exec-i386.c 14.1 KB
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/*
 *  i386 emulator main execution loop
 * 
 *  Copyright (c) 2003 Fabrice Bellard
 *
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 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2 of the License, or (at your option) any later version.
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 *
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 * This library 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
 * Lesser General Public License for more details.
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 *
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 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
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 */
#include "exec-i386.h"
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#include "disas.h"
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//#define DEBUG_EXEC
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#define DEBUG_FLUSH
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//#define DEBUG_SIGNAL
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/* main execution loop */

/* maximum total translate dcode allocated */
#define CODE_GEN_BUFFER_SIZE     (2048 * 1024)
//#define CODE_GEN_BUFFER_SIZE     (128 * 1024)
#define CODE_GEN_MAX_SIZE        65536
#define CODE_GEN_ALIGN           16 /* must be >= of the size of a icache line */

/* threshold to flush the translated code buffer */
#define CODE_GEN_BUFFER_MAX_SIZE (CODE_GEN_BUFFER_SIZE - CODE_GEN_MAX_SIZE)

#define CODE_GEN_MAX_BLOCKS    (CODE_GEN_BUFFER_SIZE / 64)
#define CODE_GEN_HASH_BITS     15
#define CODE_GEN_HASH_SIZE     (1 << CODE_GEN_HASH_BITS)
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typedef struct TranslationBlock {
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    unsigned long pc;   /* simulated PC corresponding to this block (EIP + CS base) */
    unsigned long cs_base; /* CS base for this block */
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    unsigned int flags; /* flags defining in which context the code was generated */
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    uint8_t *tc_ptr;    /* pointer to the translated code */
    struct TranslationBlock *hash_next; /* next matching block */
} TranslationBlock;

TranslationBlock tbs[CODE_GEN_MAX_BLOCKS];
TranslationBlock *tb_hash[CODE_GEN_HASH_SIZE];
int nb_tbs;

uint8_t code_gen_buffer[CODE_GEN_BUFFER_SIZE];
uint8_t *code_gen_ptr;

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/* thread support */

#ifdef __powerpc__
static inline int testandset (int *p)
{
    int ret;
    __asm__ __volatile__ (
                          "0:    lwarx %0,0,%1 ;"
                          "      xor. %0,%3,%0;"
                          "      bne 1f;"
                          "      stwcx. %2,0,%1;"
                          "      bne- 0b;"
                          "1:    "
                          : "=&r" (ret)
                          : "r" (p), "r" (1), "r" (0)
                          : "cr0", "memory");
    return ret;
}
#endif

#ifdef __i386__
static inline int testandset (int *p)
{
    char ret;
    long int readval;
    
    __asm__ __volatile__ ("lock; cmpxchgl %3, %1; sete %0"
                          : "=q" (ret), "=m" (*p), "=a" (readval)
                          : "r" (1), "m" (*p), "a" (0)
                          : "memory");
    return ret;
}
#endif

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#ifdef __s390__
static inline int testandset (int *p)
{
    int ret;

    __asm__ __volatile__ ("0: cs    %0,%1,0(%2)\n"
			  "   jl    0b"
			  : "=&d" (ret)
			  : "r" (1), "a" (p), "0" (*p) 
			  : "cc", "memory" );
    return ret;
}
#endif

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#ifdef __alpha__
int testandset (int *p)
{
    int ret;
    unsigned long one;

    __asm__ __volatile__ ("0:	mov 1,%2\n"
			  "	ldl_l %0,%1\n"
			  "	stl_c %2,%1\n"
			  "	beq %2,1f\n"
			  ".subsection 2\n"
			  "1:	br 0b\n"
			  ".previous"
			  : "=r" (ret), "=m" (*p), "=r" (one)
			  : "m" (*p));
    return ret;
}
#endif

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#ifdef __sparc__
static inline int testandset (int *p)
{
	int ret;

