distutils()
+ saved_environ = os.environ.copy()
+ try:
+ outputfilename = _build(tmpdir, ext, compiler_verbose, debug)
+ outputfilename = os.path.abspath(outputfilename)
+ finally:
+ # workaround for a distutils bugs where some env vars can
+ # become longer and longer every time it is used
+ for key, value in saved_environ.items():
+ if os.environ.get(key) != value:
+ os.environ[key] = value
+ return outputfilename
+
+def _build(tmpdir, ext, compiler_verbose=0, debug=None):
+ # XXX compact but horrible :-(
+ from distutils.core import Distribution
+ import distutils.errors, distutils.log
+ #
+ dist = Distribution({'ext_modules': [ext]})
+ dist.parse_config_files()
+ options = dist.get_option_dict('build_ext')
+ if debug is None:
+ debug = sys.flags.debug
+ options['debug'] = ('ffiplatform', debug)
+ options['force'] = ('ffiplatform', True)
+ options['build_lib'] = ('ffiplatform', tmpdir)
+ options['build_temp'] = ('ffiplatform', tmpdir)
+ #
+ try:
+ old_level = distutils.log.set_threshold(0) or 0
+ try:
+ distutils.log.set_verbosity(compiler_verbose)
+ dist.run_command('build_ext')
+ cmd_obj = dist.get_command_obj('build_ext')
+ [soname] = cmd_obj.get_outputs()
+ finally:
+ distutils.log.set_threshold(old_level)
+ except (distutils.errors.CompileError,
+ distutils.errors.LinkError) as e:
+ raise VerificationError('%s: %s' % (e.__class__.__name__, e))
+ #
+ return soname
+
+try:
+ from os.path import samefile
+except ImportError:
+ def samefile(f1, f2):
+ return os.path.abspath(f1) == os.path.abspath(f2)
+
+def maybe_relative_path(path):
+ if not os.path.isabs(path):
+ return path # already relative
+ dir = path
+ names = []
+ while True:
+ prevdir = dir
+ dir, name = os.path.split(prevdir)
+ if dir == prevdir or not dir:
+ return path # failed to make it relative
+ names.append(name)
+ try:
+ if samefile(dir, os.curdir):
+ names.reverse()
+ return os.path.join(*names)
+ except OSError:
+ pass
+
+# ____________________________________________________________
+
+try:
+ int_or_long = (int, long)
+ import cStringIO
+except NameError:
+ int_or_long = int # Python 3
+ import io as cStringIO
+
+def _flatten(x, f):
+ if isinstance(x, str):
+ f.write('%ds%s' % (len(x), x))
+ elif isinstance(x, dict):
+ keys = sorted(x.keys())
+ f.write('%dd' % len(keys))
+ for key in keys:
+ _flatten(key, f)
+ _flatten(x[key], f)
+ elif isinstance(x, (list, tuple)):
+ f.write('%dl' % len(x))
+ for value in x:
+ _flatten(value, f)
+ elif isinstance(x, int_or_long):
+ f.write('%di' % (x,))
+ else:
+ raise TypeError(
+ "the keywords to verify() contains unsupported object %r" % (x,))
+
+def flatten(x):
+ f = cStringIO.StringIO()
+ _flatten(x, f)
+ return f.getvalue()
+
+def _hack_at_distutils():
+ # Windows-only workaround for some configurations: see
+ # https://bugs.python.org/issue23246 (Python 2.7 with
+ # a specific MS compiler suite download)
+ if sys.platform == "win32":
+ try:
+ import setuptools # for side-effects, patches distutils
+ except ImportError:
+ pass
diff --git a/contrib/python/cffi/py3/cffi/lock.py b/contrib/python/cffi/py3/cffi/lock.py
new file mode 100644
index 0000000000..db91b7158c
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/lock.py
@@ -0,0 +1,30 @@
+import sys
+
+if sys.version_info < (3,):
+ try:
+ from thread import allocate_lock
+ except ImportError:
+ from dummy_thread import allocate_lock
+else:
+ try:
+ from _thread import allocate_lock
+ except ImportError:
+ from _dummy_thread import allocate_lock
+
+
+##import sys
+##l1 = allocate_lock
+
+##class allocate_lock(object):
+## def __init__(self):
+## self._real = l1()
+## def __enter__(self):
+## for i in range(4, 0, -1):
+## print sys._getframe(i).f_code
+## print
+## return self._real.__enter__()
+## def __exit__(self, *args):
+## return self._real.__exit__(*args)
+## def acquire(self, f):
+## assert f is False
+## return self._real.acquire(f)
diff --git a/contrib/python/cffi/py3/cffi/model.py b/contrib/python/cffi/py3/cffi/model.py
new file mode 100644
index 0000000000..ad1c176489
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/model.py
@@ -0,0 +1,617 @@
+import types
+import weakref
+
+from .lock import allocate_lock
+from .error import CDefError, VerificationError, VerificationMissing
+
+# type qualifiers
+Q_CONST = 0x01
+Q_RESTRICT = 0x02
+Q_VOLATILE = 0x04
+
+def qualify(quals, replace_with):
+ if quals & Q_CONST:
+ replace_with = ' const ' + replace_with.lstrip()
+ if quals & Q_VOLATILE:
+ replace_with = ' volatile ' + replace_with.lstrip()
+ if quals & Q_RESTRICT:
+ # It seems that __restrict is supported by gcc and msvc.
+ # If you hit some different compiler, add a #define in
+ # _cffi_include.h for it (and in its copies, documented there)
+ replace_with = ' __restrict ' + replace_with.lstrip()
+ return replace_with
+
+
+class BaseTypeByIdentity(object):
+ is_array_type = False
+ is_raw_function = False
+
+ def get_c_name(self, replace_with='', context='a C file', quals=0):
+ result = self.c_name_with_marker
+ assert result.count('&') == 1
+ # some logic duplication with ffi.getctype()... :-(
+ replace_with = replace_with.strip()
+ if replace_with:
+ if replace_with.startswith('*') and '&[' in result:
+ replace_with = '(%s)' % replace_with
+ elif not replace_with[0] in '[(':
+ replace_with = ' ' + replace_with
+ replace_with = qualify(quals, replace_with)
+ result = result.replace('&', replace_with)
+ if '$' in result:
+ raise VerificationError(
+ "cannot generate '%s' in %s: unknown type name"
+ % (self._get_c_name(), context))
+ return result
+
+ def _get_c_name(self):
+ return self.c_name_with_marker.replace('&', '')
+
+ def has_c_name(self):
+ return '$' not in self._get_c_name()
+
+ def is_integer_type(self):
+ return False
+
+ def get_cached_btype(self, ffi, finishlist, can_delay=False):
+ try:
+ BType = ffi._cached_btypes[self]
+ except KeyError:
+ BType = self.build_backend_type(ffi, finishlist)
+ BType2 = ffi._cached_btypes.setdefault(self, BType)
+ assert BType2 is BType
+ return BType
+
+ def __repr__(self):
+ return '<%s>' % (self._get_c_name(),)
+
+ def _get_items(self):
+ return [(name, getattr(self, name)) for name in self._attrs_]
+
+
+class BaseType(BaseTypeByIdentity):
+
+ def __eq__(self, other):
+ return (self.__class__ == other.__class__ and
+ self._get_items() == other._get_items())
+
+ def __ne__(self, other):
+ return not self == other
+
+ def __hash__(self):
+ return hash((self.__class__, tuple(self._get_items())))
+
+
+class VoidType(BaseType):
+ _attrs_ = ()
+
+ def __init__(self):
+ self.c_name_with_marker = 'void&'
+
+ def build_backend_type(self, ffi, finishlist):
+ return global_cache(self, ffi, 'new_void_type')
+
+void_type = VoidType()
+
+
+class BasePrimitiveType(BaseType):
+ def is_complex_type(self):
+ return False
+
+
+class PrimitiveType(BasePrimitiveType):
+ _attrs_ = ('name',)
+
+ ALL_PRIMITIVE_TYPES = {
+ 'char': 'c',
+ 'short': 'i',
+ 'int': 'i',
+ 'long': 'i',
+ 'long long': 'i',
+ 'signed char': 'i',
+ 'unsigned char': 'i',
+ 'unsigned short': 'i',
+ 'unsigned int': 'i',
+ 'unsigned long': 'i',
+ 'unsigned long long': 'i',
+ 'float': 'f',
+ 'double': 'f',
+ 'long double': 'f',
+ 'float _Complex': 'j',
+ 'double _Complex': 'j',
+ '_Bool': 'i',
+ # the following types are not primitive in the C sense
+ 'wchar_t': 'c',
+ 'char16_t': 'c',
+ 'char32_t': 'c',
+ 'int8_t': 'i',
+ 'uint8_t': 'i',
+ 'int16_t': 'i',
+ 'uint16_t': 'i',
+ 'int32_t': 'i',
+ 'uint32_t': 'i',
+ 'int64_t': 'i',
+ 'uint64_t': 'i',
+ 'int_least8_t': 'i',
+ 'uint_least8_t': 'i',
+ 'int_least16_t': 'i',
+ 'uint_least16_t': 'i',
+ 'int_least32_t': 'i',
+ 'uint_least32_t': 'i',
+ 'int_least64_t': 'i',
+ 'uint_least64_t': 'i',
+ 'int_fast8_t': 'i',
+ 'uint_fast8_t': 'i',
+ 'int_fast16_t': 'i',
+ 'uint_fast16_t': 'i',
+ 'int_fast32_t': 'i',
+ 'uint_fast32_t': 'i',
+ 'int_fast64_t': 'i',
+ 'uint_fast64_t': 'i',
+ 'intptr_t': 'i',
+ 'uintptr_t': 'i',
+ 'intmax_t': 'i',
+ 'uintmax_t': 'i',
+ 'ptrdiff_t': 'i',
+ 'size_t': 'i',
+ 'ssize_t': 'i',
+ }
+
+ def __init__(self, name):
+ assert name in self.ALL_PRIMITIVE_TYPES
+ self.name = name
+ self.c_name_with_marker = name + '&'
+
+ def is_char_type(self):
+ return self.ALL_PRIMITIVE_TYPES[self.name] == 'c'
+ def is_integer_type(self):
+ return self.ALL_PRIMITIVE_TYPES[self.name] == 'i'
+ def is_float_type(self):
+ return self.ALL_PRIMITIVE_TYPES[self.name] == 'f'
+ def is_complex_type(self):
+ return self.ALL_PRIMITIVE_TYPES[self.name] == 'j'
+
+ def build_backend_type(self, ffi, finishlist):
+ return global_cache(self, ffi, 'new_primitive_type', self.name)
+
+
+class UnknownIntegerType(BasePrimitiveType):
+ _attrs_ = ('name',)
+
+ def __init__(self, name):
+ self.name = name
+ self.c_name_with_marker = name + '&'
+
+ def is_integer_type(self):
+ return True
+
+ def build_backend_type(self, ffi, finishlist):
+ raise NotImplementedError("integer type '%s' can only be used after "
+ "compilation" % self.name)
+
+class UnknownFloatType(BasePrimitiveType):
+ _attrs_ = ('name', )
+
+ def __init__(self, name):
+ self.name = name
+ self.c_name_with_marker = name + '&'
+
+ def build_backend_type(self, ffi, finishlist):
+ raise NotImplementedError("float type '%s' can only be used after "
+ "compilation" % self.name)
+
+
+class BaseFunctionType(BaseType):
+ _attrs_ = ('args', 'result', 'ellipsis', 'abi')
+
+ def __init__(self, args, result, ellipsis, abi=None):
+ self.args = args
+ self.result = result
+ self.ellipsis = ellipsis
+ self.abi = abi
+ #
+ reprargs = [arg._get_c_name() for arg in self.args]
+ if self.ellipsis:
+ reprargs.append('...')
+ reprargs = reprargs or ['void']
+ replace_with = self._base_pattern % (', '.join(reprargs),)
+ if abi is not None:
+ replace_with = replace_with[:1] + abi + ' ' + replace_with[1:]
+ self.c_name_with_marker = (
+ self.result.c_name_with_marker.replace('&', replace_with))
+
+
+class RawFunctionType(BaseFunctionType):
+ # Corresponds to a C type like 'int(int)', which is the C type of
+ # a function, but not a pointer-to-function. The backend has no
+ # notion of such a type; it's used temporarily by parsing.
+ _base_pattern = '(&)(%s)'
+ is_raw_function = True
+
+ def build_backend_type(self, ffi, finishlist):
+ raise CDefError("cannot render the type %r: it is a function "
+ "type, not a pointer-to-function type" % (self,))
+
+ def as_function_pointer(self):
+ return FunctionPtrType(self.args, self.result, self.ellipsis, self.abi)
+
+
+class FunctionPtrType(BaseFunctionType):
+ _base_pattern = '(*&)(%s)'
+
+ def build_backend_type(self, ffi, finishlist):
+ result = self.result.get_cached_btype(ffi, finishlist)
+ args = []
+ for tp in self.args:
+ args.append(tp.get_cached_btype(ffi, finishlist))
+ abi_args = ()
+ if self.abi == "__stdcall":
+ if not self.ellipsis: # __stdcall ignored for variadic funcs
+ try:
+ abi_args = (ffi._backend.FFI_STDCALL,)
+ except AttributeError:
+ pass
+ return global_cache(self, ffi, 'new_function_type',
+ tuple(args), result, self.ellipsis, *abi_args)
+
+ def as_raw_function(self):
+ return RawFunctionType(self.args, self.result, self.ellipsis, self.abi)
+
+
+class PointerType(BaseType):
+ _attrs_ = ('totype', 'quals')
+
+ def __init__(self, totype, quals=0):
+ self.totype = totype
+ self.quals = quals
+ extra = qualify(quals, " *&")
+ if totype.is_array_type:
+ extra = "(%s)" % (extra.lstrip(),)
+ self.c_name_with_marker = totype.c_name_with_marker.replace('&', extra)
+
+ def build_backend_type(self, ffi, finishlist):
+ BItem = self.totype.get_cached_btype(ffi, finishlist, can_delay=True)
+ return global_cache(self, ffi, 'new_pointer_type', BItem)
+
+voidp_type = PointerType(void_type)
+
+def ConstPointerType(totype):
+ return PointerType(totype, Q_CONST)
+
+const_voidp_type = ConstPointerType(void_type)
+
+
+class NamedPointerType(PointerType):
+ _attrs_ = ('totype', 'name')
+
+ def __init__(self, totype, name, quals=0):
+ PointerType.__init__(self, totype, quals)
+ self.name = name
+ self.c_name_with_marker = name + '&'
+
+
+class ArrayType(BaseType):
+ _attrs_ = ('item', 'length')
+ is_array_type = True
+
+ def __init__(self, item, length):
+ self.item = item
+ self.length = length
+ #
+ if length is None:
+ brackets = '&[]'
+ elif length == '...':
+ brackets = '&[/*...*/]'
+ else:
+ brackets = '&[%s]' % length
+ self.c_name_with_marker = (
+ self.item.c_name_with_marker.replace('&', brackets))
+
+ def length_is_unknown(self):
+ return isinstance(self.length, str)
+
+ def resolve_length(self, newlength):
+ return ArrayType(self.item, newlength)
+
+ def build_backend_type(self, ffi, finishlist):
+ if self.length_is_unknown():
+ raise CDefError("cannot render the type %r: unknown length" %
+ (self,))
+ self.item.get_cached_btype(ffi, finishlist) # force the item BType
+ BPtrItem = PointerType(self.item).get_cached_btype(ffi, finishlist)
+ return global_cache(self, ffi, 'new_array_type', BPtrItem, self.length)
+
+char_array_type = ArrayType(PrimitiveType('char'), None)
+
+
+class StructOrUnionOrEnum(BaseTypeByIdentity):
+ _attrs_ = ('name',)
+ forcename = None
+
+ def build_c_name_with_marker(self):
+ name = self.forcename or '%s %s' % (self.kind, self.name)
+ self.c_name_with_marker = name + '&'
+
+ def force_the_name(self, forcename):
+ self.forcename = forcename
+ self.build_c_name_with_marker()
+
+ def get_official_name(self):
+ assert self.c_name_with_marker.endswith('&')
+ return self.c_name_with_marker[:-1]
+
+
+class StructOrUnion(StructOrUnionOrEnum):
+ fixedlayout = None
+ completed = 0
+ partial = False
+ packed = 0
+
+ def __init__(self, name, fldnames, fldtypes, fldbitsize, fldquals=None):
+ self.name = name
+ self.fldnames = fldnames
+ self.fldtypes = fldtypes
+ self.fldbitsize = fldbitsize
+ self.fldquals = fldquals
+ self.build_c_name_with_marker()
+
+ def anonymous_struct_fields(self):
+ if self.fldtypes is not None:
+ for name, type in zip(self.fldnames, self.fldtypes):
+ if name == '' and isinstance(type, StructOrUnion):
+ yield type
+
+ def enumfields(self, expand_anonymous_struct_union=True):
+ fldquals = self.fldquals
+ if fldquals is None:
+ fldquals = (0,) * len(self.fldnames)
+ for name, type, bitsize, quals in zip(self.fldnames, self.fldtypes,
+ self.fldbitsize, fldquals):
+ if (name == '' and isinstance(type, StructOrUnion)
+ and expand_anonymous_struct_union):
+ # nested anonymous struct/union
+ for result in type.enumfields():
+ yield result
+ else:
+ yield (name, type, bitsize, quals)
+
+ def force_flatten(self):
+ # force the struct or union to have a declaration that lists
+ # directly all fields returned by enumfields(), flattening
+ # nested anonymous structs/unions.
+ names = []
+ types = []
+ bitsizes = []
+ fldquals = []
+ for name, type, bitsize, quals in self.enumfields():
+ names.append(name)
+ types.append(type)
+ bitsizes.append(bitsize)
+ fldquals.append(quals)
+ self.fldnames = tuple(names)
+ self.fldtypes = tuple(types)
+ self.fldbitsize = tuple(bitsizes)
+ self.fldquals = tuple(fldquals)
+
+ def get_cached_btype(self, ffi, finishlist, can_delay=False):
+ BType = StructOrUnionOrEnum.get_cached_btype(self, ffi, finishlist,
+ can_delay)
+ if not can_delay:
+ self.finish_backend_type(ffi, finishlist)
+ return BType
+
+ def finish_backend_type(self, ffi, finishlist):
+ if self.completed:
+ if self.completed != 2:
+ raise NotImplementedError("recursive structure declaration "
+ "for '%s'" % (self.name,))
+ return
+ BType = ffi._cached_btypes[self]
+ #
+ self.completed = 1
+ #
+ if self.fldtypes is None:
+ pass # not completing it: it's an opaque struct
+ #
+ elif self.fixedlayout is None:
+ fldtypes = [tp.get_cached_btype(ffi, finishlist)
+ for tp in self.fldtypes]
+ lst = list(zip(self.fldnames, fldtypes, self.fldbitsize))
+ extra_flags = ()
+ if self.packed:
+ if self.packed == 1:
+ extra_flags = (8,) # SF_PACKED
+ else:
+ extra_flags = (0, self.packed)
+ ffi._backend.complete_struct_or_union(BType, lst, self,
+ -1, -1, *extra_flags)
+ #
+ else:
+ fldtypes = []
+ fieldofs, fieldsize, totalsize, totalalignment = self.fixedlayout
+ for i in range(len(self.fldnames)):
+ fsize = fieldsize[i]
+ ftype = self.fldtypes[i]
+ #
+ if isinstance(ftype, ArrayType) and ftype.length_is_unknown():
+ # fix the length to match the total size
+ BItemType = ftype.item.get_cached_btype(ffi, finishlist)
+ nlen, nrest = divmod(fsize, ffi.sizeof(BItemType))
+ if nrest != 0:
+ self._verification_error(
+ "field '%s.%s' has a bogus size?" % (
+ self.name, self.fldnames[i] or '{}'))
+ ftype = ftype.resolve_length(nlen)
+ self.fldtypes = (self.fldtypes[:i] + (ftype,) +
+ self.fldtypes[i+1:])
+ #
+ BFieldType = ftype.get_cached_btype(ffi, finishlist)
+ if isinstance(ftype, ArrayType) and ftype.length is None:
+ assert fsize == 0
+ else:
+ bitemsize = ffi.sizeof(BFieldType)
+ if bitemsize != fsize:
+ self._verification_error(
+ "field '%s.%s' is declared as %d bytes, but is "
+ "really %d bytes" % (self.name,
+ self.fldnames[i] or '{}',
+ bitemsize, fsize))
+ fldtypes.append(BFieldType)
+ #
+ lst = list(zip(self.fldnames, fldtypes, self.fldbitsize, fieldofs))
+ ffi._backend.complete_struct_or_union(BType, lst, self,
+ totalsize, totalalignment)
+ self.completed = 2
+
+ def _verification_error(self, msg):
+ raise VerificationError(msg)
+
+ def check_not_partial(self):
+ if self.partial and self.fixedlayout is None:
+ raise VerificationMissing(self._get_c_name())
+
+ def build_backend_type(self, ffi, finishlist):
+ self.check_not_partial()
+ finishlist.append(self)
+ #
+ return global_cache(self, ffi, 'new_%s_type' % self.kind,
+ self.get_official_name(), key=self)
+
+
+class StructType(StructOrUnion):
+ kind = 'struct'
+
+
+class UnionType(StructOrUnion):
+ kind = 'union'
+
+
+class EnumType(StructOrUnionOrEnum):
+ kind = 'enum'
+ partial = False
+ partial_resolved = False
+
+ def __init__(self, name, enumerators, enumvalues, baseinttype=None):
+ self.name = name
+ self.enumerators = enumerators
+ self.enumvalues = enumvalues
+ self.baseinttype = baseinttype
+ self.build_c_name_with_marker()
+
+ def force_the_name(self, forcename):
+ StructOrUnionOrEnum.force_the_name(self, forcename)
+ if self.forcename is None:
+ name = self.get_official_name()
+ self.forcename = '$' + name.replace(' ', '_')
+
+ def check_not_partial(self):
+ if self.partial and not self.partial_resolved:
+ raise VerificationMissing(self._get_c_name())
+
+ def build_backend_type(self, ffi, finishlist):
+ self.check_not_partial()
+ base_btype = self.build_baseinttype(ffi, finishlist)
+ return global_cache(self, ffi, 'new_enum_type',
+ self.get_official_name(),
+ self.enumerators, self.enumvalues,
+ base_btype, key=self)
+
+ def build_baseinttype(self, ffi, finishlist):
+ if self.baseinttype is not None:
+ return self.baseinttype.get_cached_btype(ffi, finishlist)
+ #
+ if self.enumvalues:
+ smallest_value = min(self.enumvalues)
+ largest_value = max(self.enumvalues)
+ else:
+ import warnings
+ try:
+ # XXX! The goal is to ensure that the warnings.warn()
+ # will not suppress the warning. We want to get it
+ # several times if we reach this point several times.
