cpu-exec.c 51.1 KB
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/*
 *  i386 emulator main execution loop
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 *
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 *  Copyright (c) 2003-2005 Fabrice Bellard
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 *
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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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 */
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#include "config.h"
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#define CPU_NO_GLOBAL_REGS
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#include "exec.h"
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#include "disas.h"
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#include "tcg.h"
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#include "kvm.h"
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#if !defined(CONFIG_SOFTMMU)
#undef EAX
#undef ECX
#undef EDX
#undef EBX
#undef ESP
#undef EBP
#undef ESI
#undef EDI
#undef EIP
#include <signal.h>
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#ifdef __linux__
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#include <sys/ucontext.h>
#endif
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#endif
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#if defined(__sparc__) && !defined(HOST_SOLARIS)
// Work around ugly bugs in glibc that mangle global register contents
#undef env
#define env cpu_single_env
#endif

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int tb_invalidated_flag;

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//#define DEBUG_EXEC
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//#define DEBUG_SIGNAL
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void cpu_loop_exit(void)
{
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    /* NOTE: the register at this point must be saved by hand because
       longjmp restore them */
    regs_to_env();
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    longjmp(env->jmp_env, 1);
}
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/* exit the current TB from a signal handler. The host registers are
   restored in a state compatible with the CPU emulator
 */
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void cpu_resume_from_signal(CPUState *env1, void *puc)
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{
#if !defined(CONFIG_SOFTMMU)
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#ifdef __linux__
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    struct ucontext *uc = puc;
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#elif defined(__OpenBSD__)
    struct sigcontext *uc = puc;
#endif
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#endif

    env = env1;

    /* XXX: restore cpu registers saved in host registers */

#if !defined(CONFIG_SOFTMMU)
    if (puc) {
        /* XXX: use siglongjmp ? */
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#ifdef __linux__
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        sigprocmask(SIG_SETMASK, &uc->uc_sigmask, NULL);
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#elif defined(__OpenBSD__)
        sigprocmask(SIG_SETMASK, &uc->sc_mask, NULL);
#endif
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    }
#endif
    longjmp(env->jmp_env, 1);
}

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/* Execute the code without caching the generated code. An interpreter
   could be used if available. */
static void cpu_exec_nocache(int max_cycles, TranslationBlock *orig_tb)
{
    unsigned long next_tb;
    TranslationBlock *tb;

    /* Should never happen.
       We only end up here when an existing TB is too long.  */
    if (max_cycles > CF_COUNT_MASK)
        max_cycles = CF_COUNT_MASK;

    tb = tb_gen_code(env, orig_tb->pc, orig_tb->cs_base, orig_tb->flags,
                     max_cycles);
    env->current_tb = tb;
    /* execute the generated code */
    next_tb = tcg_qemu_tb_exec(tb->tc_ptr);

    if ((next_tb & 3) == 2) {
        /* Restore PC.  This may happen if async event occurs before
           the TB starts executing.  */
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        cpu_pc_from_tb(env, tb);
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    }
    tb_phys_invalidate(tb, -1);
    tb_free(tb);
}

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static TranslationBlock *tb_find_slow(target_ulong pc,
                                      target_ulong cs_base,
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                                      uint64_t flags)
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{
    TranslationBlock *tb, **ptb1;
    unsigned int h;
    target_ulong phys_pc, phys_page1, phys_page2, virt_page2;
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    tb_invalidated_flag = 0;
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    regs_to_env(); /* XXX: do it just before cpu_gen_code() */
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    /* find translated block using physical mappings */
    phys_pc = get_phys_addr_code(env, pc);
    phys_page1 = phys_pc & TARGET_PAGE_MASK;
    phys_page2 = -1;
    h = tb_phys_hash_func(phys_pc);
    ptb1 = &tb_phys_hash[h];
    for(;;) {
        tb = *ptb1;
        if (!tb)
            goto not_found;
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        if (tb->pc == pc &&
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            tb->page_addr[0] == phys_page1 &&
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            tb->cs_base == cs_base &&
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            tb->flags == flags) {
            /* check next page if needed */
            if (tb->page_addr[1] != -1) {
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                virt_page2 = (pc & TARGET_PAGE_MASK) +
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                    TARGET_PAGE_SIZE;
                phys_page2 = get_phys_addr_code(env, virt_page2);
                if (tb->page_addr[1] == phys_page2)
                    goto found;
            } else {
                goto found;
            }
        }
        ptb1 = &tb->phys_hash_next;
    }
 not_found:
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   /* if no translated code available, then translate it now */
    tb = tb_gen_code(env, pc, cs_base, flags, 0);
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 found:
    /* we add the TB in the virtual pc hash table */
    env->tb_jmp_cache[tb_jmp_cache_hash_func(pc)] = tb;
    return tb;
}

static inline TranslationBlock *tb_find_fast(void)
{
    TranslationBlock *tb;
    target_ulong cs_base, pc;
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    int flags;
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    /* we record a subset of the CPU state. It will
       always be the same before a given translated block
       is executed. */
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    cpu_get_tb_cpu_state(env, &pc, &cs_base, &flags);
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    tb = env->tb_jmp_cache[tb_jmp_cache_hash_func(pc)];
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    if (unlikely(!tb || tb->pc != pc || tb->cs_base != cs_base ||
                 tb->flags != flags)) {
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        tb = tb_find_slow(pc, cs_base, flags);
    }
    return tb;
}

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static CPUDebugExcpHandler *debug_excp_handler;

CPUDebugExcpHandler *cpu_set_debug_excp_handler(CPUDebugExcpHandler *handler)
{
    CPUDebugExcpHandler *old_handler = debug_excp_handler;

    debug_excp_handler = handler;
    return old_handler;
}

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static void cpu_handle_debug_exception(CPUState *env)
{
    CPUWatchpoint *wp;

    if (!env->watchpoint_hit)
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        TAILQ_FOREACH(wp, &env->watchpoints, entry)
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            wp->flags &= ~BP_WATCHPOINT_HIT;
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    if (debug_excp_handler)
        debug_excp_handler(env);
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}

