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475 lines
14 KiB
C
475 lines
14 KiB
C
/*
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* Generic intermediate code generation.
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*
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* Copyright (C) 2016-2017 Lluís Vilanova <vilanova@ac.upc.edu>
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*
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* This work is licensed under the terms of the GNU GPL, version 2 or later.
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* See the COPYING file in the top-level directory.
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*/
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#include "qemu/osdep.h"
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#include "qemu/log.h"
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#include "qemu/error-report.h"
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#include "exec/exec-all.h"
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#include "exec/translator.h"
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#include "exec/cpu_ldst.h"
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#include "exec/plugin-gen.h"
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#include "exec/cpu_ldst.h"
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#include "tcg/tcg-op-common.h"
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#include "internal-target.h"
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#include "disas/disas.h"
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static void set_can_do_io(DisasContextBase *db, bool val)
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{
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QEMU_BUILD_BUG_ON(sizeof_field(CPUState, neg.can_do_io) != 1);
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tcg_gen_st8_i32(tcg_constant_i32(val), tcg_env,
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offsetof(ArchCPU, parent_obj.neg.can_do_io) -
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offsetof(ArchCPU, env));
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}
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bool translator_io_start(DisasContextBase *db)
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{
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/*
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* Ensure that this instruction will be the last in the TB.
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* The target may override this to something more forceful.
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*/
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if (db->is_jmp == DISAS_NEXT) {
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db->is_jmp = DISAS_TOO_MANY;
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}
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return true;
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}
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static TCGOp *gen_tb_start(DisasContextBase *db, uint32_t cflags)
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{
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TCGv_i32 count = NULL;
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TCGOp *icount_start_insn = NULL;
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if ((cflags & CF_USE_ICOUNT) || !(cflags & CF_NOIRQ)) {
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count = tcg_temp_new_i32();
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tcg_gen_ld_i32(count, tcg_env,
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offsetof(ArchCPU, parent_obj.neg.icount_decr.u32)
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- offsetof(ArchCPU, env));
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}
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if (cflags & CF_USE_ICOUNT) {
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/*
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* We emit a sub with a dummy immediate argument. Keep the insn index
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* of the sub so that we later (when we know the actual insn count)
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* can update the argument with the actual insn count.
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*/
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tcg_gen_sub_i32(count, count, tcg_constant_i32(0));
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icount_start_insn = tcg_last_op();
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}
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/*
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* Emit the check against icount_decr.u32 to see if we should exit
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* unless we suppress the check with CF_NOIRQ. If we are using
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* icount and have suppressed interruption the higher level code
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* should have ensured we don't run more instructions than the
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* budget.
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*/
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if (cflags & CF_NOIRQ) {
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tcg_ctx->exitreq_label = NULL;
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} else {
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tcg_ctx->exitreq_label = gen_new_label();
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tcg_gen_brcondi_i32(TCG_COND_LT, count, 0, tcg_ctx->exitreq_label);
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}
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if (cflags & CF_USE_ICOUNT) {
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tcg_gen_st16_i32(count, tcg_env,
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offsetof(ArchCPU, parent_obj.neg.icount_decr.u16.low)
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- offsetof(ArchCPU, env));
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}
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return icount_start_insn;
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}
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static void gen_tb_end(const TranslationBlock *tb, uint32_t cflags,
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TCGOp *icount_start_insn, int num_insns)
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{
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if (cflags & CF_USE_ICOUNT) {
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/*
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* Update the num_insn immediate parameter now that we know
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* the actual insn count.
