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/**
* @file fips_canister_end.c
*
* @brief Marks the end of TEXT and RODATA.
*
*/
/* ====================================================================
* Copyright (c) 2005 The OpenSSL Project. Rights for redistribution
* and usage in source and binary forms are granted according to the
* OpenSSL license.
*/
#include <stdio.h>
#if defined(__DECC)
# include <c_asm.h>
# pragma __nostandard
#endif
#if !defined(POINTER_TO_FUNCTION_IS_POINTER_TO_1ST_INSTRUCTION)
# if (defined(__sun) && (defined(__sparc) || defined(__sparcv9))) || \
(defined(__sgi) && (defined(__mips) || defined(mips))) || \
(defined(__osf__) && defined(__alpha)) || \
(defined(__linux) && (defined(__arm) || defined(__arm__))) || \
(defined(__i386) || defined(__i386__)) || \
(defined(__x86_64) || defined(__x86_64__)) || \
(defined(vax) || defined(__vax__))
# define POINTER_TO_FUNCTION_IS_POINTER_TO_1ST_INSTRUCTION
# endif
#endif
#define FIPS_ref_point FIPS_text_end
/* Some compilers put string literals into a separate segment. As we
* are mostly interested to hash AES tables in .rodata, we declare
* reference points accordingly. In case you wonder, the values are
* big-endian encoded variable names, just to prevent these arrays
* from being merged by linker. */
const unsigned int FIPS_rodata_end[]=
{ 0x46495053, 0x5f726f64, 0x6174615f, 0x656e645b };
/*
* I declare reference function as static in order to avoid certain
* pitfalls in -dynamic linker behaviour...
*/
static void *instruction_pointer(void)
{
void *ret = NULL;
/* These are ABI-neutral CPU-specific snippets. ABI-neutrality means
* that they are designed to work under any OS running on particular
* CPU, which is why you don't find any #ifdef THIS_OR_THAT_OS in
* this function. */
#if defined(INSTRUCTION_POINTER_IMPLEMENTED)
INSTRUCTION_POINTER_IMPLEMENTED(ret);
#elif defined(__GNUC__) && __GNUC__>=2
# if defined(__alpha) || defined(__alpha__)
# define INSTRUCTION_POINTER_IMPLEMENTED
__asm __volatile ( "br %0,1f\n1:" : "=r"(ret) );
# elif defined(__i386) || defined(__i386__)
# define INSTRUCTION_POINTER_IMPLEMENTED
__asm __volatile ( "call 1f\n1: popl %0" : "=r"(ret) );
ret = (void *)((size_t)ret&~3UL); /* align for better performance */
# elif defined(__ia64) || defined(__ia64__)
# define INSTRUCTION_POINTER_IMPLEMENTED
__asm __volatile ( "mov %0=ip" : "=r"(ret) );
# elif defined(__hppa) || defined(__hppa__) || defined(__pa_risc)
# define INSTRUCTION_POINTER_IMPLEMENTED
__asm __volatile ( "blr %%r0,%0\n\tnop" : "=r"(ret) );
ret = (void *)((size_t)ret&~3UL); /* mask privilege level */
# elif defined(__mips) || defined(__mips__)
# define INSTRUCTION_POINTER_IMPLEMENTED
void *scratch;
__asm __volatile ( "move %1,$31\n\t" /* save ra */
"bal .+8; nop\n\t"
"move %0,$31\n\t"
"move $31,%1" /* restore ra */
: "=r"(ret),"=r"(scratch) );
# elif defined(__ppc__) || defined(__powerpc) || defined(__powerpc__) || \
defined(__POWERPC__) || defined(_POWER) || defined(__PPC__) || \
defined(__PPC64__) || defined(__powerpc64__)
# define INSTRUCTION_POINTER_IMPLEMENTED
void *scratch;
__asm __volatile ( "mfspr %1,8\n\t" /* save lr */
"bl .+4\n\t"
"mfspr %0,8\n\t" /* mflr ret */
"mtspr 8,%1" /* restore lr */
: "=r"(ret),"=r"(scratch) );
# elif defined(__sparc) || defined(__sparc__) || defined(__sparcv9)
# define INSTRUCTION_POINTER_IMPLEMENTED
void *scratch;
__asm __volatile ( "mov %%o7,%1\n\t"
"call .+8; nop\n\t"
"mov %%o7,%0\n\t"
"mov %1,%%o7"
: "=r"(ret),"=r"(scratch) );
# elif defined(__x86_64) || defined(__x86_64__)
# define INSTRUCTION_POINTER_IMPLEMENTED
__asm __volatile ( "leaq 0(%%rip),%0" : "=r"(ret) );
ret = (void *)((size_t)ret&~3UL); /* align for better performance */
# endif
#elif defined(__DECC) && defined(__alpha)
# define INSTRUCTION_POINTER_IMPLEMENTED
ret = (void *)(size_t)asm("br %v0,1f\n1:");
#elif defined(_MSC_VER) && defined(_M_IX86)
# undef INSTRUCTION_POINTER_IMPLEMENTED
void *scratch;
_asm {
call self
self: pop eax
mov scratch,eax
}
ret = (void *)((size_t)scratch&~3UL);
#endif
return ret;
}
/*
* This function returns pointer to an instruction in the vicinity of
* its entry point, but not outside this object module. This guarantees
* that sequestered code is covered...
*/
void *FIPS_ref_point()
{
#if defined(INSTRUCTION_POINTER_IMPLEMENTED)
return instruction_pointer();
/* Below we essentially cover vendor compilers which do not support
* inline assembler... */
#elif defined(_AIX)
struct { void *ip,*gp,*env; } *p = (void *)instruction_pointer;
return p->ip;
#elif defined(_HPUX_SOURCE)
# if defined(__hppa) || defined(__hppa__)
struct { void *i[4]; } *p = (void *)FIPS_ref_point;
if (sizeof(p) == 8) /* 64-bit */
return p->i[2];
else if ((size_t)p & 2)
{ p = (void *)((size_t)p&~3UL);
return p->i[0];
}
else
return (void *)p;
# elif defined(__ia64) || defined(__ia64__)
struct { unsigned long long ip,gp; } *p=(void *)instruction_pointer;
return (void *)(size_t)p->ip;
# endif
#elif (defined(__VMS) || defined(VMS)) && !(defined(vax) || defined(__vax__))
/* applies to both alpha and ia64 */
struct { unsigned __int64 opaque,ip; } *p=(void *)instruction_pointer;
return (void *)(size_t)p->ip;
#elif defined(__VOS__)
/* applies to both pa-risc and ia32 */
struct { void *dp,*ip,*gp; } *p = (void *)instruction_pointer;
return p->ip;
#elif defined(_WIN32)
# if defined(_WIN64) && defined(_M_IA64)
struct { void *ip,*gp; } *p = (void *)FIPS_ref_point;
return p->ip;
# else
return (void *)FIPS_ref_point;
# endif
/*
* In case you wonder why there is no #ifdef __linux. All Linux targets
* are GCC-based and therefore are covered by instruction_pointer above
* [well, some are covered by by the one below]...
*/
#elif defined(POINTER_TO_FUNCTION_IS_POINTER_TO_1ST_INSTRUCTION)
return (void *)instruction_pointer;
#else
return NULL;
#endif
}
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