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/* main execution loop */

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int cpu_exec(CPUState *env1)
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{
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#define DECLARE_HOST_REGS 1
#include "hostregs_helper.h"
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    int ret, interrupt_request;
    TranslationBlock *tb;
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    uint8_t *tc_ptr;
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    unsigned long next_tb;
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    if (cpu_halted(env1) == EXCP_HALTED)
        return EXCP_HALTED;
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    cpu_single_env = env1;
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    /* first we save global registers */
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#define SAVE_HOST_REGS 1
#include "hostregs_helper.h"
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    env = env1;
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    env_to_regs();
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#if defined(TARGET_I386)
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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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#elif defined(TARGET_SPARC)
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#elif defined(TARGET_M68K)
    env->cc_op = CC_OP_FLAGS;
    env->cc_dest = env->sr & 0xf;
    env->cc_x = (env->sr >> 4) & 1;
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#elif defined(TARGET_ALPHA)
#elif defined(TARGET_ARM)
#elif defined(TARGET_PPC)
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#elif defined(TARGET_MIPS)
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#elif defined(TARGET_SH4)
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#elif defined(TARGET_CRIS)
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    /* XXXXX */
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#else
#error unsupported target CPU
#endif
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    env->exception_index = -1;
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    /* prepare setjmp context for exception handling */
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    for(;;) {
        if (setjmp(env->jmp_env) == 0) {
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            env->current_tb = NULL;
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            /* if an exception is pending, we execute it here */
            if (env->exception_index >= 0) {
                if (env->exception_index >= EXCP_INTERRUPT) {
                    /* exit request from the cpu execution loop */
                    ret = env->exception_index;
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                    if (ret == EXCP_DEBUG)
                        cpu_handle_debug_exception(env);
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                    break;
                } else if (env->user_mode_only) {
                    /* if user mode only, we simulate a fake exception
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                       which will be handled outside the cpu execution
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                       loop */
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#if defined(TARGET_I386)
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                    do_interrupt_user(env->exception_index,
                                      env->exception_is_int,
                                      env->error_code,
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                                      env->exception_next_eip);
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                    /* successfully delivered */
                    env->old_exception = -1;
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#endif
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                    ret = env->exception_index;
                    break;
                } else {
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#if defined(TARGET_I386)
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                    /* simulate a real cpu exception. On i386, it can
                       trigger new exceptions, but we do not handle
                       double or triple faults yet. */
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                    do_interrupt(env->exception_index,
                                 env->exception_is_int,
                                 env->error_code,
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                                 env->exception_next_eip, 0);
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                    /* successfully delivered */
                    env->old_exception = -1;
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#elif defined(TARGET_PPC)
                    do_interrupt(env);
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#elif defined(TARGET_MIPS)
                    do_interrupt(env);
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#elif defined(TARGET_SPARC)
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                    do_interrupt(env);
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#elif defined(TARGET_ARM)
                    do_interrupt(env);
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#elif defined(TARGET_SH4)
		    do_interrupt(env);
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#elif defined(TARGET_ALPHA)
                    do_interrupt(env);
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#elif defined(TARGET_CRIS)
                    do_interrupt(env);
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#elif defined(TARGET_M68K)
                    do_interrupt(0);
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#endif
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                }
                env->exception_index = -1;
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            }
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#ifdef USE_KQEMU
            if (kqemu_is_ok(env) && env->interrupt_request == 0) {
                int ret;
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                env->eflags = env->eflags | helper_cc_compute_all(CC_OP) | (DF & DF_MASK);
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                ret = kqemu_cpu_exec(env);
                /* put eflags in CPU temporary format */
                CC_SRC = env->eflags & (CC_O | CC_S | CC_Z | CC_A | CC_P | CC_C);
                DF = 1 - (2 * ((env->eflags >> 10) & 1));
                CC_OP = CC_OP_EFLAGS;
                env->eflags &= ~(DF_MASK | CC_O | CC_S | CC_Z | CC_A | CC_P | CC_C);
                if (ret == 1) {
                    /* exception */
                    longjmp(env->jmp_env, 1);
                } else if (ret == 2) {
                    /* softmmu execution needed */
                } else {
                    if (env->interrupt_request != 0) {
                        /* hardware interrupt will be executed just after */
                    } else {
                        /* otherwise, we restart */
                        longjmp(env->jmp_env, 1);
                    }
                }
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            }
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#endif

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            if (kvm_enabled()) {
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                kvm_cpu_exec(env);
                longjmp(env->jmp_env, 1);
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            }

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            next_tb = 0; /* force lookup of first TB */
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            for(;;) {
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                interrupt_request = env->interrupt_request;
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                if (unlikely(interrupt_request)) {
                    if (unlikely(env->singlestep_enabled & SSTEP_NOIRQ)) {
                        /* Mask out external interrupts for this step. */
                        interrupt_request &= ~(CPU_INTERRUPT_HARD |
                                               CPU_INTERRUPT_FIQ |
                                               CPU_INTERRUPT_SMI |
                                               CPU_INTERRUPT_NMI);
                    }
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                    if (interrupt_request & CPU_INTERRUPT_DEBUG) {
                        env->interrupt_request &= ~CPU_INTERRUPT_DEBUG;
                        env->exception_index = EXCP_DEBUG;
                        cpu_loop_exit();
                    }
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#if defined(TARGET_ARM) || defined(TARGET_SPARC) || defined(TARGET_MIPS) || \
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    defined(TARGET_PPC) || defined(TARGET_ALPHA) || defined(TARGET_CRIS)
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                    if (interrupt_request & CPU_INTERRUPT_HALT) {
                        env->interrupt_request &= ~CPU_INTERRUPT_HALT;
                        env->halted = 1;
                        env->exception_index = EXCP_HLT;
                        cpu_loop_exit();
                    }
#endif
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#if defined(TARGET_I386)
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                    if (env->hflags2 & HF2_GIF_MASK) {
                        if ((interrupt_request & CPU_INTERRUPT_SMI) &&
                            !(env->hflags & HF_SMM_MASK)) {
                            svm_check_intercept(SVM_EXIT_SMI);
                            env->interrupt_request &= ~CPU_INTERRUPT_SMI;
                            do_smm_enter();
                            next_tb = 0;
                        } else if ((interrupt_request & CPU_INTERRUPT_NMI) &&
                                   !(env->hflags2 & HF2_NMI_MASK)) {
                            env->interrupt_request &= ~CPU_INTERRUPT_NMI;
                            env->hflags2 |= HF2_NMI_MASK;
                            do_interrupt(EXCP02_NMI, 0, 0, 0, 1);
                            next_tb = 0;
                        } else if ((interrupt_request & CPU_INTERRUPT_HARD) &&
                                   (((env->hflags2 & HF2_VINTR_MASK) && 
                                     (env->hflags2 & HF2_HIF_MASK)) ||
                                    (!(env->hflags2 & HF2_VINTR_MASK) && 
                                     (env->eflags & IF_MASK && 
                                      !(env->hflags & HF_INHIBIT_IRQ_MASK))))) {
                            int intno;
                            svm_check_intercept(SVM_EXIT_INTR);
                            env->interrupt_request &= ~(CPU_INTERRUPT_HARD | CPU_INTERRUPT_VIRQ);
                            intno = cpu_get_pic_interrupt(env);
                            if (loglevel & CPU_LOG_TB_IN_ASM) {
                                fprintf(logfile, "Servicing hardware INT=0x%02x\n", intno);
                            }
                            do_interrupt(intno, 0, 0, 0, 1);
                            /* ensure that no TB jump will be modified as
                               the program flow was changed */
                            next_tb = 0;
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#if !defined(CONFIG_USER_ONLY)
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                        } else if ((interrupt_request & CPU_INTERRUPT_VIRQ) &&
                                   (env->eflags & IF_MASK) && 
                                   !(env->hflags & HF_INHIBIT_IRQ_MASK)) {
                            int intno;
                            /* FIXME: this should respect TPR */
                            svm_check_intercept(SVM_EXIT_VINTR);
                            intno = ldl_phys(env->vm_vmcb + offsetof(struct vmcb, control.int_vector));
                            if (loglevel & CPU_LOG_TB_IN_ASM)
                                fprintf(logfile, "Servicing virtual hardware INT=0x%02x\n", intno);
                            do_interrupt(intno, 0, 0, 0, 1);
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                            env->interrupt_request &= ~CPU_INTERRUPT_VIRQ;
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                            next_tb = 0;
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#endif
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                        }
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                    }
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#elif defined(TARGET_PPC)
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#if 0
                    if ((interrupt_request & CPU_INTERRUPT_RESET)) {
                        cpu_ppc_reset(env);
                    }
#endif
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                    if (interrupt_request & CPU_INTERRUPT_HARD) {
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                        ppc_hw_interrupt(env);
                        if (env->pending_interrupts == 0)
                            env->interrupt_request &= ~CPU_INTERRUPT_HARD;
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                        next_tb = 0;
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                    }
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#elif defined(TARGET_MIPS)
                    if ((interrupt_request & CPU_INTERRUPT_HARD) &&
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                        (env->CP0_Status & env->CP0_Cause & CP0Ca_IP_mask) &&
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                        (env->CP0_Status & (1 << CP0St_IE)) &&
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                        !(env->CP0_Status & (1 << CP0St_EXL)) &&
                        !(env->CP0_Status & (1 << CP0St_ERL)) &&
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                        !(env->hflags & MIPS_HFLAG_DM)) {
                        /* Raise it */
                        env->exception_index = EXCP_EXT_INTERRUPT;
                        env->error_code = 0;
                        do_interrupt(env);
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                        next_tb = 0;
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                    }
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#elif defined(TARGET_SPARC)
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                    if ((interrupt_request & CPU_INTERRUPT_HARD) &&
			(env->psret != 0)) {
			int pil = env->interrupt_index & 15;
			int type = env->interrupt_index & 0xf0;