	__asm__ __volatile__("ldstub	[%1], %0"
			     : "=r" (ret)
			     : "r" (p)
			     : "memory");

	return (ret ? 1 : 0);
}
#endif

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int global_cpu_lock = 0;

void cpu_lock(void)
{
    while (testandset(&global_cpu_lock));
}

void cpu_unlock(void)
{
    global_cpu_lock = 0;
}

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/* exception support */
/* NOTE: not static to force relocation generation by GCC */
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void raise_exception_err(int exception_index, int error_code)
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{
    /* NOTE: the register at this point must be saved by hand because
       longjmp restore them */
#ifdef reg_EAX
    env->regs[R_EAX] = EAX;
#endif
#ifdef reg_ECX
    env->regs[R_ECX] = ECX;
#endif
#ifdef reg_EDX
    env->regs[R_EDX] = EDX;
#endif
#ifdef reg_EBX
    env->regs[R_EBX] = EBX;
#endif
#ifdef reg_ESP
    env->regs[R_ESP] = ESP;
#endif
#ifdef reg_EBP
    env->regs[R_EBP] = EBP;
#endif
#ifdef reg_ESI
    env->regs[R_ESI] = ESI;
#endif
#ifdef reg_EDI
    env->regs[R_EDI] = EDI;
#endif
    env->exception_index = exception_index;
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    env->error_code = error_code;
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    longjmp(env->jmp_env, 1);
}

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/* short cut if error_code is 0 or not present */
void raise_exception(int exception_index)
{
    raise_exception_err(exception_index, 0);
}

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void cpu_x86_tblocks_init(void)
{
    if (!code_gen_ptr) {
        code_gen_ptr = code_gen_buffer;
    }
}

/* flush all the translation blocks */
static void tb_flush(void)
{
    int i;
#ifdef DEBUG_FLUSH
    printf("gemu: flush code_size=%d nb_tbs=%d avg_tb_size=%d\n", 
           code_gen_ptr - code_gen_buffer, 
           nb_tbs, 
           (code_gen_ptr - code_gen_buffer) / nb_tbs);
#endif
    nb_tbs = 0;
    for(i = 0;i < CODE_GEN_HASH_SIZE; i++)
        tb_hash[i] = NULL;
    code_gen_ptr = code_gen_buffer;
    /* XXX: flush processor icache at this point */
}

/* find a translation block in the translation cache. If not found,
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   return NULL and the pointer to the last element of the list in pptb */
static inline TranslationBlock *tb_find(TranslationBlock ***pptb,
                                        unsigned long pc, 
                                        unsigned long cs_base,
                                        unsigned int flags)
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{
    TranslationBlock **ptb, *tb;
    unsigned int h;
 
    h = pc & (CODE_GEN_HASH_SIZE - 1);
    ptb = &tb_hash[h];
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#if 0
    /* XXX: hack to handle 16 bit modyfing code */
    if (flags & (1 << GEN_FLAG_CODE32_SHIFT))
#endif
        for(;;) {
            tb = *ptb;
            if (!tb)
                break;
            if (tb->pc == pc && tb->cs_base == cs_base && tb->flags == flags)
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            return tb;
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            ptb = &tb->hash_next;
        }
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    *pptb = ptb;
    return NULL;
}

/* allocate a new translation block. flush the translation buffer if
   too many translation blocks or too much generated code */
static inline TranslationBlock *tb_alloc(void)
{
    TranslationBlock *tb;
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    if (nb_tbs >= CODE_GEN_MAX_BLOCKS || 
        (code_gen_ptr - code_gen_buffer) >= CODE_GEN_BUFFER_MAX_SIZE)
        tb_flush();
    tb = &tbs[nb_tbs++];
    return tb;
}

int cpu_x86_exec(CPUX86State *env1)
{
    int saved_T0, saved_T1, saved_A0;
    CPUX86State *saved_env;
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#ifdef reg_EAX
    int saved_EAX;
#endif
#ifdef reg_ECX
    int saved_ECX;
#endif
#ifdef reg_EDX
    int saved_EDX;
#endif
#ifdef reg_EBX
    int saved_EBX;
#endif
#ifdef reg_ESP
    int saved_ESP;
#endif
#ifdef reg_EBP
    int saved_EBP;
#endif
#ifdef reg_ESI
    int saved_ESI;
#endif
#ifdef reg_EDI
    int saved_EDI;
#endif
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    int code_gen_size, ret;
    void (*gen_func)(void);
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    TranslationBlock *tb, **ptb;
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    uint8_t *tc_ptr, *cs_base, *pc;
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    unsigned int flags;

