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68a627ea2c
wasm-micro-runtime/core/iwasm/compilation/aot_emit_control.c
Wenyong Huang 68a627ea2c
Fix several AOT compiler issues (#2697) 
- Fix potential invalid push param phis and add incoming phis to a un-existed basic block
- Fix potential invalid shift count int rotl/rotr opcodes
- Resize memory_data_size to UINT32_MAX if it is 4G when hw bound check is enabled
- Fix negative linear memory offset is used for 64-bit target it is const and larger than INT32_MAX
2023-11-02 20:36:21 +08:00

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/*
* Copyright (C) 2019 Intel Corporation. All rights reserved.
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
#include "aot_emit_control.h"
#include "aot_compiler.h"
#include "aot_emit_exception.h"
#include "../aot/aot_runtime.h"
#include "../interpreter/wasm_loader.h"
#if WASM_ENABLE_DEBUG_AOT != 0
#include "debug/dwarf_extractor.h"
#endif
static char *block_name_prefix[] = { "block", "loop", "if" };
static char *block_name_suffix[] = { "begin", "else", "end" };
/* clang-format off */
enum {
LABEL_BEGIN = 0,
LABEL_ELSE,
LABEL_END
};
/* clang-format on */
static void
format_block_name(char *name, uint32 name_size, uint32 block_index,
uint32 label_type, uint32 label_id)
{
if (label_type != LABEL_TYPE_FUNCTION)
snprintf(name, name_size, "%s%d%s%s", block_name_prefix[label_type],
block_index, "_", block_name_suffix[label_id]);
else
snprintf(name, name_size, "%s", "func_end");
}
#define CREATE_BLOCK(new_llvm_block, name) \
do { \
if (!(new_llvm_block = LLVMAppendBasicBlockInContext( \
comp_ctx->context, func_ctx->func, name))) { \
aot_set_last_error("add LLVM basic block failed."); \
goto fail; \
} \
} while (0)
#define CURR_BLOCK() LLVMGetInsertBlock(comp_ctx->builder)
#define MOVE_BLOCK_AFTER(llvm_block, llvm_block_after) \
LLVMMoveBasicBlockAfter(llvm_block, llvm_block_after)
#define MOVE_BLOCK_AFTER_CURR(llvm_block) \
LLVMMoveBasicBlockAfter(llvm_block, CURR_BLOCK())
#define MOVE_BLOCK_BEFORE(llvm_block, llvm_block_before) \
LLVMMoveBasicBlockBefore(llvm_block, llvm_block_before)
#define BUILD_BR(llvm_block) \
do { \
if (!LLVMBuildBr(comp_ctx->builder, llvm_block)) { \
aot_set_last_error("llvm build br failed."); \
goto fail; \
} \
} while (0)
#define BUILD_COND_BR(value_if, block_then, block_else) \
do { \
if (!LLVMBuildCondBr(comp_ctx->builder, value_if, block_then, \
block_else)) { \
aot_set_last_error("llvm build cond br failed."); \
goto fail; \
} \
} while (0)
#define SET_BUILDER_POS(llvm_block) \
LLVMPositionBuilderAtEnd(comp_ctx->builder, llvm_block)
#define CREATE_RESULT_VALUE_PHIS(block) \
do { \
if (block->result_count && !block->result_phis) { \
uint32 _i; \
uint64 _size; \
LLVMBasicBlockRef _block_curr = CURR_BLOCK(); \
/* Allocate memory */ \
_size = sizeof(LLVMValueRef) * (uint64)block->result_count; \
if (_size >= UINT32_MAX \
|| !(block->result_phis = \
wasm_runtime_malloc((uint32)_size))) { \
aot_set_last_error("allocate memory failed."); \
goto fail; \
} \
SET_BUILDER_POS(block->llvm_end_block); \
for (_i = 0; _i < block->result_count; _i++) { \
if (!(block->result_phis[_i] = LLVMBuildPhi( \
comp_ctx->builder, \
TO_LLVM_TYPE(block->result_types[_i]), "phi"))) { \
aot_set_last_error("llvm build phi failed."); \
goto fail; \
} \
} \
SET_BUILDER_POS(_block_curr); \