			if (((type == TT_EXTINT) &&
			     (pil == 15 || pil > env->psrpil)) ||
			    type != TT_EXTINT) {
			    env->interrupt_request &= ~CPU_INTERRUPT_HARD;
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                            env->exception_index = env->interrupt_index;
                            do_interrupt(env);
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			    env->interrupt_index = 0;
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#if !defined(TARGET_SPARC64) && !defined(CONFIG_USER_ONLY)
                            cpu_check_irqs(env);
#endif
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                        next_tb = 0;
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			}
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		    } else if (interrupt_request & CPU_INTERRUPT_TIMER) {
			//do_interrupt(0, 0, 0, 0, 0);
			env->interrupt_request &= ~CPU_INTERRUPT_TIMER;
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		    }
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#elif defined(TARGET_ARM)
                    if (interrupt_request & CPU_INTERRUPT_FIQ
                        && !(env->uncached_cpsr & CPSR_F)) {
                        env->exception_index = EXCP_FIQ;
                        do_interrupt(env);
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                        next_tb = 0;
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                    }
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                    /* ARMv7-M interrupt return works by loading a magic value
                       into the PC.  On real hardware the load causes the
                       return to occur.  The qemu implementation performs the
                       jump normally, then does the exception return when the
                       CPU tries to execute code at the magic address.
                       This will cause the magic PC value to be pushed to
                       the stack if an interrupt occured at the wrong time.
                       We avoid this by disabling interrupts when
                       pc contains a magic address.  */
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                    if (interrupt_request & CPU_INTERRUPT_HARD
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                        && ((IS_M(env) && env->regs[15] < 0xfffffff0)
                            || !(env->uncached_cpsr & CPSR_I))) {
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                        env->exception_index = EXCP_IRQ;
                        do_interrupt(env);
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                        next_tb = 0;
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                    }
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#elif defined(TARGET_SH4)
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                    if (interrupt_request & CPU_INTERRUPT_HARD) {
                        do_interrupt(env);
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                        next_tb = 0;
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                    }
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#elif defined(TARGET_ALPHA)
                    if (interrupt_request & CPU_INTERRUPT_HARD) {
                        do_interrupt(env);
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                        next_tb = 0;
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                    }
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#elif defined(TARGET_CRIS)
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                    if (interrupt_request & CPU_INTERRUPT_HARD
                        && (env->pregs[PR_CCS] & I_FLAG)) {
                        env->exception_index = EXCP_IRQ;
                        do_interrupt(env);
                        next_tb = 0;
                    }
                    if (interrupt_request & CPU_INTERRUPT_NMI
                        && (env->pregs[PR_CCS] & M_FLAG)) {
                        env->exception_index = EXCP_NMI;
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                        do_interrupt(env);
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                        next_tb = 0;
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                    }
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#elif defined(TARGET_M68K)
                    if (interrupt_request & CPU_INTERRUPT_HARD
                        && ((env->sr & SR_I) >> SR_I_SHIFT)
                            < env->pending_level) {
                        /* Real hardware gets the interrupt vector via an
                           IACK cycle at this point.  Current emulated
                           hardware doesn't rely on this, so we
                           provide/save the vector when the interrupt is
                           first signalled.  */
                        env->exception_index = env->pending_vector;
                        do_interrupt(1);
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                        next_tb = 0;
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                    }
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#endif
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                   /* Don't use the cached interupt_request value,
                      do_interrupt may have updated the EXITTB flag. */
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                    if (env->interrupt_request & CPU_INTERRUPT_EXITTB) {
523 524 525
                        env->interrupt_request &= ~CPU_INTERRUPT_EXITTB;
                        /* ensure that no TB jump will be modified as
                           the program flow was changed */
526
                        next_tb = 0;
527
                    }
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                    if (interrupt_request & CPU_INTERRUPT_EXIT) {
                        env->interrupt_request &= ~CPU_INTERRUPT_EXIT;
                        env->exception_index = EXCP_INTERRUPT;
                        cpu_loop_exit();
                    }
533
                }
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#ifdef DEBUG_EXEC
B
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                if ((loglevel & CPU_LOG_TB_CPU)) {
536
                    /* restore flags in standard format */
537 538
                    regs_to_env();
#if defined(TARGET_I386)
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                    env->eflags = env->eflags | helper_cc_compute_all(CC_OP) | (DF & DF_MASK);
B
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                    cpu_dump_state(env, logfile, fprintf, X86_DUMP_CCOP);
541
                    env->eflags &= ~(DF_MASK | CC_O | CC_S | CC_Z | CC_A | CC_P | CC_C);
B
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#elif defined(TARGET_ARM)
B
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                    cpu_dump_state(env, logfile, fprintf, 0);
544
#elif defined(TARGET_SPARC)
B
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                    cpu_dump_state(env, logfile, fprintf, 0);
546
#elif defined(TARGET_PPC)
B
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                    cpu_dump_state(env, logfile, fprintf, 0);
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#elif defined(TARGET_M68K)
                    cpu_m68k_flush_flags(env, env->cc_op);
                    env->cc_op = CC_OP_FLAGS;
                    env->sr = (env->sr & 0xffe0)
                              | env->cc_dest | (env->cc_x << 4);
                    cpu_dump_state(env, logfile, fprintf, 0);
B
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#elif defined(TARGET_MIPS)
                    cpu_dump_state(env, logfile, fprintf, 0);
B
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#elif defined(TARGET_SH4)
		    cpu_dump_state(env, logfile, fprintf, 0);
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#elif defined(TARGET_ALPHA)
                    cpu_dump_state(env, logfile, fprintf, 0);
560 561
#elif defined(TARGET_CRIS)
                    cpu_dump_state(env, logfile, fprintf, 0);
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#else
563
#error unsupported target CPU
B
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#endif
565
                }
B
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#endif
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                spin_lock(&tb_lock);
568
                tb = tb_find_fast();
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                /* Note: we do it here to avoid a gcc bug on Mac OS X when
                   doing it in tb_find_slow */
                if (tb_invalidated_flag) {
                    /* as some TB could have been invalidated because
                       of memory exceptions while generating the code, we
                       must recompute the hash index here */
                    next_tb = 0;
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                    tb_invalidated_flag = 0;
P
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                }
578
#ifdef DEBUG_EXEC
B
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                if ((loglevel & CPU_LOG_EXEC)) {
B
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                    fprintf(logfile, "Trace 0x%08lx [" TARGET_FMT_lx "] %s\n",
                            (long)tb->tc_ptr, tb->pc,
                            lookup_symbol(tb->pc));
583
                }
584
#endif
585 586 587
                /* see if we can patch the calling TB. When the TB
                   spans two pages, we cannot safely do a direct
                   jump. */
B
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                {
589
                    if (next_tb != 0 &&
590
#ifdef USE_KQEMU
591 592
                        (env->kqemu_enabled != 2) &&
#endif
B
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                        tb->page_addr[1] == -1) {
594
                    tb_add_jump((TranslationBlock *)(next_tb & ~3), next_tb & 3, tb);
595
                }
B
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                }
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                spin_unlock(&tb_lock);
B
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                env->current_tb = tb;
599 600 601 602 603 604 605 606

