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/* ----------------------------------------------------------------------- 
   prep_cif.c - Copyright (c) 2011, 2012  Anthony Green 
                Copyright (c) 1996, 1998, 2007  Red Hat, Inc. 
 
   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. 
   ----------------------------------------------------------------------- */ 
 
#include <ffi.h> 
#include <ffi_common.h> 
#include <stdlib.h> 
 
/* Round up to FFI_SIZEOF_ARG. */ 
 
#define STACK_ARG_SIZE(x) FFI_ALIGN(x, FFI_SIZEOF_ARG)
 
/* Perform machine independent initialization of aggregate type 
   specifications. */ 
 
static ffi_status initialize_aggregate(ffi_type *arg, size_t *offsets)
{ 
  ffi_type **ptr; 
 
  if (UNLIKELY(arg == NULL || arg->elements == NULL)) 
    return FFI_BAD_TYPEDEF; 
 
  arg->size = 0; 
  arg->alignment = 0; 
 
  ptr = &(arg->elements[0]); 
 
  if (UNLIKELY(ptr == 0)) 
    return FFI_BAD_TYPEDEF; 
 
  while ((*ptr) != NULL) 
    { 
      if (UNLIKELY(((*ptr)->size == 0) 
		    && (initialize_aggregate((*ptr), NULL) != FFI_OK)))
	return FFI_BAD_TYPEDEF; 
 
      /* Perform a sanity check on the argument type */ 
      FFI_ASSERT_VALID_TYPE(*ptr); 
 
      arg->size = FFI_ALIGN(arg->size, (*ptr)->alignment);
      if (offsets)
	*offsets++ = arg->size;
      arg->size += (*ptr)->size; 
 
      arg->alignment = (arg->alignment > (*ptr)->alignment) ? 
	arg->alignment : (*ptr)->alignment; 
 
      ptr++; 
    } 
 
  /* Structure size includes tail padding.  This is important for 
     structures that fit in one register on ABIs like the PowerPC64 
     Linux ABI that right justify small structs in a register. 
     It's also needed for nested structure layout, for example 
     struct A { long a; char b; }; struct B { struct A x; char y; }; 
     should find y at an offset of 2*sizeof(long) and result in a 
     total size of 3*sizeof(long).  */ 
  arg->size = FFI_ALIGN (arg->size, arg->alignment);
 
  /* On some targets, the ABI defines that structures have an additional
     alignment beyond the "natural" one based on their elements.  */
#ifdef FFI_AGGREGATE_ALIGNMENT
  if (FFI_AGGREGATE_ALIGNMENT > arg->alignment)
    arg->alignment = FFI_AGGREGATE_ALIGNMENT;
#endif

  if (arg->size == 0) 
    return FFI_BAD_TYPEDEF; 
  else 
    return FFI_OK; 
} 
 
#ifndef __CRIS__ 
/* The CRIS ABI specifies structure elements to have byte 
   alignment only, so it completely overrides this functions, 
   which assumes "natural" alignment and padding.  */ 
 
/* Perform machine independent ffi_cif preparation, then call 
   machine dependent routine. */ 
 
/* For non variadic functions isvariadic should be 0 and 
   nfixedargs==ntotalargs. 
 
   For variadic calls, isvariadic should be 1 and nfixedargs 
   and ntotalargs set as appropriate. nfixedargs must always be >=1 */ 
 
 
ffi_status FFI_HIDDEN ffi_prep_cif_core(ffi_cif *cif, ffi_abi abi, 
			     unsigned int isvariadic, 
                             unsigned int nfixedargs, 
                             unsigned int ntotalargs, 
			     ffi_type *rtype, ffi_type **atypes) 
{ 
  unsigned bytes = 0; 
  unsigned int i; 
  ffi_type **ptr; 
 
  FFI_ASSERT(cif != NULL); 
  FFI_ASSERT((!isvariadic) || (nfixedargs >= 1)); 
  FFI_ASSERT(nfixedargs <= ntotalargs); 
 
  if (! (abi > FFI_FIRST_ABI && abi < FFI_LAST_ABI)) 
    return FFI_BAD_ABI; 
 
  cif->abi = abi; 
  cif->arg_types = atypes; 
  cif->nargs = ntotalargs; 
  cif->rtype = rtype; 
 
  cif->flags = 0; 
#ifdef _M_ARM64
  cif->is_variadic = isvariadic;
#endif
#if HAVE_LONG_DOUBLE_VARIANT
  ffi_prep_types (abi);
#endif
 
  /* Initialize the return type if necessary */ 
  if ((cif->rtype->size == 0)
      && (initialize_aggregate(cif->rtype, NULL) != FFI_OK))
    return FFI_BAD_TYPEDEF; 
 