} \
} while (0)
#define ADD_TO_RESULT_PHIS(block, value, idx) \
do { \
LLVMBasicBlockRef _block_curr = CURR_BLOCK(); \
LLVMTypeRef phi_ty = LLVMTypeOf(block->result_phis[idx]); \
LLVMTypeRef value_ty = LLVMTypeOf(value); \
bh_assert(LLVMGetTypeKind(phi_ty) == LLVMGetTypeKind(value_ty)); \
bh_assert(LLVMGetTypeContext(phi_ty) == LLVMGetTypeContext(value_ty)); \
LLVMAddIncoming(block->result_phis[idx], &value, &_block_curr, 1); \
(void)phi_ty; \
(void)value_ty; \
} while (0)
#define BUILD_ICMP(op, left, right, res, name) \
do { \
if (!(res = \
LLVMBuildICmp(comp_ctx->builder, op, left, right, name))) { \
aot_set_last_error("llvm build icmp failed."); \
goto fail; \
} \
} while (0)
#define ADD_TO_PARAM_PHIS(block, value, idx) \
do { \
LLVMBasicBlockRef _block_curr = CURR_BLOCK(); \
LLVMAddIncoming(block->param_phis[idx], &value, &_block_curr, 1); \
} while (0)
static LLVMBasicBlockRef
find_next_llvm_end_block(AOTBlock *block)
{
block = block->prev;
while (block && !block->llvm_end_block)
block = block->prev;
return block ? block->llvm_end_block : NULL;
}
static AOTBlock *
get_target_block(AOTFuncContext *func_ctx, uint32 br_depth)
{
uint32 i = br_depth;
AOTBlock *block = func_ctx->block_stack.block_list_end;
while (i-- > 0 && block) {
block = block->prev;
}
if (!block) {
aot_set_last_error("WASM block stack underflow.");
return NULL;
}
return block;
}
static bool
handle_next_reachable_block(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
uint8 **p_frame_ip)
{
AOTBlock *block = func_ctx->block_stack.block_list_end;
AOTBlock *block_prev;
uint8 *frame_ip = NULL;
uint32 i;
AOTFuncType *func_type;
LLVMValueRef ret;
#if WASM_ENABLE_DEBUG_AOT != 0
LLVMMetadataRef return_location;
#endif
aot_checked_addr_list_destroy(func_ctx);
bh_assert(block);
#if WASM_ENABLE_DEBUG_AOT != 0
return_location = dwarf_gen_location(
comp_ctx, func_ctx,
(*p_frame_ip - 1) - comp_ctx->comp_data->wasm_module->buf_code);
#endif
if (block->label_type == LABEL_TYPE_IF && block->llvm_else_block
&& *p_frame_ip <= block->wasm_code_else) {
/* Clear value stack and start to translate else branch */
aot_value_stack_destroy(&block->value_stack);
/* Recover parameters of else branch */
for (i = 0; i < block->param_count; i++)
PUSH(block->else_param_phis[i], block->param_types[i]);
SET_BUILDER_POS(block->llvm_else_block);
*p_frame_ip = block->wasm_code_else + 1;
return true;
}
while (block && !block->is_reachable) {
block_prev = block->prev;
block = aot_block_stack_pop(&func_ctx->block_stack);
if (block->label_type == LABEL_TYPE_IF) {
if (block->llvm_else_block && !block->skip_wasm_code_else
&& *p_frame_ip <= block->wasm_code_else) {
/* Clear value stack and start to translate else branch */
aot_value_stack_destroy(&block->value_stack);
SET_BUILDER_POS(block->llvm_else_block);
*p_frame_ip = block->wasm_code_else + 1;
/* Push back the block */
aot_block_stack_push(&func_ctx->block_stack, block);
return true;
}
else if (block->llvm_end_block) {
/* Remove unreachable basic block */
LLVMDeleteBasicBlock(block->llvm_end_block);
block->llvm_end_block = NULL;
}
}
frame_ip = block->wasm_code_end;
aot_block_destroy(block);
block = block_prev;
}
if (!block) {
*p_frame_ip = frame_ip + 1;
return true;
}
*p_frame_ip = block->wasm_code_end + 1;
SET_BUILDER_POS(block->llvm_end_block);