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*/
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tcg_set_insn_param(icount_start_insn, 2,
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tcgv_i32_arg(tcg_constant_i32(num_insns)));
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}
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if (tcg_ctx->exitreq_label) {
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gen_set_label(tcg_ctx->exitreq_label);
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tcg_gen_exit_tb(tb, TB_EXIT_REQUESTED);
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}
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}
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bool translator_use_goto_tb(DisasContextBase *db, vaddr dest)
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{
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/* Suppress goto_tb if requested. */
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if (tb_cflags(db->tb) & CF_NO_GOTO_TB) {
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return false;
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}
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/* Check for the dest on the same page as the start of the TB. */
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return ((db->pc_first ^ dest) & TARGET_PAGE_MASK) == 0;
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}
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void translator_loop(CPUState *cpu, TranslationBlock *tb, int *max_insns,
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vaddr pc, void *host_pc, const TranslatorOps *ops,
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DisasContextBase *db)
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{
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uint32_t cflags = tb_cflags(tb);
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TCGOp *icount_start_insn;
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TCGOp *first_insn_start = NULL;
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bool plugin_enabled;
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/* Initialize DisasContext */
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db->tb = tb;
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db->pc_first = pc;
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db->pc_next = pc;
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db->is_jmp = DISAS_NEXT;
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db->num_insns = 0;
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db->max_insns = *max_insns;
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db->insn_start = NULL;
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db->fake_insn = false;
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db->host_addr[0] = host_pc;
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db->host_addr[1] = NULL;
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db->record_start = 0;
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db->record_len = 0;
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ops->init_disas_context(db, cpu);
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tcg_debug_assert(db->is_jmp == DISAS_NEXT); /* no early exit */
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/* Start translating. */
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icount_start_insn = gen_tb_start(db, cflags);
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ops->tb_start(db, cpu);
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tcg_debug_assert(db->is_jmp == DISAS_NEXT); /* no early exit */
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plugin_enabled = plugin_gen_tb_start(cpu, db);
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db->plugin_enabled = plugin_enabled;
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while (true) {
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*max_insns = ++db->num_insns;
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ops->insn_start(db, cpu);
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db->insn_start = tcg_last_op();
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if (first_insn_start == NULL) {
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first_insn_start = db->insn_start;
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}
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tcg_debug_assert(db->is_jmp == DISAS_NEXT); /* no early exit */
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if (plugin_enabled) {
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plugin_gen_insn_start(cpu, db);
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}
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/*
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* Disassemble one instruction. The translate_insn hook should
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* update db->pc_next and db->is_jmp to indicate what should be
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* done next -- either exiting this loop or locate the start of
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* the next instruction.
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*/
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ops->translate_insn(db, cpu);
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/*
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* We can't instrument after instructions that change control
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* flow although this only really affects post-load operations.
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*
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* Calling plugin_gen_insn_end() before we possibly stop translation
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* is important. Even if this ends up as dead code, plugin generation
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* needs to see a matching plugin_gen_insn_{start,end}() pair in order
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* to accurately track instrumented helpers that might access memory.
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*/
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if (plugin_enabled) {
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plugin_gen_insn_end();
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}
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/* Stop translation if translate_insn so indicated. */
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if (db->is_jmp != DISAS_NEXT) {
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break;
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}
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/* Stop translation if the output buffer is full,
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or we have executed all of the allowed instructions. */
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if (tcg_op_buf_full() || db->num_insns >= db->max_insns) {
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db->is_jmp = DISAS_TOO_MANY;
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break;
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}
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}
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/* Emit code to exit the TB, as indicated by db->is_jmp. */
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ops->tb_stop(db, cpu);
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gen_tb_end(tb, cflags, icount_start_insn, db->num_insns);
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/*
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* Manage can_do_io for the translation block: set to false before
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* the first insn and set to true before the last insn.