+ __warningregistry__.clear()
+ except NameError:
+ pass
+ warnings.warn("%r has no values explicitly defined; "
+ "guessing that it is equivalent to 'unsigned int'"
+ % self._get_c_name())
+ smallest_value = largest_value = 0
+ if smallest_value < 0: # needs a signed type
+ sign = 1
+ candidate1 = PrimitiveType("int")
+ candidate2 = PrimitiveType("long")
+ else:
+ sign = 0
+ candidate1 = PrimitiveType("unsigned int")
+ candidate2 = PrimitiveType("unsigned long")
+ btype1 = candidate1.get_cached_btype(ffi, finishlist)
+ btype2 = candidate2.get_cached_btype(ffi, finishlist)
+ size1 = ffi.sizeof(btype1)
+ size2 = ffi.sizeof(btype2)
+ if (smallest_value >= ((-1) << (8*size1-1)) and
+ largest_value < (1 << (8*size1-sign))):
+ return btype1
+ if (smallest_value >= ((-1) << (8*size2-1)) and
+ largest_value < (1 << (8*size2-sign))):
+ return btype2
+ raise CDefError("%s values don't all fit into either 'long' "
+ "or 'unsigned long'" % self._get_c_name())
+
+def unknown_type(name, structname=None):
+ if structname is None:
+ structname = '$%s' % name
+ tp = StructType(structname, None, None, None)
+ tp.force_the_name(name)
+ tp.origin = "unknown_type"
+ return tp
+
+def unknown_ptr_type(name, structname=None):
+ if structname is None:
+ structname = '$$%s' % name
+ tp = StructType(structname, None, None, None)
+ return NamedPointerType(tp, name)
+
+
+global_lock = allocate_lock()
+_typecache_cffi_backend = weakref.WeakValueDictionary()
+
+def get_typecache(backend):
+ # returns _typecache_cffi_backend if backend is the _cffi_backend
+ # module, or type(backend).__typecache if backend is an instance of
+ # CTypesBackend (or some FakeBackend class during tests)
+ if isinstance(backend, types.ModuleType):
+ return _typecache_cffi_backend
+ with global_lock:
+ if not hasattr(type(backend), '__typecache'):
+ type(backend).__typecache = weakref.WeakValueDictionary()
+ return type(backend).__typecache
+
+def global_cache(srctype, ffi, funcname, *args, **kwds):
+ key = kwds.pop('key', (funcname, args))
+ assert not kwds
+ try:
+ return ffi._typecache[key]
+ except KeyError:
+ pass
+ try:
+ res = getattr(ffi._backend, funcname)(*args)
+ except NotImplementedError as e:
+ raise NotImplementedError("%s: %r: %s" % (funcname, srctype, e))
+ # note that setdefault() on WeakValueDictionary is not atomic
+ # and contains a rare bug (http://bugs.python.org/issue19542);
+ # we have to use a lock and do it ourselves
+ cache = ffi._typecache
+ with global_lock:
+ res1 = cache.get(key)
+ if res1 is None:
+ cache[key] = res
+ return res
+ else:
+ return res1
+
+def pointer_cache(ffi, BType):
+ return global_cache('?', ffi, 'new_pointer_type', BType)
+
+def attach_exception_info(e, name):
+ if e.args and type(e.args[0]) is str:
+ e.args = ('%s: %s' % (name, e.args[0]),) + e.args[1:]
diff --git a/contrib/python/cffi/py3/cffi/parse_c_type.h b/contrib/python/cffi/py3/cffi/parse_c_type.h
new file mode 100644
index 0000000000..84e4ef8565
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/parse_c_type.h
@@ -0,0 +1,181 @@
+
+/* This part is from file 'cffi/parse_c_type.h'. It is copied at the
+ beginning of C sources generated by CFFI's ffi.set_source(). */
+
+typedef void *_cffi_opcode_t;
+
+#define _CFFI_OP(opcode, arg) (_cffi_opcode_t)(opcode | (((uintptr_t)(arg)) << 8))
+#define _CFFI_GETOP(cffi_opcode) ((unsigned char)(uintptr_t)cffi_opcode)
+#define _CFFI_GETARG(cffi_opcode) (((intptr_t)cffi_opcode) >> 8)
+
+#define _CFFI_OP_PRIMITIVE 1
+#define _CFFI_OP_POINTER 3
+#define _CFFI_OP_ARRAY 5
+#define _CFFI_OP_OPEN_ARRAY 7
+#define _CFFI_OP_STRUCT_UNION 9
+#define _CFFI_OP_ENUM 11
+#define _CFFI_OP_FUNCTION 13
+#define _CFFI_OP_FUNCTION_END 15
+#define _CFFI_OP_NOOP 17
+#define _CFFI_OP_BITFIELD 19
+#define _CFFI_OP_TYPENAME 21
+#define _CFFI_OP_CPYTHON_BLTN_V 23 // varargs
+#define _CFFI_OP_CPYTHON_BLTN_N 25 // noargs
+#define _CFFI_OP_CPYTHON_BLTN_O 27 // O (i.e. a single arg)
+#define _CFFI_OP_CONSTANT 29
+#define _CFFI_OP_CONSTANT_INT 31
+#define _CFFI_OP_GLOBAL_VAR 33
+#define _CFFI_OP_DLOPEN_FUNC 35
+#define _CFFI_OP_DLOPEN_CONST 37
+#define _CFFI_OP_GLOBAL_VAR_F 39
+#define _CFFI_OP_EXTERN_PYTHON 41
+
+#define _CFFI_PRIM_VOID 0
+#define _CFFI_PRIM_BOOL 1
+#define _CFFI_PRIM_CHAR 2
+#define _CFFI_PRIM_SCHAR 3
+#define _CFFI_PRIM_UCHAR 4
+#define _CFFI_PRIM_SHORT 5
+#define _CFFI_PRIM_USHORT 6
+#define _CFFI_PRIM_INT 7
+#define _CFFI_PRIM_UINT 8
+#define _CFFI_PRIM_LONG 9
+#define _CFFI_PRIM_ULONG 10
+#define _CFFI_PRIM_LONGLONG 11
+#define _CFFI_PRIM_ULONGLONG 12
+#define _CFFI_PRIM_FLOAT 13
+#define _CFFI_PRIM_DOUBLE 14
+#define _CFFI_PRIM_LONGDOUBLE 15
+
+#define _CFFI_PRIM_WCHAR 16
+#define _CFFI_PRIM_INT8 17
+#define _CFFI_PRIM_UINT8 18
+#define _CFFI_PRIM_INT16 19
+#define _CFFI_PRIM_UINT16 20
+#define _CFFI_PRIM_INT32 21
+#define _CFFI_PRIM_UINT32 22
+#define _CFFI_PRIM_INT64 23
+#define _CFFI_PRIM_UINT64 24
+#define _CFFI_PRIM_INTPTR 25
+#define _CFFI_PRIM_UINTPTR 26
+#define _CFFI_PRIM_PTRDIFF 27
+#define _CFFI_PRIM_SIZE 28
+#define _CFFI_PRIM_SSIZE 29
+#define _CFFI_PRIM_INT_LEAST8 30
+#define _CFFI_PRIM_UINT_LEAST8 31
+#define _CFFI_PRIM_INT_LEAST16 32
+#define _CFFI_PRIM_UINT_LEAST16 33
+#define _CFFI_PRIM_INT_LEAST32 34
+#define _CFFI_PRIM_UINT_LEAST32 35
+#define _CFFI_PRIM_INT_LEAST64 36
+#define _CFFI_PRIM_UINT_LEAST64 37
+#define _CFFI_PRIM_INT_FAST8 38
+#define _CFFI_PRIM_UINT_FAST8 39
+#define _CFFI_PRIM_INT_FAST16 40
+#define _CFFI_PRIM_UINT_FAST16 41
+#define _CFFI_PRIM_INT_FAST32 42
+#define _CFFI_PRIM_UINT_FAST32 43
+#define _CFFI_PRIM_INT_FAST64 44
+#define _CFFI_PRIM_UINT_FAST64 45
+#define _CFFI_PRIM_INTMAX 46
+#define _CFFI_PRIM_UINTMAX 47
+#define _CFFI_PRIM_FLOATCOMPLEX 48
+#define _CFFI_PRIM_DOUBLECOMPLEX 49
+#define _CFFI_PRIM_CHAR16 50
+#define _CFFI_PRIM_CHAR32 51
+
+#define _CFFI__NUM_PRIM 52
+#define _CFFI__UNKNOWN_PRIM (-1)
+#define _CFFI__UNKNOWN_FLOAT_PRIM (-2)
+#define _CFFI__UNKNOWN_LONG_DOUBLE (-3)
+
+#define _CFFI__IO_FILE_STRUCT (-1)
+
+
+struct _cffi_global_s {
+ const char *name;
+ void *address;
+ _cffi_opcode_t type_op;
+ void *size_or_direct_fn; // OP_GLOBAL_VAR: size, or 0 if unknown
+ // OP_CPYTHON_BLTN_*: addr of direct function
+};
+
+struct _cffi_getconst_s {
+ unsigned long long value;
+ const struct _cffi_type_context_s *ctx;
+ int gindex;
+};
+
+struct _cffi_struct_union_s {
+ const char *name;
+ int type_index; // -> _cffi_types, on a OP_STRUCT_UNION
+ int flags; // _CFFI_F_* flags below
+ size_t size;
+ int alignment;
+ int first_field_index; // -> _cffi_fields array
+ int num_fields;
+};
+#define _CFFI_F_UNION 0x01 // is a union, not a struct
+#define _CFFI_F_CHECK_FIELDS 0x02 // complain if fields are not in the
+ // "standard layout" or if some are missing
+#define _CFFI_F_PACKED 0x04 // for CHECK_FIELDS, assume a packed struct
+#define _CFFI_F_EXTERNAL 0x08 // in some other ffi.include()
+#define _CFFI_F_OPAQUE 0x10 // opaque
+
+struct _cffi_field_s {
+ const char *name;
+ size_t field_offset;
+ size_t field_size;
+ _cffi_opcode_t field_type_op;
+};
+
+struct _cffi_enum_s {
+ const char *name;
+ int type_index; // -> _cffi_types, on a OP_ENUM
+ int type_prim; // _CFFI_PRIM_xxx
+ const char *enumerators; // comma-delimited string
+};
+
+struct _cffi_typename_s {
+ const char *name;
+ int type_index; /* if opaque, points to a possibly artificial
+ OP_STRUCT which is itself opaque */
+};
+
+struct _cffi_type_context_s {
+ _cffi_opcode_t *types;
+ const struct _cffi_global_s *globals;
+ const struct _cffi_field_s *fields;
+ const struct _cffi_struct_union_s *struct_unions;
+ const struct _cffi_enum_s *enums;
+ const struct _cffi_typename_s *typenames;
+ int num_globals;
+ int num_struct_unions;
+ int num_enums;
+ int num_typenames;
+ const char *const *includes;
+ int num_types;
+ int flags; /* future extension */
+};
+
+struct _cffi_parse_info_s {
+ const struct _cffi_type_context_s *ctx;
+ _cffi_opcode_t *output;
+ unsigned int output_size;
+ size_t error_location;
+ const char *error_message;
+};
+
+struct _cffi_externpy_s {
+ const char *name;
+ size_t size_of_result;
+ void *reserved1, *reserved2;
+};
+
+#ifdef _CFFI_INTERNAL
+static int parse_c_type(struct _cffi_parse_info_s *info, const char *input);
+static int search_in_globals(const struct _cffi_type_context_s *ctx,
+ const char *search, size_t search_len);
+static int search_in_struct_unions(const struct _cffi_type_context_s *ctx,
+ const char *search, size_t search_len);
+#endif
diff --git a/contrib/python/cffi/py3/cffi/pkgconfig.py b/contrib/python/cffi/py3/cffi/pkgconfig.py
new file mode 100644
index 0000000000..5c93f15a60
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/pkgconfig.py
@@ -0,0 +1,121 @@
+# pkg-config, https://www.freedesktop.org/wiki/Software/pkg-config/ integration for cffi
+import sys, os, subprocess
+
+from .error import PkgConfigError
+
+
+def merge_flags(cfg1, cfg2):
+ """Merge values from cffi config flags cfg2 to cf1
+
+ Example:
+ merge_flags({"libraries": ["one"]}, {"libraries": ["two"]})
+ {"libraries": ["one", "two"]}
+ """
+ for key, value in cfg2.items():
+ if key not in cfg1:
+ cfg1[key] = value
+ else:
+ if not isinstance(cfg1[key], list):
+ raise TypeError("cfg1[%r] should be a list of strings" % (key,))
+ if not isinstance(value, list):
+ raise TypeError("cfg2[%r] should be a list of strings" % (key,))
+ cfg1[key].extend(value)
+ return cfg1
+
+
+def call(libname, flag, encoding=sys.getfilesystemencoding()):
+ """Calls pkg-config and returns the output if found
+ """
+ a = ["pkg-config", "--print-errors"]
+ a.append(flag)
+ a.append(libname)
+ try:
+ pc = subprocess.Popen(a, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
+ except EnvironmentError as e:
+ raise PkgConfigError("cannot run pkg-config: %s" % (str(e).strip(),))
+
+ bout, berr = pc.communicate()
+ if pc.returncode != 0:
+ try:
+ berr = berr.decode(encoding)
+ except Exception:
+ pass
+ raise PkgConfigError(berr.strip())
+
+ if sys.version_info >= (3,) and not isinstance(bout, str): # Python 3.x
+ try:
+ bout = bout.decode(encoding)
+ except UnicodeDecodeError:
+ raise PkgConfigError("pkg-config %s %s returned bytes that cannot "
+ "be decoded with encoding %r:\n%r" %
+ (flag, libname, encoding, bout))
+
+ if os.altsep != '\\' and '\\' in bout:
+ raise PkgConfigError("pkg-config %s %s returned an unsupported "
+ "backslash-escaped output:\n%r" %
+ (flag, libname, bout))
+ return bout
+
+
+def flags_from_pkgconfig(libs):
+ r"""Return compiler line flags for FFI.set_source based on pkg-config output
+
+ Usage
+ ...
+ ffibuilder.set_source("_foo", pkgconfig = ["libfoo", "libbar >= 1.8.3"])
+
+ If pkg-config is installed on build machine, then arguments include_dirs,
+ library_dirs, libraries, define_macros, extra_compile_args and
+ extra_link_args are extended with an output of pkg-config for libfoo and
+ libbar.
+
+ Raises PkgConfigError in case the pkg-config call fails.
+ """
+
+ def get_include_dirs(string):
+ return [x[2:] for x in string.split() if x.startswith("-I")]
+
+ def get_library_dirs(string):
+ return [x[2:] for x in string.split() if x.startswith("-L")]
+
+ def get_libraries(string):
+ return [x[2:] for x in string.split() if x.startswith("-l")]
+
+ # convert -Dfoo=bar to list of tuples [("foo", "bar")] expected by distutils
+ def get_macros(string):
+ def _macro(x):
+ x = x[2:] # drop "-D"
+ if '=' in x:
+ return tuple(x.split("=", 1)) # "-Dfoo=bar" => ("foo", "bar")
+ else:
+ return (x, None) # "-Dfoo" => ("foo", None)
+ return [_macro(x) for x in string.split() if x.startswith("-D")]
+
+ def get_other_cflags(string):
+ return [x for x in string.split() if not x.startswith("-I") and
+ not x.startswith("-D")]
+
+ def get_other_libs(string):
+ return [x for x in string.split() if not x.startswith("-L") and
+ not x.startswith("-l")]
+
+ # return kwargs for given libname
+ def kwargs(libname):
+ fse = sys.getfilesystemencoding()
+ all_cflags = call(libname, "--cflags")
+ all_libs = call(libname, "--libs")
+ return {
+ "include_dirs": get_include_dirs(all_cflags),
+ "library_dirs": get_library_dirs(all_libs),
+ "libraries": get_libraries(all_libs),
+ "define_macros": get_macros(all_cflags),
+ "extra_compile_args": get_other_cflags(all_cflags),
+ "extra_link_args": get_other_libs(all_libs),
+ }
+
+ # merge all arguments together
+ ret = {}
+ for libname in libs:
+ lib_flags = kwargs(libname)
+ merge_flags(ret, lib_flags)
+ return ret
diff --git a/contrib/python/cffi/py3/cffi/recompiler.py b/contrib/python/cffi/py3/cffi/recompiler.py
new file mode 100644
index 0000000000..f5a366b57a
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/recompiler.py
@@ -0,0 +1,1579 @@
+import os, sys, io
+from . import ffiplatform, model
+from .error import VerificationError
+from .cffi_opcode import *
+
+VERSION_BASE = 0x2601
+VERSION_EMBEDDED = 0x2701
+VERSION_CHAR16CHAR32 = 0x2801
+
+USE_LIMITED_API = (sys.platform != 'win32' or sys.version_info < (3, 0) or
+ sys.version_info >= (3, 5))
+
+
+class GlobalExpr:
+ def __init__(self, name, address, type_op, size=0, check_value=0):
+ self.name = name
+ self.address = address
+ self.type_op = type_op
+ self.size = size
+ self.check_value = check_value
+
+ def as_c_expr(self):
+ return ' { "%s", (void *)%s, %s, (void *)%s },' % (
+ self.name, self.address, self.type_op.as_c_expr(), self.size)
+
+ def as_python_expr(self):
+ return "b'%s%s',%d" % (self.type_op.as_python_bytes(), self.name,
+ self.check_value)
+
+class FieldExpr:
+ def __init__(self, name, field_offset, field_size, fbitsize, field_type_op):
+ self.name = name
+ self.field_offset = field_offset
+ self.field_size = field_size
+ self.fbitsize = fbitsize
+ self.field_type_op = field_type_op
+
+ def as_c_expr(self):
+ spaces = " " * len(self.name)
+ return (' { "%s", %s,\n' % (self.name, self.field_offset) +
+ ' %s %s,\n' % (spaces, self.field_size) +
+ ' %s %s },' % (spaces, self.field_type_op.as_c_expr()))
+
+ def as_python_expr(self):
+ raise NotImplementedError
+
+ def as_field_python_expr(self):
+ if self.field_type_op.op == OP_NOOP:
+ size_expr = ''
+ elif self.field_type_op.op == OP_BITFIELD:
+ size_expr = format_four_bytes(self.fbitsize)
+ else:
+ raise NotImplementedError
+ return "b'%s%s%s'" % (self.field_type_op.as_python_bytes(),
+ size_expr,
+ self.name)
+
+class StructUnionExpr:
+ def __init__(self, name, type_index, flags, size, alignment, comment,
+ first_field_index, c_fields):
+ self.name = name
+ self.type_index = type_index
+ self.flags = flags
+ self.size = size
+ self.alignment = alignment
+ self.comment = comment
+ self.first_field_index = first_field_index
+ self.c_fields = c_fields
+
+ def as_c_expr(self):
+ return (' { "%s", %d, %s,' % (self.name, self.type_index, self.flags)
+ + '\n %s, %s, ' % (self.size, self.alignment)
+ + '%d, %d ' % (self.first_field_index, len(self.c_fields))
+ + ('/* %s */ ' % self.comment if self.comment else '')
+ + '},')
+
+ def as_python_expr(self):
+ flags = eval(self.flags, G_FLAGS)
+ fields_expr = [c_field.as_field_python_expr()
+ for c_field in self.c_fields]
+ return "(b'%s%s%s',%s)" % (
+ format_four_bytes(self.type_index),
+ format_four_bytes(flags),
+ self.name,
+ ','.join(fields_expr))
+
+class EnumExpr:
+ def __init__(self, name, type_index, size, signed, allenums):
+ self.name = name
+ self.type_index = type_index
+ self.size = size
+ self.signed = signed
+ self.allenums = allenums
+
+ def as_c_expr(self):
+ return (' { "%s", %d, _cffi_prim_int(%s, %s),\n'
+ ' "%s" },' % (self.name, self.type_index,
+ self.size, self.signed, self.allenums))
+
+ def as_python_expr(self):
+ prim_index = {
+ (1, 0): PRIM_UINT8, (1, 1): PRIM_INT8,
+ (2, 0): PRIM_UINT16, (2, 1): PRIM_INT16,
+ (4, 0): PRIM_UINT32, (4, 1): PRIM_INT32,
+ (8, 0): PRIM_UINT64, (8, 1): PRIM_INT64,
+ }[self.size, self.signed]
+ return "b'%s%s%s\\x00%s'" % (format_four_bytes(self.type_index),
+ format_four_bytes(prim_index),
+ self.name, self.allenums)
+
+class TypenameExpr:
+ def __init__(self, name, type_index):
+ self.name = name
+ self.type_index = type_index
+
+ def as_c_expr(self):
+ return ' { "%s", %d },' % (self.name, self.type_index)
+
+ def as_python_expr(self):
+ return "b'%s%s'" % (format_four_bytes(self.type_index), self.name)
+
+
+# ____________________________________________________________
+
+
+class Recompiler:
+ _num_externpy = 0
+
+ def __init__(self, ffi, module_name, target_is_python=False):
+ self.ffi = ffi
+ self.module_name = module_name
+ self.target_is_python = target_is_python
+ self._version = VERSION_BASE
+
+ def needs_version(self, ver):
+ self._version = max(self._version, ver)
+
+ def collect_type_table(self):
+ self._typesdict = {}
+ self._generate("collecttype")
+ #
+ all_decls = sorted(self._typesdict, key=str)
+ #
+ # prepare all FUNCTION bytecode sequences first
+ self.cffi_types = []
+ for tp in all_decls:
+ if tp.is_raw_function:
+ assert self._typesdict[tp] is None
+ self._typesdict[tp] = len(self.cffi_types)
+ self.cffi_types.append(tp) # placeholder
+ for tp1 in tp.args:
+ assert isinstance(tp1, (model.VoidType,
+ model.BasePrimitiveType,
+ model.PointerType,
+ model.StructOrUnionOrEnum,
+ model.FunctionPtrType))
+ if self._typesdict[tp1] is None:
+ self._typesdict[tp1] = len(self.cffi_types)
+ self.cffi_types.append(tp1) # placeholder
+ self.cffi_types.append('END') # placeholder
+ #
+ # prepare all OTHER bytecode sequences
+ for tp in all_decls:
+ if not tp.is_raw_function and self._typesdict[tp] is None:
+ self._typesdict[tp] = len(self.cffi_types)
+ self.cffi_types.append(tp) # placeholder
+ if tp.is_array_type and tp.length is not None:
+ self.cffi_types.append('LEN') # placeholder
+ assert None not in self._typesdict.values()
+ #
+ # collect all structs and unions and enums
+ self._struct_unions = {}
+ self._enums = {}
+ for tp in all_decls:
+ if isinstance(tp, model.StructOrUnion):
+ self._struct_unions[tp] = None
+ elif isinstance(tp, model.EnumType):
+ self._enums[tp] = None
+ for i, tp in enumerate(sorted(self._struct_unions,
+ key=lambda tp: tp.name)):
+ self._struct_unions[tp] = i
+ for i, tp in enumerate(sorted(self._enums,
+ key=lambda tp: tp.name)):
+ self._enums[tp] = i
+ #
+ # emit all bytecode sequences now
+ for tp in all_decls:
+ method = getattr(self, '_emit_bytecode_' + tp.__class__.__name__)
+ method(tp, self._typesdict[tp])
+ #
+ # consistency check
+ for op in self.cffi_types:
+ assert isinstance(op, CffiOp)
+ self.cffi_types = tuple(self.cffi_types) # don't change any more
+
+ def _enum_fields(self, tp):
+ # When producing C, expand all anonymous struct/union fields.
+ # That's necessary to have C code checking the offsets of the
+ # individual fields contained in them. When producing Python,
+ # don't do it and instead write it like it is, with the
+ # corresponding fields having an empty name. Empty names are
+ # recognized at runtime when we import the generated Python
+ # file.
+ expand_anonymous_struct_union = not self.target_is_python
+ return tp.enumfields(expand_anonymous_struct_union)
+
+ def _do_collect_type(self, tp):
+ if not isinstance(tp, model.BaseTypeByIdentity):
+ if isinstance(tp, tuple):
+ for x in tp:
+ self._do_collect_type(x)
+ return
+ if tp not in self._typesdict:
+ self._typesdict[tp] = None
+ if isinstance(tp, model.FunctionPtrType):
+ self._do_collect_type(tp.as_raw_function())
+ elif isinstance(tp, model.StructOrUnion):
+ if tp.fldtypes is not None and (
+ tp not in self.ffi._parser._included_declarations):
+ for name1, tp1, _, _ in self._enum_fields(tp):
+ self._do_collect_type(self._field_type(tp, name1, tp1))
+ else:
+ for _, x in tp._get_items():
+ self._do_collect_type(x)
+
+ def _generate(self, step_name):
+ lst = self.ffi._parser._declarations.items()
+ for name, (tp, quals) in sorted(lst):
+ kind, realname = name.split(' ', 1)
+ try:
+ method = getattr(self, '_generate_cpy_%s_%s' % (kind,
+ step_name))
+ except AttributeError:
+ raise VerificationError(
+ "not implemented in recompile(): %r" % name)
+ try:
+ self._current_quals = quals
+ method(tp, realname)
+ except Exception as e:
+ model.attach_exception_info(e, name)
+ raise
+
+ # ----------
+
+ ALL_STEPS = ["global", "field", "struct_union", "enum", "typename"]
+
+ def collect_step_tables(self):
+ # collect the declarations for '_cffi_globals', '_cffi_typenames', etc.