/* Pop block, push its return value, and destroy the block */
block = aot_block_stack_pop(&func_ctx->block_stack);
func_type = func_ctx->aot_func->func_type;
for (i = 0; i < block->result_count; i++) {
bh_assert(block->result_phis[i]);
if (block->label_type != LABEL_TYPE_FUNCTION) {
PUSH(block->result_phis[i], block->result_types[i]);
}
else {
/* Store extra return values to function parameters */
if (i != 0) {
LLVMValueRef res;
uint32 param_index = func_type->param_count + i;
if (!(res = LLVMBuildStore(
comp_ctx->builder, block->result_phis[i],
LLVMGetParam(func_ctx->func, param_index)))) {
aot_set_last_error("llvm build store failed.");
goto fail;
}
LLVMSetAlignment(res, 1);
}
}
}
if (block->label_type == LABEL_TYPE_FUNCTION) {
if (block->result_count) {
/* Return the first return value */
if (!(ret =
LLVMBuildRet(comp_ctx->builder, block->result_phis[0]))) {
aot_set_last_error("llvm build return failed.");
goto fail;
}
#if WASM_ENABLE_DEBUG_AOT != 0
LLVMInstructionSetDebugLoc(ret, return_location);
#endif
}
else {
if (!(ret = LLVMBuildRetVoid(comp_ctx->builder))) {
aot_set_last_error("llvm build return void failed.");
goto fail;
}
#if WASM_ENABLE_DEBUG_AOT != 0
LLVMInstructionSetDebugLoc(ret, return_location);
#endif
}
}
aot_block_destroy(block);
return true;
fail:
return false;
}
static bool
push_aot_block_to_stack_and_pass_params(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx,
AOTBlock *block)
{
uint32 i, param_index;
LLVMValueRef value, br_inst;
uint64 size;
char name[32];
LLVMBasicBlockRef block_curr = CURR_BLOCK();
if (block->param_count) {
size = sizeof(LLVMValueRef) * (uint64)block->param_count;
if (size >= UINT32_MAX
|| !(block->param_phis = wasm_runtime_malloc((uint32)size))) {
aot_set_last_error("allocate memory failed.");
return false;
}
if (block->label_type == LABEL_TYPE_IF && !block->skip_wasm_code_else
&& !(block->else_param_phis = wasm_runtime_malloc((uint32)size))) {
wasm_runtime_free(block->param_phis);
block->param_phis = NULL;
aot_set_last_error("allocate memory failed.");
return false;
}
/* Create param phis */
for (i = 0; i < block->param_count; i++) {
SET_BUILDER_POS(block->llvm_entry_block);
snprintf(name, sizeof(name), "%s%d_phi%d",
block_name_prefix[block->label_type], block->block_index,
i);
if (!(block->param_phis[i] = LLVMBuildPhi(
comp_ctx->builder, TO_LLVM_TYPE(block->param_types[i]),
name))) {
aot_set_last_error("llvm build phi failed.");
goto fail;
}
if (block->label_type == LABEL_TYPE_IF
&& !block->skip_wasm_code_else && block->llvm_else_block) {
/* Build else param phis */
SET_BUILDER_POS(block->llvm_else_block);
snprintf(name, sizeof(name), "else%d_phi%d", block->block_index,
i);
if (!(block->else_param_phis[i] = LLVMBuildPhi(
comp_ctx->builder,
TO_LLVM_TYPE(block->param_types[i]), name))) {
aot_set_last_error("llvm build phi failed.");
goto fail;
}
}
}
/* At this point, the branch instruction was already built to jump to
* the new BB, to avoid generating zext instruction from the popped
* operand that would come after branch instruction, we should position
* the builder before the last branch instruction */
br_inst = LLVMGetLastInstruction(block_curr);
bh_assert(LLVMGetInstructionOpcode(br_inst) == LLVMBr);
LLVMPositionBuilderBefore(comp_ctx->builder, br_inst);
/* Pop param values from current block's
* value stack and add to param phis.