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*/
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if (db->num_insns == 1) {
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tcg_debug_assert(first_insn_start == db->insn_start);
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} else {
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tcg_debug_assert(first_insn_start != db->insn_start);
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tcg_ctx->emit_before_op = first_insn_start;
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set_can_do_io(db, false);
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}
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tcg_ctx->emit_before_op = db->insn_start;
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set_can_do_io(db, true);
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tcg_ctx->emit_before_op = NULL;
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/* May be used by disas_log or plugin callbacks. */
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tb->size = db->pc_next - db->pc_first;
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tb->icount = db->num_insns;
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if (plugin_enabled) {
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plugin_gen_tb_end(cpu, db->num_insns);
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}
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if (qemu_loglevel_mask(CPU_LOG_TB_IN_ASM)
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&& qemu_log_in_addr_range(db->pc_first)) {
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FILE *logfile = qemu_log_trylock();
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if (logfile) {
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fprintf(logfile, "----------------\n");
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if (!ops->disas_log ||
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!ops->disas_log(db, cpu, logfile)) {
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fprintf(logfile, "IN: %s\n", lookup_symbol(db->pc_first));
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target_disas(logfile, cpu, db);
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}
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fprintf(logfile, "\n");
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qemu_log_unlock(logfile);
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}
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}
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}
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static bool translator_ld(CPUArchState *env, DisasContextBase *db,
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void *dest, vaddr pc, size_t len)
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{
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TranslationBlock *tb = db->tb;
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vaddr last = pc + len - 1;
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void *host;
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vaddr base;
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/* Use slow path if first page is MMIO. */
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if (unlikely(tb_page_addr0(tb) == -1)) {
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/* We capped translation with first page MMIO in tb_gen_code. */
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tcg_debug_assert(db->max_insns == 1);
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return false;
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}
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host = db->host_addr[0];
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base = db->pc_first;
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if (likely(((base ^ last) & TARGET_PAGE_MASK) == 0)) {
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/* Entire read is from the first page. */
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memcpy(dest, host + (pc - base), len);
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return true;
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}
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if (unlikely(((base ^ pc) & TARGET_PAGE_MASK) == 0)) {
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/* Read begins on the first page and extends to the second. */
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size_t len0 = -(pc | TARGET_PAGE_MASK);
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memcpy(dest, host + (pc - base), len0);
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pc += len0;
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dest += len0;
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len -= len0;
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}
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/*
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* The read must conclude on the second page and not extend to a third.
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*
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* TODO: We could allow the two pages to be virtually discontiguous,
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* since we already allow the two pages to be physically discontiguous.
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* The only reasonable use case would be executing an insn at the end
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* of the address space wrapping around to the beginning. For that,
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* we would need to know the current width of the address space.
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* In the meantime, assert.
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*/
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base = (base & TARGET_PAGE_MASK) + TARGET_PAGE_SIZE;
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assert(((base ^ pc) & TARGET_PAGE_MASK) == 0);
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assert(((base ^ last) & TARGET_PAGE_MASK) == 0);
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host = db->host_addr[1];
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if (host == NULL) {
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tb_page_addr_t page0, old_page1, new_page1;
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new_page1 = get_page_addr_code_hostp(env, base, &db->host_addr[1]);
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/*
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* If the second page is MMIO, treat as if the first page
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* was MMIO as well, so that we do not cache the TB.
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*/
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if (unlikely(new_page1 == -1)) {
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tb_unlock_pages(tb);
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tb_set_page_addr0(tb, -1);
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/* Require that this be the final insn. */
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db->max_insns = db->num_insns;
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return false;
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}
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/*
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* If this is not the first time around, and page1 matches,
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* then we already have the page locked. Alternately, we're
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* not doing anything to prevent the PTE from changing, so
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* we might wind up with a different page, requiring us to
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* re-do the locking.
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*/
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old_page1 = tb_page_addr1(tb);
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if (likely(new_page1 != old_page1)) {
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page0 = tb_page_addr0(tb);
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if (unlikely(old_page1 != -1)) {
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tb_unlock_page1(page0, old_page1);
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}
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tb_set_page_addr1(tb, new_page1);
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tb_lock_page1(page0, new_page1);
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}
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host = db->host_addr[1];
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}
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memcpy(dest, host + (pc - base), len);
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return true;
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}
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static void record_save(DisasContextBase *db, vaddr pc,
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const void *from, int size)
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{
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int offset;
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/* Do not record probes before the start of TB. */
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if (pc < db->pc_first) {
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return;
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}
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/*
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* In translator_access, we verified that pc is within 2 pages
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* of pc_first, thus this will never overflow.