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    /* first we save global registers */
    saved_T0 = T0;
    saved_T1 = T1;
    saved_A0 = A0;
    saved_env = env;
    env = env1;
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#ifdef reg_EAX
    saved_EAX = EAX;
    EAX = env->regs[R_EAX];
#endif
#ifdef reg_ECX
    saved_ECX = ECX;
    ECX = env->regs[R_ECX];
#endif
#ifdef reg_EDX
    saved_EDX = EDX;
    EDX = env->regs[R_EDX];
#endif
#ifdef reg_EBX
    saved_EBX = EBX;
    EBX = env->regs[R_EBX];
#endif
#ifdef reg_ESP
    saved_ESP = ESP;
    ESP = env->regs[R_ESP];
#endif
#ifdef reg_EBP
    saved_EBP = EBP;
    EBP = env->regs[R_EBP];
#endif
#ifdef reg_ESI
    saved_ESI = ESI;
    ESI = env->regs[R_ESI];
#endif
#ifdef reg_EDI
    saved_EDI = EDI;
    EDI = env->regs[R_EDI];
#endif
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    /* put eflags in CPU temporary format */
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    CC_SRC = env->eflags & (CC_O | CC_S | CC_Z | CC_A | CC_P | CC_C);
    DF = 1 - (2 * ((env->eflags >> 10) & 1));
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    CC_OP = CC_OP_EFLAGS;
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    env->eflags &= ~(DF_MASK | CC_O | CC_S | CC_Z | CC_A | CC_P | CC_C);
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    env->interrupt_request = 0;
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    /* prepare setjmp context for exception handling */
    if (setjmp(env->jmp_env) == 0) {
        for(;;) {
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            if (env->interrupt_request) {
                raise_exception(EXCP_INTERRUPT);
            }
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#ifdef DEBUG_EXEC
            if (loglevel) {
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                /* XXX: save all volatile state in cpu state */
                /* restore flags in standard format */
                env->regs[R_EAX] = EAX;
                env->regs[R_EBX] = EBX;
                env->regs[R_ECX] = ECX;
                env->regs[R_EDX] = EDX;
                env->regs[R_ESI] = ESI;
                env->regs[R_EDI] = EDI;
                env->regs[R_EBP] = EBP;
                env->regs[R_ESP] = ESP;
                env->eflags = env->eflags | cc_table[CC_OP].compute_all() | (DF & DF_MASK);
                cpu_x86_dump_state(env, logfile, 0);
                env->eflags &= ~(DF_MASK | CC_O | CC_S | CC_Z | CC_A | CC_P | CC_C);
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            }
#endif
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            /* we compute the CPU state. We assume it will not
               change during the whole generated block. */
            flags = env->seg_cache[R_CS].seg_32bit << GEN_FLAG_CODE32_SHIFT;
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            flags |= env->seg_cache[R_SS].seg_32bit << GEN_FLAG_SS32_SHIFT;
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            flags |= (((unsigned long)env->seg_cache[R_DS].base | 
                       (unsigned long)env->seg_cache[R_ES].base |
                       (unsigned long)env->seg_cache[R_SS].base) != 0) << 
                GEN_FLAG_ADDSEG_SHIFT;
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            if (!(env->eflags & VM_MASK)) {
                flags |= (env->segs[R_CS] & 3) << GEN_FLAG_CPL_SHIFT;
            } else {
                /* NOTE: a dummy CPL is kept */
                flags |= (1 << GEN_FLAG_VM_SHIFT);
                flags |= (3 << GEN_FLAG_CPL_SHIFT);
            }
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            flags |= (env->eflags & IOPL_MASK) >> (12 - GEN_FLAG_IOPL_SHIFT);
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            flags |= (env->eflags & TF_MASK) << (GEN_FLAG_TF_SHIFT - 8);
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            cs_base = env->seg_cache[R_CS].base;
            pc = cs_base + env->eip;
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            tb = tb_find(&ptb, (unsigned long)pc, (unsigned long)cs_base, 
                         flags);
            if (!tb) {
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                /* if no translated code available, then translate it now */
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                /* XXX: very inefficient: we lock all the cpus when
                   generating code */
                cpu_lock();
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                tc_ptr = code_gen_ptr;
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                ret = cpu_x86_gen_code(code_gen_ptr, CODE_GEN_MAX_SIZE, 
                                       &code_gen_size, pc, cs_base, flags);
                /* if invalid instruction, signal it */
                if (ret != 0) {
                    cpu_unlock();
                    raise_exception(EXCP06_ILLOP);
                }
                tb = tb_alloc();
                *ptb = tb;
                tb->pc = (unsigned long)pc;
                tb->cs_base = (unsigned long)cs_base;
                tb->flags = flags;
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                tb->tc_ptr = tc_ptr;
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                tb->hash_next = NULL;
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                code_gen_ptr = (void *)(((unsigned long)code_gen_ptr + code_gen_size + CODE_GEN_ALIGN - 1) & ~(CODE_GEN_ALIGN - 1));
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                cpu_unlock();
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            }
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#ifdef DEBUG_EXEC
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	    if (loglevel) {
		fprintf(logfile, "Trace 0x%08lx [0x%08lx] %s\n",
			(long)tb->tc_ptr, (long)tb->pc,
			lookup_symbol((void *)tb->pc));
	    }
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#endif
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            /* execute the generated code */
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            tc_ptr = tb->tc_ptr;
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            gen_func = (void *)tc_ptr;
            gen_func();
        }
    }
    ret = env->exception_index;