*/
for (i = 0; i < block->param_count; i++) {
param_index = block->param_count - 1 - i;
POP(value, block->param_types[param_index]);
if (block->llvm_entry_block)
/* Only add incoming phis if the entry block was created */
ADD_TO_PARAM_PHIS(block, value, param_index);
if (block->label_type == LABEL_TYPE_IF
&& !block->skip_wasm_code_else) {
if (block->llvm_else_block) {
/* has else branch, add to else param phis */
LLVMAddIncoming(block->else_param_phis[param_index], &value,
&block_curr, 1);
}
else {
/* no else branch, add to result phis */
CREATE_RESULT_VALUE_PHIS(block);
ADD_TO_RESULT_PHIS(block, value, param_index);
}
}
}
}
/* Push the new block to block stack */
aot_block_stack_push(&func_ctx->block_stack, block);
/* Push param phis to the new block */
for (i = 0; i < block->param_count; i++) {
if (block->llvm_entry_block)
/* Push param phis if the entry basic block was created */
PUSH(block->param_phis[i], block->param_types[i]);
else {
bh_assert(block->label_type == LABEL_TYPE_IF
&& block->llvm_else_block && block->else_param_phis
&& !block->skip_wasm_code_else);
/* Push else param phis if we start to translate the
else branch */
PUSH(block->else_param_phis[i], block->param_types[i]);
}
}
return true;
fail:
if (block->param_phis) {
wasm_runtime_free(block->param_phis);
block->param_phis = NULL;
}
if (block->else_param_phis) {
wasm_runtime_free(block->else_param_phis);
block->else_param_phis = NULL;
}
return false;
}
bool
aot_compile_op_block(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
uint8 **p_frame_ip, uint8 *frame_ip_end, uint32 label_type,
uint32 param_count, uint8 *param_types,
uint32 result_count, uint8 *result_types)
{
BlockAddr block_addr_cache[BLOCK_ADDR_CACHE_SIZE][BLOCK_ADDR_CONFLICT_SIZE];
AOTBlock *block;
uint8 *else_addr, *end_addr;
LLVMValueRef value;
char name[32];
/* Check block stack */
if (!func_ctx->block_stack.block_list_end) {
aot_set_last_error("WASM block stack underflow.");
return false;
}
memset(block_addr_cache, 0, sizeof(block_addr_cache));
/* Get block info */
if (!(wasm_loader_find_block_addr(
NULL, (BlockAddr *)block_addr_cache, *p_frame_ip, frame_ip_end,
(uint8)label_type, &else_addr, &end_addr))) {
aot_set_last_error("find block end addr failed.");
return false;
}
/* Allocate memory */
if (!(block = wasm_runtime_malloc(sizeof(AOTBlock)))) {
aot_set_last_error("allocate memory failed.");
return false;
}
memset(block, 0, sizeof(AOTBlock));
if (param_count
&& !(block->param_types = wasm_runtime_malloc(param_count))) {
aot_set_last_error("allocate memory failed.");
goto fail;
}
if (result_count) {
if (!(block->result_types = wasm_runtime_malloc(result_count))) {
aot_set_last_error("allocate memory failed.");
goto fail;
}
}
/* Init aot block data */
block->label_type = label_type;
block->param_count = param_count;
if (param_count) {
bh_memcpy_s(block->param_types, param_count, param_types, param_count);
}
block->result_count = result_count;
if (result_count) {
bh_memcpy_s(block->result_types, result_count, result_types,
result_count);
}
block->wasm_code_else = else_addr;
block->wasm_code_end = end_addr;
block->block_index = func_ctx->block_stack.block_index[label_type];
func_ctx->block_stack.block_index[label_type]++;
if (label_type == LABEL_TYPE_BLOCK || label_type == LABEL_TYPE_LOOP) {
/* Create block */
format_block_name(name, sizeof(name), block->block_index, label_type,
LABEL_BEGIN);
CREATE_BLOCK(block->llvm_entry_block, name);
MOVE_BLOCK_AFTER_CURR(block->llvm_entry_block);
/* Jump to the entry block */
BUILD_BR(block->llvm_entry_block);
if (!push_aot_block_to_stack_and_pass_params(comp_ctx, func_ctx, block))
goto fail;
/* Start to translate the block */
SET_BUILDER_POS(block->llvm_entry_block);
if (label_type == LABEL_TYPE_LOOP)
aot_checked_addr_list_destroy(func_ctx);
}
else if (label_type == LABEL_TYPE_IF) {
POP_COND(value);
if (LLVMIsUndef(value)
#if LLVM_VERSION_NUMBER >= 12
|| LLVMIsPoison(value)
#endif
) {
if (!(aot_emit_exception(comp_ctx, func_ctx, EXCE_INTEGER_OVERFLOW,
