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#ifndef __ASMARM_ELF_H
#define __ASMARM_ELF_H
/*
* ELF register definitions..
*/
#include <asm/ptrace.h>
#include <asm/user.h>
#include <asm/procinfo.h>
typedef unsigned long elf_greg_t;
typedef unsigned long elf_freg_t[3];
#define EM_ARM 40
#define EF_ARM_APCS26 0x08
#define EF_ARM_SOFT_FLOAT 0x200
#define EF_ARM_EABI_MASK 0xFF000000
#define R_ARM_NONE 0
#define R_ARM_PC24 1
#define R_ARM_ABS32 2
#define R_ARM_CALL 28
#define R_ARM_JUMP24 29
#define ELF_NGREG (sizeof (struct pt_regs) / sizeof(elf_greg_t))
typedef elf_greg_t elf_gregset_t[ELF_NGREG];
typedef struct user_fp elf_fpregset_t;
/*
* This is used to ensure we don't load something for the wrong architecture.
*/
#define elf_check_arch(x) ( ((x)->e_machine == EM_ARM) && (ELF_PROC_OK((x))) )
/*
* These are used to set parameters in the core dumps.
*/
#define ELF_CLASS ELFCLASS32
#ifdef __ARMEB__
#define ELF_DATA ELFDATA2MSB
#else
#define ELF_DATA ELFDATA2LSB
#endif
#define ELF_ARCH EM_ARM
#define USE_ELF_CORE_DUMP
#define ELF_EXEC_PAGESIZE 4096
/* This is the location that an ET_DYN program is loaded if exec'ed. Typical
use of this is to invoke "./ld.so someprog" to test out a new version of
the loader. We need to make sure that it is out of the way of the program
that it will "exec", and that there is sufficient room for the brk. */
#define ELF_ET_DYN_BASE (2 * TASK_SIZE / 3)
/* When the program starts, a1 contains a pointer to a function to be
registered with atexit, as per the SVR4 ABI. A value of 0 means we
have no such handler. */
#define ELF_PLAT_INIT(_r, load_addr) (_r)->ARM_r0 = 0
/* This yields a mask that user programs can use to figure out what
instruction set this cpu supports. */
#define ELF_HWCAP (elf_hwcap)
/* This yields a string that ld.so will use to load implementation
specific libraries for optimization. This is more specific in
intent than poking at uname or /proc/cpuinfo. */
/* For now we just provide a fairly general string that describes the
processor family. This could be made more specific later if someone
implemented optimisations that require it. 26-bit CPUs give you
"v1l" for ARM2 (no SWP) and "v2l" for anything else (ARM1 isn't
supported). 32-bit CPUs give you "v3[lb]" for anything based on an
ARM6 or ARM7 core and "armv4[lb]" for anything based on a StrongARM-1
core. */
#define ELF_PLATFORM_SIZE 8
extern char elf_platform[];
#define ELF_PLATFORM (elf_platform)
#ifdef __KERNEL__
/*
* 32-bit code is always OK. Some cpus can do 26-bit, some can't.
*/
#define ELF_PROC_OK(x) (ELF_THUMB_OK(x) && ELF_26BIT_OK(x))
#define ELF_THUMB_OK(x) \
(( (elf_hwcap & HWCAP_THUMB) && ((x)->e_entry & 1) == 1) || \
((x)->e_entry & 3) == 0)
#define ELF_26BIT_OK(x) \
(( (elf_hwcap & HWCAP_26BIT) && (x)->e_flags & EF_ARM_APCS26) || \
((x)->e_flags & EF_ARM_APCS26) == 0)
#ifndef CONFIG_IWMMXT
/* Old NetWinder binaries were compiled in such a way that the iBCS
heuristic always trips on them. Until these binaries become uncommon
enough not to care, don't trust the `ibcs' flag here. In any case
there is no other ELF system currently supported by iBCS.
@@ Could print a warning message to encourage users to upgrade. */
#define SET_PERSONALITY(ex,ibcs2) \
set_personality(((ex).e_flags&EF_ARM_APCS26 ?PER_LINUX :PER_LINUX_32BIT))
#else
/*
* All iWMMXt capable CPUs don't support 26-bit mode. Yet they can run
* legacy binaries which used to contain FPA11 floating point instructions
* that have always been emulated by the kernel. PFA11 and iWMMXt overlap
* on coprocessor 1 space though. We therefore must decide if given task
* is allowed to use CP 0 and 1 for iWMMXt, or if they should be blocked
* at all times for the prefetch exception handler to catch FPA11 opcodes
* and emulate them. The best indication to discriminate those two cases
* is the SOFT_FLOAT flag in the ELF header.
*/
#define SET_PERSONALITY(ex,ibcs2) \
do { \
set_personality(PER_LINUX_32BIT); \
if (((ex).e_flags & EF_ARM_EABI_MASK) || \
((ex).e_flags & EF_ARM_SOFT_FLOAT)) \
set_thread_flag(TIF_USING_IWMMXT); \
else \
clear_thread_flag(TIF_USING_IWMMXT); \
} while (0)
#endif
#endif
#endif
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