+ self._lsts = {}
+ for step_name in self.ALL_STEPS:
+ self._lsts[step_name] = []
+ self._seen_struct_unions = set()
+ self._generate("ctx")
+ self._add_missing_struct_unions()
+ #
+ for step_name in self.ALL_STEPS:
+ lst = self._lsts[step_name]
+ if step_name != "field":
+ lst.sort(key=lambda entry: entry.name)
+ self._lsts[step_name] = tuple(lst) # don't change any more
+ #
+ # check for a possible internal inconsistency: _cffi_struct_unions
+ # should have been generated with exactly self._struct_unions
+ lst = self._lsts["struct_union"]
+ for tp, i in self._struct_unions.items():
+ assert i < len(lst)
+ assert lst[i].name == tp.name
+ assert len(lst) == len(self._struct_unions)
+ # same with enums
+ lst = self._lsts["enum"]
+ for tp, i in self._enums.items():
+ assert i < len(lst)
+ assert lst[i].name == tp.name
+ assert len(lst) == len(self._enums)
+
+ # ----------
+
+ def _prnt(self, what=''):
+ self._f.write(what + '\n')
+
+ def write_source_to_f(self, f, preamble):
+ if self.target_is_python:
+ assert preamble is None
+ self.write_py_source_to_f(f)
+ else:
+ assert preamble is not None
+ self.write_c_source_to_f(f, preamble)
+
+ def _rel_readlines(self, filename):
+ import pkgutil
+ return pkgutil.get_data('cffi', filename).decode('utf-8').splitlines(True)
+
+ def write_c_source_to_f(self, f, preamble):
+ self._f = f
+ prnt = self._prnt
+ if self.ffi._embedding is not None:
+ prnt('#define _CFFI_USE_EMBEDDING')
+ if not USE_LIMITED_API:
+ prnt('#define _CFFI_NO_LIMITED_API')
+ #
+ # first the '#include' (actually done by inlining the file's content)
+ lines = self._rel_readlines('_cffi_include.h')
+ i = lines.index('#include "parse_c_type.h"\n')
+ lines[i:i+1] = self._rel_readlines('parse_c_type.h')
+ prnt(''.join(lines))
+ #
+ # if we have ffi._embedding != None, we give it here as a macro
+ # and include an extra file
+ base_module_name = self.module_name.split('.')[-1]
+ if self.ffi._embedding is not None:
+ prnt('#define _CFFI_MODULE_NAME "%s"' % (self.module_name,))
+ prnt('static const char _CFFI_PYTHON_STARTUP_CODE[] = {')
+ self._print_string_literal_in_array(self.ffi._embedding)
+ prnt('0 };')
+ prnt('#ifdef PYPY_VERSION')
+ prnt('# define _CFFI_PYTHON_STARTUP_FUNC _cffi_pypyinit_%s' % (
+ base_module_name,))
+ prnt('#elif PY_MAJOR_VERSION >= 3')
+ prnt('# define _CFFI_PYTHON_STARTUP_FUNC PyInit_%s' % (
+ base_module_name,))
+ prnt('#else')
+ prnt('# define _CFFI_PYTHON_STARTUP_FUNC init%s' % (
+ base_module_name,))
+ prnt('#endif')
+ lines = self._rel_readlines('_embedding.h')
+ i = lines.index('#include "_cffi_errors.h"\n')
+ lines[i:i+1] = self._rel_readlines('_cffi_errors.h')
+ prnt(''.join(lines))
+ self.needs_version(VERSION_EMBEDDED)
+ #
+ # then paste the C source given by the user, verbatim.
+ prnt('/************************************************************/')
+ prnt()
+ prnt(preamble)
+ prnt()
+ prnt('/************************************************************/')
+ prnt()
+ #
+ # the declaration of '_cffi_types'
+ prnt('static void *_cffi_types[] = {')
+ typeindex2type = dict([(i, tp) for (tp, i) in self._typesdict.items()])
+ for i, op in enumerate(self.cffi_types):
+ comment = ''
+ if i in typeindex2type:
+ comment = ' // ' + typeindex2type[i]._get_c_name()
+ prnt('/* %2d */ %s,%s' % (i, op.as_c_expr(), comment))
+ if not self.cffi_types:
+ prnt(' 0')
+ prnt('};')
+ prnt()
+ #
+ # call generate_cpy_xxx_decl(), for every xxx found from
+ # ffi._parser._declarations. This generates all the functions.
+ self._seen_constants = set()
+ self._generate("decl")
+ #
+ # the declaration of '_cffi_globals' and '_cffi_typenames'
+ nums = {}
+ for step_name in self.ALL_STEPS:
+ lst = self._lsts[step_name]
+ nums[step_name] = len(lst)
+ if nums[step_name] > 0:
+ prnt('static const struct _cffi_%s_s _cffi_%ss[] = {' % (
+ step_name, step_name))
+ for entry in lst:
+ prnt(entry.as_c_expr())
+ prnt('};')
+ prnt()
+ #
+ # the declaration of '_cffi_includes'
+ if self.ffi._included_ffis:
+ prnt('static const char * const _cffi_includes[] = {')
+ for ffi_to_include in self.ffi._included_ffis:
+ try:
+ included_module_name, included_source = (
+ ffi_to_include._assigned_source[:2])
+ except AttributeError:
+ raise VerificationError(
+ "ffi object %r includes %r, but the latter has not "
+ "been prepared with set_source()" % (
+ self.ffi, ffi_to_include,))
+ if included_source is None:
+ raise VerificationError(
+ "not implemented yet: ffi.include() of a Python-based "
+ "ffi inside a C-based ffi")
+ prnt(' "%s",' % (included_module_name,))
+ prnt(' NULL')
+ prnt('};')
+ prnt()
+ #
+ # the declaration of '_cffi_type_context'
+ prnt('static const struct _cffi_type_context_s _cffi_type_context = {')
+ prnt(' _cffi_types,')
+ for step_name in self.ALL_STEPS:
+ if nums[step_name] > 0:
+ prnt(' _cffi_%ss,' % step_name)
+ else:
+ prnt(' NULL, /* no %ss */' % step_name)
+ for step_name in self.ALL_STEPS:
+ if step_name != "field":
+ prnt(' %d, /* num_%ss */' % (nums[step_name], step_name))
+ if self.ffi._included_ffis:
+ prnt(' _cffi_includes,')
+ else:
+ prnt(' NULL, /* no includes */')
+ prnt(' %d, /* num_types */' % (len(self.cffi_types),))
+ flags = 0
+ if self._num_externpy > 0 or self.ffi._embedding is not None:
+ flags |= 1 # set to mean that we use extern "Python"
+ prnt(' %d, /* flags */' % flags)
+ prnt('};')
+ prnt()
+ #
+ # the init function
+ prnt('#ifdef __GNUC__')
+ prnt('# pragma GCC visibility push(default) /* for -fvisibility= */')
+ prnt('#endif')
+ prnt()
+ prnt('#ifdef PYPY_VERSION')
+ prnt('PyMODINIT_FUNC')
+ prnt('_cffi_pypyinit_%s(const void *p[])' % (base_module_name,))
+ prnt('{')
+ if flags & 1:
+ prnt(' if (((intptr_t)p[0]) >= 0x0A03) {')
+ prnt(' _cffi_call_python_org = '
+ '(void(*)(struct _cffi_externpy_s *, char *))p[1];')
+ prnt(' }')
+ prnt(' p[0] = (const void *)0x%x;' % self._version)
+ prnt(' p[1] = &_cffi_type_context;')
+ prnt('#if PY_MAJOR_VERSION >= 3')
+ prnt(' return NULL;')
+ prnt('#endif')
+ prnt('}')
+ # on Windows, distutils insists on putting init_cffi_xyz in
+ # 'export_symbols', so instead of fighting it, just give up and
+ # give it one
+ prnt('# ifdef _MSC_VER')
+ prnt(' PyMODINIT_FUNC')
+ prnt('# if PY_MAJOR_VERSION >= 3')
+ prnt(' PyInit_%s(void) { return NULL; }' % (base_module_name,))
+ prnt('# else')
+ prnt(' init%s(void) { }' % (base_module_name,))
+ prnt('# endif')
+ prnt('# endif')
+ prnt('#elif PY_MAJOR_VERSION >= 3')
+ prnt('PyMODINIT_FUNC')
+ prnt('PyInit_%s(void)' % (base_module_name,))
+ prnt('{')
+ prnt(' return _cffi_init("%s", 0x%x, &_cffi_type_context);' % (
+ self.module_name, self._version))
+ prnt('}')
+ prnt('#else')
+ prnt('PyMODINIT_FUNC')
+ prnt('init%s(void)' % (base_module_name,))
+ prnt('{')
+ prnt(' _cffi_init("%s", 0x%x, &_cffi_type_context);' % (
+ self.module_name, self._version))
+ prnt('}')
+ prnt('#endif')
+ prnt()
+ prnt('#ifdef __GNUC__')
+ prnt('# pragma GCC visibility pop')
+ prnt('#endif')
+ self._version = None
+
+ def _to_py(self, x):
+ if isinstance(x, str):
+ return "b'%s'" % (x,)
+ if isinstance(x, (list, tuple)):
+ rep = [self._to_py(item) for item in x]
+ if len(rep) == 1:
+ rep.append('')
+ return "(%s)" % (','.join(rep),)
+ return x.as_python_expr() # Py2: unicode unexpected; Py3: bytes unexp.
+
+ def write_py_source_to_f(self, f):
+ self._f = f
+ prnt = self._prnt
+ #
+ # header
+ prnt("# auto-generated file")
+ prnt("import _cffi_backend")
+ #
+ # the 'import' of the included ffis
+ num_includes = len(self.ffi._included_ffis or ())
+ for i in range(num_includes):
+ ffi_to_include = self.ffi._included_ffis[i]
+ try:
+ included_module_name, included_source = (
+ ffi_to_include._assigned_source[:2])
+ except AttributeError:
+ raise VerificationError(
+ "ffi object %r includes %r, but the latter has not "
+ "been prepared with set_source()" % (
+ self.ffi, ffi_to_include,))
+ if included_source is not None:
+ raise VerificationError(
+ "not implemented yet: ffi.include() of a C-based "
+ "ffi inside a Python-based ffi")
+ prnt('from %s import ffi as _ffi%d' % (included_module_name, i))
+ prnt()
+ prnt("ffi = _cffi_backend.FFI('%s'," % (self.module_name,))
+ prnt(" _version = 0x%x," % (self._version,))
+ self._version = None
+ #
+ # the '_types' keyword argument
+ self.cffi_types = tuple(self.cffi_types) # don't change any more
+ types_lst = [op.as_python_bytes() for op in self.cffi_types]
+ prnt(' _types = %s,' % (self._to_py(''.join(types_lst)),))
+ typeindex2type = dict([(i, tp) for (tp, i) in self._typesdict.items()])
+ #
+ # the keyword arguments from ALL_STEPS
+ for step_name in self.ALL_STEPS:
+ lst = self._lsts[step_name]
+ if len(lst) > 0 and step_name != "field":
+ prnt(' _%ss = %s,' % (step_name, self._to_py(lst)))
+ #
+ # the '_includes' keyword argument
+ if num_includes > 0:
+ prnt(' _includes = (%s,),' % (
+ ', '.join(['_ffi%d' % i for i in range(num_includes)]),))
+ #
+ # the footer
+ prnt(')')
+
+ # ----------
+
+ def _gettypenum(self, type):
+ # a KeyError here is a bug. please report it! :-)
+ return self._typesdict[type]
+
+ def _convert_funcarg_to_c(self, tp, fromvar, tovar, errcode):
+ extraarg = ''
+ if isinstance(tp, model.BasePrimitiveType) and not tp.is_complex_type():
+ if tp.is_integer_type() and tp.name != '_Bool':
+ converter = '_cffi_to_c_int'
+ extraarg = ', %s' % tp.name
+ elif isinstance(tp, model.UnknownFloatType):
+ # don't check with is_float_type(): it may be a 'long
+ # double' here, and _cffi_to_c_double would loose precision
+ converter = '(%s)_cffi_to_c_double' % (tp.get_c_name(''),)
+ else:
+ cname = tp.get_c_name('')
+ converter = '(%s)_cffi_to_c_%s' % (cname,
+ tp.name.replace(' ', '_'))
+ if cname in ('char16_t', 'char32_t'):
+ self.needs_version(VERSION_CHAR16CHAR32)
+ errvalue = '-1'
+ #
+ elif isinstance(tp, model.PointerType):
+ self._convert_funcarg_to_c_ptr_or_array(tp, fromvar,
+ tovar, errcode)
+ return
+ #
+ elif (isinstance(tp, model.StructOrUnionOrEnum) or
+ isinstance(tp, model.BasePrimitiveType)):
+ # a struct (not a struct pointer) as a function argument;
+ # or, a complex (the same code works)
+ self._prnt(' if (_cffi_to_c((char *)&%s, _cffi_type(%d), %s) < 0)'
+ % (tovar, self._gettypenum(tp), fromvar))
+ self._prnt(' %s;' % errcode)
+ return
+ #
+ elif isinstance(tp, model.FunctionPtrType):
+ converter = '(%s)_cffi_to_c_pointer' % tp.get_c_name('')
+ extraarg = ', _cffi_type(%d)' % self._gettypenum(tp)
+ errvalue = 'NULL'
+ #
+ else:
+ raise NotImplementedError(tp)
+ #
+ self._prnt(' %s = %s(%s%s);' % (tovar, converter, fromvar, extraarg))
+ self._prnt(' if (%s == (%s)%s && PyErr_Occurred())' % (
+ tovar, tp.get_c_name(''), errvalue))
+ self._prnt(' %s;' % errcode)
+
+ def _extra_local_variables(self, tp, localvars, freelines):
+ if isinstance(tp, model.PointerType):
+ localvars.add('Py_ssize_t datasize')
+ localvars.add('struct _cffi_freeme_s *large_args_free = NULL')
+ freelines.add('if (large_args_free != NULL)'
+ ' _cffi_free_array_arguments(large_args_free);')
+
+ def _convert_funcarg_to_c_ptr_or_array(self, tp, fromvar, tovar, errcode):
+ self._prnt(' datasize = _cffi_prepare_pointer_call_argument(')
+ self._prnt(' _cffi_type(%d), %s, (char **)&%s);' % (
+ self._gettypenum(tp), fromvar, tovar))
+ self._prnt(' if (datasize != 0) {')
+ self._prnt(' %s = ((size_t)datasize) <= 640 ? '
+ '(%s)alloca((size_t)datasize) : NULL;' % (
+ tovar, tp.get_c_name('')))
+ self._prnt(' if (_cffi_convert_array_argument(_cffi_type(%d), %s, '
+ '(char **)&%s,' % (self._gettypenum(tp), fromvar, tovar))
+ self._prnt(' datasize, &large_args_free) < 0)')
+ self._prnt(' %s;' % errcode)
+ self._prnt(' }')
+
+ def _convert_expr_from_c(self, tp, var, context):
+ if isinstance(tp, model.BasePrimitiveType):
+ if tp.is_integer_type() and tp.name != '_Bool':
+ return '_cffi_from_c_int(%s, %s)' % (var, tp.name)
+ elif isinstance(tp, model.UnknownFloatType):
+ return '_cffi_from_c_double(%s)' % (var,)
+ elif tp.name != 'long double' and not tp.is_complex_type():
+ cname = tp.name.replace(' ', '_')
+ if cname in ('char16_t', 'char32_t'):
+ self.needs_version(VERSION_CHAR16CHAR32)
+ return '_cffi_from_c_%s(%s)' % (cname, var)
+ else:
+ return '_cffi_from_c_deref((char *)&%s, _cffi_type(%d))' % (
+ var, self._gettypenum(tp))
+ elif isinstance(tp, (model.PointerType, model.FunctionPtrType)):
+ return '_cffi_from_c_pointer((char *)%s, _cffi_type(%d))' % (
+ var, self._gettypenum(tp))
+ elif isinstance(tp, model.ArrayType):
+ return '_cffi_from_c_pointer((char *)%s, _cffi_type(%d))' % (
+ var, self._gettypenum(model.PointerType(tp.item)))
+ elif isinstance(tp, model.StructOrUnion):
+ if tp.fldnames is None:
+ raise TypeError("'%s' is used as %s, but is opaque" % (
+ tp._get_c_name(), context))
+ return '_cffi_from_c_struct((char *)&%s, _cffi_type(%d))' % (
+ var, self._gettypenum(tp))
+ elif isinstance(tp, model.EnumType):
+ return '_cffi_from_c_deref((char *)&%s, _cffi_type(%d))' % (
+ var, self._gettypenum(tp))
+ else:
+ raise NotImplementedError(tp)
+
+ # ----------
+ # typedefs
+
+ def _typedef_type(self, tp, name):
+ return self._global_type(tp, "(*(%s *)0)" % (name,))
+
+ def _generate_cpy_typedef_collecttype(self, tp, name):
+ self._do_collect_type(self._typedef_type(tp, name))
+
+ def _generate_cpy_typedef_decl(self, tp, name):
+ pass
+
+ def _typedef_ctx(self, tp, name):
+ type_index = self._typesdict[tp]
+ self._lsts["typename"].append(TypenameExpr(name, type_index))
+
+ def _generate_cpy_typedef_ctx(self, tp, name):
+ tp = self._typedef_type(tp, name)
+ self._typedef_ctx(tp, name)
+ if getattr(tp, "origin", None) == "unknown_type":
+ self._struct_ctx(tp, tp.name, approxname=None)
+ elif isinstance(tp, model.NamedPointerType):
+ self._struct_ctx(tp.totype, tp.totype.name, approxname=tp.name,
+ named_ptr=tp)
+
+ # ----------
+ # function declarations
+
+ def _generate_cpy_function_collecttype(self, tp, name):
+ self._do_collect_type(tp.as_raw_function())
+ if tp.ellipsis and not self.target_is_python:
+ self._do_collect_type(tp)
+
+ def _generate_cpy_function_decl(self, tp, name):
+ assert not self.target_is_python
+ assert isinstance(tp, model.FunctionPtrType)
+ if tp.ellipsis:
+ # cannot support vararg functions better than this: check for its
+ # exact type (including the fixed arguments), and build it as a
+ # constant function pointer (no CPython wrapper)
+ self._generate_cpy_constant_decl(tp, name)
+ return
+ prnt = self._prnt
+ numargs = len(tp.args)
+ if numargs == 0:
+ argname = 'noarg'
+ elif numargs == 1:
+ argname = 'arg0'
+ else:
+ argname = 'args'
+ #
+ # ------------------------------
+ # the 'd' version of the function, only for addressof(lib, 'func')
+ arguments = []
+ call_arguments = []
+ context = 'argument of %s' % name
+ for i, type in enumerate(tp.args):
+ arguments.append(type.get_c_name(' x%d' % i, context))
+ call_arguments.append('x%d' % i)
+ repr_arguments = ', '.join(arguments)
+ repr_arguments = repr_arguments or 'void'
+ if tp.abi:
+ abi = tp.abi + ' '
+ else:
+ abi = ''
+ name_and_arguments = '%s_cffi_d_%s(%s)' % (abi, name, repr_arguments)
+ prnt('static %s' % (tp.result.get_c_name(name_and_arguments),))
+ prnt('{')
+ call_arguments = ', '.join(call_arguments)
+ result_code = 'return '
+ if isinstance(tp.result, model.VoidType):
+ result_code = ''
+ prnt(' %s%s(%s);' % (result_code, name, call_arguments))
+ prnt('}')
+ #
+ prnt('#ifndef PYPY_VERSION') # ------------------------------
+ #
+ prnt('static PyObject *')
+ prnt('_cffi_f_%s(PyObject *self, PyObject *%s)' % (name, argname))
+ prnt('{')
+ #
+ context = 'argument of %s' % name
+ for i, type in enumerate(tp.args):
+ arg = type.get_c_name(' x%d' % i, context)
+ prnt(' %s;' % arg)
+ #
+ localvars = set()
+ freelines = set()
+ for type in tp.args:
+ self._extra_local_variables(type, localvars, freelines)
+ for decl in sorted(localvars):
+ prnt(' %s;' % (decl,))
+ #
+ if not isinstance(tp.result, model.VoidType):
+ result_code = 'result = '
+ context = 'result of %s' % name
+ result_decl = ' %s;' % tp.result.get_c_name(' result', context)
+ prnt(result_decl)
+ prnt(' PyObject *pyresult;')
+ else:
+ result_decl = None
+ result_code = ''
+ #
+ if len(tp.args) > 1:
+ rng = range(len(tp.args))
+ for i in rng:
+ prnt(' PyObject *arg%d;' % i)
+ prnt()
+ prnt(' if (!PyArg_UnpackTuple(args, "%s", %d, %d, %s))' % (
+ name, len(rng), len(rng),
+ ', '.join(['&arg%d' % i for i in rng])))
+ prnt(' return NULL;')
+ prnt()
+ #
+ for i, type in enumerate(tp.args):
+ self._convert_funcarg_to_c(type, 'arg%d' % i, 'x%d' % i,
+ 'return NULL')
+ prnt()
+ #
+ prnt(' Py_BEGIN_ALLOW_THREADS')
+ prnt(' _cffi_restore_errno();')
+ call_arguments = ['x%d' % i for i in range(len(tp.args))]
+ call_arguments = ', '.join(call_arguments)
+ prnt(' { %s%s(%s); }' % (result_code, name, call_arguments))
+ prnt(' _cffi_save_errno();')
+ prnt(' Py_END_ALLOW_THREADS')
+ prnt()
+ #
+ prnt(' (void)self; /* unused */')
+ if numargs == 0:
+ prnt(' (void)noarg; /* unused */')
+ if result_code:
+ prnt(' pyresult = %s;' %
+ self._convert_expr_from_c(tp.result, 'result', 'result type'))
+ for freeline in freelines:
+ prnt(' ' + freeline)
+ prnt(' return pyresult;')
+ else:
+ for freeline in freelines:
+ prnt(' ' + freeline)
+ prnt(' Py_INCREF(Py_None);')
+ prnt(' return Py_None;')
+ prnt('}')
+ #
+ prnt('#else') # ------------------------------
+ #
+ # the PyPy version: need to replace struct/union arguments with
+ # pointers, and if the result is a struct/union, insert a first
+ # arg that is a pointer to the result. We also do that for
+ # complex args and return type.
+ def need_indirection(type):
+ return (isinstance(type, model.StructOrUnion) or
+ (isinstance(type, model.PrimitiveType) and
+ type.is_complex_type()))
+ difference = False
+ arguments = []
+ call_arguments = []
+ context = 'argument of %s' % name
+ for i, type in enumerate(tp.args):
+ indirection = ''
+ if need_indirection(type):
+ indirection = '*'
+ difference = True
+ arg = type.get_c_name(' %sx%d' % (indirection, i), context)
+ arguments.append(arg)
+ call_arguments.append('%sx%d' % (indirection, i))
+ tp_result = tp.result
+ if need_indirection(tp_result):
+ context = 'result of %s' % name
+ arg = tp_result.get_c_name(' *result', context)
+ arguments.insert(0, arg)
+ tp_result = model.void_type
+ result_decl = None
+ result_code = '*result = '
+ difference = True
+ if difference:
+ repr_arguments = ', '.join(arguments)
+ repr_arguments = repr_arguments or 'void'
+ name_and_arguments = '%s_cffi_f_%s(%s)' % (abi, name,
+ repr_arguments)
+ prnt('static %s' % (tp_result.get_c_name(name_and_arguments),))
+ prnt('{')
+ if result_decl:
+ prnt(result_decl)
+ call_arguments = ', '.join(call_arguments)
+ prnt(' { %s%s(%s); }' % (result_code, name, call_arguments))
+ if result_decl:
+ prnt(' return result;')
+ prnt('}')
+ else:
+ prnt('# define _cffi_f_%s _cffi_d_%s' % (name, name))
+ #
+ prnt('#endif') # ------------------------------
+ prnt()
+
+ def _generate_cpy_function_ctx(self, tp, name):
+ if tp.ellipsis and not self.target_is_python:
+ self._generate_cpy_constant_ctx(tp, name)
+ return
+ type_index = self._typesdict[tp.as_raw_function()]
+ numargs = len(tp.args)
+ if self.target_is_python:
+ meth_kind = OP_DLOPEN_FUNC
+ elif numargs == 0:
+ meth_kind = OP_CPYTHON_BLTN_N # 'METH_NOARGS'
+ elif numargs == 1:
+ meth_kind = OP_CPYTHON_BLTN_O # 'METH_O'
+ else:
+ meth_kind = OP_CPYTHON_BLTN_V # 'METH_VARARGS'
+ self._lsts["global"].append(
+ GlobalExpr(name, '_cffi_f_%s' % name,
+ CffiOp(meth_kind, type_index),
+ size='_cffi_d_%s' % name))
+
+ # ----------
+ # named structs or unions
+
+ def _field_type(self, tp_struct, field_name, tp_field):
+ if isinstance(tp_field, model.ArrayType):
+ actual_length = tp_field.length
+ if actual_length == '...':
+ ptr_struct_name = tp_struct.get_c_name('*')
+ actual_length = '_cffi_array_len(((%s)0)->%s)' % (
+ ptr_struct_name, field_name)
+ tp_item = self._field_type(tp_struct, '%s[0]' % field_name,
+ tp_field.item)
+ tp_field = model.ArrayType(tp_item, actual_length)
+ return tp_field
+
+ def _struct_collecttype(self, tp):
+ self._do_collect_type(tp)
+ if self.target_is_python:
+ # also requires nested anon struct/unions in ABI mode, recursively
+ for fldtype in tp.anonymous_struct_fields():
+ self._struct_collecttype(fldtype)
+
+ def _struct_decl(self, tp, cname, approxname):
+ if tp.fldtypes is None:
+ return
+ prnt = self._prnt
+ checkfuncname = '_cffi_checkfld_%s' % (approxname,)
+ prnt('_CFFI_UNUSED_FN')
+ prnt('static void %s(%s *p)' % (checkfuncname, cname))
+ prnt('{')
+ prnt(' /* only to generate compile-time warnings or errors */')
+ prnt(' (void)p;')
+ for fname, ftype, fbitsize, fqual in self._enum_fields(tp):
+ try:
+ if ftype.is_integer_type() or fbitsize >= 0:
+ # accept all integers, but complain on float or double
+ if fname != '':
+ prnt(" (void)((p->%s) | 0); /* check that '%s.%s' is "
+ "an integer */" % (fname, cname, fname))
+ continue
+ # only accept exactly the type declared, except that '[]'
+ # is interpreted as a '*' and so will match any array length.
+ # (It would also match '*', but that's harder to detect...)