false, NULL, NULL))) {
goto fail;
}
aot_block_destroy(block);
return aot_handle_next_reachable_block(comp_ctx, func_ctx,
p_frame_ip);
}
if (!LLVMIsEfficientConstInt(value)) {
/* Compare value is not constant, create condition br IR */
/* Create entry block */
format_block_name(name, sizeof(name), block->block_index,
label_type, LABEL_BEGIN);
CREATE_BLOCK(block->llvm_entry_block, name);
MOVE_BLOCK_AFTER_CURR(block->llvm_entry_block);
/* Create end block */
format_block_name(name, sizeof(name), block->block_index,
label_type, LABEL_END);
CREATE_BLOCK(block->llvm_end_block, name);
MOVE_BLOCK_AFTER(block->llvm_end_block, block->llvm_entry_block);
if (else_addr) {
/* Create else block */
format_block_name(name, sizeof(name), block->block_index,
label_type, LABEL_ELSE);
CREATE_BLOCK(block->llvm_else_block, name);
MOVE_BLOCK_AFTER(block->llvm_else_block,
block->llvm_entry_block);
/* Create condition br IR */
BUILD_COND_BR(value, block->llvm_entry_block,
block->llvm_else_block);
}
else {
/* Create condition br IR */
BUILD_COND_BR(value, block->llvm_entry_block,
block->llvm_end_block);
block->is_reachable = true;
}
if (!push_aot_block_to_stack_and_pass_params(comp_ctx, func_ctx,
block))
goto fail;
/* Start to translate if branch of BLOCK if */
SET_BUILDER_POS(block->llvm_entry_block);
}
else {
if ((int32)LLVMConstIntGetZExtValue(value) != 0) {
/* Compare value is not 0, condition is true, else branch of
BLOCK if cannot be reached */
block->skip_wasm_code_else = true;
/* Create entry block */
format_block_name(name, sizeof(name), block->block_index,
label_type, LABEL_BEGIN);
CREATE_BLOCK(block->llvm_entry_block, name);
MOVE_BLOCK_AFTER_CURR(block->llvm_entry_block);
/* Jump to the entry block */
BUILD_BR(block->llvm_entry_block);
if (!push_aot_block_to_stack_and_pass_params(comp_ctx, func_ctx,
block))
goto fail;
/* Start to translate the if branch */
SET_BUILDER_POS(block->llvm_entry_block);
}
else {
/* Compare value is not 0, condition is false, if branch of
BLOCK if cannot be reached */
if (else_addr) {
/* Create else block */
format_block_name(name, sizeof(name), block->block_index,
label_type, LABEL_ELSE);
CREATE_BLOCK(block->llvm_else_block, name);
MOVE_BLOCK_AFTER_CURR(block->llvm_else_block);
/* Jump to the else block */
BUILD_BR(block->llvm_else_block);
if (!push_aot_block_to_stack_and_pass_params(
comp_ctx, func_ctx, block))
goto fail;
/* Start to translate the else branch */
SET_BUILDER_POS(block->llvm_else_block);
*p_frame_ip = else_addr + 1;
}
else {
/* skip the block */
aot_block_destroy(block);
*p_frame_ip = end_addr + 1;
}
}
}
}
else {
aot_set_last_error("Invalid block type.");
goto fail;
}
return true;
fail:
aot_block_destroy(block);
return false;
}
bool
aot_compile_op_else(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
uint8 **p_frame_ip)
{
AOTBlock *block = func_ctx->block_stack.block_list_end;
LLVMValueRef value;
char name[32];
uint32 i, result_index;
/* Check block */
if (!block) {
aot_set_last_error("WASM block stack underflow.");
return false;
}
if (block->label_type != LABEL_TYPE_IF
|| (!block->skip_wasm_code_else && !block->llvm_else_block)) {
aot_set_last_error("Invalid WASM block type.");
return false;
}
/* Create end block if needed */
if (!block->llvm_end_block) {
format_block_name(name, sizeof(name), block->block_index,
block->label_type, LABEL_END);
CREATE_BLOCK(block->llvm_end_block, name);
if (block->llvm_else_block)
MOVE_BLOCK_AFTER(block->llvm_end_block, block->llvm_else_block);
else
MOVE_BLOCK_AFTER_CURR(block->llvm_end_block);
}
block->is_reachable = true;
/* Comes from the if branch of BLOCK if */
CREATE_RESULT_VALUE_PHIS(block);
for (i = 0; i < block->result_count; i++) {
result_index = block->result_count - 1 - i;
POP(value, block->result_types[result_index]);
ADD_TO_RESULT_PHIS(block, value, result_index);
}
/* Jump to end block */
BUILD_BR(block->llvm_end_block);
if (!block->skip_wasm_code_else && block->llvm_else_block) {
/* Clear value stack, recover param values
* and start to translate else branch.
