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/* Transformation functions for ELF data types.
Copyright (C) 1998, 1999, 2000, 2002, 2004 Red Hat, Inc.
Written by Ulrich Drepper <drepper@redhat.com>, 1998.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, version 2.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software Foundation,
Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
//#include <byteswap.h>
#include <stdint.h>
#include <string.h>
#include "libelfP.h"
#ifndef LIBELFBITS
# define LIBELFBITS 32
#endif
/* Well, what shall I say. Nothing to do here. */
#define elf_cvt_Byte(dest, src, n) \
(__builtin_constant_p (n) && (n) == 1 \
? (void) (*((char *) (dest)) = *((char *) (src))) \
: Elf32_cvt_Byte (dest, src, n))
static void
(elf_cvt_Byte) (void *dest, const void *src, size_t n, int encode)
{
memmove (dest, src, n);
}
/* We'll optimize the definition of the conversion functions here a
bit. We need only functions for 16, 32, and 64 bits. The
functions referenced in the table will be aliases for one of these
functions. Which one is decided by the ELFxx_FSZ_type. */
#define LEN2_SWAP(Src) bswap_16 (*((uint16_t *) Src))
#define word2_t uint16_t
#define LEN4_SWAP(Src) bswap_32 (*((uint32_t *) Src))
#define word4_t uint32_t
#define LEN8_SWAP(Src) bswap_64 (*((uint64_t *) Src))
#define word8_t uint64_t
/* Now define the conversion functions for the basic types. We use here
the fact that file and memory types are the same and that we have the
ELFxx_FSZ_* macros.
At the same time we define inline functions which we will use to
convert the complex types. */
#define FUNDAMENTAL(NAME, Name, Bits) \
INLINE2 (ELFW2(Bits,FSZ_##NAME), ElfW2(Bits,cvt_##Name), ElfW2(Bits,Name))
#define INLINE2(Bytes, FName, TName) \
INLINE3 (Bytes, FName, TName)
#define INLINE3(Bytes, FName, TName) \
static void FName (void *dest, const void *ptr, size_t len, int encode) \
{ \
size_t n = len / sizeof (TName); \
if (dest < ptr) \
{ \
word##Bytes##_t *tdest = (word##Bytes##_t *) dest; \
const word##Bytes##_t *tptr = (const word##Bytes##_t *) ptr; \
while (n-- > 0) \
{ \
*tdest++ = LEN##Bytes##_SWAP (tptr); \
tptr++; \
} \
} \
else \
{ \
word##Bytes##_t *tdest = (word##Bytes##_t *) dest + n; \
const word##Bytes##_t *tptr = (const word##Bytes##_t *) ptr + n; \
while (n-- > 0) \
{ \
--tptr; \
*--tdest = LEN##Bytes##_SWAP (tptr); \
} \
} \
} \
\
static inline void FName##1 (void *dest, const void *ptr) \
{ \
*((word##Bytes##_t *) dest) = \
LEN##Bytes##_SWAP ((((word##Bytes##_t *) ptr))); \
}
/* Now the tricky part: define the transformation functions for the
complex types. We will use the definitions of the types in
abstract.h. */
#define START(Bits, Name, EName) \
static void \
ElfW2 (Bits, cvt_##Name) (void *dest, const void *src, size_t len, \
int encode) \
{ ElfW2(Bits, Name) *tdest = (ElfW2(Bits, Name) *) dest; \
ElfW2(Bits, Name) *tsrc = (ElfW2(Bits, Name) *) src; \
size_t n = len / sizeof (ElfW2(Bits, Name)); \
for (; n > 0; ++tdest, ++tsrc, --n) {
#define END(Bits, Name) } }
#define TYPE_EXTRA(Code)
#define TYPE_XLATE(Code) Code
#define TYPE_NAME(Type, Name) TYPE_NAME2 (Type, Name)
#define TYPE_NAME2(Type, Name) Type##1 (&tdest->Name, &tsrc->Name);
#define TYPE(Name, Bits) TYPE2 (Name, Bits)
#define TYPE2(Name, Bits) TYPE3 (Name##Bits)
#define TYPE3(Name) Name (cvt_)
/* Signal that we are generating conversion functions. */
#define GENERATE_CONVERSION
/* First generate the 32-bit conversion functions. */
#define LIBELFBITS 32
#include "gelf_xlate.h"
/* Now generate the 64-bit conversion functions. */
#define LIBELFBITS 64
#include "gelf_xlate.h"
/* We have a few functions which we must create by hand since the sections
do not contain records of only one type. */
#include "version_xlate.h"
/* Now the externally visible table with the function pointers. */
const xfct_t __elf_xfctstom[EV_NUM - 1][EV_NUM - 1][ELFCLASSNUM - 1][ELF_T_NUM] =
{
[EV_CURRENT - 1] = {
[EV_CURRENT - 1] = {
[ELFCLASS32 - 1] = {
#define define_xfcts(Bits) \
[ELF_T_BYTE] = elf_cvt_Byte, \
[ELF_T_ADDR] = ElfW2(Bits, cvt_Addr), \
[ELF_T_DYN] = ElfW2(Bits, cvt_Dyn), \
[ELF_T_EHDR] = ElfW2(Bits, cvt_Ehdr), \
[ELF_T_HALF] = ElfW2(Bits, cvt_Half), \
[ELF_T_OFF] = ElfW2(Bits, cvt_Off), \
[ELF_T_PHDR] = ElfW2(Bits, cvt_Phdr), \
[ELF_T_RELA] = ElfW2(Bits, cvt_Rela), \
[ELF_T_REL] = ElfW2(Bits, cvt_Rel), \
[ELF_T_SHDR] = ElfW2(Bits, cvt_Shdr), \
[ELF_T_SWORD] = ElfW2(Bits, cvt_Sword), \
[ELF_T_SYM] = ElfW2(Bits, cvt_Sym), \
[ELF_T_WORD] = ElfW2(Bits, cvt_Word), \
[ELF_T_XWORD] = ElfW2(Bits, cvt_Xword), \
[ELF_T_SXWORD] = ElfW2(Bits, cvt_Sxword), \
[ELF_T_VDEF] = elf_cvt_Verdef, \
[ELF_T_VDAUX] = elf_cvt_Verdef, \
[ELF_T_VNEED] = elf_cvt_Verneed, \
[ELF_T_VNAUX] = elf_cvt_Verneed, \
[ELF_T_NHDR] = ElfW2(Bits, cvt_Nhdr), \
[ELF_T_SYMINFO] = ElfW2(Bits, cvt_Syminfo), \
[ELF_T_MOVE] = ElfW2(Bits, cvt_Move), \
[ELF_T_LIB] = ElfW2(Bits, cvt_Lib)
define_xfcts (32)
},
[ELFCLASS64 - 1] = {
define_xfcts (64)
}
}
}
};
/* For now we only handle the case where the memory representation is the
same as the file representation. Should this change we have to define
separate functions. For now reuse them. */
//strong_alias (__elf_xfctstom, __elf_xfctstof)