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*/
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offset = pc - db->pc_first;
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/*
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* Either the first or second page may be I/O. If it is the second,
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* then the first byte we need to record will be at a non-zero offset.
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* In either case, we should not need to record but a single insn.
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*/
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if (db->record_len == 0) {
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db->record_start = offset;
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db->record_len = size;
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} else {
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assert(offset == db->record_start + db->record_len);
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assert(db->record_len + size <= sizeof(db->record));
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db->record_len += size;
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}
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memcpy(db->record + (offset - db->record_start), from, size);
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}
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size_t translator_st_len(const DisasContextBase *db)
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{
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return db->fake_insn ? db->record_len : db->tb->size;
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}
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bool translator_st(const DisasContextBase *db, void *dest,
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vaddr addr, size_t len)
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{
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size_t offset, offset_end;
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if (addr < db->pc_first) {
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return false;
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}
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offset = addr - db->pc_first;
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offset_end = offset + len;
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if (offset_end > translator_st_len(db)) {
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return false;
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}
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if (!db->fake_insn) {
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size_t offset_page1 = -(db->pc_first | TARGET_PAGE_MASK);
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/* Get all the bytes from the first page. */
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if (db->host_addr[0]) {
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if (offset_end <= offset_page1) {
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memcpy(dest, db->host_addr[0] + offset, len);
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return true;
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}
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if (offset < offset_page1) {
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size_t len0 = offset_page1 - offset;
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memcpy(dest, db->host_addr[0] + offset, len0);
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offset += len0;
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dest += len0;
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}
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}
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/* Get any bytes from the second page. */
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if (db->host_addr[1] && offset >= offset_page1) {
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memcpy(dest, db->host_addr[1] + (offset - offset_page1),
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offset_end - offset);
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return true;
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}
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}
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/* Else get recorded bytes. */
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if (db->record_len != 0 &&
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offset >= db->record_start &&
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offset_end <= db->record_start + db->record_len) {
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memcpy(dest, db->record + (offset - db->record_start),
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offset_end - offset);
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return true;
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}
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return false;
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}
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uint8_t translator_ldub(CPUArchState *env, DisasContextBase *db, vaddr pc)
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{
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uint8_t raw;
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if (!translator_ld(env, db, &raw, pc, sizeof(raw))) {
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raw = cpu_ldub_code(env, pc);
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record_save(db, pc, &raw, sizeof(raw));
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}
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return raw;
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}
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uint16_t translator_lduw(CPUArchState *env, DisasContextBase *db, vaddr pc)
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{
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uint16_t raw, tgt;
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if (translator_ld(env, db, &raw, pc, sizeof(raw))) {
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tgt = tswap16(raw);
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} else {
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tgt = cpu_lduw_code(env, pc);
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raw = tswap16(tgt);
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record_save(db, pc, &raw, sizeof(raw));
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}
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return tgt;
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}
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uint32_t translator_ldl(CPUArchState *env, DisasContextBase *db, vaddr pc)
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{
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uint32_t raw, tgt;
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if (translator_ld(env, db, &raw, pc, sizeof(raw))) {
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tgt = tswap32(raw);
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} else {
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tgt = cpu_ldl_code(env, pc);
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raw = tswap32(tgt);
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record_save(db, pc, &raw, sizeof(raw));
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}
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return tgt;
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}
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uint64_t translator_ldq(CPUArchState *env, DisasContextBase *db, vaddr pc)
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{
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uint64_t raw, tgt;
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if (translator_ld(env, db, &raw, pc, sizeof(raw))) {
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tgt = tswap64(raw);
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} else {
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tgt = cpu_ldq_code(env, pc);
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raw = tswap64(tgt);
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record_save(db, pc, &raw, sizeof(raw));
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}
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return tgt;
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}
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void translator_fake_ld(DisasContextBase *db, const void *data, size_t len)
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{
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db->fake_insn = true;
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record_save(db, db->pc_first, data, len);
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}
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