                /* cpu_interrupt might be called while translating the
                   TB, but before it is linked into a potentially
                   infinite loop and becomes env->current_tb. Avoid
                   starting execution if there is a pending interrupt. */
                if (unlikely (env->interrupt_request & CPU_INTERRUPT_EXIT))
                    env->current_tb = NULL;

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                while (env->current_tb) {
                    tc_ptr = tb->tc_ptr;
609
                /* execute the generated code */
610 611
#if defined(__sparc__) && !defined(HOST_SOLARIS)
#undef env
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                    env = cpu_single_env;
613 614
#define env cpu_single_env
#endif
P
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                    next_tb = tcg_qemu_tb_exec(tc_ptr);
                    env->current_tb = NULL;
                    if ((next_tb & 3) == 2) {
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                        /* Instruction counter expired.  */
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                        int insns_left;
                        tb = (TranslationBlock *)(long)(next_tb & ~3);
                        /* Restore PC.  */
622
                        cpu_pc_from_tb(env, tb);
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623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644
                        insns_left = env->icount_decr.u32;
                        if (env->icount_extra && insns_left >= 0) {
                            /* Refill decrementer and continue execution.  */
                            env->icount_extra += insns_left;
                            if (env->icount_extra > 0xffff) {
                                insns_left = 0xffff;
                            } else {
                                insns_left = env->icount_extra;
                            }
                            env->icount_extra -= insns_left;
                            env->icount_decr.u16.low = insns_left;
                        } else {
                            if (insns_left > 0) {
                                /* Execute remaining instructions.  */
                                cpu_exec_nocache(insns_left, tb);
                            }
                            env->exception_index = EXCP_INTERRUPT;
                            next_tb = 0;
                            cpu_loop_exit();
                        }
                    }
                }
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                /* reset soft MMU for next block (it can currently
                   only be set by a memory fault) */
647 648 649 650 651 652
#if defined(USE_KQEMU)
#define MIN_CYCLE_BEFORE_SWITCH (100 * 1000)
                if (kqemu_is_ok(env) &&
                    (cpu_get_time_fast() - env->last_io_time) >= MIN_CYCLE_BEFORE_SWITCH) {
                    cpu_loop_exit();
                }
B
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#endif
T
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            } /* for(;;) */
655
        } else {
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            env_to_regs();
B
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        }
658 659
    } /* for(;;) */

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B
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#if defined(TARGET_I386)
B
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    /* restore flags in standard format */
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    env->eflags = env->eflags | helper_cc_compute_all(CC_OP) | (DF & DF_MASK);
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#elif defined(TARGET_ARM)
B
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    /* XXX: Save/restore host fpu exception state?.  */
666
#elif defined(TARGET_SPARC)
667
#elif defined(TARGET_PPC)
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#elif defined(TARGET_M68K)
    cpu_m68k_flush_flags(env, env->cc_op);
    env->cc_op = CC_OP_FLAGS;
    env->sr = (env->sr & 0xffe0)
              | env->cc_dest | (env->cc_x << 4);
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#elif defined(TARGET_MIPS)
B
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#elif defined(TARGET_SH4)
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#elif defined(TARGET_ALPHA)
676
#elif defined(TARGET_CRIS)
B
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    /* XXXXX */
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#else
#error unsupported target CPU
#endif
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    /* restore global registers */
#include "hostregs_helper.h"

B
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    /* fail safe : never use cpu_single_env outside cpu_exec() */
686
    cpu_single_env = NULL;
B
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    return ret;
}
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690 691 692 693
/* must only be called from the generated code as an exception can be
   generated */
void tb_invalidate_page_range(target_ulong start, target_ulong end)
{
694 695 696
    /* XXX: cannot enable it yet because it yields to MMU exception
       where NIP != read address on PowerPC */
#if 0
697 698 699
    target_ulong phys_addr;
    phys_addr = get_phys_addr_code(env, start);
    tb_invalidate_phys_page_range(phys_addr, phys_addr + end - start, 0);
700
#endif
701 702
}

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#if defined(TARGET_I386) && defined(CONFIG_USER_ONLY)
B
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void cpu_x86_load_seg(CPUX86State *s, int seg_reg, int selector)
{
    CPUX86State *saved_env;

    saved_env = env;
    env = s;
B
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    if (!(env->cr[0] & CR0_PE_MASK) || (env->eflags & VM_MASK)) {
B
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        selector &= 0xffff;
713
        cpu_x86_load_seg_cache(env, seg_reg, selector,
B
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                               (selector << 4), 0xffff, 0);
B
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715
    } else {
B
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716
        helper_load_seg(seg_reg, selector);
B
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    }
B
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    env = saved_env;
}
B
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721
void cpu_x86_fsave(CPUX86State *s, target_ulong ptr, int data32)
722 723 724 725 726
{
    CPUX86State *saved_env;

    saved_env = env;
    env = s;
727

728
    helper_fsave(ptr, data32);
729 730 731 732

    env = saved_env;
}

733
void cpu_x86_frstor(CPUX86State *s, target_ulong ptr, int data32)
734 735 736 737 738
{
    CPUX86State *saved_env;

    saved_env = env;
    env = s;
739

740
    helper_frstor(ptr, data32);
741 742 743 744

    env = saved_env;
}

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#endif /* TARGET_I386 */

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#if !defined(CONFIG_SOFTMMU)

749 750
#if defined(TARGET_I386)

751
/* 'pc' is the host PC at which the exception was raised. 'address' is
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   the effective address of the memory exception. 'is_write' is 1 if a
   write caused the exception and otherwise 0'. 'old_set' is the
   signal set which should be restored */
B
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static inline int handle_cpu_signal(unsigned long pc, unsigned long address,
756
                                    int is_write, sigset_t *old_set,
757
                                    void *puc)
B
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{
B
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    TranslationBlock *tb;
    int ret;
B
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761