+ while (isinstance(ftype, model.ArrayType)
+ and (ftype.length is None or ftype.length == '...')):
+ ftype = ftype.item
+ fname = fname + '[0]'
+ prnt(' { %s = &p->%s; (void)tmp; }' % (
+ ftype.get_c_name('*tmp', 'field %r'%fname, quals=fqual),
+ fname))
+ except VerificationError as e:
+ prnt(' /* %s */' % str(e)) # cannot verify it, ignore
+ prnt('}')
+ prnt('struct _cffi_align_%s { char x; %s y; };' % (approxname, cname))
+ prnt()
+
+ def _struct_ctx(self, tp, cname, approxname, named_ptr=None):
+ type_index = self._typesdict[tp]
+ reason_for_not_expanding = None
+ flags = []
+ if isinstance(tp, model.UnionType):
+ flags.append("_CFFI_F_UNION")
+ if tp.fldtypes is None:
+ flags.append("_CFFI_F_OPAQUE")
+ reason_for_not_expanding = "opaque"
+ if (tp not in self.ffi._parser._included_declarations and
+ (named_ptr is None or
+ named_ptr not in self.ffi._parser._included_declarations)):
+ if tp.fldtypes is None:
+ pass # opaque
+ elif tp.partial or any(tp.anonymous_struct_fields()):
+ pass # field layout obtained silently from the C compiler
+ else:
+ flags.append("_CFFI_F_CHECK_FIELDS")
+ if tp.packed:
+ if tp.packed > 1:
+ raise NotImplementedError(
+ "%r is declared with 'pack=%r'; only 0 or 1 are "
+ "supported in API mode (try to use \"...;\", which "
+ "does not require a 'pack' declaration)" %
+ (tp, tp.packed))
+ flags.append("_CFFI_F_PACKED")
+ else:
+ flags.append("_CFFI_F_EXTERNAL")
+ reason_for_not_expanding = "external"
+ flags = '|'.join(flags) or '0'
+ c_fields = []
+ if reason_for_not_expanding is None:
+ enumfields = list(self._enum_fields(tp))
+ for fldname, fldtype, fbitsize, fqual in enumfields:
+ fldtype = self._field_type(tp, fldname, fldtype)
+ self._check_not_opaque(fldtype,
+ "field '%s.%s'" % (tp.name, fldname))
+ # cname is None for _add_missing_struct_unions() only
+ op = OP_NOOP
+ if fbitsize >= 0:
+ op = OP_BITFIELD
+ size = '%d /* bits */' % fbitsize
+ elif cname is None or (
+ isinstance(fldtype, model.ArrayType) and
+ fldtype.length is None):
+ size = '(size_t)-1'
+ else:
+ size = 'sizeof(((%s)0)->%s)' % (
+ tp.get_c_name('*') if named_ptr is None
+ else named_ptr.name,
+ fldname)
+ if cname is None or fbitsize >= 0:
+ offset = '(size_t)-1'
+ elif named_ptr is not None:
+ offset = '((char *)&((%s)0)->%s) - (char *)0' % (
+ named_ptr.name, fldname)
+ else:
+ offset = 'offsetof(%s, %s)' % (tp.get_c_name(''), fldname)
+ c_fields.append(
+ FieldExpr(fldname, offset, size, fbitsize,
+ CffiOp(op, self._typesdict[fldtype])))
+ first_field_index = len(self._lsts["field"])
+ self._lsts["field"].extend(c_fields)
+ #
+ if cname is None: # unknown name, for _add_missing_struct_unions
+ size = '(size_t)-2'
+ align = -2
+ comment = "unnamed"
+ else:
+ if named_ptr is not None:
+ size = 'sizeof(*(%s)0)' % (named_ptr.name,)
+ align = '-1 /* unknown alignment */'
+ else:
+ size = 'sizeof(%s)' % (cname,)
+ align = 'offsetof(struct _cffi_align_%s, y)' % (approxname,)
+ comment = None
+ else:
+ size = '(size_t)-1'
+ align = -1
+ first_field_index = -1
+ comment = reason_for_not_expanding
+ self._lsts["struct_union"].append(
+ StructUnionExpr(tp.name, type_index, flags, size, align, comment,
+ first_field_index, c_fields))
+ self._seen_struct_unions.add(tp)
+
+ def _check_not_opaque(self, tp, location):
+ while isinstance(tp, model.ArrayType):
+ tp = tp.item
+ if isinstance(tp, model.StructOrUnion) and tp.fldtypes is None:
+ raise TypeError(
+ "%s is of an opaque type (not declared in cdef())" % location)
+
+ def _add_missing_struct_unions(self):
+ # not very nice, but some struct declarations might be missing
+ # because they don't have any known C name. Check that they are
+ # not partial (we can't complete or verify them!) and emit them
+ # anonymously.
+ lst = list(self._struct_unions.items())
+ lst.sort(key=lambda tp_order: tp_order[1])
+ for tp, order in lst:
+ if tp not in self._seen_struct_unions:
+ if tp.partial:
+ raise NotImplementedError("internal inconsistency: %r is "
+ "partial but was not seen at "
+ "this point" % (tp,))
+ if tp.name.startswith('$') and tp.name[1:].isdigit():
+ approxname = tp.name[1:]
+ elif tp.name == '_IO_FILE' and tp.forcename == 'FILE':
+ approxname = 'FILE'
+ self._typedef_ctx(tp, 'FILE')
+ else:
+ raise NotImplementedError("internal inconsistency: %r" %
+ (tp,))
+ self._struct_ctx(tp, None, approxname)
+
+ def _generate_cpy_struct_collecttype(self, tp, name):
+ self._struct_collecttype(tp)
+ _generate_cpy_union_collecttype = _generate_cpy_struct_collecttype
+
+ def _struct_names(self, tp):
+ cname = tp.get_c_name('')
+ if ' ' in cname:
+ return cname, cname.replace(' ', '_')
+ else:
+ return cname, '_' + cname
+
+ def _generate_cpy_struct_decl(self, tp, name):
+ self._struct_decl(tp, *self._struct_names(tp))
+ _generate_cpy_union_decl = _generate_cpy_struct_decl
+
+ def _generate_cpy_struct_ctx(self, tp, name):
+ self._struct_ctx(tp, *self._struct_names(tp))
+ _generate_cpy_union_ctx = _generate_cpy_struct_ctx
+
+ # ----------
+ # 'anonymous' declarations. These are produced for anonymous structs
+ # or unions; the 'name' is obtained by a typedef.
+
+ def _generate_cpy_anonymous_collecttype(self, tp, name):
+ if isinstance(tp, model.EnumType):
+ self._generate_cpy_enum_collecttype(tp, name)
+ else:
+ self._struct_collecttype(tp)
+
+ def _generate_cpy_anonymous_decl(self, tp, name):
+ if isinstance(tp, model.EnumType):
+ self._generate_cpy_enum_decl(tp)
+ else:
+ self._struct_decl(tp, name, 'typedef_' + name)
+
+ def _generate_cpy_anonymous_ctx(self, tp, name):
+ if isinstance(tp, model.EnumType):
+ self._enum_ctx(tp, name)
+ else:
+ self._struct_ctx(tp, name, 'typedef_' + name)
+
+ # ----------
+ # constants, declared with "static const ..."
+
+ def _generate_cpy_const(self, is_int, name, tp=None, category='const',
+ check_value=None):
+ if (category, name) in self._seen_constants:
+ raise VerificationError(
+ "duplicate declaration of %s '%s'" % (category, name))
+ self._seen_constants.add((category, name))
+ #
+ prnt = self._prnt
+ funcname = '_cffi_%s_%s' % (category, name)
+ if is_int:
+ prnt('static int %s(unsigned long long *o)' % funcname)
+ prnt('{')
+ prnt(' int n = (%s) <= 0;' % (name,))
+ prnt(' *o = (unsigned long long)((%s) | 0);'
+ ' /* check that %s is an integer */' % (name, name))
+ if check_value is not None:
+ if check_value > 0:
+ check_value = '%dU' % (check_value,)
+ prnt(' if (!_cffi_check_int(*o, n, %s))' % (check_value,))
+ prnt(' n |= 2;')
+ prnt(' return n;')
+ prnt('}')
+ else:
+ assert check_value is None
+ prnt('static void %s(char *o)' % funcname)
+ prnt('{')
+ prnt(' *(%s)o = %s;' % (tp.get_c_name('*'), name))
+ prnt('}')
+ prnt()
+
+ def _generate_cpy_constant_collecttype(self, tp, name):
+ is_int = tp.is_integer_type()
+ if not is_int or self.target_is_python:
+ self._do_collect_type(tp)
+
+ def _generate_cpy_constant_decl(self, tp, name):
+ is_int = tp.is_integer_type()
+ self._generate_cpy_const(is_int, name, tp)
+
+ def _generate_cpy_constant_ctx(self, tp, name):
+ if not self.target_is_python and tp.is_integer_type():
+ type_op = CffiOp(OP_CONSTANT_INT, -1)
+ else:
+ if self.target_is_python:
+ const_kind = OP_DLOPEN_CONST
+ else:
+ const_kind = OP_CONSTANT
+ type_index = self._typesdict[tp]
+ type_op = CffiOp(const_kind, type_index)
+ self._lsts["global"].append(
+ GlobalExpr(name, '_cffi_const_%s' % name, type_op))
+
+ # ----------
+ # enums
+
+ def _generate_cpy_enum_collecttype(self, tp, name):
+ self._do_collect_type(tp)
+
+ def _generate_cpy_enum_decl(self, tp, name=None):
+ for enumerator in tp.enumerators:
+ self._generate_cpy_const(True, enumerator)
+
+ def _enum_ctx(self, tp, cname):
+ type_index = self._typesdict[tp]
+ type_op = CffiOp(OP_ENUM, -1)
+ if self.target_is_python:
+ tp.check_not_partial()
+ for enumerator, enumvalue in zip(tp.enumerators, tp.enumvalues):
+ self._lsts["global"].append(
+ GlobalExpr(enumerator, '_cffi_const_%s' % enumerator, type_op,
+ check_value=enumvalue))
+ #
+ if cname is not None and '$' not in cname and not self.target_is_python:
+ size = "sizeof(%s)" % cname
+ signed = "((%s)-1) <= 0" % cname
+ else:
+ basetp = tp.build_baseinttype(self.ffi, [])
+ size = self.ffi.sizeof(basetp)
+ signed = int(int(self.ffi.cast(basetp, -1)) < 0)
+ allenums = ",".join(tp.enumerators)
+ self._lsts["enum"].append(
+ EnumExpr(tp.name, type_index, size, signed, allenums))
+
+ def _generate_cpy_enum_ctx(self, tp, name):
+ self._enum_ctx(tp, tp._get_c_name())
+
+ # ----------
+ # macros: for now only for integers
+
+ def _generate_cpy_macro_collecttype(self, tp, name):
+ pass
+
+ def _generate_cpy_macro_decl(self, tp, name):
+ if tp == '...':
+ check_value = None
+ else:
+ check_value = tp # an integer
+ self._generate_cpy_const(True, name, check_value=check_value)
+
+ def _generate_cpy_macro_ctx(self, tp, name):
+ if tp == '...':
+ if self.target_is_python:
+ raise VerificationError(
+ "cannot use the syntax '...' in '#define %s ...' when "
+ "using the ABI mode" % (name,))
+ check_value = None
+ else:
+ check_value = tp # an integer
+ type_op = CffiOp(OP_CONSTANT_INT, -1)
+ self._lsts["global"].append(
+ GlobalExpr(name, '_cffi_const_%s' % name, type_op,
+ check_value=check_value))
+
+ # ----------
+ # global variables
+
+ def _global_type(self, tp, global_name):
+ if isinstance(tp, model.ArrayType):
+ actual_length = tp.length
+ if actual_length == '...':
+ actual_length = '_cffi_array_len(%s)' % (global_name,)
+ tp_item = self._global_type(tp.item, '%s[0]' % global_name)
+ tp = model.ArrayType(tp_item, actual_length)
+ return tp
+
+ def _generate_cpy_variable_collecttype(self, tp, name):
+ self._do_collect_type(self._global_type(tp, name))
+
+ def _generate_cpy_variable_decl(self, tp, name):
+ prnt = self._prnt
+ tp = self._global_type(tp, name)
+ if isinstance(tp, model.ArrayType) and tp.length is None:
+ tp = tp.item
+ ampersand = ''
+ else:
+ ampersand = '&'
+ # This code assumes that casts from "tp *" to "void *" is a
+ # no-op, i.e. a function that returns a "tp *" can be called
+ # as if it returned a "void *". This should be generally true
+ # on any modern machine. The only exception to that rule (on
+ # uncommon architectures, and as far as I can tell) might be
+ # if 'tp' were a function type, but that is not possible here.
+ # (If 'tp' is a function _pointer_ type, then casts from "fn_t
+ # **" to "void *" are again no-ops, as far as I can tell.)
+ decl = '*_cffi_var_%s(void)' % (name,)
+ prnt('static ' + tp.get_c_name(decl, quals=self._current_quals))
+ prnt('{')
+ prnt(' return %s(%s);' % (ampersand, name))
+ prnt('}')
+ prnt()
+
+ def _generate_cpy_variable_ctx(self, tp, name):
+ tp = self._global_type(tp, name)
+ type_index = self._typesdict[tp]
+ if self.target_is_python:
+ op = OP_GLOBAL_VAR
+ else:
+ op = OP_GLOBAL_VAR_F
+ self._lsts["global"].append(
+ GlobalExpr(name, '_cffi_var_%s' % name, CffiOp(op, type_index)))
+
+ # ----------
+ # extern "Python"
+
+ def _generate_cpy_extern_python_collecttype(self, tp, name):
+ assert isinstance(tp, model.FunctionPtrType)
+ self._do_collect_type(tp)
+ _generate_cpy_dllexport_python_collecttype = \
+ _generate_cpy_extern_python_plus_c_collecttype = \
+ _generate_cpy_extern_python_collecttype
+
+ def _extern_python_decl(self, tp, name, tag_and_space):
+ prnt = self._prnt
+ if isinstance(tp.result, model.VoidType):
+ size_of_result = '0'
+ else:
+ context = 'result of %s' % name
+ size_of_result = '(int)sizeof(%s)' % (
+ tp.result.get_c_name('', context),)
+ prnt('static struct _cffi_externpy_s _cffi_externpy__%s =' % name)
+ prnt(' { "%s.%s", %s, 0, 0 };' % (
+ self.module_name, name, size_of_result))
+ prnt()
+ #
+ arguments = []
+ context = 'argument of %s' % name
+ for i, type in enumerate(tp.args):
+ arg = type.get_c_name(' a%d' % i, context)
+ arguments.append(arg)
+ #
+ repr_arguments = ', '.join(arguments)
+ repr_arguments = repr_arguments or 'void'
+ name_and_arguments = '%s(%s)' % (name, repr_arguments)
+ if tp.abi == "__stdcall":
+ name_and_arguments = '_cffi_stdcall ' + name_and_arguments
+ #
+ def may_need_128_bits(tp):
+ return (isinstance(tp, model.PrimitiveType) and
+ tp.name == 'long double')
+ #
+ size_of_a = max(len(tp.args)*8, 8)
+ if may_need_128_bits(tp.result):
+ size_of_a = max(size_of_a, 16)
+ if isinstance(tp.result, model.StructOrUnion):
+ size_of_a = 'sizeof(%s) > %d ? sizeof(%s) : %d' % (
+ tp.result.get_c_name(''), size_of_a,
+ tp.result.get_c_name(''), size_of_a)
+ prnt('%s%s' % (tag_and_space, tp.result.get_c_name(name_and_arguments)))
+ prnt('{')
+ prnt(' char a[%s];' % size_of_a)
+ prnt(' char *p = a;')
+ for i, type in enumerate(tp.args):
+ arg = 'a%d' % i
+ if (isinstance(type, model.StructOrUnion) or
+ may_need_128_bits(type)):
+ arg = '&' + arg
+ type = model.PointerType(type)
+ prnt(' *(%s)(p + %d) = %s;' % (type.get_c_name('*'), i*8, arg))
+ prnt(' _cffi_call_python(&_cffi_externpy__%s, p);' % name)
+ if not isinstance(tp.result, model.VoidType):
+ prnt(' return *(%s)p;' % (tp.result.get_c_name('*'),))
+ prnt('}')
+ prnt()
+ self._num_externpy += 1
+
+ def _generate_cpy_extern_python_decl(self, tp, name):
+ self._extern_python_decl(tp, name, 'static ')
+
+ def _generate_cpy_dllexport_python_decl(self, tp, name):
+ self._extern_python_decl(tp, name, 'CFFI_DLLEXPORT ')
+
+ def _generate_cpy_extern_python_plus_c_decl(self, tp, name):
+ self._extern_python_decl(tp, name, '')
+
+ def _generate_cpy_extern_python_ctx(self, tp, name):
+ if self.target_is_python:
+ raise VerificationError(
+ "cannot use 'extern \"Python\"' in the ABI mode")
+ if tp.ellipsis:
+ raise NotImplementedError("a vararg function is extern \"Python\"")
+ type_index = self._typesdict[tp]
+ type_op = CffiOp(OP_EXTERN_PYTHON, type_index)
+ self._lsts["global"].append(
+ GlobalExpr(name, '&_cffi_externpy__%s' % name, type_op, name))
+
+ _generate_cpy_dllexport_python_ctx = \
+ _generate_cpy_extern_python_plus_c_ctx = \
+ _generate_cpy_extern_python_ctx
+
+ def _print_string_literal_in_array(self, s):
+ prnt = self._prnt
+ prnt('// # NB. this is not a string because of a size limit in MSVC')
+ if not isinstance(s, bytes): # unicode
+ s = s.encode('utf-8') # -> bytes
+ else:
+ s.decode('utf-8') # got bytes, check for valid utf-8
+ try:
+ s.decode('ascii')
+ except UnicodeDecodeError:
+ s = b'# -*- encoding: utf8 -*-\n' + s
+ for line in s.splitlines(True):
+ comment = line
+ if type('//') is bytes: # python2
+ line = map(ord, line) # make a list of integers
+ else: # python3
+ # type(line) is bytes, which enumerates like a list of integers
+ comment = ascii(comment)[1:-1]
+ prnt(('// ' + comment).rstrip())
+ printed_line = ''
+ for c in line:
+ if len(printed_line) >= 76:
+ prnt(printed_line)
+ printed_line = ''
+ printed_line += '%d,' % (c,)
+ prnt(printed_line)
+
+ # ----------
+ # emitting the opcodes for individual types
+
+ def _emit_bytecode_VoidType(self, tp, index):
+ self.cffi_types[index] = CffiOp(OP_PRIMITIVE, PRIM_VOID)
+
+ def _emit_bytecode_PrimitiveType(self, tp, index):
+ prim_index = PRIMITIVE_TO_INDEX[tp.name]
+ self.cffi_types[index] = CffiOp(OP_PRIMITIVE, prim_index)
+
+ def _emit_bytecode_UnknownIntegerType(self, tp, index):
+ s = ('_cffi_prim_int(sizeof(%s), (\n'
+ ' ((%s)-1) | 0 /* check that %s is an integer type */\n'
+ ' ) <= 0)' % (tp.name, tp.name, tp.name))
+ self.cffi_types[index] = CffiOp(OP_PRIMITIVE, s)
+
+ def _emit_bytecode_UnknownFloatType(self, tp, index):
+ s = ('_cffi_prim_float(sizeof(%s) *\n'
+ ' (((%s)1) / 2) * 2 /* integer => 0, float => 1 */\n'
+ ' )' % (tp.name, tp.name))
+ self.cffi_types[index] = CffiOp(OP_PRIMITIVE, s)
+
+ def _emit_bytecode_RawFunctionType(self, tp, index):
+ self.cffi_types[index] = CffiOp(OP_FUNCTION, self._typesdict[tp.result])
+ index += 1
+ for tp1 in tp.args:
+ realindex = self._typesdict[tp1]
+ if index != realindex:
+ if isinstance(tp1, model.PrimitiveType):
+ self._emit_bytecode_PrimitiveType(tp1, index)
+ else:
+ self.cffi_types[index] = CffiOp(OP_NOOP, realindex)
+ index += 1
+ flags = int(tp.ellipsis)
+ if tp.abi is not None:
+ if tp.abi == '__stdcall':
+ flags |= 2
+ else:
+ raise NotImplementedError("abi=%r" % (tp.abi,))
+ self.cffi_types[index] = CffiOp(OP_FUNCTION_END, flags)
+
+ def _emit_bytecode_PointerType(self, tp, index):
+ self.cffi_types[index] = CffiOp(OP_POINTER, self._typesdict[tp.totype])
+
+ _emit_bytecode_ConstPointerType = _emit_bytecode_PointerType
+ _emit_bytecode_NamedPointerType = _emit_bytecode_PointerType
+
+ def _emit_bytecode_FunctionPtrType(self, tp, index):
+ raw = tp.as_raw_function()
+ self.cffi_types[index] = CffiOp(OP_POINTER, self._typesdict[raw])
+
+ def _emit_bytecode_ArrayType(self, tp, index):
+ item_index = self._typesdict[tp.item]
+ if tp.length is None:
+ self.cffi_types[index] = CffiOp(OP_OPEN_ARRAY, item_index)
+ elif tp.length == '...':
+ raise VerificationError(
+ "type %s badly placed: the '...' array length can only be "
+ "used on global arrays or on fields of structures" % (
+ str(tp).replace('/*...*/', '...'),))
+ else:
+ assert self.cffi_types[index + 1] == 'LEN'
+ self.cffi_types[index] = CffiOp(OP_ARRAY, item_index)
+ self.cffi_types[index + 1] = CffiOp(None, str(tp.length))
+
+ def _emit_bytecode_StructType(self, tp, index):
+ struct_index = self._struct_unions[tp]
+ self.cffi_types[index] = CffiOp(OP_STRUCT_UNION, struct_index)
+ _emit_bytecode_UnionType = _emit_bytecode_StructType
+
+ def _emit_bytecode_EnumType(self, tp, index):
+ enum_index = self._enums[tp]
+ self.cffi_types[index] = CffiOp(OP_ENUM, enum_index)
+
+
+if sys.version_info >= (3,):
+ NativeIO = io.StringIO
+else:
+ class NativeIO(io.BytesIO):
+ def write(self, s):
+ if isinstance(s, unicode):
+ s = s.encode('ascii')
+ super(NativeIO, self).write(s)
+
+def _make_c_or_py_source(ffi, module_name, preamble, target_file, verbose):
+ if verbose:
+ print("generating %s" % (target_file,))
+ recompiler = Recompiler(ffi, module_name,
+ target_is_python=(preamble is None))
+ recompiler.collect_type_table()
+ recompiler.collect_step_tables()
+ f = NativeIO()
+ recompiler.write_source_to_f(f, preamble)
+ output = f.getvalue()
+ try:
+ with open(target_file, 'r') as f1:
+ if f1.read(len(output) + 1) != output:
+ raise IOError
+ if verbose:
+ print("(already up-to-date)")
+ return False # already up-to-date
+ except IOError:
+ tmp_file = '%s.~%d' % (target_file, os.getpid())
+ with open(tmp_file, 'w') as f1:
+ f1.write(output)
+ try:
+ os.rename(tmp_file, target_file)
+ except OSError:
+ os.unlink(target_file)
+ os.rename(tmp_file, target_file)
+ return True
+
+def make_c_source(ffi, module_name, preamble, target_c_file, verbose=False):
+ assert preamble is not None
+ return _make_c_or_py_source(ffi, module_name, preamble, target_c_file,
+ verbose)
+
+def make_py_source(ffi, module_name, target_py_file, verbose=False):
+ return _make_c_or_py_source(ffi, module_name, None, target_py_file,
+ verbose)
+
+def _modname_to_file(outputdir, modname, extension):
+ parts = modname.split('.')
+ try:
+ os.makedirs(os.path.join(outputdir, *parts[:-1]))
+ except OSError:
+ pass
+ parts[-1] += extension
+ return os.path.join(outputdir, *parts), parts
+
+
+# Aaargh. Distutils is not tested at all for the purpose of compiling
+# DLLs that are not extension modules. Here are some hacks to work
+# around that, in the _patch_for_*() functions...
+
+def _patch_meth(patchlist, cls, name, new_meth):
+ old = getattr(cls, name)
+ patchlist.append((cls, name, old))
+ setattr(cls, name, new_meth)
+ return old
+
+def _unpatch_meths(patchlist):
+ for cls, name, old_meth in reversed(patchlist):
+ setattr(cls, name, old_meth)
+
+def _patch_for_embedding(patchlist):
+ if sys.platform == 'win32':
+ # we must not remove the manifest when building for embedding!
