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/* 
 * 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; 
}