B
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762 763
    if (cpu_single_env)
        env = cpu_single_env; /* XXX: find a correct solution for multithread */
B
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#if defined(DEBUG_SIGNAL)
765
    qemu_printf("qemu: SIGSEGV pc=0x%08lx address=%08lx w=%d oldset=0x%08lx\n",
766
                pc, address, is_write, *(unsigned long *)old_set);
B
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#endif
768
    /* XXX: locking issue */
769
    if (is_write && page_unprotect(h2g(address), pc, puc)) {
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        return 1;
    }
772

773
    /* see if it is an MMU fault */
774
    ret = cpu_x86_handle_mmu_fault(env, address, is_write, MMU_USER_IDX, 0);
775 776 777 778 779
    if (ret < 0)
        return 0; /* not an MMU fault */
    if (ret == 0)
        return 1; /* the MMU fault was handled without causing real CPU fault */
    /* now we have a real cpu fault */
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    tb = tb_find_pc(pc);
    if (tb) {
B
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        /* the PC is inside the translated code. It means that we have
           a virtual CPU fault */
784
        cpu_restore_state(tb, env, pc, puc);
785
    }
B
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    if (ret == 1) {
787
#if 0
788
        printf("PF exception: EIP=0x%08x CR2=0x%08x error=0x%x\n",
B
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               env->eip, env->cr[2], env->error_code);
790
#endif
B
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        /* we restore the process signal mask as the sigreturn should
           do it (XXX: use sigsetjmp) */
        sigprocmask(SIG_SETMASK, old_set, NULL);
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        raise_exception_err(env->exception_index, env->error_code);
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795 796
    } else {
        /* activate soft MMU for this block */
797
        env->hflags |= HF_SOFTMMU_MASK;
798
        cpu_resume_from_signal(env, puc);
B
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    }
800 801 802 803
    /* never comes here */
    return 1;
}

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#elif defined(TARGET_ARM)
805
static inline int handle_cpu_signal(unsigned long pc, unsigned long address,
806 807
                                    int is_write, sigset_t *old_set,
                                    void *puc)
808
{
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809 810 811 812 813 814
    TranslationBlock *tb;
    int ret;

    if (cpu_single_env)
        env = cpu_single_env; /* XXX: find a correct solution for multithread */
#if defined(DEBUG_SIGNAL)
815
    printf("qemu: SIGSEGV pc=0x%08lx address=%08lx w=%d oldset=0x%08lx\n",
B
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           pc, address, is_write, *(unsigned long *)old_set);
#endif
B
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818
    /* XXX: locking issue */
819
    if (is_write && page_unprotect(h2g(address), pc, puc)) {
B
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820 821
        return 1;
    }
B
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    /* see if it is an MMU fault */
823
    ret = cpu_arm_handle_mmu_fault(env, address, is_write, MMU_USER_IDX, 0);
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    if (ret < 0)
        return 0; /* not an MMU fault */
    if (ret == 0)
        return 1; /* the MMU fault was handled without causing real CPU fault */
    /* now we have a real cpu fault */
    tb = tb_find_pc(pc);
    if (tb) {
        /* the PC is inside the translated code. It means that we have
           a virtual CPU fault */
        cpu_restore_state(tb, env, pc, puc);
    }
    /* we restore the process signal mask as the sigreturn should
       do it (XXX: use sigsetjmp) */
    sigprocmask(SIG_SETMASK, old_set, NULL);
    cpu_loop_exit();
A
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839 840
    /* never comes here */
    return 1;
841
}
842 843
#elif defined(TARGET_SPARC)
static inline int handle_cpu_signal(unsigned long pc, unsigned long address,
844 845
                                    int is_write, sigset_t *old_set,
                                    void *puc)
846
{
B
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847 848 849 850 851 852
    TranslationBlock *tb;
    int ret;

    if (cpu_single_env)
        env = cpu_single_env; /* XXX: find a correct solution for multithread */
#if defined(DEBUG_SIGNAL)
853
    printf("qemu: SIGSEGV pc=0x%08lx address=%08lx w=%d oldset=0x%08lx\n",
B
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854 855
           pc, address, is_write, *(unsigned long *)old_set);
#endif
B
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856
    /* XXX: locking issue */
857
    if (is_write && page_unprotect(h2g(address), pc, puc)) {
B
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858 859
        return 1;
    }
B
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860
    /* see if it is an MMU fault */
861
    ret = cpu_sparc_handle_mmu_fault(env, address, is_write, MMU_USER_IDX, 0);
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862 863 864 865 866 867 868 869 870 871 872 873 874 875 876
    if (ret < 0)
        return 0; /* not an MMU fault */
    if (ret == 0)
        return 1; /* the MMU fault was handled without causing real CPU fault */
    /* now we have a real cpu fault */
    tb = tb_find_pc(pc);
    if (tb) {
        /* the PC is inside the translated code. It means that we have
           a virtual CPU fault */
        cpu_restore_state(tb, env, pc, puc);
    }
    /* we restore the process signal mask as the sigreturn should
       do it (XXX: use sigsetjmp) */
    sigprocmask(SIG_SETMASK, old_set, NULL);
    cpu_loop_exit();
A
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877 878
    /* never comes here */
    return 1;
879
}
880 881
#elif defined (TARGET_PPC)
static inline int handle_cpu_signal(unsigned long pc, unsigned long address,
882 883
                                    int is_write, sigset_t *old_set,
                                    void *puc)
884 885
{
    TranslationBlock *tb;
886
    int ret;
887

888 889 890
    if (cpu_single_env)
        env = cpu_single_env; /* XXX: find a correct solution for multithread */
#if defined(DEBUG_SIGNAL)
891
    printf("qemu: SIGSEGV pc=0x%08lx address=%08lx w=%d oldset=0x%08lx\n",
892 893 894
           pc, address, is_write, *(unsigned long *)old_set);
#endif
    /* XXX: locking issue */
895
    if (is_write && page_unprotect(h2g(address), pc, puc)) {
896 897 898
        return 1;
    }

899
    /* see if it is an MMU fault */
900
    ret = cpu_ppc_handle_mmu_fault(env, address, is_write, MMU_USER_IDX, 0);
901 902 903 904 905
    if (ret < 0)
        return 0; /* not an MMU fault */
    if (ret == 0)
        return 1; /* the MMU fault was handled without causing real CPU fault */

906 907 908 909 910
    /* now we have a real cpu fault */
    tb = tb_find_pc(pc);
    if (tb) {
        /* the PC is inside the translated code. It means that we have
           a virtual CPU fault */
911
        cpu_restore_state(tb, env, pc, puc);
912
    }
913
    if (ret == 1) {
914
#if 0
915
        printf("PF exception: NIP=0x%08x error=0x%x %p\n",
916
               env->nip, env->error_code, tb);
917 918 919
#endif
    /* we restore the process signal mask as the sigreturn should
       do it (XXX: use sigsetjmp) */
920
        sigprocmask(SIG_SETMASK, old_set, NULL);
A
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921
        cpu_loop_exit();
922 923
    } else {
        /* activate soft MMU for this block */
924
        cpu_resume_from_signal(env, puc);
925
    }
926
    /* never comes here */
P
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927 928 929 930 931 932 933 934 935 936 937 938 939 940
    return 1;
}