+ from distutils.msvc9compiler import MSVCCompiler
+ _patch_meth(patchlist, MSVCCompiler, '_remove_visual_c_ref',
+ lambda self, manifest_file: manifest_file)
+
+ if sys.platform == 'darwin':
+ # we must not make a '-bundle', but a '-dynamiclib' instead
+ from distutils.ccompiler import CCompiler
+ def my_link_shared_object(self, *args, **kwds):
+ if '-bundle' in self.linker_so:
+ self.linker_so = list(self.linker_so)
+ i = self.linker_so.index('-bundle')
+ self.linker_so[i] = '-dynamiclib'
+ return old_link_shared_object(self, *args, **kwds)
+ old_link_shared_object = _patch_meth(patchlist, CCompiler,
+ 'link_shared_object',
+ my_link_shared_object)
+
+def _patch_for_target(patchlist, target):
+ from distutils.command.build_ext import build_ext
+ # if 'target' is different from '*', we need to patch some internal
+ # method to just return this 'target' value, instead of having it
+ # built from module_name
+ if target.endswith('.*'):
+ target = target[:-2]
+ if sys.platform == 'win32':
+ target += '.dll'
+ elif sys.platform == 'darwin':
+ target += '.dylib'
+ else:
+ target += '.so'
+ _patch_meth(patchlist, build_ext, 'get_ext_filename',
+ lambda self, ext_name: target)
+
+
+def recompile(ffi, module_name, preamble, tmpdir='.', call_c_compiler=True,
+ c_file=None, source_extension='.c', extradir=None,
+ compiler_verbose=1, target=None, debug=None, **kwds):
+ if not isinstance(module_name, str):
+ module_name = module_name.encode('ascii')
+ if ffi._windows_unicode:
+ ffi._apply_windows_unicode(kwds)
+ if preamble is not None:
+ embedding = (ffi._embedding is not None)
+ if embedding:
+ ffi._apply_embedding_fix(kwds)
+ if c_file is None:
+ c_file, parts = _modname_to_file(tmpdir, module_name,
+ source_extension)
+ if extradir:
+ parts = [extradir] + parts
+ ext_c_file = os.path.join(*parts)
+ else:
+ ext_c_file = c_file
+ #
+ if target is None:
+ if embedding:
+ target = '%s.*' % module_name
+ else:
+ target = '*'
+ #
+ ext = ffiplatform.get_extension(ext_c_file, module_name, **kwds)
+ updated = make_c_source(ffi, module_name, preamble, c_file,
+ verbose=compiler_verbose)
+ if call_c_compiler:
+ patchlist = []
+ cwd = os.getcwd()
+ try:
+ if embedding:
+ _patch_for_embedding(patchlist)
+ if target != '*':
+ _patch_for_target(patchlist, target)
+ if compiler_verbose:
+ if tmpdir == '.':
+ msg = 'the current directory is'
+ else:
+ msg = 'setting the current directory to'
+ print('%s %r' % (msg, os.path.abspath(tmpdir)))
+ os.chdir(tmpdir)
+ outputfilename = ffiplatform.compile('.', ext,
+ compiler_verbose, debug)
+ finally:
+ os.chdir(cwd)
+ _unpatch_meths(patchlist)
+ return outputfilename
+ else:
+ return ext, updated
+ else:
+ if c_file is None:
+ c_file, _ = _modname_to_file(tmpdir, module_name, '.py')
+ updated = make_py_source(ffi, module_name, c_file,
+ verbose=compiler_verbose)
+ if call_c_compiler:
+ return c_file
+ else:
+ return None, updated
+
diff --git a/contrib/python/cffi/py3/cffi/setuptools_ext.py b/contrib/python/cffi/py3/cffi/setuptools_ext.py
new file mode 100644
index 0000000000..8fe361487e
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/setuptools_ext.py
@@ -0,0 +1,219 @@
+import os
+import sys
+
+try:
+ basestring
+except NameError:
+ # Python 3.x
+ basestring = str
+
+def error(msg):
+ from distutils.errors import DistutilsSetupError
+ raise DistutilsSetupError(msg)
+
+
+def execfile(filename, glob):
+ # We use execfile() (here rewritten for Python 3) instead of
+ # __import__() to load the build script. The problem with
+ # a normal import is that in some packages, the intermediate
+ # __init__.py files may already try to import the file that
+ # we are generating.
+ with open(filename) as f:
+ src = f.read()
+ src += '\n' # Python 2.6 compatibility
+ code = compile(src, filename, 'exec')
+ exec(code, glob, glob)
+
+
+def add_cffi_module(dist, mod_spec):
+ from cffi.api import FFI
+
+ if not isinstance(mod_spec, basestring):
+ error("argument to 'cffi_modules=...' must be a str or a list of str,"
+ " not %r" % (type(mod_spec).__name__,))
+ mod_spec = str(mod_spec)
+ try:
+ build_file_name, ffi_var_name = mod_spec.split(':')
+ except ValueError:
+ error("%r must be of the form 'path/build.py:ffi_variable'" %
+ (mod_spec,))
+ if not os.path.exists(build_file_name):
+ ext = ''
+ rewritten = build_file_name.replace('.', '/') + '.py'
+ if os.path.exists(rewritten):
+ ext = ' (rewrite cffi_modules to [%r])' % (
+ rewritten + ':' + ffi_var_name,)
+ error("%r does not name an existing file%s" % (build_file_name, ext))
+
+ mod_vars = {'__name__': '__cffi__', '__file__': build_file_name}
+ execfile(build_file_name, mod_vars)
+
+ try:
+ ffi = mod_vars[ffi_var_name]
+ except KeyError:
+ error("%r: object %r not found in module" % (mod_spec,
+ ffi_var_name))
+ if not isinstance(ffi, FFI):
+ ffi = ffi() # maybe it's a function instead of directly an ffi
+ if not isinstance(ffi, FFI):
+ error("%r is not an FFI instance (got %r)" % (mod_spec,
+ type(ffi).__name__))
+ if not hasattr(ffi, '_assigned_source'):
+ error("%r: the set_source() method was not called" % (mod_spec,))
+ module_name, source, source_extension, kwds = ffi._assigned_source
+ if ffi._windows_unicode:
+ kwds = kwds.copy()
+ ffi._apply_windows_unicode(kwds)
+
+ if source is None:
+ _add_py_module(dist, ffi, module_name)
+ else:
+ _add_c_module(dist, ffi, module_name, source, source_extension, kwds)
+
+def _set_py_limited_api(Extension, kwds):
+ """
+ Add py_limited_api to kwds if setuptools >= 26 is in use.
+ Do not alter the setting if it already exists.
+ Setuptools takes care of ignoring the flag on Python 2 and PyPy.
+
+ CPython itself should ignore the flag in a debugging version
+ (by not listing .abi3.so in the extensions it supports), but
+ it doesn't so far, creating troubles. That's why we check
+ for "not hasattr(sys, 'gettotalrefcount')" (the 2.7 compatible equivalent
+ of 'd' not in sys.abiflags). (http://bugs.python.org/issue28401)
+
+ On Windows, with CPython <= 3.4, it's better not to use py_limited_api
+ because virtualenv *still* doesn't copy PYTHON3.DLL on these versions.
+ Recently (2020) we started shipping only >= 3.5 wheels, though. So
+ we'll give it another try and set py_limited_api on Windows >= 3.5.
+ """
+ from cffi import recompiler
+
+ if ('py_limited_api' not in kwds and not hasattr(sys, 'gettotalrefcount')
+ and recompiler.USE_LIMITED_API):
+ import setuptools
+ try:
+ setuptools_major_version = int(setuptools.__version__.partition('.')[0])
+ if setuptools_major_version >= 26:
+ kwds['py_limited_api'] = True
+ except ValueError: # certain development versions of setuptools
+ # If we don't know the version number of setuptools, we
+ # try to set 'py_limited_api' anyway. At worst, we get a
+ # warning.
+ kwds['py_limited_api'] = True
+ return kwds
+
+def _add_c_module(dist, ffi, module_name, source, source_extension, kwds):
+ from distutils.core import Extension
+ # We are a setuptools extension. Need this build_ext for py_limited_api.
+ from setuptools.command.build_ext import build_ext
+ from distutils.dir_util import mkpath
+ from distutils import log
+ from cffi import recompiler
+
+ allsources = ['$PLACEHOLDER']
+ allsources.extend(kwds.pop('sources', []))
+ kwds = _set_py_limited_api(Extension, kwds)
+ ext = Extension(name=module_name, sources=allsources, **kwds)
+
+ def make_mod(tmpdir, pre_run=None):
+ c_file = os.path.join(tmpdir, module_name + source_extension)
+ log.info("generating cffi module %r" % c_file)
+ mkpath(tmpdir)
+ # a setuptools-only, API-only hook: called with the "ext" and "ffi"
+ # arguments just before we turn the ffi into C code. To use it,
+ # subclass the 'distutils.command.build_ext.build_ext' class and
+ # add a method 'def pre_run(self, ext, ffi)'.
+ if pre_run is not None:
+ pre_run(ext, ffi)
+ updated = recompiler.make_c_source(ffi, module_name, source, c_file)
+ if not updated:
+ log.info("already up-to-date")
+ return c_file
+
+ if dist.ext_modules is None:
+ dist.ext_modules = []
+ dist.ext_modules.append(ext)
+
+ base_class = dist.cmdclass.get('build_ext', build_ext)
+ class build_ext_make_mod(base_class):
+ def run(self):
+ if ext.sources[0] == '$PLACEHOLDER':
+ pre_run = getattr(self, 'pre_run', None)
+ ext.sources[0] = make_mod(self.build_temp, pre_run)
+ base_class.run(self)
+ dist.cmdclass['build_ext'] = build_ext_make_mod
+ # NB. multiple runs here will create multiple 'build_ext_make_mod'
+ # classes. Even in this case the 'build_ext' command should be
+ # run once; but just in case, the logic above does nothing if
+ # called again.
+
+
+def _add_py_module(dist, ffi, module_name):
+ from distutils.dir_util import mkpath
+ from setuptools.command.build_py import build_py
+ from setuptools.command.build_ext import build_ext
+ from distutils import log
+ from cffi import recompiler
+
+ def generate_mod(py_file):
+ log.info("generating cffi module %r" % py_file)
+ mkpath(os.path.dirname(py_file))
+ updated = recompiler.make_py_source(ffi, module_name, py_file)
+ if not updated:
+ log.info("already up-to-date")
+
+ base_class = dist.cmdclass.get('build_py', build_py)
+ class build_py_make_mod(base_class):
+ def run(self):
+ base_class.run(self)
+ module_path = module_name.split('.')
+ module_path[-1] += '.py'
+ generate_mod(os.path.join(self.build_lib, *module_path))
+ def get_source_files(self):
+ # This is called from 'setup.py sdist' only. Exclude
+ # the generate .py module in this case.
+ saved_py_modules = self.py_modules
+ try:
+ if saved_py_modules:
+ self.py_modules = [m for m in saved_py_modules
+ if m != module_name]
+ return base_class.get_source_files(self)
+ finally:
+ self.py_modules = saved_py_modules
+ dist.cmdclass['build_py'] = build_py_make_mod
+
+ # distutils and setuptools have no notion I could find of a
+ # generated python module. If we don't add module_name to
+ # dist.py_modules, then things mostly work but there are some
+ # combination of options (--root and --record) that will miss
+ # the module. So we add it here, which gives a few apparently
+ # harmless warnings about not finding the file outside the
+ # build directory.
+ # Then we need to hack more in get_source_files(); see above.
+ if dist.py_modules is None:
+ dist.py_modules = []
+ dist.py_modules.append(module_name)
+
+ # the following is only for "build_ext -i"
+ base_class_2 = dist.cmdclass.get('build_ext', build_ext)
+ class build_ext_make_mod(base_class_2):
+ def run(self):
+ base_class_2.run(self)
+ if self.inplace:
+ # from get_ext_fullpath() in distutils/command/build_ext.py
+ module_path = module_name.split('.')
+ package = '.'.join(module_path[:-1])
+ build_py = self.get_finalized_command('build_py')
+ package_dir = build_py.get_package_dir(package)
+ file_name = module_path[-1] + '.py'
+ generate_mod(os.path.join(package_dir, file_name))
+ dist.cmdclass['build_ext'] = build_ext_make_mod
+
+def cffi_modules(dist, attr, value):
+ assert attr == 'cffi_modules'
+ if isinstance(value, basestring):
+ value = [value]
+
+ for cffi_module in value:
+ add_cffi_module(dist, cffi_module)
diff --git a/contrib/python/cffi/py3/cffi/vengine_cpy.py b/contrib/python/cffi/py3/cffi/vengine_cpy.py
new file mode 100644
index 0000000000..6de0df0ea4
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/vengine_cpy.py
@@ -0,0 +1,1076 @@
+#
+# DEPRECATED: implementation for ffi.verify()
+#
+import sys, imp
+from . import model
+from .error import VerificationError
+
+
+class VCPythonEngine(object):
+ _class_key = 'x'
+ _gen_python_module = True
+
+ def __init__(self, verifier):
+ self.verifier = verifier
+ self.ffi = verifier.ffi
+ self._struct_pending_verification = {}
+ self._types_of_builtin_functions = {}
+
+ def patch_extension_kwds(self, kwds):
+ pass
+
+ def find_module(self, module_name, path, so_suffixes):
+ try:
+ f, filename, descr = imp.find_module(module_name, path)
+ except ImportError:
+ return None
+ if f is not None:
+ f.close()
+ # Note that after a setuptools installation, there are both .py
+ # and .so files with the same basename. The code here relies on
+ # imp.find_module() locating the .so in priority.
+ if descr[0] not in so_suffixes:
+ return None
+ return filename
+
+ def collect_types(self):
+ self._typesdict = {}
+ self._generate("collecttype")
+
+ def _prnt(self, what=''):
+ self._f.write(what + '\n')
+
+ def _gettypenum(self, type):
+ # a KeyError here is a bug. please report it! :-)
+ return self._typesdict[type]
+
+ def _do_collect_type(self, tp):
+ if ((not isinstance(tp, model.PrimitiveType)
+ or tp.name == 'long double')
+ and tp not in self._typesdict):
+ num = len(self._typesdict)
+ self._typesdict[tp] = num
+
+ def write_source_to_f(self):
+ self.collect_types()
+ #
+ # The new module will have a _cffi_setup() function that receives
+ # objects from the ffi world, and that calls some setup code in
+ # the module. This setup code is split in several independent
+ # functions, e.g. one per constant. The functions are "chained"
+ # by ending in a tail call to each other.
+ #
+ # This is further split in two chained lists, depending on if we
+ # can do it at import-time or if we must wait for _cffi_setup() to
+ # provide us with the <ctype> objects. This is needed because we
+ # need the values of the enum constants in order to build the
+ # <ctype 'enum'> that we may have to pass to _cffi_setup().
+ #
+ # The following two 'chained_list_constants' items contains
+ # the head of these two chained lists, as a string that gives the
+ # call to do, if any.
+ self._chained_list_constants = ['((void)lib,0)', '((void)lib,0)']
+ #
+ prnt = self._prnt
+ # first paste some standard set of lines that are mostly '#define'
+ prnt(cffimod_header)
+ prnt()
+ # then paste the C source given by the user, verbatim.
+ prnt(self.verifier.preamble)
+ prnt()
+ #
+ # call generate_cpy_xxx_decl(), for every xxx found from
+ # ffi._parser._declarations. This generates all the functions.
+ self._generate("decl")
+ #
+ # implement the function _cffi_setup_custom() as calling the
+ # head of the chained list.
+ self._generate_setup_custom()
+ prnt()
+ #
+ # produce the method table, including the entries for the
+ # generated Python->C function wrappers, which are done
+ # by generate_cpy_function_method().
+ prnt('static PyMethodDef _cffi_methods[] = {')
+ self._generate("method")
+ prnt(' {"_cffi_setup", _cffi_setup, METH_VARARGS, NULL},')
+ prnt(' {NULL, NULL, 0, NULL} /* Sentinel */')
+ prnt('};')
+ prnt()
+ #
+ # standard init.
+ modname = self.verifier.get_module_name()
+ constants = self._chained_list_constants[False]
+ prnt('#if PY_MAJOR_VERSION >= 3')
+ prnt()
+ prnt('static struct PyModuleDef _cffi_module_def = {')
+ prnt(' PyModuleDef_HEAD_INIT,')
+ prnt(' "%s",' % modname)
+ prnt(' NULL,')
+ prnt(' -1,')
+ prnt(' _cffi_methods,')
+ prnt(' NULL, NULL, NULL, NULL')
+ prnt('};')
+ prnt()
+ prnt('PyMODINIT_FUNC')
+ prnt('PyInit_%s(void)' % modname)
+ prnt('{')
+ prnt(' PyObject *lib;')
+ prnt(' lib = PyModule_Create(&_cffi_module_def);')
+ prnt(' if (lib == NULL)')
+ prnt(' return NULL;')
+ prnt(' if (%s < 0 || _cffi_init() < 0) {' % (constants,))
+ prnt(' Py_DECREF(lib);')
+ prnt(' return NULL;')
+ prnt(' }')
+ prnt(' return lib;')
+ prnt('}')
+ prnt()
+ prnt('#else')
+ prnt()
+ prnt('PyMODINIT_FUNC')
+ prnt('init%s(void)' % modname)
+ prnt('{')
+ prnt(' PyObject *lib;')
+ prnt(' lib = Py_InitModule("%s", _cffi_methods);' % modname)
+ prnt(' if (lib == NULL)')
+ prnt(' return;')
+ prnt(' if (%s < 0 || _cffi_init() < 0)' % (constants,))
+ prnt(' return;')
+ prnt(' return;')
+ prnt('}')
+ prnt()
+ prnt('#endif')
+
+ def load_library(self, flags=None):
+ # XXX review all usages of 'self' here!
+ # import it as a new extension module
+ imp.acquire_lock()
+ try:
+ if hasattr(sys, "getdlopenflags"):
+ previous_flags = sys.getdlopenflags()
+ try:
+ if hasattr(sys, "setdlopenflags") and flags is not None:
+ sys.setdlopenflags(flags)
+ module = imp.load_dynamic(self.verifier.get_module_name(),
+ self.verifier.modulefilename)
+ except ImportError as e:
+ error = "importing %r: %s" % (self.verifier.modulefilename, e)
+ raise VerificationError(error)
+ finally:
+ if hasattr(sys, "setdlopenflags"):
+ sys.setdlopenflags(previous_flags)
+ finally:
+ imp.release_lock()
+ #
+ # call loading_cpy_struct() to get the struct layout inferred by
+ # the C compiler
+ self._load(module, 'loading')
+ #
+ # the C code will need the <ctype> objects. Collect them in
+ # order in a list.
+ revmapping = dict([(value, key)
+ for (key, value) in self._typesdict.items()])
+ lst = [revmapping[i] for i in range(len(revmapping))]
+ lst = list(map(self.ffi._get_cached_btype, lst))
+ #
+ # build the FFILibrary class and instance and call _cffi_setup().
+ # this will set up some fields like '_cffi_types', and only then
+ # it will invoke the chained list of functions that will really
+ # build (notably) the constant objects, as <cdata> if they are
+ # pointers, and store them as attributes on the 'library' object.
+ class FFILibrary(object):
+ _cffi_python_module = module
+ _cffi_ffi = self.ffi
+ _cffi_dir = []
+ def __dir__(self):
+ return FFILibrary._cffi_dir + list(self.__dict__)
+ library = FFILibrary()
+ if module._cffi_setup(lst, VerificationError, library):
+ import warnings
+ warnings.warn("reimporting %r might overwrite older definitions"
+ % (self.verifier.get_module_name()))
+ #
+ # finally, call the loaded_cpy_xxx() functions. This will perform
+ # the final adjustments, like copying the Python->C wrapper
+ # functions from the module to the 'library' object, and setting
+ # up the FFILibrary class with properties for the global C variables.