*/
aot_value_stack_destroy(&block->value_stack);
for (i = 0; i < block->param_count; i++)
PUSH(block->else_param_phis[i], block->param_types[i]);
SET_BUILDER_POS(block->llvm_else_block);
aot_checked_addr_list_destroy(func_ctx);
return true;
}
/* No else branch or no need to translate else branch */
block->is_reachable = true;
return handle_next_reachable_block(comp_ctx, func_ctx, p_frame_ip);
fail:
return false;
}
bool
aot_compile_op_end(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
uint8 **p_frame_ip)
{
AOTBlock *block;
LLVMValueRef value;
LLVMBasicBlockRef next_llvm_end_block;
char name[32];
uint32 i, result_index;
/* Check block stack */
if (!(block = func_ctx->block_stack.block_list_end)) {
aot_set_last_error("WASM block stack underflow.");
return false;
}
/* Create the end block */
if (!block->llvm_end_block) {
format_block_name(name, sizeof(name), block->block_index,
block->label_type, LABEL_END);
CREATE_BLOCK(block->llvm_end_block, name);
if ((next_llvm_end_block = find_next_llvm_end_block(block)))
MOVE_BLOCK_BEFORE(block->llvm_end_block, next_llvm_end_block);
}
/* Handle block result values */
CREATE_RESULT_VALUE_PHIS(block);
for (i = 0; i < block->result_count; i++) {
value = NULL;
result_index = block->result_count - 1 - i;
POP(value, block->result_types[result_index]);
bh_assert(value);
ADD_TO_RESULT_PHIS(block, value, result_index);
}
/* Jump to the end block */
BUILD_BR(block->llvm_end_block);
block->is_reachable = true;
return handle_next_reachable_block(comp_ctx, func_ctx, p_frame_ip);
fail:
return false;
}
#if WASM_ENABLE_THREAD_MGR != 0
bool
check_suspend_flags(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx)
{
LLVMValueRef terminate_addr, terminate_flags, flag, offset, res;
LLVMBasicBlockRef terminate_block, non_terminate_block;
AOTFuncType *aot_func_type = func_ctx->aot_func->func_type;
bool is_shared_memory =
comp_ctx->comp_data->memories[0].memory_flags & 0x02 ? true : false;
/* Only need to check the suspend flags when memory is shared since
shared memory must be enabled for multi-threading */
if (!is_shared_memory) {
return true;
}
/* Offset of suspend_flags */
offset = I32_FIVE;
if (!(terminate_addr = LLVMBuildInBoundsGEP2(
comp_ctx->builder, OPQ_PTR_TYPE, func_ctx->exec_env, &offset, 1,
"terminate_addr"))) {
aot_set_last_error("llvm build in bounds gep failed");
return false;
}
if (!(terminate_addr =
LLVMBuildBitCast(comp_ctx->builder, terminate_addr,
INT32_PTR_TYPE, "terminate_addr_ptr"))) {
aot_set_last_error("llvm build bit cast failed");
return false;
}
if (!(terminate_flags =
LLVMBuildLoad2(comp_ctx->builder, I32_TYPE, terminate_addr,
"terminate_flags"))) {
aot_set_last_error("llvm build LOAD failed");
return false;
}
/* Set terminate_flags memory accecc to volatile, so that the value
will always be loaded from memory rather than register */
LLVMSetVolatile(terminate_flags, true);
if (!(flag = LLVMBuildAnd(comp_ctx->builder, terminate_flags, I32_ONE,
"termination_flag"))) {
aot_set_last_error("llvm build AND failed");
return false;
}
CREATE_BLOCK(non_terminate_block, "non_terminate");
MOVE_BLOCK_AFTER_CURR(non_terminate_block);
CREATE_BLOCK(terminate_block, "terminate");
MOVE_BLOCK_AFTER_CURR(terminate_block);
BUILD_ICMP(LLVMIntEQ, flag, I32_ZERO, res, "flag_terminate");
BUILD_COND_BR(res, non_terminate_block, terminate_block);
/* Move builder to terminate block */
SET_BUILDER_POS(terminate_block);
if (!aot_build_zero_function_ret(comp_ctx, func_ctx, aot_func_type)) {
goto fail;
}
/* Move builder to non terminate block */
SET_BUILDER_POS(non_terminate_block);
return true;
fail:
return false;
}
#endif /* End of WASM_ENABLE_THREAD_MGR */
bool
aot_compile_op_br(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