#elif defined(TARGET_M68K)
static inline int handle_cpu_signal(unsigned long pc, unsigned long address,
                                    int is_write, sigset_t *old_set,
                                    void *puc)
{
    TranslationBlock *tb;
    int ret;

    if (cpu_single_env)
        env = cpu_single_env; /* XXX: find a correct solution for multithread */
#if defined(DEBUG_SIGNAL)
941
    printf("qemu: SIGSEGV pc=0x%08lx address=%08lx w=%d oldset=0x%08lx\n",
P
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           pc, address, is_write, *(unsigned long *)old_set);
#endif
    /* XXX: locking issue */
    if (is_write && page_unprotect(address, pc, puc)) {
        return 1;
    }
    /* see if it is an MMU fault */
949
    ret = cpu_m68k_handle_mmu_fault(env, address, is_write, MMU_USER_IDX, 0);
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    if (ret < 0)
        return 0; /* not an MMU fault */
    if (ret == 0)
        return 1; /* the MMU fault was handled without causing real CPU fault */
    /* now we have a real cpu fault */
    tb = tb_find_pc(pc);
    if (tb) {
        /* the PC is inside the translated code. It means that we have
           a virtual CPU fault */
        cpu_restore_state(tb, env, pc, puc);
    }
    /* we restore the process signal mask as the sigreturn should
       do it (XXX: use sigsetjmp) */
    sigprocmask(SIG_SETMASK, old_set, NULL);
    cpu_loop_exit();
    /* never comes here */
966 967
    return 1;
}
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#elif defined (TARGET_MIPS)
static inline int handle_cpu_signal(unsigned long pc, unsigned long address,
                                    int is_write, sigset_t *old_set,
                                    void *puc)
{
    TranslationBlock *tb;
    int ret;
976

B
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977 978 979
    if (cpu_single_env)
        env = cpu_single_env; /* XXX: find a correct solution for multithread */
#if defined(DEBUG_SIGNAL)
980
    printf("qemu: SIGSEGV pc=0x%08lx address=%08lx w=%d oldset=0x%08lx\n",
B
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981 982 983
           pc, address, is_write, *(unsigned long *)old_set);
#endif
    /* XXX: locking issue */
984
    if (is_write && page_unprotect(h2g(address), pc, puc)) {
B
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985 986 987 988
        return 1;
    }

    /* see if it is an MMU fault */
989
    ret = cpu_mips_handle_mmu_fault(env, address, is_write, MMU_USER_IDX, 0);
B
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990 991 992 993 994 995 996 997 998 999 1000 1001 1002 1003
    if (ret < 0)
        return 0; /* not an MMU fault */
    if (ret == 0)
        return 1; /* the MMU fault was handled without causing real CPU fault */

    /* now we have a real cpu fault */
    tb = tb_find_pc(pc);
    if (tb) {
        /* the PC is inside the translated code. It means that we have
           a virtual CPU fault */
        cpu_restore_state(tb, env, pc, puc);
    }
    if (ret == 1) {
#if 0
1004
        printf("PF exception: PC=0x" TARGET_FMT_lx " error=0x%x %p\n",
T
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1005
               env->PC, env->error_code, tb);
B
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#endif
    /* we restore the process signal mask as the sigreturn should
       do it (XXX: use sigsetjmp) */
        sigprocmask(SIG_SETMASK, old_set, NULL);
        do_raise_exception_err(env->exception_index, env->error_code);
    } else {
        /* activate soft MMU for this block */
        cpu_resume_from_signal(env, puc);
    }
    /* never comes here */
    return 1;
}

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#elif defined (TARGET_SH4)
static inline int handle_cpu_signal(unsigned long pc, unsigned long address,
                                    int is_write, sigset_t *old_set,
                                    void *puc)
{
    TranslationBlock *tb;
    int ret;
1026

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    if (cpu_single_env)
        env = cpu_single_env; /* XXX: find a correct solution for multithread */
#if defined(DEBUG_SIGNAL)
1030
    printf("qemu: SIGSEGV pc=0x%08lx address=%08lx w=%d oldset=0x%08lx\n",
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           pc, address, is_write, *(unsigned long *)old_set);
#endif
    /* XXX: locking issue */
    if (is_write && page_unprotect(h2g(address), pc, puc)) {
        return 1;
    }

    /* see if it is an MMU fault */
1039
    ret = cpu_sh4_handle_mmu_fault(env, address, is_write, MMU_USER_IDX, 0);
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    if (ret < 0)
        return 0; /* not an MMU fault */
    if (ret == 0)
        return 1; /* the MMU fault was handled without causing real CPU fault */

    /* now we have a real cpu fault */
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    tb = tb_find_pc(pc);
    if (tb) {
        /* the PC is inside the translated code. It means that we have
           a virtual CPU fault */
        cpu_restore_state(tb, env, pc, puc);
    }
#if 0
1053
        printf("PF exception: NIP=0x%08x error=0x%x %p\n",
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               env->nip, env->error_code, tb);
#endif
    /* we restore the process signal mask as the sigreturn should
       do it (XXX: use sigsetjmp) */
    sigprocmask(SIG_SETMASK, old_set, NULL);
    cpu_loop_exit();
    /* never comes here */
    return 1;
}

#elif defined (TARGET_ALPHA)
static inline int handle_cpu_signal(unsigned long pc, unsigned long address,
                                    int is_write, sigset_t *old_set,
                                    void *puc)
{
    TranslationBlock *tb;
    int ret;
1071

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    if (cpu_single_env)
        env = cpu_single_env; /* XXX: find a correct solution for multithread */
#if defined(DEBUG_SIGNAL)
1075
    printf("qemu: SIGSEGV pc=0x%08lx address=%08lx w=%d oldset=0x%08lx\n",
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           pc, address, is_write, *(unsigned long *)old_set);
#endif
    /* XXX: locking issue */
    if (is_write && page_unprotect(h2g(address), pc, puc)) {
        return 1;
    }

    /* see if it is an MMU fault */
1084
    ret = cpu_alpha_handle_mmu_fault(env, address, is_write, MMU_USER_IDX, 0);
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    if (ret < 0)
        return 0; /* not an MMU fault */
    if (ret == 0)
        return 1; /* the MMU fault was handled without causing real CPU fault */

    /* now we have a real cpu fault */
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    tb = tb_find_pc(pc);
    if (tb) {
        /* the PC is inside the translated code. It means that we have
           a virtual CPU fault */
        cpu_restore_state(tb, env, pc, puc);
    }
#if 0
1098
        printf("PF exception: NIP=0x%08x error=0x%x %p\n",
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               env->nip, env->error_code, tb);
#endif
    /* we restore the process signal mask as the sigreturn should
       do it (XXX: use sigsetjmp) */
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    sigprocmask(SIG_SETMASK, old_set, NULL);
    cpu_loop_exit();
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    /* never comes here */
    return 1;
}
1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127
#elif defined (TARGET_CRIS)
static inline int handle_cpu_signal(unsigned long pc, unsigned long address,
                                    int is_write, sigset_t *old_set,
                                    void *puc)
{
    TranslationBlock *tb;
    int ret;

    if (cpu_single_env)
        env = cpu_single_env; /* XXX: find a correct solution for multithread */
#if defined(DEBUG_SIGNAL)
    printf("qemu: SIGSEGV pc=0x%08lx address=%08lx w=%d oldset=0x%08lx\n",
           pc, address, is_write, *(unsigned long *)old_set);
#endif
    /* XXX: locking issue */
    if (is_write && page_unprotect(h2g(address), pc, puc)) {
        return 1;
    }