+ self._load(module, 'loaded', library=library)
+ module._cffi_original_ffi = self.ffi
+ module._cffi_types_of_builtin_funcs = self._types_of_builtin_functions
+ return library
+
+ def _get_declarations(self):
+ lst = [(key, tp) for (key, (tp, qual)) in
+ self.ffi._parser._declarations.items()]
+ lst.sort()
+ return lst
+
+ def _generate(self, step_name):
+ for name, tp in self._get_declarations():
+ kind, realname = name.split(' ', 1)
+ try:
+ method = getattr(self, '_generate_cpy_%s_%s' % (kind,
+ step_name))
+ except AttributeError:
+ raise VerificationError(
+ "not implemented in verify(): %r" % name)
+ try:
+ method(tp, realname)
+ except Exception as e:
+ model.attach_exception_info(e, name)
+ raise
+
+ def _load(self, module, step_name, **kwds):
+ for name, tp in self._get_declarations():
+ kind, realname = name.split(' ', 1)
+ method = getattr(self, '_%s_cpy_%s' % (step_name, kind))
+ try:
+ method(tp, realname, module, **kwds)
+ except Exception as e:
+ model.attach_exception_info(e, name)
+ raise
+
+ def _generate_nothing(self, tp, name):
+ pass
+
+ def _loaded_noop(self, tp, name, module, **kwds):
+ pass
+
+ # ----------
+
+ def _convert_funcarg_to_c(self, tp, fromvar, tovar, errcode):
+ extraarg = ''
+ if isinstance(tp, model.PrimitiveType):
+ if tp.is_integer_type() and tp.name != '_Bool':
+ converter = '_cffi_to_c_int'
+ extraarg = ', %s' % tp.name
+ else:
+ converter = '(%s)_cffi_to_c_%s' % (tp.get_c_name(''),
+ tp.name.replace(' ', '_'))
+ errvalue = '-1'
+ #
+ elif isinstance(tp, model.PointerType):
+ self._convert_funcarg_to_c_ptr_or_array(tp, fromvar,
+ tovar, errcode)
+ return
+ #
+ elif isinstance(tp, (model.StructOrUnion, model.EnumType)):
+ # a struct (not a struct pointer) as a function argument
+ self._prnt(' if (_cffi_to_c((char *)&%s, _cffi_type(%d), %s) < 0)'
+ % (tovar, self._gettypenum(tp), fromvar))
+ self._prnt(' %s;' % errcode)
+ return
+ #
+ elif isinstance(tp, model.FunctionPtrType):
+ converter = '(%s)_cffi_to_c_pointer' % tp.get_c_name('')
+ extraarg = ', _cffi_type(%d)' % self._gettypenum(tp)
+ errvalue = 'NULL'
+ #
+ else:
+ raise NotImplementedError(tp)
+ #
+ self._prnt(' %s = %s(%s%s);' % (tovar, converter, fromvar, extraarg))
+ self._prnt(' if (%s == (%s)%s && PyErr_Occurred())' % (
+ tovar, tp.get_c_name(''), errvalue))
+ self._prnt(' %s;' % errcode)
+
+ def _extra_local_variables(self, tp, localvars, freelines):
+ if isinstance(tp, model.PointerType):
+ localvars.add('Py_ssize_t datasize')
+ localvars.add('struct _cffi_freeme_s *large_args_free = NULL')
+ freelines.add('if (large_args_free != NULL)'
+ ' _cffi_free_array_arguments(large_args_free);')
+
+ def _convert_funcarg_to_c_ptr_or_array(self, tp, fromvar, tovar, errcode):
+ self._prnt(' datasize = _cffi_prepare_pointer_call_argument(')
+ self._prnt(' _cffi_type(%d), %s, (char **)&%s);' % (
+ self._gettypenum(tp), fromvar, tovar))
+ self._prnt(' if (datasize != 0) {')
+ self._prnt(' %s = ((size_t)datasize) <= 640 ? '
+ 'alloca((size_t)datasize) : NULL;' % (tovar,))
+ self._prnt(' if (_cffi_convert_array_argument(_cffi_type(%d), %s, '
+ '(char **)&%s,' % (self._gettypenum(tp), fromvar, tovar))
+ self._prnt(' datasize, &large_args_free) < 0)')
+ self._prnt(' %s;' % errcode)
+ self._prnt(' }')
+
+ def _convert_expr_from_c(self, tp, var, context):
+ if isinstance(tp, model.PrimitiveType):
+ if tp.is_integer_type() and tp.name != '_Bool':
+ return '_cffi_from_c_int(%s, %s)' % (var, tp.name)
+ elif tp.name != 'long double':
+ return '_cffi_from_c_%s(%s)' % (tp.name.replace(' ', '_'), var)
+ else:
+ return '_cffi_from_c_deref((char *)&%s, _cffi_type(%d))' % (
+ var, self._gettypenum(tp))
+ elif isinstance(tp, (model.PointerType, model.FunctionPtrType)):
+ return '_cffi_from_c_pointer((char *)%s, _cffi_type(%d))' % (
+ var, self._gettypenum(tp))
+ elif isinstance(tp, model.ArrayType):
+ return '_cffi_from_c_pointer((char *)%s, _cffi_type(%d))' % (
+ var, self._gettypenum(model.PointerType(tp.item)))
+ elif isinstance(tp, model.StructOrUnion):
+ if tp.fldnames is None:
+ raise TypeError("'%s' is used as %s, but is opaque" % (
+ tp._get_c_name(), context))
+ return '_cffi_from_c_struct((char *)&%s, _cffi_type(%d))' % (
+ var, self._gettypenum(tp))
+ elif isinstance(tp, model.EnumType):
+ return '_cffi_from_c_deref((char *)&%s, _cffi_type(%d))' % (
+ var, self._gettypenum(tp))
+ else:
+ raise NotImplementedError(tp)
+
+ # ----------
+ # typedefs: generates no code so far
+
+ _generate_cpy_typedef_collecttype = _generate_nothing
+ _generate_cpy_typedef_decl = _generate_nothing
+ _generate_cpy_typedef_method = _generate_nothing
+ _loading_cpy_typedef = _loaded_noop
+ _loaded_cpy_typedef = _loaded_noop
+
+ # ----------
+ # function declarations
+
+ def _generate_cpy_function_collecttype(self, tp, name):
+ assert isinstance(tp, model.FunctionPtrType)
+ if tp.ellipsis:
+ self._do_collect_type(tp)
+ else:
+ # don't call _do_collect_type(tp) in this common case,
+ # otherwise test_autofilled_struct_as_argument fails
+ for type in tp.args:
+ self._do_collect_type(type)
+ self._do_collect_type(tp.result)
+
+ def _generate_cpy_function_decl(self, tp, name):
+ assert isinstance(tp, model.FunctionPtrType)
+ if tp.ellipsis:
+ # cannot support vararg functions better than this: check for its
+ # exact type (including the fixed arguments), and build it as a
+ # constant function pointer (no CPython wrapper)
+ self._generate_cpy_const(False, name, tp)
+ return
+ prnt = self._prnt
+ numargs = len(tp.args)
+ if numargs == 0:
+ argname = 'noarg'
+ elif numargs == 1:
+ argname = 'arg0'
+ else:
+ argname = 'args'
+ prnt('static PyObject *')
+ prnt('_cffi_f_%s(PyObject *self, PyObject *%s)' % (name, argname))
+ prnt('{')
+ #
+ context = 'argument of %s' % name
+ for i, type in enumerate(tp.args):
+ prnt(' %s;' % type.get_c_name(' x%d' % i, context))
+ #
+ localvars = set()
+ freelines = set()
+ for type in tp.args:
+ self._extra_local_variables(type, localvars, freelines)
+ for decl in sorted(localvars):
+ prnt(' %s;' % (decl,))
+ #
+ if not isinstance(tp.result, model.VoidType):
+ result_code = 'result = '
+ context = 'result of %s' % name
+ prnt(' %s;' % tp.result.get_c_name(' result', context))
+ prnt(' PyObject *pyresult;')
+ else:
+ result_code = ''
+ #
+ if len(tp.args) > 1:
+ rng = range(len(tp.args))
+ for i in rng:
+ prnt(' PyObject *arg%d;' % i)
+ prnt()
+ prnt(' if (!PyArg_ParseTuple(args, "%s:%s", %s))' % (
+ 'O' * numargs, name, ', '.join(['&arg%d' % i for i in rng])))
+ prnt(' return NULL;')
+ prnt()
+ #
+ for i, type in enumerate(tp.args):
+ self._convert_funcarg_to_c(type, 'arg%d' % i, 'x%d' % i,
+ 'return NULL')
+ prnt()
+ #
+ prnt(' Py_BEGIN_ALLOW_THREADS')
+ prnt(' _cffi_restore_errno();')
+ prnt(' { %s%s(%s); }' % (
+ result_code, name,
+ ', '.join(['x%d' % i for i in range(len(tp.args))])))
+ prnt(' _cffi_save_errno();')
+ prnt(' Py_END_ALLOW_THREADS')
+ prnt()
+ #
+ prnt(' (void)self; /* unused */')
+ if numargs == 0:
+ prnt(' (void)noarg; /* unused */')
+ if result_code:
+ prnt(' pyresult = %s;' %
+ self._convert_expr_from_c(tp.result, 'result', 'result type'))
+ for freeline in freelines:
+ prnt(' ' + freeline)
+ prnt(' return pyresult;')
+ else:
+ for freeline in freelines:
+ prnt(' ' + freeline)
+ prnt(' Py_INCREF(Py_None);')
+ prnt(' return Py_None;')
+ prnt('}')
+ prnt()
+
+ def _generate_cpy_function_method(self, tp, name):
+ if tp.ellipsis:
+ return
+ numargs = len(tp.args)
+ if numargs == 0:
+ meth = 'METH_NOARGS'
+ elif numargs == 1:
+ meth = 'METH_O'
+ else:
+ meth = 'METH_VARARGS'
+ self._prnt(' {"%s", _cffi_f_%s, %s, NULL},' % (name, name, meth))
+
+ _loading_cpy_function = _loaded_noop
+
+ def _loaded_cpy_function(self, tp, name, module, library):
+ if tp.ellipsis:
+ return
+ func = getattr(module, name)
+ setattr(library, name, func)
+ self._types_of_builtin_functions[func] = tp
+
+ # ----------
+ # named structs
+
+ _generate_cpy_struct_collecttype = _generate_nothing
+ def _generate_cpy_struct_decl(self, tp, name):
+ assert name == tp.name
+ self._generate_struct_or_union_decl(tp, 'struct', name)
+ def _generate_cpy_struct_method(self, tp, name):
+ self._generate_struct_or_union_method(tp, 'struct', name)
+ def _loading_cpy_struct(self, tp, name, module):
+ self._loading_struct_or_union(tp, 'struct', name, module)
+ def _loaded_cpy_struct(self, tp, name, module, **kwds):
+ self._loaded_struct_or_union(tp)
+
+ _generate_cpy_union_collecttype = _generate_nothing
+ def _generate_cpy_union_decl(self, tp, name):
+ assert name == tp.name
+ self._generate_struct_or_union_decl(tp, 'union', name)
+ def _generate_cpy_union_method(self, tp, name):
+ self._generate_struct_or_union_method(tp, 'union', name)
+ def _loading_cpy_union(self, tp, name, module):
+ self._loading_struct_or_union(tp, 'union', name, module)
+ def _loaded_cpy_union(self, tp, name, module, **kwds):
+ self._loaded_struct_or_union(tp)
+
+ def _generate_struct_or_union_decl(self, tp, prefix, name):
+ if tp.fldnames is None:
+ return # nothing to do with opaque structs
+ checkfuncname = '_cffi_check_%s_%s' % (prefix, name)
+ layoutfuncname = '_cffi_layout_%s_%s' % (prefix, name)
+ cname = ('%s %s' % (prefix, name)).strip()
+ #
+ prnt = self._prnt
+ prnt('static void %s(%s *p)' % (checkfuncname, cname))
+ prnt('{')
+ prnt(' /* only to generate compile-time warnings or errors */')
+ prnt(' (void)p;')
+ for fname, ftype, fbitsize, fqual in tp.enumfields():
+ if (isinstance(ftype, model.PrimitiveType)
+ and ftype.is_integer_type()) or fbitsize >= 0:
+ # accept all integers, but complain on float or double
+ prnt(' (void)((p->%s) << 1);' % fname)
+ else:
+ # only accept exactly the type declared.
+ try:
+ prnt(' { %s = &p->%s; (void)tmp; }' % (
+ ftype.get_c_name('*tmp', 'field %r'%fname, quals=fqual),
+ fname))
+ except VerificationError as e:
+ prnt(' /* %s */' % str(e)) # cannot verify it, ignore
+ prnt('}')
+ prnt('static PyObject *')
+ prnt('%s(PyObject *self, PyObject *noarg)' % (layoutfuncname,))
+ prnt('{')
+ prnt(' struct _cffi_aligncheck { char x; %s y; };' % cname)
+ prnt(' static Py_ssize_t nums[] = {')
+ prnt(' sizeof(%s),' % cname)
+ prnt(' offsetof(struct _cffi_aligncheck, y),')
+ for fname, ftype, fbitsize, fqual in tp.enumfields():
+ if fbitsize >= 0:
+ continue # xxx ignore fbitsize for now
+ prnt(' offsetof(%s, %s),' % (cname, fname))
+ if isinstance(ftype, model.ArrayType) and ftype.length is None:
+ prnt(' 0, /* %s */' % ftype._get_c_name())
+ else:
+ prnt(' sizeof(((%s *)0)->%s),' % (cname, fname))
+ prnt(' -1')
+ prnt(' };')
+ prnt(' (void)self; /* unused */')
+ prnt(' (void)noarg; /* unused */')
+ prnt(' return _cffi_get_struct_layout(nums);')
+ prnt(' /* the next line is not executed, but compiled */')
+ prnt(' %s(0);' % (checkfuncname,))
+ prnt('}')
+ prnt()
+
+ def _generate_struct_or_union_method(self, tp, prefix, name):
+ if tp.fldnames is None:
+ return # nothing to do with opaque structs
+ layoutfuncname = '_cffi_layout_%s_%s' % (prefix, name)
+ self._prnt(' {"%s", %s, METH_NOARGS, NULL},' % (layoutfuncname,
+ layoutfuncname))
+
+ def _loading_struct_or_union(self, tp, prefix, name, module):
+ if tp.fldnames is None:
+ return # nothing to do with opaque structs
+ layoutfuncname = '_cffi_layout_%s_%s' % (prefix, name)
+ #
+ function = getattr(module, layoutfuncname)
+ layout = function()
+ if isinstance(tp, model.StructOrUnion) and tp.partial:
+ # use the function()'s sizes and offsets to guide the
+ # layout of the struct
+ totalsize = layout[0]
+ totalalignment = layout[1]
+ fieldofs = layout[2::2]
+ fieldsize = layout[3::2]
+ tp.force_flatten()
+ assert len(fieldofs) == len(fieldsize) == len(tp.fldnames)
+ tp.fixedlayout = fieldofs, fieldsize, totalsize, totalalignment
+ else:
+ cname = ('%s %s' % (prefix, name)).strip()
+ self._struct_pending_verification[tp] = layout, cname
+
+ def _loaded_struct_or_union(self, tp):
+ if tp.fldnames is None:
+ return # nothing to do with opaque structs
+ self.ffi._get_cached_btype(tp) # force 'fixedlayout' to be considered
+
+ if tp in self._struct_pending_verification:
+ # check that the layout sizes and offsets match the real ones
+ def check(realvalue, expectedvalue, msg):
+ if realvalue != expectedvalue:
+ raise VerificationError(
+ "%s (we have %d, but C compiler says %d)"
+ % (msg, expectedvalue, realvalue))
+ ffi = self.ffi
+ BStruct = ffi._get_cached_btype(tp)
+ layout, cname = self._struct_pending_verification.pop(tp)
+ check(layout[0], ffi.sizeof(BStruct), "wrong total size")
+ check(layout[1], ffi.alignof(BStruct), "wrong total alignment")
+ i = 2
+ for fname, ftype, fbitsize, fqual in tp.enumfields():
+ if fbitsize >= 0:
+ continue # xxx ignore fbitsize for now
+ check(layout[i], ffi.offsetof(BStruct, fname),
+ "wrong offset for field %r" % (fname,))
+ if layout[i+1] != 0:
+ BField = ffi._get_cached_btype(ftype)
+ check(layout[i+1], ffi.sizeof(BField),
+ "wrong size for field %r" % (fname,))
+ i += 2
+ assert i == len(layout)
+
+ # ----------
+ # 'anonymous' declarations. These are produced for anonymous structs
+ # or unions; the 'name' is obtained by a typedef.
+
+ _generate_cpy_anonymous_collecttype = _generate_nothing
+
+ def _generate_cpy_anonymous_decl(self, tp, name):
+ if isinstance(tp, model.EnumType):
+ self._generate_cpy_enum_decl(tp, name, '')
+ else:
+ self._generate_struct_or_union_decl(tp, '', name)
+
+ def _generate_cpy_anonymous_method(self, tp, name):
+ if not isinstance(tp, model.EnumType):
+ self._generate_struct_or_union_method(tp, '', name)
+
+ def _loading_cpy_anonymous(self, tp, name, module):
+ if isinstance(tp, model.EnumType):
+ self._loading_cpy_enum(tp, name, module)
+ else:
+ self._loading_struct_or_union(tp, '', name, module)
+
+ def _loaded_cpy_anonymous(self, tp, name, module, **kwds):
+ if isinstance(tp, model.EnumType):
+ self._loaded_cpy_enum(tp, name, module, **kwds)
+ else:
+ self._loaded_struct_or_union(tp)
+
+ # ----------
+ # constants, likely declared with '#define'
+
+ def _generate_cpy_const(self, is_int, name, tp=None, category='const',
+ vartp=None, delayed=True, size_too=False,
+ check_value=None):
+ prnt = self._prnt
+ funcname = '_cffi_%s_%s' % (category, name)
+ prnt('static int %s(PyObject *lib)' % funcname)
+ prnt('{')
+ prnt(' PyObject *o;')
+ prnt(' int res;')
+ if not is_int:
+ prnt(' %s;' % (vartp or tp).get_c_name(' i', name))
+ else:
+ assert category == 'const'
+ #
+ if check_value is not None:
+ self._check_int_constant_value(name, check_value)
+ #
+ if not is_int:
+ if category == 'var':
+ realexpr = '&' + name
+ else:
+ realexpr = name
+ prnt(' i = (%s);' % (realexpr,))
+ prnt(' o = %s;' % (self._convert_expr_from_c(tp, 'i',
+ 'variable type'),))
+ assert delayed
+ else:
+ prnt(' o = _cffi_from_c_int_const(%s);' % name)
+ prnt(' if (o == NULL)')
+ prnt(' return -1;')
+ if size_too:
+ prnt(' {')
+ prnt(' PyObject *o1 = o;')
+ prnt(' o = Py_BuildValue("On", o1, (Py_ssize_t)sizeof(%s));'
+ % (name,))
+ prnt(' Py_DECREF(o1);')
+ prnt(' if (o == NULL)')
+ prnt(' return -1;')
+ prnt(' }')
+ prnt(' res = PyObject_SetAttrString(lib, "%s", o);' % name)
+ prnt(' Py_DECREF(o);')
+ prnt(' if (res < 0)')
+ prnt(' return -1;')
+ prnt(' return %s;' % self._chained_list_constants[delayed])
+ self._chained_list_constants[delayed] = funcname + '(lib)'
+ prnt('}')
+ prnt()
+
+ def _generate_cpy_constant_collecttype(self, tp, name):
+ is_int = isinstance(tp, model.PrimitiveType) and tp.is_integer_type()
+ if not is_int:
+ self._do_collect_type(tp)
+
+ def _generate_cpy_constant_decl(self, tp, name):
+ is_int = isinstance(tp, model.PrimitiveType) and tp.is_integer_type()
+ self._generate_cpy_const(is_int, name, tp)
+
+ _generate_cpy_constant_method = _generate_nothing
+ _loading_cpy_constant = _loaded_noop
+ _loaded_cpy_constant = _loaded_noop
+
+ # ----------
+ # enums
+
+ def _check_int_constant_value(self, name, value, err_prefix=''):
+ prnt = self._prnt
+ if value <= 0:
+ prnt(' if ((%s) > 0 || (long)(%s) != %dL) {' % (
+ name, name, value))
+ else:
+ prnt(' if ((%s) <= 0 || (unsigned long)(%s) != %dUL) {' % (
+ name, name, value))
+ prnt(' char buf[64];')
+ prnt(' if ((%s) <= 0)' % name)
+ prnt(' snprintf(buf, 63, "%%ld", (long)(%s));' % name)
+ prnt(' else')
+ prnt(' snprintf(buf, 63, "%%lu", (unsigned long)(%s));' %
+ name)
+ prnt(' PyErr_Format(_cffi_VerificationError,')
+ prnt(' "%s%s has the real value %s, not %s",')
+ prnt(' "%s", "%s", buf, "%d");' % (
+ err_prefix, name, value))
+ prnt(' return -1;')
+ prnt(' }')
+
+ def _enum_funcname(self, prefix, name):
+ # "$enum_$1" => "___D_enum____D_1"
+ name = name.replace('$', '___D_')
+ return '_cffi_e_%s_%s' % (prefix, name)
+
+ def _generate_cpy_enum_decl(self, tp, name, prefix='enum'):
+ if tp.partial:
+ for enumerator in tp.enumerators:
+ self._generate_cpy_const(True, enumerator, delayed=False)
+ return
+ #
+ funcname = self._enum_funcname(prefix, name)
+ prnt = self._prnt
+ prnt('static int %s(PyObject *lib)' % funcname)
+ prnt('{')
+ for enumerator, enumvalue in zip(tp.enumerators, tp.enumvalues):
+ self._check_int_constant_value(enumerator, enumvalue,
+ "enum %s: " % name)
+ prnt(' return %s;' % self._chained_list_constants[True])
+ self._chained_list_constants[True] = funcname + '(lib)'
+ prnt('}')
+ prnt()
+
+ _generate_cpy_enum_collecttype = _generate_nothing
+ _generate_cpy_enum_method = _generate_nothing
+
+ def _loading_cpy_enum(self, tp, name, module):
+ if tp.partial:
+ enumvalues = [getattr(module, enumerator)
+ for enumerator in tp.enumerators]
+ tp.enumvalues = tuple(enumvalues)
+ tp.partial_resolved = True
+
+ def _loaded_cpy_enum(self, tp, name, module, library):
+ for enumerator, enumvalue in zip(tp.enumerators, tp.enumvalues):
+ setattr(library, enumerator, enumvalue)
+
+ # ----------
+ # macros: for now only for integers
+
+ def _generate_cpy_macro_decl(self, tp, name):
+ if tp == '...':
+ check_value = None
+ else:
+ check_value = tp # an integer
+ self._generate_cpy_const(True, name, check_value=check_value)
+
+ _generate_cpy_macro_collecttype = _generate_nothing
+ _generate_cpy_macro_method = _generate_nothing
+ _loading_cpy_macro = _loaded_noop
+ _loaded_cpy_macro = _loaded_noop
+
+ # ----------
+ # global variables
+
+ def _generate_cpy_variable_collecttype(self, tp, name):
+ if isinstance(tp, model.ArrayType):
+ tp_ptr = model.PointerType(tp.item)
+ else:
+ tp_ptr = model.PointerType(tp)
+ self._do_collect_type(tp_ptr)
+
+ def _generate_cpy_variable_decl(self, tp, name):
+ if isinstance(tp, model.ArrayType):
+ tp_ptr = model.PointerType(tp.item)
+ self._generate_cpy_const(False, name, tp, vartp=tp_ptr,
+ size_too = tp.length_is_unknown())
+ else:
+ tp_ptr = model.PointerType(tp)
+ self._generate_cpy_const(False, name, tp_ptr, category='var')
+
+ _generate_cpy_variable_method = _generate_nothing
+ _loading_cpy_variable = _loaded_noop
+
+ def _loaded_cpy_variable(self, tp, name, module, library):
+ value = getattr(library, name)
+ if isinstance(tp, model.ArrayType): # int a[5] is "constant" in the
+ # sense that "a=..." is forbidden
+ if tp.length_is_unknown():
+ assert isinstance(value, tuple)
+ (value, size) = value
+ BItemType = self.ffi._get_cached_btype(tp.item)
+ length, rest = divmod(size, self.ffi.sizeof(BItemType))
+ if rest != 0:
+ raise VerificationError(
+ "bad size: %r does not seem to be an array of %s" %
+ (name, tp.item))
+ tp = tp.resolve_length(length)
+ # 'value' is a <cdata 'type *'> which we have to replace with
+ # a <cdata 'type[N]'> if the N is actually known
+ if tp.length is not None:
+ BArray = self.ffi._get_cached_btype(tp)
+ value = self.ffi.cast(BArray, value)
+ setattr(library, name, value)
+ return
+ # remove ptr=<cdata 'int *'> from the library instance, and replace
+ # it by a property on the class, which reads/writes into ptr[0].