uint32 br_depth, uint8 **p_frame_ip)
{
AOTBlock *block_dst;
LLVMValueRef value_ret, value_param;
LLVMBasicBlockRef next_llvm_end_block;
char name[32];
uint32 i, param_index, result_index;
#if WASM_ENABLE_THREAD_MGR != 0
/* Insert suspend check point */
if (comp_ctx->enable_thread_mgr) {
if (!check_suspend_flags(comp_ctx, func_ctx))
return false;
}
#endif
if (!(block_dst = get_target_block(func_ctx, br_depth))) {
return false;
}
if (block_dst->label_type == LABEL_TYPE_LOOP) {
/* Dest block is Loop block */
/* Handle Loop parameters */
for (i = 0; i < block_dst->param_count; i++) {
param_index = block_dst->param_count - 1 - i;
POP(value_param, block_dst->param_types[param_index]);
ADD_TO_PARAM_PHIS(block_dst, value_param, param_index);
}
BUILD_BR(block_dst->llvm_entry_block);
}
else {
/* Dest block is Block/If/Function block */
/* Create the end block */
if (!block_dst->llvm_end_block) {
format_block_name(name, sizeof(name), block_dst->block_index,
block_dst->label_type, LABEL_END);
CREATE_BLOCK(block_dst->llvm_end_block, name);
if ((next_llvm_end_block = find_next_llvm_end_block(block_dst)))
MOVE_BLOCK_BEFORE(block_dst->llvm_end_block,
next_llvm_end_block);
}
block_dst->is_reachable = true;
/* Handle result values */
CREATE_RESULT_VALUE_PHIS(block_dst);
for (i = 0; i < block_dst->result_count; i++) {
result_index = block_dst->result_count - 1 - i;
POP(value_ret, block_dst->result_types[result_index]);
ADD_TO_RESULT_PHIS(block_dst, value_ret, result_index);
}
/* Jump to the end block */
BUILD_BR(block_dst->llvm_end_block);
}
return handle_next_reachable_block(comp_ctx, func_ctx, p_frame_ip);
fail:
return false;
}
bool
aot_compile_op_br_if(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
uint32 br_depth, uint8 **p_frame_ip)
{
AOTBlock *block_dst;
LLVMValueRef value_cmp, value, *values = NULL;
LLVMBasicBlockRef llvm_else_block, next_llvm_end_block;
char name[32];
uint32 i, param_index, result_index;
uint64 size;
#if WASM_ENABLE_THREAD_MGR != 0
/* Insert suspend check point */
if (comp_ctx->enable_thread_mgr) {
if (!check_suspend_flags(comp_ctx, func_ctx))
return false;
}
#endif
POP_COND(value_cmp);
if (LLVMIsUndef(value_cmp)
#if LLVM_VERSION_NUMBER >= 12
|| LLVMIsPoison(value_cmp)
#endif
) {
if (!(aot_emit_exception(comp_ctx, func_ctx, EXCE_INTEGER_OVERFLOW,
false, NULL, NULL))) {
goto fail;
}
return aot_handle_next_reachable_block(comp_ctx, func_ctx, p_frame_ip);
}
if (!LLVMIsEfficientConstInt(value_cmp)) {
/* Compare value is not constant, create condition br IR */
if (!(block_dst = get_target_block(func_ctx, br_depth))) {
return false;
}
/* Create llvm else block */
CREATE_BLOCK(llvm_else_block, "br_if_else");
MOVE_BLOCK_AFTER_CURR(llvm_else_block);
if (block_dst->label_type == LABEL_TYPE_LOOP) {
/* Dest block is Loop block */
/* Handle Loop parameters */
if (block_dst->param_count) {
size = sizeof(LLVMValueRef) * (uint64)block_dst->param_count;
if (size >= UINT32_MAX
|| !(values = wasm_runtime_malloc((uint32)size))) {
aot_set_last_error("allocate memory failed.");
goto fail;
}
for (i = 0; i < block_dst->param_count; i++) {
param_index = block_dst->param_count - 1 - i;
POP(value, block_dst->param_types[param_index]);
ADD_TO_PARAM_PHIS(block_dst, value, param_index);
values[param_index] = value;
}
for (i = 0; i < block_dst->param_count; i++) {
PUSH(values[i], block_dst->param_types[i]);
}
wasm_runtime_free(values);
values = NULL;
}
BUILD_COND_BR(value_cmp, block_dst->llvm_entry_block,
llvm_else_block);
/* Move builder to else block */
SET_BUILDER_POS(llvm_else_block);
}
else {
/* Dest block is Block/If/Function block */
/* Create the end block */
if (!block_dst->llvm_end_block) {