    /* see if it is an MMU fault */
1128
    ret = cpu_cris_handle_mmu_fault(env, address, is_write, MMU_USER_IDX, 0);
1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148
    if (ret < 0)
        return 0; /* not an MMU fault */
    if (ret == 0)
        return 1; /* the MMU fault was handled without causing real CPU fault */

    /* now we have a real cpu fault */
    tb = tb_find_pc(pc);
    if (tb) {
        /* the PC is inside the translated code. It means that we have
           a virtual CPU fault */
        cpu_restore_state(tb, env, pc, puc);
    }
    /* we restore the process signal mask as the sigreturn should
       do it (XXX: use sigsetjmp) */
    sigprocmask(SIG_SETMASK, old_set, NULL);
    cpu_loop_exit();
    /* never comes here */
    return 1;
}

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#else
#error unsupported target CPU
#endif
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#if defined(__i386__)

1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166
#if defined(__APPLE__)
# include <sys/ucontext.h>

# define EIP_sig(context)  (*((unsigned long*)&(context)->uc_mcontext->ss.eip))
# define TRAP_sig(context)    ((context)->uc_mcontext->es.trapno)
# define ERROR_sig(context)   ((context)->uc_mcontext->es.err)
#else
# define EIP_sig(context)     ((context)->uc_mcontext.gregs[REG_EIP])
# define TRAP_sig(context)    ((context)->uc_mcontext.gregs[REG_TRAPNO])
# define ERROR_sig(context)   ((context)->uc_mcontext.gregs[REG_ERR])
#endif

1167
int cpu_signal_handler(int host_signum, void *pinfo,
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                       void *puc)
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{
1170
    siginfo_t *info = pinfo;
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    struct ucontext *uc = puc;
    unsigned long pc;
1173
    int trapno;
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1175 1176
#ifndef REG_EIP
/* for glibc 2.1 */
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#define REG_EIP    EIP
#define REG_ERR    ERR
#define REG_TRAPNO TRAPNO
1180
#endif
1181 1182
    pc = EIP_sig(uc);
    trapno = TRAP_sig(uc);
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    return handle_cpu_signal(pc, (unsigned long)info->si_addr,
                             trapno == 0xe ?
                             (ERROR_sig(uc) >> 1) & 1 : 0,
                             &uc->uc_sigmask, puc);
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}

1189 1190
#elif defined(__x86_64__)

1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 1201
#ifdef __NetBSD__
#define REG_ERR _REG_ERR
#define REG_TRAPNO _REG_TRAPNO

#define QEMU_UC_MCONTEXT_GREGS(uc, reg)	(uc)->uc_mcontext.__gregs[(reg)]
#define QEMU_UC_MACHINE_PC(uc)		_UC_MACHINE_PC(uc)
#else
#define QEMU_UC_MCONTEXT_GREGS(uc, reg)	(uc)->uc_mcontext.gregs[(reg)]
#define QEMU_UC_MACHINE_PC(uc)		QEMU_UC_MCONTEXT_GREGS(uc, REG_RIP)
#endif

1202
int cpu_signal_handler(int host_signum, void *pinfo,
1203 1204
                       void *puc)
{
1205
    siginfo_t *info = pinfo;
1206
    unsigned long pc;
1207 1208 1209 1210 1211
#ifdef __NetBSD__
    ucontext_t *uc = puc;
#else
    struct ucontext *uc = puc;
#endif
1212

1213
    pc = QEMU_UC_MACHINE_PC(uc);
1214
    return handle_cpu_signal(pc, (unsigned long)info->si_addr,
1215 1216
                             QEMU_UC_MCONTEXT_GREGS(uc, REG_TRAPNO) == 0xe ?
                             (QEMU_UC_MCONTEXT_GREGS(uc, REG_ERR) >> 1) & 1 : 0,
1217 1218 1219
                             &uc->uc_sigmask, puc);
}

1220
#elif defined(__powerpc__)
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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270
/***********************************************************************
 * signal context platform-specific definitions
 * From Wine
 */
#ifdef linux
/* All Registers access - only for local access */
# define REG_sig(reg_name, context)		((context)->uc_mcontext.regs->reg_name)
/* Gpr Registers access  */
# define GPR_sig(reg_num, context)		REG_sig(gpr[reg_num], context)
# define IAR_sig(context)			REG_sig(nip, context)	/* Program counter */
# define MSR_sig(context)			REG_sig(msr, context)   /* Machine State Register (Supervisor) */
# define CTR_sig(context)			REG_sig(ctr, context)   /* Count register */
# define XER_sig(context)			REG_sig(xer, context) /* User's integer exception register */
# define LR_sig(context)			REG_sig(link, context) /* Link register */
# define CR_sig(context)			REG_sig(ccr, context) /* Condition register */
/* Float Registers access  */
# define FLOAT_sig(reg_num, context)		(((double*)((char*)((context)->uc_mcontext.regs+48*4)))[reg_num])
# define FPSCR_sig(context)			(*(int*)((char*)((context)->uc_mcontext.regs+(48+32*2)*4)))
/* Exception Registers access */
# define DAR_sig(context)			REG_sig(dar, context)
# define DSISR_sig(context)			REG_sig(dsisr, context)
# define TRAP_sig(context)			REG_sig(trap, context)
#endif /* linux */

#ifdef __APPLE__
# include <sys/ucontext.h>
typedef struct ucontext SIGCONTEXT;
/* All Registers access - only for local access */
# define REG_sig(reg_name, context)		((context)->uc_mcontext->ss.reg_name)
# define FLOATREG_sig(reg_name, context)	((context)->uc_mcontext->fs.reg_name)
# define EXCEPREG_sig(reg_name, context)	((context)->uc_mcontext->es.reg_name)
# define VECREG_sig(reg_name, context)		((context)->uc_mcontext->vs.reg_name)
/* Gpr Registers access */
# define GPR_sig(reg_num, context)		REG_sig(r##reg_num, context)
# define IAR_sig(context)			REG_sig(srr0, context)	/* Program counter */
# define MSR_sig(context)			REG_sig(srr1, context)  /* Machine State Register (Supervisor) */
# define CTR_sig(context)			REG_sig(ctr, context)
# define XER_sig(context)			REG_sig(xer, context) /* Link register */
# define LR_sig(context)			REG_sig(lr, context)  /* User's integer exception register */
# define CR_sig(context)			REG_sig(cr, context)  /* Condition register */
/* Float Registers access */
# define FLOAT_sig(reg_num, context)		FLOATREG_sig(fpregs[reg_num], context)
# define FPSCR_sig(context)			((double)FLOATREG_sig(fpscr, context))
/* Exception Registers access */
# define DAR_sig(context)			EXCEPREG_sig(dar, context)     /* Fault registers for coredump */
# define DSISR_sig(context)			EXCEPREG_sig(dsisr, context)
# define TRAP_sig(context)			EXCEPREG_sig(exception, context) /* number of powerpc exception taken */
#endif /* __APPLE__ */

1271
int cpu_signal_handler(int host_signum, void *pinfo,
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                       void *puc)
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{
1274
    siginfo_t *info = pinfo;
1275 1276 1277 1278
    struct ucontext *uc = puc;
    unsigned long pc;
    int is_write;