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    /* restore flags in standard format */
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    env->eflags = env->eflags | cc_table[CC_OP].compute_all() | (DF & DF_MASK);
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    /* restore global registers */
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#ifdef reg_EAX
    EAX = saved_EAX;
#endif
#ifdef reg_ECX
    ECX = saved_ECX;
#endif
#ifdef reg_EDX
    EDX = saved_EDX;
#endif
#ifdef reg_EBX
    EBX = saved_EBX;
#endif
#ifdef reg_ESP
    ESP = saved_ESP;
#endif
#ifdef reg_EBP
    EBP = saved_EBP;
#endif
#ifdef reg_ESI
    ESI = saved_ESI;
#endif
#ifdef reg_EDI
    EDI = saved_EDI;
#endif
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    T0 = saved_T0;
    T1 = saved_T1;
    A0 = saved_A0;
    env = saved_env;
    return ret;
}
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void cpu_x86_interrupt(CPUX86State *s)
{
    s->interrupt_request = 1;
}


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void cpu_x86_load_seg(CPUX86State *s, int seg_reg, int selector)
{
    CPUX86State *saved_env;

    saved_env = env;
    env = s;
    load_seg(seg_reg, selector);
    env = saved_env;
}
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#undef EAX
#undef ECX
#undef EDX
#undef EBX
#undef ESP
#undef EBP
#undef ESI
#undef EDI
#undef EIP
#include <signal.h>
#include <sys/ucontext.h>

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/* 'pc' is the host PC at which the exception was raised. 'address' is
   the effective address of the memory exception */
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static inline int handle_cpu_signal(unsigned long pc,
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                                    unsigned long address,
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                                    sigset_t *old_set)
{
#ifdef DEBUG_SIGNAL
    printf("gemu: SIGSEGV pc=0x%08lx oldset=0x%08lx\n", 
           pc, *(unsigned long *)old_set);
#endif
    if (pc >= (unsigned long)code_gen_buffer &&
        pc < (unsigned long)code_gen_buffer + CODE_GEN_BUFFER_SIZE) {
        /* the PC is inside the translated code. It means that we have
           a virtual CPU fault */
        /* we restore the process signal mask as the sigreturn should
           do it */
        sigprocmask(SIG_SETMASK, old_set, NULL);
        /* XXX: need to compute virtual pc position by retranslating
           code. The rest of the CPU state should be correct. */
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        env->cr2 = address;
        /* XXX: more precise exception code */
        raise_exception_err(EXCP0E_PAGE, 4);
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        /* never comes here */
        return 1;
    } else {
        return 0;
    }
}

int cpu_x86_signal_handler(int host_signum, struct siginfo *info, 
                           void *puc)
{
#if defined(__i386__)
    struct ucontext *uc = puc;
    unsigned long pc;
    sigset_t *pold_set;
    
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#ifndef REG_EIP
/* for glibc 2.1 */
#define REG_EIP EIP
#endif
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    pc = uc->uc_mcontext.gregs[REG_EIP];
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    pold_set = &uc->uc_sigmask;
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    return handle_cpu_signal(pc, (unsigned long)info->si_addr, pold_set);
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#else
#warning No CPU specific signal handler: cannot handle target SIGSEGV events
    return 0;
#endif
}