#ifndef FFI_TARGET_HAS_COMPLEX_TYPE
  if (rtype->type == FFI_TYPE_COMPLEX)
    abort();
#endif
  /* Perform a sanity check on the return type */ 
  FFI_ASSERT_VALID_TYPE(cif->rtype); 
 
  /* x86, x86-64 and s390 stack space allocation is handled in prep_machdep. */ 
#if !defined FFI_TARGET_SPECIFIC_STACK_SPACE_ALLOCATION
  /* Make space for the return structure pointer */ 
  if (cif->rtype->type == FFI_TYPE_STRUCT 
#ifdef TILE 
      && (cif->rtype->size > 10 * FFI_SIZEOF_ARG) 
#endif 
#ifdef XTENSA 
      && (cif->rtype->size > 16) 
#endif 
#ifdef NIOS2
      && (cif->rtype->size > 8)
#endif
     ) 
    bytes = STACK_ARG_SIZE(sizeof(void*)); 
#endif 
 
  for (ptr = cif->arg_types, i = cif->nargs; i > 0; i--, ptr++) 
    { 
 
      /* Initialize any uninitialized aggregate type definitions */ 
      if (((*ptr)->size == 0)
	  && (initialize_aggregate((*ptr), NULL) != FFI_OK))
	return FFI_BAD_TYPEDEF; 
 
#ifndef FFI_TARGET_HAS_COMPLEX_TYPE
      if ((*ptr)->type == FFI_TYPE_COMPLEX)
	abort();
#endif
      /* Perform a sanity check on the argument type, do this 
	 check after the initialization.  */ 
      FFI_ASSERT_VALID_TYPE(*ptr); 
 
#if !defined FFI_TARGET_SPECIFIC_STACK_SPACE_ALLOCATION
	{ 
	  /* Add any padding if necessary */ 
	  if (((*ptr)->alignment - 1) & bytes) 
	    bytes = (unsigned)FFI_ALIGN(bytes, (*ptr)->alignment);
 
#ifdef TILE 
	  if (bytes < 10 * FFI_SIZEOF_ARG && 
	      bytes + STACK_ARG_SIZE((*ptr)->size) > 10 * FFI_SIZEOF_ARG) 
	    { 
	      /* An argument is never split between the 10 parameter 
		 registers and the stack.  */ 
	      bytes = 10 * FFI_SIZEOF_ARG; 
	    } 
#endif 
#ifdef XTENSA 
	  if (bytes <= 6*4 && bytes + STACK_ARG_SIZE((*ptr)->size) > 6*4) 
	    bytes = 6*4; 
#endif 
 
	  bytes += (unsigned int)STACK_ARG_SIZE((*ptr)->size);
	} 
#endif 
    } 
 
  cif->bytes = bytes; 
 
  /* Perform machine dependent cif processing */ 
#ifdef FFI_TARGET_SPECIFIC_VARIADIC 
  if (isvariadic) 
	return ffi_prep_cif_machdep_var(cif, nfixedargs, ntotalargs); 
#endif 
 
  return ffi_prep_cif_machdep(cif); 
} 
#endif /* not __CRIS__ */ 
 
ffi_status ffi_prep_cif(ffi_cif *cif, ffi_abi abi, unsigned int nargs, 
			     ffi_type *rtype, ffi_type **atypes) 
{ 
  return ffi_prep_cif_core(cif, abi, 0, nargs, nargs, rtype, atypes); 
} 
 
ffi_status ffi_prep_cif_var(ffi_cif *cif, 
                            ffi_abi abi, 
                            unsigned int nfixedargs, 
                            unsigned int ntotalargs, 
                            ffi_type *rtype, 
                            ffi_type **atypes) 
{ 
  return ffi_prep_cif_core(cif, abi, 1, nfixedargs, ntotalargs, rtype, atypes); 
} 
 
#if FFI_CLOSURES 
 
ffi_status 
ffi_prep_closure (ffi_closure* closure, 
		  ffi_cif* cif, 
		  void (*fun)(ffi_cif*,void*,void**,void*), 
		  void *user_data) 
{ 
  return ffi_prep_closure_loc (closure, cif, fun, user_data, closure); 
} 
 
#endif 

ffi_status
ffi_get_struct_offsets (ffi_abi abi, ffi_type *struct_type, size_t *offsets)
{
  if (! (abi > FFI_FIRST_ABI && abi < FFI_LAST_ABI))
    return FFI_BAD_ABI;
  if (struct_type->type != FFI_TYPE_STRUCT)
    return FFI_BAD_TYPEDEF;

#if HAVE_LONG_DOUBLE_VARIANT
  ffi_prep_types (abi);
#endif

  return initialize_aggregate(struct_type, offsets);
}