+ ptr = value
+ delattr(library, name)
+ def getter(library):
+ return ptr[0]
+ def setter(library, value):
+ ptr[0] = value
+ setattr(type(library), name, property(getter, setter))
+ type(library)._cffi_dir.append(name)
+
+ # ----------
+
+ def _generate_setup_custom(self):
+ prnt = self._prnt
+ prnt('static int _cffi_setup_custom(PyObject *lib)')
+ prnt('{')
+ prnt(' return %s;' % self._chained_list_constants[True])
+ prnt('}')
+
+cffimod_header = r'''
+#include <Python.h>
+#include <stddef.h>
+
+/* this block of #ifs should be kept exactly identical between
+ c/_cffi_backend.c, cffi/vengine_cpy.py, cffi/vengine_gen.py
+ and cffi/_cffi_include.h */
+#if defined(_MSC_VER)
+# include <malloc.h> /* for alloca() */
+# if _MSC_VER < 1600 /* MSVC < 2010 */
+ typedef __int8 int8_t;
+ typedef __int16 int16_t;
+ typedef __int32 int32_t;
+ typedef __int64 int64_t;
+ typedef unsigned __int8 uint8_t;
+ typedef unsigned __int16 uint16_t;
+ typedef unsigned __int32 uint32_t;
+ typedef unsigned __int64 uint64_t;
+ typedef __int8 int_least8_t;
+ typedef __int16 int_least16_t;
+ typedef __int32 int_least32_t;
+ typedef __int64 int_least64_t;
+ typedef unsigned __int8 uint_least8_t;
+ typedef unsigned __int16 uint_least16_t;
+ typedef unsigned __int32 uint_least32_t;
+ typedef unsigned __int64 uint_least64_t;
+ typedef __int8 int_fast8_t;
+ typedef __int16 int_fast16_t;
+ typedef __int32 int_fast32_t;
+ typedef __int64 int_fast64_t;
+ typedef unsigned __int8 uint_fast8_t;
+ typedef unsigned __int16 uint_fast16_t;
+ typedef unsigned __int32 uint_fast32_t;
+ typedef unsigned __int64 uint_fast64_t;
+ typedef __int64 intmax_t;
+ typedef unsigned __int64 uintmax_t;
+# else
+# include <stdint.h>
+# endif
+# if _MSC_VER < 1800 /* MSVC < 2013 */
+# ifndef __cplusplus
+ typedef unsigned char _Bool;
+# endif
+# endif
+#else
+# include <stdint.h>
+# if (defined (__SVR4) && defined (__sun)) || defined(_AIX) || defined(__hpux)
+# include <alloca.h>
+# endif
+#endif
+
+#if PY_MAJOR_VERSION < 3
+# undef PyCapsule_CheckExact
+# undef PyCapsule_GetPointer
+# define PyCapsule_CheckExact(capsule) (PyCObject_Check(capsule))
+# define PyCapsule_GetPointer(capsule, name) \
+ (PyCObject_AsVoidPtr(capsule))
+#endif
+
+#if PY_MAJOR_VERSION >= 3
+# define PyInt_FromLong PyLong_FromLong
+#endif
+
+#define _cffi_from_c_double PyFloat_FromDouble
+#define _cffi_from_c_float PyFloat_FromDouble
+#define _cffi_from_c_long PyInt_FromLong
+#define _cffi_from_c_ulong PyLong_FromUnsignedLong
+#define _cffi_from_c_longlong PyLong_FromLongLong
+#define _cffi_from_c_ulonglong PyLong_FromUnsignedLongLong
+#define _cffi_from_c__Bool PyBool_FromLong
+
+#define _cffi_to_c_double PyFloat_AsDouble
+#define _cffi_to_c_float PyFloat_AsDouble
+
+#define _cffi_from_c_int_const(x) \
+ (((x) > 0) ? \
+ ((unsigned long long)(x) <= (unsigned long long)LONG_MAX) ? \
+ PyInt_FromLong((long)(x)) : \
+ PyLong_FromUnsignedLongLong((unsigned long long)(x)) : \
+ ((long long)(x) >= (long long)LONG_MIN) ? \
+ PyInt_FromLong((long)(x)) : \
+ PyLong_FromLongLong((long long)(x)))
+
+#define _cffi_from_c_int(x, type) \
+ (((type)-1) > 0 ? /* unsigned */ \
+ (sizeof(type) < sizeof(long) ? \
+ PyInt_FromLong((long)x) : \
+ sizeof(type) == sizeof(long) ? \
+ PyLong_FromUnsignedLong((unsigned long)x) : \
+ PyLong_FromUnsignedLongLong((unsigned long long)x)) : \
+ (sizeof(type) <= sizeof(long) ? \
+ PyInt_FromLong((long)x) : \
+ PyLong_FromLongLong((long long)x)))
+
+#define _cffi_to_c_int(o, type) \
+ ((type)( \
+ sizeof(type) == 1 ? (((type)-1) > 0 ? (type)_cffi_to_c_u8(o) \
+ : (type)_cffi_to_c_i8(o)) : \
+ sizeof(type) == 2 ? (((type)-1) > 0 ? (type)_cffi_to_c_u16(o) \
+ : (type)_cffi_to_c_i16(o)) : \
+ sizeof(type) == 4 ? (((type)-1) > 0 ? (type)_cffi_to_c_u32(o) \
+ : (type)_cffi_to_c_i32(o)) : \
+ sizeof(type) == 8 ? (((type)-1) > 0 ? (type)_cffi_to_c_u64(o) \
+ : (type)_cffi_to_c_i64(o)) : \
+ (Py_FatalError("unsupported size for type " #type), (type)0)))
+
+#define _cffi_to_c_i8 \
+ ((int(*)(PyObject *))_cffi_exports[1])
+#define _cffi_to_c_u8 \
+ ((int(*)(PyObject *))_cffi_exports[2])
+#define _cffi_to_c_i16 \
+ ((int(*)(PyObject *))_cffi_exports[3])
+#define _cffi_to_c_u16 \
+ ((int(*)(PyObject *))_cffi_exports[4])
+#define _cffi_to_c_i32 \
+ ((int(*)(PyObject *))_cffi_exports[5])
+#define _cffi_to_c_u32 \
+ ((unsigned int(*)(PyObject *))_cffi_exports[6])
+#define _cffi_to_c_i64 \
+ ((long long(*)(PyObject *))_cffi_exports[7])
+#define _cffi_to_c_u64 \
+ ((unsigned long long(*)(PyObject *))_cffi_exports[8])
+#define _cffi_to_c_char \
+ ((int(*)(PyObject *))_cffi_exports[9])
+#define _cffi_from_c_pointer \
+ ((PyObject *(*)(char *, CTypeDescrObject *))_cffi_exports[10])
+#define _cffi_to_c_pointer \
+ ((char *(*)(PyObject *, CTypeDescrObject *))_cffi_exports[11])
+#define _cffi_get_struct_layout \
+ ((PyObject *(*)(Py_ssize_t[]))_cffi_exports[12])
+#define _cffi_restore_errno \
+ ((void(*)(void))_cffi_exports[13])
+#define _cffi_save_errno \
+ ((void(*)(void))_cffi_exports[14])
+#define _cffi_from_c_char \
+ ((PyObject *(*)(char))_cffi_exports[15])
+#define _cffi_from_c_deref \
+ ((PyObject *(*)(char *, CTypeDescrObject *))_cffi_exports[16])
+#define _cffi_to_c \
+ ((int(*)(char *, CTypeDescrObject *, PyObject *))_cffi_exports[17])
+#define _cffi_from_c_struct \
+ ((PyObject *(*)(char *, CTypeDescrObject *))_cffi_exports[18])
+#define _cffi_to_c_wchar_t \
+ ((wchar_t(*)(PyObject *))_cffi_exports[19])
+#define _cffi_from_c_wchar_t \
+ ((PyObject *(*)(wchar_t))_cffi_exports[20])
+#define _cffi_to_c_long_double \
+ ((long double(*)(PyObject *))_cffi_exports[21])
+#define _cffi_to_c__Bool \
+ ((_Bool(*)(PyObject *))_cffi_exports[22])
+#define _cffi_prepare_pointer_call_argument \
+ ((Py_ssize_t(*)(CTypeDescrObject *, PyObject *, char **))_cffi_exports[23])
+#define _cffi_convert_array_from_object \
+ ((int(*)(char *, CTypeDescrObject *, PyObject *))_cffi_exports[24])
+#define _CFFI_NUM_EXPORTS 25
+
+typedef struct _ctypedescr CTypeDescrObject;
+
+static void *_cffi_exports[_CFFI_NUM_EXPORTS];
+static PyObject *_cffi_types, *_cffi_VerificationError;
+
+static int _cffi_setup_custom(PyObject *lib); /* forward */
+
+static PyObject *_cffi_setup(PyObject *self, PyObject *args)
+{
+ PyObject *library;
+ int was_alive = (_cffi_types != NULL);
+ (void)self; /* unused */
+ if (!PyArg_ParseTuple(args, "OOO", &_cffi_types, &_cffi_VerificationError,
+ &library))
+ return NULL;
+ Py_INCREF(_cffi_types);
+ Py_INCREF(_cffi_VerificationError);
+ if (_cffi_setup_custom(library) < 0)
+ return NULL;
+ return PyBool_FromLong(was_alive);
+}
+
+union _cffi_union_alignment_u {
+ unsigned char m_char;
+ unsigned short m_short;
+ unsigned int m_int;
+ unsigned long m_long;
+ unsigned long long m_longlong;
+ float m_float;
+ double m_double;
+ long double m_longdouble;
+};
+
+struct _cffi_freeme_s {
+ struct _cffi_freeme_s *next;
+ union _cffi_union_alignment_u alignment;
+};
+
+#ifdef __GNUC__
+ __attribute__((unused))
+#endif
+static int _cffi_convert_array_argument(CTypeDescrObject *ctptr, PyObject *arg,
+ char **output_data, Py_ssize_t datasize,
+ struct _cffi_freeme_s **freeme)
+{
+ char *p;
+ if (datasize < 0)
+ return -1;
+
+ p = *output_data;
+ if (p == NULL) {
+ struct _cffi_freeme_s *fp = (struct _cffi_freeme_s *)PyObject_Malloc(
+ offsetof(struct _cffi_freeme_s, alignment) + (size_t)datasize);
+ if (fp == NULL)
+ return -1;
+ fp->next = *freeme;
+ *freeme = fp;
+ p = *output_data = (char *)&fp->alignment;
+ }
+ memset((void *)p, 0, (size_t)datasize);
+ return _cffi_convert_array_from_object(p, ctptr, arg);
+}
+
+#ifdef __GNUC__
+ __attribute__((unused))
+#endif
+static void _cffi_free_array_arguments(struct _cffi_freeme_s *freeme)
+{
+ do {
+ void *p = (void *)freeme;
+ freeme = freeme->next;
+ PyObject_Free(p);
+ } while (freeme != NULL);
+}
+
+static int _cffi_init(void)
+{
+ PyObject *module, *c_api_object = NULL;
+
+ module = PyImport_ImportModule("_cffi_backend");
+ if (module == NULL)
+ goto failure;
+
+ c_api_object = PyObject_GetAttrString(module, "_C_API");
+ if (c_api_object == NULL)
+ goto failure;
+ if (!PyCapsule_CheckExact(c_api_object)) {
+ PyErr_SetNone(PyExc_ImportError);
+ goto failure;
+ }
+ memcpy(_cffi_exports, PyCapsule_GetPointer(c_api_object, "cffi"),
+ _CFFI_NUM_EXPORTS * sizeof(void *));
+
+ Py_DECREF(module);
+ Py_DECREF(c_api_object);
+ return 0;
+
+ failure:
+ Py_XDECREF(module);
+ Py_XDECREF(c_api_object);
+ return -1;
+}
+
+#define _cffi_type(num) ((CTypeDescrObject *)PyList_GET_ITEM(_cffi_types, num))
+
+/**********/
+'''
diff --git a/contrib/python/cffi/py3/cffi/vengine_gen.py b/contrib/python/cffi/py3/cffi/vengine_gen.py
new file mode 100644
index 0000000000..26421526f6
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/vengine_gen.py
@@ -0,0 +1,675 @@
+#
+# DEPRECATED: implementation for ffi.verify()
+#
+import sys, os
+import types
+
+from . import model
+from .error import VerificationError
+
+
+class VGenericEngine(object):
+ _class_key = 'g'
+ _gen_python_module = False
+
+ def __init__(self, verifier):
+ self.verifier = verifier
+ self.ffi = verifier.ffi
+ self.export_symbols = []
+ self._struct_pending_verification = {}
+
+ def patch_extension_kwds(self, kwds):
+ # add 'export_symbols' to the dictionary. Note that we add the
+ # list before filling it. When we fill it, it will thus also show
+ # up in kwds['export_symbols'].
+ kwds.setdefault('export_symbols', self.export_symbols)
+
+ def find_module(self, module_name, path, so_suffixes):
+ for so_suffix in so_suffixes:
+ basename = module_name + so_suffix
+ if path is None:
+ path = sys.path
+ for dirname in path:
+ filename = os.path.join(dirname, basename)
+ if os.path.isfile(filename):
+ return filename
+
+ def collect_types(self):
+ pass # not needed in the generic engine
+
+ def _prnt(self, what=''):
+ self._f.write(what + '\n')
+
+ def write_source_to_f(self):
+ prnt = self._prnt
+ # first paste some standard set of lines that are mostly '#include'
+ prnt(cffimod_header)
+ # then paste the C source given by the user, verbatim.
+ prnt(self.verifier.preamble)
+ #
+ # call generate_gen_xxx_decl(), for every xxx found from
+ # ffi._parser._declarations. This generates all the functions.
+ self._generate('decl')
+ #
+ # on Windows, distutils insists on putting init_cffi_xyz in
+ # 'export_symbols', so instead of fighting it, just give up and
+ # give it one
+ if sys.platform == 'win32':
+ if sys.version_info >= (3,):
+ prefix = 'PyInit_'
+ else:
+ prefix = 'init'
+ modname = self.verifier.get_module_name()
+ prnt("void %s%s(void) { }\n" % (prefix, modname))
+
+ def load_library(self, flags=0):
+ # import it with the CFFI backend
+ backend = self.ffi._backend
+ # needs to make a path that contains '/', on Posix
+ filename = os.path.join(os.curdir, self.verifier.modulefilename)
+ module = backend.load_library(filename, flags)
+ #
+ # call loading_gen_struct() to get the struct layout inferred by
+ # the C compiler
+ self._load(module, 'loading')
+
+ # build the FFILibrary class and instance, this is a module subclass
+ # because modules are expected to have usually-constant-attributes and
+ # in PyPy this means the JIT is able to treat attributes as constant,
+ # which we want.
+ class FFILibrary(types.ModuleType):
+ _cffi_generic_module = module
+ _cffi_ffi = self.ffi
+ _cffi_dir = []
+ def __dir__(self):
+ return FFILibrary._cffi_dir
+ library = FFILibrary("")
+ #
+ # finally, call the loaded_gen_xxx() functions. This will set
+ # up the 'library' object.
+ self._load(module, 'loaded', library=library)
+ return library
+
+ def _get_declarations(self):
+ lst = [(key, tp) for (key, (tp, qual)) in
+ self.ffi._parser._declarations.items()]
+ lst.sort()
+ return lst
+
+ def _generate(self, step_name):
+ for name, tp in self._get_declarations():
+ kind, realname = name.split(' ', 1)
+ try:
+ method = getattr(self, '_generate_gen_%s_%s' % (kind,
+ step_name))
+ except AttributeError:
+ raise VerificationError(
+ "not implemented in verify(): %r" % name)
+ try:
+ method(tp, realname)
+ except Exception as e:
+ model.attach_exception_info(e, name)
+ raise
+
+ def _load(self, module, step_name, **kwds):
+ for name, tp in self._get_declarations():
+ kind, realname = name.split(' ', 1)
+ method = getattr(self, '_%s_gen_%s' % (step_name, kind))
+ try:
+ method(tp, realname, module, **kwds)
+ except Exception as e:
+ model.attach_exception_info(e, name)
+ raise
+
+ def _generate_nothing(self, tp, name):
+ pass
+
+ def _loaded_noop(self, tp, name, module, **kwds):
+ pass
+
+ # ----------
+ # typedefs: generates no code so far
+
+ _generate_gen_typedef_decl = _generate_nothing
+ _loading_gen_typedef = _loaded_noop
+ _loaded_gen_typedef = _loaded_noop
+
+ # ----------
+ # function declarations
+
+ def _generate_gen_function_decl(self, tp, name):
+ assert isinstance(tp, model.FunctionPtrType)
+ if tp.ellipsis:
+ # cannot support vararg functions better than this: check for its
+ # exact type (including the fixed arguments), and build it as a
+ # constant function pointer (no _cffi_f_%s wrapper)
+ self._generate_gen_const(False, name, tp)
+ return
+ prnt = self._prnt
+ numargs = len(tp.args)
+ argnames = []
+ for i, type in enumerate(tp.args):
+ indirection = ''
+ if isinstance(type, model.StructOrUnion):
+ indirection = '*'
+ argnames.append('%sx%d' % (indirection, i))
+ context = 'argument of %s' % name
+ arglist = [type.get_c_name(' %s' % arg, context)
+ for type, arg in zip(tp.args, argnames)]
+ tpresult = tp.result
+ if isinstance(tpresult, model.StructOrUnion):
+ arglist.insert(0, tpresult.get_c_name(' *r', context))
+ tpresult = model.void_type
+ arglist = ', '.join(arglist) or 'void'
+ wrappername = '_cffi_f_%s' % name
+ self.export_symbols.append(wrappername)
+ if tp.abi:
+ abi = tp.abi + ' '
+ else:
+ abi = ''
+ funcdecl = ' %s%s(%s)' % (abi, wrappername, arglist)
+ context = 'result of %s' % name
+ prnt(tpresult.get_c_name(funcdecl, context))
+ prnt('{')
+ #
+ if isinstance(tp.result, model.StructOrUnion):
+ result_code = '*r = '
+ elif not isinstance(tp.result, model.VoidType):
+ result_code = 'return '
+ else:
+ result_code = ''
+ prnt(' %s%s(%s);' % (result_code, name, ', '.join(argnames)))
+ prnt('}')
+ prnt()
+
+ _loading_gen_function = _loaded_noop
+
+ def _loaded_gen_function(self, tp, name, module, library):
+ assert isinstance(tp, model.FunctionPtrType)
+ if tp.ellipsis:
+ newfunction = self._load_constant(False, tp, name, module)
+ else:
+ indirections = []
+ base_tp = tp
+ if (any(isinstance(typ, model.StructOrUnion) for typ in tp.args)
+ or isinstance(tp.result, model.StructOrUnion)):
+ indirect_args = []
+ for i, typ in enumerate(tp.args):
+ if isinstance(typ, model.StructOrUnion):
+ typ = model.PointerType(typ)
+ indirections.append((i, typ))
+ indirect_args.append(typ)
+ indirect_result = tp.result
+ if isinstance(indirect_result, model.StructOrUnion):
+ if indirect_result.fldtypes is None:
+ raise TypeError("'%s' is used as result type, "
+ "but is opaque" % (
+ indirect_result._get_c_name(),))
+ indirect_result = model.PointerType(indirect_result)
+ indirect_args.insert(0, indirect_result)
+ indirections.insert(0, ("result", indirect_result))
+ indirect_result = model.void_type
+ tp = model.FunctionPtrType(tuple(indirect_args),
+ indirect_result, tp.ellipsis)
+ BFunc = self.ffi._get_cached_btype(tp)
+ wrappername = '_cffi_f_%s' % name
+ newfunction = module.load_function(BFunc, wrappername)
+ for i, typ in indirections:
+ newfunction = self._make_struct_wrapper(newfunction, i, typ,
+ base_tp)
+ setattr(library, name, newfunction)
+ type(library)._cffi_dir.append(name)
+
+ def _make_struct_wrapper(self, oldfunc, i, tp, base_tp):
+ backend = self.ffi._backend
+ BType = self.ffi._get_cached_btype(tp)
+ if i == "result":
+ ffi = self.ffi
+ def newfunc(*args):
+ res = ffi.new(BType)
+ oldfunc(res, *args)
+ return res[0]
+ else:
+ def newfunc(*args):
+ args = args[:i] + (backend.newp(BType, args[i]),) + args[i+1:]
+ return oldfunc(*args)
+ newfunc._cffi_base_type = base_tp
+ return newfunc
+
+ # ----------
+ # named structs
+
+ def _generate_gen_struct_decl(self, tp, name):
+ assert name == tp.name
+ self._generate_struct_or_union_decl(tp, 'struct', name)
+
+ def _loading_gen_struct(self, tp, name, module):
+ self._loading_struct_or_union(tp, 'struct', name, module)
+
+ def _loaded_gen_struct(self, tp, name, module, **kwds):
+ self._loaded_struct_or_union(tp)
+
+ def _generate_gen_union_decl(self, tp, name):
+ assert name == tp.name
+ self._generate_struct_or_union_decl(tp, 'union', name)
+
+ def _loading_gen_union(self, tp, name, module):
+ self._loading_struct_or_union(tp, 'union', name, module)
+
+ def _loaded_gen_union(self, tp, name, module, **kwds):
+ self._loaded_struct_or_union(tp)
+
+ def _generate_struct_or_union_decl(self, tp, prefix, name):
+ if tp.fldnames is None:
+ return # nothing to do with opaque structs
+ checkfuncname = '_cffi_check_%s_%s' % (prefix, name)
+ layoutfuncname = '_cffi_layout_%s_%s' % (prefix, name)
+ cname = ('%s %s' % (prefix, name)).strip()
+ #
+ prnt = self._prnt
+ prnt('static void %s(%s *p)' % (checkfuncname, cname))
+ prnt('{')
+ prnt(' /* only to generate compile-time warnings or errors */')
+ prnt(' (void)p;')
+ for fname, ftype, fbitsize, fqual in tp.enumfields():
+ if (isinstance(ftype, model.PrimitiveType)
+ and ftype.is_integer_type()) or fbitsize >= 0:
+ # accept all integers, but complain on float or double
+ prnt(' (void)((p->%s) << 1);' % fname)
+ else:
+ # only accept exactly the type declared.
+ try:
+ prnt(' { %s = &p->%s; (void)tmp; }' % (
+ ftype.get_c_name('*tmp', 'field %r'%fname, quals=fqual),
+ fname))
+ except VerificationError as e:
+ prnt(' /* %s */' % str(e)) # cannot verify it, ignore
+ prnt('}')
+ self.export_symbols.append(layoutfuncname)
+ prnt('intptr_t %s(intptr_t i)' % (layoutfuncname,))
+ prnt('{')
+ prnt(' struct _cffi_aligncheck { char x; %s y; };' % cname)
+ prnt(' static intptr_t nums[] = {')
+ prnt(' sizeof(%s),' % cname)
+ prnt(' offsetof(struct _cffi_aligncheck, y),')
+ for fname, ftype, fbitsize, fqual in tp.enumfields():
+ if fbitsize >= 0:
+ continue # xxx ignore fbitsize for now
+ prnt(' offsetof(%s, %s),' % (cname, fname))
+ if isinstance(ftype, model.ArrayType) and ftype.length is None:
+ prnt(' 0, /* %s */' % ftype._get_c_name())
+ else:
+ prnt(' sizeof(((%s *)0)->%s),' % (cname, fname))
+ prnt(' -1')
+ prnt(' };')
+ prnt(' return nums[i];')
+ prnt(' /* the next line is not executed, but compiled */')
+ prnt(' %s(0);' % (checkfuncname,))
+ prnt('}')
+ prnt()
+
+ def _loading_struct_or_union(self, tp, prefix, name, module):
+ if tp.fldnames is None:
+ return # nothing to do with opaque structs
+ layoutfuncname = '_cffi_layout_%s_%s' % (prefix, name)
+ #
+ BFunc = self.ffi._typeof_locked("intptr_t(*)(intptr_t)")[0]
+ function = module.load_function(BFunc, layoutfuncname)
+ layout = []
+ num = 0
+ while True:
+ x = function(num)
+ if x < 0: break
+ layout.append(x)
+ num += 1
+ if isinstance(tp, model.StructOrUnion) and tp.partial:
+ # use the function()'s sizes and offsets to guide the
+ # layout of the struct
+ totalsize = layout[0]
+ totalalignment = layout[1]
+ fieldofs = layout[2::2]
+ fieldsize = layout[3::2]
+ tp.force_flatten()
+ assert len(fieldofs) == len(fieldsize) == len(tp.fldnames)
+ tp.fixedlayout = fieldofs, fieldsize, totalsize, totalalignment
+ else:
+ cname = ('%s %s' % (prefix, name)).strip()
+ self._struct_pending_verification[tp] = layout, cname
+
+ def _loaded_struct_or_union(self, tp):
+ if tp.fldnames is None:
+ return # nothing to do with opaque structs
+ self.ffi._get_cached_btype(tp) # force 'fixedlayout' to be considered
+
+ if tp in self._struct_pending_verification:
+ # check that the layout sizes and offsets match the real ones
+ def check(realvalue, expectedvalue, msg):
+ if realvalue != expectedvalue:
+ raise VerificationError(
+ "%s (we have %d, but C compiler says %d)"
+ % (msg, expectedvalue, realvalue))
+ ffi = self.ffi
+ BStruct = ffi._get_cached_btype(tp)
+ layout, cname = self._struct_pending_verification.pop(tp)
+ check(layout[0], ffi.sizeof(BStruct), "wrong total size")
+ check(layout[1], ffi.alignof(BStruct), "wrong total alignment")
+ i = 2
+ for fname, ftype, fbitsize, fqual in tp.enumfields():
+ if fbitsize >= 0:
+ continue # xxx ignore fbitsize for now
+ check(layout[i], ffi.offsetof(BStruct, fname),
+ "wrong offset for field %r" % (fname,))
+ if layout[i+1] != 0:
+ BField = ffi._get_cached_btype(ftype)
+ check(layout[i+1], ffi.sizeof(BField),
+ "wrong size for field %r" % (fname,))
+ i += 2
+ assert i == len(layout)
+
+ # ----------
+ # 'anonymous' declarations. These are produced for anonymous structs
+ # or unions; the 'name' is obtained by a typedef.