1279
    pc = IAR_sig(uc);
1280 1281 1282
    is_write = 0;
#if 0
    /* ppc 4xx case */
1283
    if (DSISR_sig(uc) & 0x00800000)
1284 1285
        is_write = 1;
#else
1286
    if (TRAP_sig(uc) != 0x400 && (DSISR_sig(uc) & 0x02000000))
1287 1288
        is_write = 1;
#endif
1289
    return handle_cpu_signal(pc, (unsigned long)info->si_addr,
1290
                             is_write, &uc->uc_sigmask, puc);
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}

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#elif defined(__alpha__)

1295
int cpu_signal_handler(int host_signum, void *pinfo,
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                           void *puc)
{
1298
    siginfo_t *info = pinfo;
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    struct ucontext *uc = puc;
    uint32_t *pc = uc->uc_mcontext.sc_pc;
    uint32_t insn = *pc;
    int is_write = 0;

1304
    /* XXX: need kernel patch to get write flag faster */
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    switch (insn >> 26) {
    case 0x0d: // stw
    case 0x0e: // stb
    case 0x0f: // stq_u
    case 0x24: // stf
    case 0x25: // stg
    case 0x26: // sts
    case 0x27: // stt
    case 0x2c: // stl
    case 0x2d: // stq
    case 0x2e: // stl_c
    case 0x2f: // stq_c
	is_write = 1;
    }

1320
    return handle_cpu_signal(pc, (unsigned long)info->si_addr,
1321
                             is_write, &uc->uc_sigmask, puc);
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}
1323 1324
#elif defined(__sparc__)

1325
int cpu_signal_handler(int host_signum, void *pinfo,
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                       void *puc)
1327
{
1328
    siginfo_t *info = pinfo;
1329 1330
    int is_write;
    uint32_t insn;
1331
#if !defined(__arch64__) || defined(HOST_SOLARIS)
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    uint32_t *regs = (uint32_t *)(info + 1);
    void *sigmask = (regs + 20);
1334
    /* XXX: is there a standard glibc define ? */
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    unsigned long pc = regs[1];
#else
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#ifdef __linux__
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    struct sigcontext *sc = puc;
    unsigned long pc = sc->sigc_regs.tpc;
    void *sigmask = (void *)sc->sigc_mask;
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#elif defined(__OpenBSD__)
    struct sigcontext *uc = puc;
    unsigned long pc = uc->sc_pc;
    void *sigmask = (void *)(long)uc->sc_mask;
#endif
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#endif

1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363
    /* XXX: need kernel patch to get write flag faster */
    is_write = 0;
    insn = *(uint32_t *)pc;
    if ((insn >> 30) == 3) {
      switch((insn >> 19) & 0x3f) {
      case 0x05: // stb
      case 0x06: // sth
      case 0x04: // st
      case 0x07: // std
      case 0x24: // stf
      case 0x27: // stdf
      case 0x25: // stfsr
	is_write = 1;
	break;
      }
    }
1364
    return handle_cpu_signal(pc, (unsigned long)info->si_addr,
1365
                             is_write, sigmask, NULL);
1366 1367 1368 1369
}

#elif defined(__arm__)

1370
int cpu_signal_handler(int host_signum, void *pinfo,
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                       void *puc)
1372
{
1373
    siginfo_t *info = pinfo;
1374 1375 1376
    struct ucontext *uc = puc;
    unsigned long pc;
    int is_write;
1377

1378
#if (__GLIBC__ < 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ <= 3))
1379 1380
    pc = uc->uc_mcontext.gregs[R15];
#else
1381
    pc = uc->uc_mcontext.arm_pc;
1382
#endif
1383 1384
    /* XXX: compute is_write */
    is_write = 0;
1385
    return handle_cpu_signal(pc, (unsigned long)info->si_addr,
1386
                             is_write,
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                             &uc->uc_sigmask, puc);
1388 1389
}

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#elif defined(__mc68000)

1392
int cpu_signal_handler(int host_signum, void *pinfo,
B
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1393 1394
                       void *puc)
{
1395
    siginfo_t *info = pinfo;
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    struct ucontext *uc = puc;
    unsigned long pc;
    int is_write;
1399

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    pc = uc->uc_mcontext.gregs[16];
    /* XXX: compute is_write */
    is_write = 0;
1403
    return handle_cpu_signal(pc, (unsigned long)info->si_addr,
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                             is_write,
1405
                             &uc->uc_sigmask, puc);
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}

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#elif defined(__ia64)

#ifndef __ISR_VALID
  /* This ought to be in <bits/siginfo.h>... */
# define __ISR_VALID	1
#endif

1415
int cpu_signal_handler(int host_signum, void *pinfo, void *puc)
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{
1417
    siginfo_t *info = pinfo;
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    struct ucontext *uc = puc;
    unsigned long ip;
    int is_write = 0;

    ip = uc->uc_mcontext.sc_ip;
    switch (host_signum) {
      case SIGILL:
      case SIGFPE:
      case SIGSEGV:
      case SIGBUS:
      case SIGTRAP:
B
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	  if (info->si_code && (info->si_segvflags & __ISR_VALID))
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	      /* ISR.W (write-access) is bit 33:  */
	      is_write = (info->si_isr >> 33) & 1;
	  break;

      default:
	  break;
    }
    return handle_cpu_signal(ip, (unsigned long)info->si_addr,
                             is_write,
                             &uc->uc_sigmask, puc);
}

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#elif defined(__s390__)

1444
int cpu_signal_handler(int host_signum, void *pinfo,
B
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1445 1446
                       void *puc)
{
1447
    siginfo_t *info = pinfo;
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1448 1449 1450
    struct ucontext *uc = puc;
    unsigned long pc;
    int is_write;
1451

B
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1452 1453 1454
    pc = uc->uc_mcontext.psw.addr;
    /* XXX: compute is_write */
    is_write = 0;
1455
    return handle_cpu_signal(pc, (unsigned long)info->si_addr,
1456 1457 1458 1459 1460
                             is_write, &uc->uc_sigmask, puc);
}

#elif defined(__mips__)

1461
int cpu_signal_handler(int host_signum, void *pinfo,
1462 1463
                       void *puc)
{
T
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    siginfo_t *info = pinfo;
1465 1466 1467
    struct ucontext *uc = puc;
    greg_t pc = uc->uc_mcontext.pc;
    int is_write;
1468

1469 1470
    /* XXX: compute is_write */
    is_write = 0;
1471
    return handle_cpu_signal(pc, (unsigned long)info->si_addr,
1472
                             is_write, &uc->uc_sigmask, puc);
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}

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#elif defined(__hppa__)

int cpu_signal_handler(int host_signum, void *pinfo,
                       void *puc)
{
    struct siginfo *info = pinfo;
    struct ucontext *uc = puc;
    unsigned long pc;
    int is_write;

    pc = uc->uc_mcontext.sc_iaoq[0];
    /* FIXME: compute is_write */
    is_write = 0;
    return handle_cpu_signal(pc, (unsigned long)info->si_addr, 
                             is_write,
                             &uc->uc_sigmask, puc);
}

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#else
B
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1495
#error host CPU specific signal handler needed
B
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1496

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#endif
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#endif /* !defined(CONFIG_SOFTMMU) */