+
+ def _generate_gen_anonymous_decl(self, tp, name):
+ if isinstance(tp, model.EnumType):
+ self._generate_gen_enum_decl(tp, name, '')
+ else:
+ self._generate_struct_or_union_decl(tp, '', name)
+
+ def _loading_gen_anonymous(self, tp, name, module):
+ if isinstance(tp, model.EnumType):
+ self._loading_gen_enum(tp, name, module, '')
+ else:
+ self._loading_struct_or_union(tp, '', name, module)
+
+ def _loaded_gen_anonymous(self, tp, name, module, **kwds):
+ if isinstance(tp, model.EnumType):
+ self._loaded_gen_enum(tp, name, module, **kwds)
+ else:
+ self._loaded_struct_or_union(tp)
+
+ # ----------
+ # constants, likely declared with '#define'
+
+ def _generate_gen_const(self, is_int, name, tp=None, category='const',
+ check_value=None):
+ prnt = self._prnt
+ funcname = '_cffi_%s_%s' % (category, name)
+ self.export_symbols.append(funcname)
+ if check_value is not None:
+ assert is_int
+ assert category == 'const'
+ prnt('int %s(char *out_error)' % funcname)
+ prnt('{')
+ self._check_int_constant_value(name, check_value)
+ prnt(' return 0;')
+ prnt('}')
+ elif is_int:
+ assert category == 'const'
+ prnt('int %s(long long *out_value)' % funcname)
+ prnt('{')
+ prnt(' *out_value = (long long)(%s);' % (name,))
+ prnt(' return (%s) <= 0;' % (name,))
+ prnt('}')
+ else:
+ assert tp is not None
+ assert check_value is None
+ if category == 'var':
+ ampersand = '&'
+ else:
+ ampersand = ''
+ extra = ''
+ if category == 'const' and isinstance(tp, model.StructOrUnion):
+ extra = 'const *'
+ ampersand = '&'
+ prnt(tp.get_c_name(' %s%s(void)' % (extra, funcname), name))
+ prnt('{')
+ prnt(' return (%s%s);' % (ampersand, name))
+ prnt('}')
+ prnt()
+
+ def _generate_gen_constant_decl(self, tp, name):
+ is_int = isinstance(tp, model.PrimitiveType) and tp.is_integer_type()
+ self._generate_gen_const(is_int, name, tp)
+
+ _loading_gen_constant = _loaded_noop
+
+ def _load_constant(self, is_int, tp, name, module, check_value=None):
+ funcname = '_cffi_const_%s' % name
+ if check_value is not None:
+ assert is_int
+ self._load_known_int_constant(module, funcname)
+ value = check_value
+ elif is_int:
+ BType = self.ffi._typeof_locked("long long*")[0]
+ BFunc = self.ffi._typeof_locked("int(*)(long long*)")[0]
+ function = module.load_function(BFunc, funcname)
+ p = self.ffi.new(BType)
+ negative = function(p)
+ value = int(p[0])
+ if value < 0 and not negative:
+ BLongLong = self.ffi._typeof_locked("long long")[0]
+ value += (1 << (8*self.ffi.sizeof(BLongLong)))
+ else:
+ assert check_value is None
+ fntypeextra = '(*)(void)'
+ if isinstance(tp, model.StructOrUnion):
+ fntypeextra = '*' + fntypeextra
+ BFunc = self.ffi._typeof_locked(tp.get_c_name(fntypeextra, name))[0]
+ function = module.load_function(BFunc, funcname)
+ value = function()
+ if isinstance(tp, model.StructOrUnion):
+ value = value[0]
+ return value
+
+ def _loaded_gen_constant(self, tp, name, module, library):
+ is_int = isinstance(tp, model.PrimitiveType) and tp.is_integer_type()
+ value = self._load_constant(is_int, tp, name, module)
+ setattr(library, name, value)
+ type(library)._cffi_dir.append(name)
+
+ # ----------
+ # enums
+
+ def _check_int_constant_value(self, name, value):
+ prnt = self._prnt
+ if value <= 0:
+ prnt(' if ((%s) > 0 || (long)(%s) != %dL) {' % (
+ name, name, value))
+ else:
+ prnt(' if ((%s) <= 0 || (unsigned long)(%s) != %dUL) {' % (
+ name, name, value))
+ prnt(' char buf[64];')
+ prnt(' if ((%s) <= 0)' % name)
+ prnt(' sprintf(buf, "%%ld", (long)(%s));' % name)
+ prnt(' else')
+ prnt(' sprintf(buf, "%%lu", (unsigned long)(%s));' %
+ name)
+ prnt(' sprintf(out_error, "%s has the real value %s, not %s",')
+ prnt(' "%s", buf, "%d");' % (name[:100], value))
+ prnt(' return -1;')
+ prnt(' }')
+
+ def _load_known_int_constant(self, module, funcname):
+ BType = self.ffi._typeof_locked("char[]")[0]
+ BFunc = self.ffi._typeof_locked("int(*)(char*)")[0]
+ function = module.load_function(BFunc, funcname)
+ p = self.ffi.new(BType, 256)
+ if function(p) < 0:
+ error = self.ffi.string(p)
+ if sys.version_info >= (3,):
+ error = str(error, 'utf-8')
+ raise VerificationError(error)
+
+ def _enum_funcname(self, prefix, name):
+ # "$enum_$1" => "___D_enum____D_1"
+ name = name.replace('$', '___D_')
+ return '_cffi_e_%s_%s' % (prefix, name)
+
+ def _generate_gen_enum_decl(self, tp, name, prefix='enum'):
+ if tp.partial:
+ for enumerator in tp.enumerators:
+ self._generate_gen_const(True, enumerator)
+ return
+ #
+ funcname = self._enum_funcname(prefix, name)
+ self.export_symbols.append(funcname)
+ prnt = self._prnt
+ prnt('int %s(char *out_error)' % funcname)
+ prnt('{')
+ for enumerator, enumvalue in zip(tp.enumerators, tp.enumvalues):
+ self._check_int_constant_value(enumerator, enumvalue)
+ prnt(' return 0;')
+ prnt('}')
+ prnt()
+
+ def _loading_gen_enum(self, tp, name, module, prefix='enum'):
+ if tp.partial:
+ enumvalues = [self._load_constant(True, tp, enumerator, module)
+ for enumerator in tp.enumerators]
+ tp.enumvalues = tuple(enumvalues)
+ tp.partial_resolved = True
+ else:
+ funcname = self._enum_funcname(prefix, name)
+ self._load_known_int_constant(module, funcname)
+
+ def _loaded_gen_enum(self, tp, name, module, library):
+ for enumerator, enumvalue in zip(tp.enumerators, tp.enumvalues):
+ setattr(library, enumerator, enumvalue)
+ type(library)._cffi_dir.append(enumerator)
+
+ # ----------
+ # macros: for now only for integers
+
+ def _generate_gen_macro_decl(self, tp, name):
+ if tp == '...':
+ check_value = None
+ else:
+ check_value = tp # an integer
+ self._generate_gen_const(True, name, check_value=check_value)
+
+ _loading_gen_macro = _loaded_noop
+
+ def _loaded_gen_macro(self, tp, name, module, library):
+ if tp == '...':
+ check_value = None
+ else:
+ check_value = tp # an integer
+ value = self._load_constant(True, tp, name, module,
+ check_value=check_value)
+ setattr(library, name, value)
+ type(library)._cffi_dir.append(name)
+
+ # ----------
+ # global variables
+
+ def _generate_gen_variable_decl(self, tp, name):
+ if isinstance(tp, model.ArrayType):
+ if tp.length_is_unknown():
+ prnt = self._prnt
+ funcname = '_cffi_sizeof_%s' % (name,)
+ self.export_symbols.append(funcname)
+ prnt("size_t %s(void)" % funcname)
+ prnt("{")
+ prnt(" return sizeof(%s);" % (name,))
+ prnt("}")
+ tp_ptr = model.PointerType(tp.item)
+ self._generate_gen_const(False, name, tp_ptr)
+ else:
+ tp_ptr = model.PointerType(tp)
+ self._generate_gen_const(False, name, tp_ptr, category='var')
+
+ _loading_gen_variable = _loaded_noop
+
+ def _loaded_gen_variable(self, tp, name, module, library):
+ if isinstance(tp, model.ArrayType): # int a[5] is "constant" in the
+ # sense that "a=..." is forbidden
+ if tp.length_is_unknown():
+ funcname = '_cffi_sizeof_%s' % (name,)
+ BFunc = self.ffi._typeof_locked('size_t(*)(void)')[0]
+ function = module.load_function(BFunc, funcname)
+ size = function()
+ BItemType = self.ffi._get_cached_btype(tp.item)
+ length, rest = divmod(size, self.ffi.sizeof(BItemType))
+ if rest != 0:
+ raise VerificationError(
+ "bad size: %r does not seem to be an array of %s" %
+ (name, tp.item))
+ tp = tp.resolve_length(length)
+ tp_ptr = model.PointerType(tp.item)
+ value = self._load_constant(False, tp_ptr, name, module)
+ # 'value' is a <cdata 'type *'> which we have to replace with
+ # a <cdata 'type[N]'> if the N is actually known
+ if tp.length is not None:
+ BArray = self.ffi._get_cached_btype(tp)
+ value = self.ffi.cast(BArray, value)
+ setattr(library, name, value)
+ type(library)._cffi_dir.append(name)
+ return
+ # remove ptr=<cdata 'int *'> from the library instance, and replace
+ # it by a property on the class, which reads/writes into ptr[0].
+ funcname = '_cffi_var_%s' % name
+ BFunc = self.ffi._typeof_locked(tp.get_c_name('*(*)(void)', name))[0]
+ function = module.load_function(BFunc, funcname)
+ ptr = function()
+ def getter(library):
+ return ptr[0]
+ def setter(library, value):
+ ptr[0] = value
+ setattr(type(library), name, property(getter, setter))
+ type(library)._cffi_dir.append(name)
+
+cffimod_header = r'''
+#include <stdio.h>
+#include <stddef.h>
+#include <stdarg.h>
+#include <errno.h>
+#include <sys/types.h> /* XXX for ssize_t on some platforms */
+
+/* this block of #ifs should be kept exactly identical between
+ c/_cffi_backend.c, cffi/vengine_cpy.py, cffi/vengine_gen.py
+ and cffi/_cffi_include.h */
+#if defined(_MSC_VER)
+# include <malloc.h> /* for alloca() */
+# if _MSC_VER < 1600 /* MSVC < 2010 */
+ typedef __int8 int8_t;
+ typedef __int16 int16_t;
+ typedef __int32 int32_t;
+ typedef __int64 int64_t;
+ typedef unsigned __int8 uint8_t;
+ typedef unsigned __int16 uint16_t;
+ typedef unsigned __int32 uint32_t;
+ typedef unsigned __int64 uint64_t;
+ typedef __int8 int_least8_t;
+ typedef __int16 int_least16_t;
+ typedef __int32 int_least32_t;
+ typedef __int64 int_least64_t;
+ typedef unsigned __int8 uint_least8_t;
+ typedef unsigned __int16 uint_least16_t;
+ typedef unsigned __int32 uint_least32_t;
+ typedef unsigned __int64 uint_least64_t;
+ typedef __int8 int_fast8_t;
+ typedef __int16 int_fast16_t;
+ typedef __int32 int_fast32_t;
+ typedef __int64 int_fast64_t;
+ typedef unsigned __int8 uint_fast8_t;
+ typedef unsigned __int16 uint_fast16_t;
+ typedef unsigned __int32 uint_fast32_t;
+ typedef unsigned __int64 uint_fast64_t;
+ typedef __int64 intmax_t;
+ typedef unsigned __int64 uintmax_t;
+# else
+# include <stdint.h>
+# endif
+# if _MSC_VER < 1800 /* MSVC < 2013 */
+# ifndef __cplusplus
+ typedef unsigned char _Bool;
+# endif
+# endif
+#else
+# include <stdint.h>
+# if (defined (__SVR4) && defined (__sun)) || defined(_AIX) || defined(__hpux)
+# include <alloca.h>
+# endif
+#endif
+'''
diff --git a/contrib/python/cffi/py3/cffi/verifier.py b/contrib/python/cffi/py3/cffi/verifier.py
new file mode 100644
index 0000000000..a500c7814a
--- /dev/null
+++ b/contrib/python/cffi/py3/cffi/verifier.py
@@ -0,0 +1,307 @@
+#
+# DEPRECATED: implementation for ffi.verify()
+#
+import sys, os, binascii, shutil, io
+from . import __version_verifier_modules__
+from . import ffiplatform
+from .error import VerificationError
+
+if sys.version_info >= (3, 3):
+ import importlib.machinery
+ def _extension_suffixes():
+ return importlib.machinery.EXTENSION_SUFFIXES[:]
+else:
+ import imp
+ def _extension_suffixes():
+ return [suffix for suffix, _, type in imp.get_suffixes()
+ if type == imp.C_EXTENSION]
+
+
+if sys.version_info >= (3,):
+ NativeIO = io.StringIO
+else:
+ class NativeIO(io.BytesIO):
+ def write(self, s):
+ if isinstance(s, unicode):
+ s = s.encode('ascii')
+ super(NativeIO, self).write(s)
+
+
+class Verifier(object):
+
+ def __init__(self, ffi, preamble, tmpdir=None, modulename=None,
+ ext_package=None, tag='', force_generic_engine=False,
+ source_extension='.c', flags=None, relative_to=None, **kwds):
+ if ffi._parser._uses_new_feature:
+ raise VerificationError(
+ "feature not supported with ffi.verify(), but only "
+ "with ffi.set_source(): %s" % (ffi._parser._uses_new_feature,))
+ self.ffi = ffi
+ self.preamble = preamble
+ if not modulename:
+ flattened_kwds = ffiplatform.flatten(kwds)
+ vengine_class = _locate_engine_class(ffi, force_generic_engine)
+ self._vengine = vengine_class(self)
+ self._vengine.patch_extension_kwds(kwds)
+ self.flags = flags
+ self.kwds = self.make_relative_to(kwds, relative_to)
+ #
+ if modulename:
+ if tag:
+ raise TypeError("can't specify both 'modulename' and 'tag'")
+ else:
+ key = '\x00'.join(['%d.%d' % sys.version_info[:2],
+ __version_verifier_modules__,
+ preamble, flattened_kwds] +
+ ffi._cdefsources)
+ if sys.version_info >= (3,):
+ key = key.encode('utf-8')
+ k1 = hex(binascii.crc32(key[0::2]) & 0xffffffff)
+ k1 = k1.lstrip('0x').rstrip('L')
+ k2 = hex(binascii.crc32(key[1::2]) & 0xffffffff)
+ k2 = k2.lstrip('0').rstrip('L')
+ modulename = '_cffi_%s_%s%s%s' % (tag, self._vengine._class_key,
+ k1, k2)
+ suffix = _get_so_suffixes()[0]
+ self.tmpdir = tmpdir or _caller_dir_pycache()
+ self.sourcefilename = os.path.join(self.tmpdir, modulename + source_extension)
+ self.modulefilename = os.path.join(self.tmpdir, modulename + suffix)
+ self.ext_package = ext_package
+ self._has_source = False
+ self._has_module = False
+
+ def write_source(self, file=None):
+ """Write the C source code. It is produced in 'self.sourcefilename',
+ which can be tweaked beforehand."""
+ with self.ffi._lock:
+ if self._has_source and file is None:
+ raise VerificationError(
+ "source code already written")
+ self._write_source(file)
+
+ def compile_module(self):
+ """Write the C source code (if not done already) and compile it.
+ This produces a dynamic link library in 'self.modulefilename'."""
+ with self.ffi._lock:
+ if self._has_module:
+ raise VerificationError("module already compiled")
+ if not self._has_source:
+ self._write_source()
+ self._compile_module()
+
+ def load_library(self):
+ """Get a C module from this Verifier instance.
+ Returns an instance of a FFILibrary class that behaves like the
+ objects returned by ffi.dlopen(), but that delegates all
+ operations to the C module. If necessary, the C code is written
+ and compiled first.
+ """
+ with self.ffi._lock:
+ if not self._has_module:
+ self._locate_module()
+ if not self._has_module:
+ if not self._has_source:
+ self._write_source()
+ self._compile_module()
+ return self._load_library()
+
+ def get_module_name(self):
+ basename = os.path.basename(self.modulefilename)
+ # kill both the .so extension and the other .'s, as introduced
+ # by Python 3: 'basename.cpython-33m.so'
+ basename = basename.split('.', 1)[0]
+ # and the _d added in Python 2 debug builds --- but try to be
+ # conservative and not kill a legitimate _d
+ if basename.endswith('_d') and hasattr(sys, 'gettotalrefcount'):
+ basename = basename[:-2]
+ return basename
+
+ def get_extension(self):
+ ffiplatform._hack_at_distutils() # backward compatibility hack
+ if not self._has_source:
+ with self.ffi._lock:
+ if not self._has_source:
+ self._write_source()
+ sourcename = ffiplatform.maybe_relative_path(self.sourcefilename)
+ modname = self.get_module_name()
+ return ffiplatform.get_extension(sourcename, modname, **self.kwds)
+
+ def generates_python_module(self):
+ return self._vengine._gen_python_module
+
+ def make_relative_to(self, kwds, relative_to):
+ if relative_to and os.path.dirname(relative_to):
+ dirname = os.path.dirname(relative_to)
+ kwds = kwds.copy()
+ for key in ffiplatform.LIST_OF_FILE_NAMES:
+ if key in kwds:
+ lst = kwds[key]
+ if not isinstance(lst, (list, tuple)):
+ raise TypeError("keyword '%s' should be a list or tuple"
+ % (key,))
+ lst = [os.path.join(dirname, fn) for fn in lst]
+ kwds[key] = lst
+ return kwds
+
+ # ----------
+
+ def _locate_module(self):
+ if not os.path.isfile(self.modulefilename):
+ if self.ext_package:
+ try:
+ pkg = __import__(self.ext_package, None, None, ['__doc__'])
+ except ImportError:
+ return # cannot import the package itself, give up
+ # (e.g. it might be called differently before installation)
+ path = pkg.__path__
+ else:
+ path = None
+ filename = self._vengine.find_module(self.get_module_name(), path,
+ _get_so_suffixes())
+ if filename is None:
+ return
+ self.modulefilename = filename
+ self._vengine.collect_types()
+ self._has_module = True
+
+ def _write_source_to(self, file):
+ self._vengine._f = file
+ try:
+ self._vengine.write_source_to_f()
+ finally:
+ del self._vengine._f
+
+ def _write_source(self, file=None):
+ if file is not None:
+ self._write_source_to(file)
+ else:
+ # Write our source file to an in memory file.
+ f = NativeIO()
+ self._write_source_to(f)
+ source_data = f.getvalue()
+
+ # Determine if this matches the current file
+ if os.path.exists(self.sourcefilename):
+ with open(self.sourcefilename, "r") as fp:
+ needs_written = not (fp.read() == source_data)
+ else:
+ needs_written = True
+
+ # Actually write the file out if it doesn't match
+ if needs_written:
+ _ensure_dir(self.sourcefilename)
+ with open(self.sourcefilename, "w") as fp:
+ fp.write(source_data)
+
+ # Set this flag
+ self._has_source = True
+
+ def _compile_module(self):
+ # compile this C source
+ tmpdir = os.path.dirname(self.sourcefilename)
+ outputfilename = ffiplatform.compile(tmpdir, self.get_extension())
+ try:
+ same = ffiplatform.samefile(outputfilename, self.modulefilename)
+ except OSError:
+ same = False
+ if not same:
+ _ensure_dir(self.modulefilename)
+ shutil.move(outputfilename, self.modulefilename)
+ self._has_module = True
+
+ def _load_library(self):
+ assert self._has_module
+ if self.flags is not None:
+ return self._vengine.load_library(self.flags)
+ else:
+ return self._vengine.load_library()
+
+# ____________________________________________________________
+
+_FORCE_GENERIC_ENGINE = False # for tests
+
+def _locate_engine_class(ffi, force_generic_engine):
+ if _FORCE_GENERIC_ENGINE:
+ force_generic_engine = True
+ if not force_generic_engine:
+ if '__pypy__' in sys.builtin_module_names:
+ force_generic_engine = True
+ else:
+ try:
+ import _cffi_backend
+ except ImportError:
+ _cffi_backend = '?'
+ if ffi._backend is not _cffi_backend:
+ force_generic_engine = True
+ if force_generic_engine:
+ from . import vengine_gen
+ return vengine_gen.VGenericEngine
+ else:
+ from . import vengine_cpy
+ return vengine_cpy.VCPythonEngine
+
+# ____________________________________________________________
+
+_TMPDIR = None
+
+def _caller_dir_pycache():
+ if _TMPDIR:
+ return _TMPDIR
+ result = os.environ.get('CFFI_TMPDIR')
+ if result:
+ return result
+ filename = sys._getframe(2).f_code.co_filename
+ return os.path.abspath(os.path.join(os.path.dirname(filename),
+ '__pycache__'))
+
+def set_tmpdir(dirname):
+ """Set the temporary directory to use instead of __pycache__."""
+ global _TMPDIR
+ _TMPDIR = dirname
+
+def cleanup_tmpdir(tmpdir=None, keep_so=False):
+ """Clean up the temporary directory by removing all files in it
+ called `_cffi_*.{c,so}` as well as the `build` subdirectory."""
+ tmpdir = tmpdir or _caller_dir_pycache()
+ try:
+ filelist = os.listdir(tmpdir)
+ except OSError:
+ return
+ if keep_so:
+ suffix = '.c' # only remove .c files
+ else:
+ suffix = _get_so_suffixes()[0].lower()
+ for fn in filelist:
+ if fn.lower().startswith('_cffi_') and (
+ fn.lower().endswith(suffix) or fn.lower().endswith('.c')):
+ try:
+ os.unlink(os.path.join(tmpdir, fn))
+ except OSError:
+ pass
+ clean_dir = [os.path.join(tmpdir, 'build')]
+ for dir in clean_dir:
+ try:
+ for fn in os.listdir(dir):
+ fn = os.path.join(dir, fn)
+ if os.path.isdir(fn):
+ clean_dir.append(fn)
+ else:
+ os.unlink(fn)
+ except OSError:
+ pass
+
+def _get_so_suffixes():
+ suffixes = _extension_suffixes()
+ if not suffixes:
+ # bah, no C_EXTENSION available. Occurs on pypy without cpyext
+ if sys.platform == 'win32':
+ suffixes = [".pyd"]
+ else:
+ suffixes = [".so"]
+
+ return suffixes
+
+def _ensure_dir(filename):
+ dirname = os.path.dirname(filename)
+ if dirname and not os.path.isdir(dirname):
+ os.makedirs(dirname)
diff --git a/contrib/python/cffi/py3/gen/lib/ya.make b/contrib/python/cffi/py3/gen/lib/ya.make
new file mode 100644
index 0000000000..6f0f769112
--- /dev/null
+++ b/contrib/python/cffi/py3/gen/lib/ya.make
@@ -0,0 +1,19 @@
+PY3_LIBRARY()
+
+LICENSE(MIT)
+
+PEERDIR(
+ contrib/python/cffi
+)
+
+SRCDIR(
+ contrib/python/cffi/py3/gen
+)
+
+PY_SRCS(
+ MAIN main.py
+)
+
+NO_LINT()
+
+END()
diff --git a/contrib/python/cffi/py3/gen/main.py b/contrib/python/cffi/py3/gen/main.py
new file mode 100644
index 0000000000..106293d3c5
--- /dev/null
+++ b/contrib/python/cffi/py3/gen/main.py
@@ -0,0 +1,37 @@
+import os.path
+import sys
+
+from cffi.setuptools_ext import execfile
+
+usage = '''Usage: {} INPUT:VAR OUTPUT
+Generate CFFI C module source code.
+
+INPUT is a source .py file.
+VAR is a cffi.FFI() object defined in the source file.
+OUTPUT is a .c or .cpp output file.
+'''
+
+
+def main():
+ if len(sys.argv) != 3 or ':' not in sys.argv[1]:
+ sys.stdout.write(usage.format(sys.argv[0]))
+ sys.exit(1)
+
+ mod_spec, c_file = sys.argv[1:3]
+ build_file_name, ffi_var_name = mod_spec.rsplit(':', 1)
+
+ source_dir = os.path.dirname(os.path.abspath(build_file_name))
+ sys._MEIPASS = source_dir # For pygit2.
+ sys.dont_write_bytecode = True
+ sys.path = [source_dir]
+ mod_vars = {'__name__': '__cffi__', '__file__': build_file_name}
+ execfile(build_file_name, mod_vars)
+
+ ffi = mod_vars[ffi_var_name]
+ if callable(ffi):
+ ffi = ffi()
+ ffi.emit_c_code(c_file)
+
+
+if __name__ == '__main__':
+ main()
diff --git a/contrib/python/cffi/py3/gen/ya.make b/contrib/python/cffi/py3/gen/ya.make
new file mode 100644
index 0000000000..639c42fd51
--- /dev/null
+++ b/contrib/python/cffi/py3/gen/ya.make
@@ -0,0 +1,17 @@
+PY3_PROGRAM(cffigen)
+
+DISABLE(PYTHON_SQLITE3)
+
+LICENSE(MIT)
+
+PEERDIR(
+ contrib/python/cffi/py3/gen/lib
+)
+
+INDUCED_DEPS(cpp ${ARCADIA_ROOT}/contrib/python/cffi/py3/cffi/_cffi_include.h)
+
+END()
+
+RECURSE(
+ lib
+)
diff --git a/contrib/python/cffi/py3/ya.make b/contrib/python/cffi/py3/ya.make
new file mode 100644
index 0000000000..536ab36e7b
--- /dev/null
+++ b/contrib/python/cffi/py3/ya.make
@@ -0,0 +1,69 @@
+# Generated by devtools/yamaker (pypi).
+
+PY3_LIBRARY()
+
+VERSION(1.15.1)
+
+LICENSE(MIT)
+
+PEERDIR(
+ contrib/python/pycparser
+ contrib/restricted/libffi
+)
+
+ADDINCL(
+ contrib/restricted/libffi/include
+)
+
+NO_COMPILER_WARNINGS()
+
+NO_LINT()
+
+SRCS(
+ c/_cffi_backend.c
+)
+
+PY_REGISTER(
+ _cffi_backend
+)
+
+PY_SRCS(
+ TOP_LEVEL
+ cffi/__init__.py
+ cffi/api.py
+ cffi/backend_ctypes.py
+ cffi/cffi_opcode.py
+ cffi/commontypes.py
+ cffi/cparser.py
+ cffi/error.py
+ cffi/ffiplatform.py
+ cffi/lock.py
+ cffi/model.py
+ cffi/pkgconfig.py
+ cffi/recompiler.py
+ cffi/setuptools_ext.py
+ cffi/vengine_cpy.py
+ cffi/vengine_gen.py
+ cffi/verifier.py
+)
+
+RESOURCE_FILES(
+ PREFIX contrib/python/cffi/py3/
+ .dist-info/METADATA
+ .dist-info/entry_points.txt
+ .dist-info/top_level.txt
+ cffi/_cffi_errors.h
+ cffi/_cffi_include.h
+ cffi/_embedding.h
+ cffi/parse_c_type.h
+)
+
+SUPPRESSIONS(
+ lsan.supp
+)
+
+END()
+
+RECURSE(
+ gen
+)
diff --git a/contrib/python/cffi/ya.make b/contrib/python/cffi/ya.make
index f04a20fbb1..8fd78ed037 100644
--- a/contrib/python/cffi/ya.make
+++ b/contrib/python/cffi/ya.make
@@ -1,65 +1,18 @@
-# Generated by devtools/yamaker (pypi).
-
PY23_LIBRARY()
-VERSION(1.15.1)
-
-LICENSE(MIT)
-
-PEERDIR(
- contrib/python/pycparser
- contrib/restricted/libffi
-)
-
-ADDINCL(
- contrib/restricted/libffi/include
-)
+LICENSE(Service-Py23-Proxy)
-NO_COMPILER_WARNINGS()
+IF (PYTHON2)
+ PEERDIR(contrib/python/cffi/py2)
+ELSE()
+ PEERDIR(contrib/python/cffi/py3)
+ENDIF()
NO_LINT()
-SRCS(
- c/_cffi_backend.c
-)
-
-PY_REGISTER(
- _cffi_backend
-)
-
-PY_SRCS(
- TOP_LEVEL
- cffi/__init__.py
- cffi/api.py
- cffi/backend_ctypes.py
- cffi/cffi_opcode.py
- cffi/commontypes.py
- cffi/cparser.py
- cffi/error.py
- cffi/ffiplatform.py
- cffi/lock.py
- cffi/model.py
- cffi/pkgconfig.py
- cffi/recompiler.py
- cffi/setuptools_ext.py
- cffi/vengine_cpy.py
- cffi/vengine_gen.py
- cffi/verifier.py
-)
-
-RESOURCE_FILES(
- PREFIX contrib/python/cffi/
- .dist-info/METADATA
- .dist-info/entry_points.txt
- .dist-info/top_level.txt
- cffi/_cffi_errors.h
- cffi/_cffi_include.h
- cffi/_embedding.h
- cffi/parse_c_type.h
-)
+END()
-SUPPRESSIONS(
- lsan.supp
+RECURSE(
+ py2
+ py3
)
-
-END()