format_block_name(name, sizeof(name), block_dst->block_index,
block_dst->label_type, LABEL_END);
CREATE_BLOCK(block_dst->llvm_end_block, name);
if ((next_llvm_end_block = find_next_llvm_end_block(block_dst)))
MOVE_BLOCK_BEFORE(block_dst->llvm_end_block,
next_llvm_end_block);
}
/* Set reachable flag and create condition br IR */
block_dst->is_reachable = true;
/* Handle result values */
if (block_dst->result_count) {
size = sizeof(LLVMValueRef) * (uint64)block_dst->result_count;
if (size >= UINT32_MAX
|| !(values = wasm_runtime_malloc((uint32)size))) {
aot_set_last_error("allocate memory failed.");
goto fail;
}
CREATE_RESULT_VALUE_PHIS(block_dst);
for (i = 0; i < block_dst->result_count; i++) {
result_index = block_dst->result_count - 1 - i;
POP(value, block_dst->result_types[result_index]);
values[result_index] = value;
ADD_TO_RESULT_PHIS(block_dst, value, result_index);
}
for (i = 0; i < block_dst->result_count; i++) {
PUSH(values[i], block_dst->result_types[i]);
}
wasm_runtime_free(values);
values = NULL;
}
/* Condition jump to end block */
BUILD_COND_BR(value_cmp, block_dst->llvm_end_block,
llvm_else_block);
/* Move builder to else block */
SET_BUILDER_POS(llvm_else_block);
}
}
else {
if ((int32)LLVMConstIntGetZExtValue(value_cmp) != 0) {
/* Compare value is not 0, condition is true, same as op_br */
return aot_compile_op_br(comp_ctx, func_ctx, br_depth, p_frame_ip);
}
else {
/* Compare value is not 0, condition is false, skip br_if */
return true;
}
}
return true;
fail:
if (values)
wasm_runtime_free(values);
return false;
}
bool
aot_compile_op_br_table(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
uint32 *br_depths, uint32 br_count, uint8 **p_frame_ip)
{
uint32 i, j;
LLVMValueRef value_switch, value_cmp, value_case, value, *values = NULL;
LLVMBasicBlockRef default_llvm_block = NULL, target_llvm_block;
LLVMBasicBlockRef next_llvm_end_block;
AOTBlock *target_block;
uint32 br_depth, depth_idx;
uint32 param_index, result_index;
uint64 size;
char name[32];
#if WASM_ENABLE_THREAD_MGR != 0
/* Insert suspend check point */
if (comp_ctx->enable_thread_mgr) {
if (!check_suspend_flags(comp_ctx, func_ctx))
return false;
}
#endif
POP_I32(value_cmp);
if (LLVMIsUndef(value_cmp)
#if LLVM_VERSION_NUMBER >= 12
|| LLVMIsPoison(value_cmp)
#endif
) {
if (!(aot_emit_exception(comp_ctx, func_ctx, EXCE_INTEGER_OVERFLOW,
false, NULL, NULL))) {
goto fail;
}
return aot_handle_next_reachable_block(comp_ctx, func_ctx, p_frame_ip);
}
if (!LLVMIsEfficientConstInt(value_cmp)) {
/* Compare value is not constant, create switch IR */
for (i = 0; i <= br_count; i++) {
target_block = get_target_block(func_ctx, br_depths[i]);
if (!target_block)
return false;
if (target_block->label_type != LABEL_TYPE_LOOP) {
/* Dest block is Block/If/Function block */
/* Create the end block */
if (!target_block->llvm_end_block) {
format_block_name(name, sizeof(name),
target_block->block_index,
target_block->label_type, LABEL_END);
CREATE_BLOCK(target_block->llvm_end_block, name);
if ((next_llvm_end_block =
find_next_llvm_end_block(target_block)))
MOVE_BLOCK_BEFORE(target_block->llvm_end_block,
next_llvm_end_block);
}
/* Handle result values */
if (target_block->result_count) {
size = sizeof(LLVMValueRef)
* (uint64)target_block->result_count;
if (size >= UINT32_MAX
|| !(values = wasm_runtime_malloc((uint32)size))) {
aot_set_last_error("allocate memory failed.");
goto fail;
}
CREATE_RESULT_VALUE_PHIS(target_block);
for (j = 0; j < target_block->result_count; j++) {
result_index = target_block->result_count - 1 - j;
POP(value, target_block->result_types[result_index]);
values[result_index] = value;
ADD_TO_RESULT_PHIS(target_block, value, result_index);
}
for (j = 0; j < target_block->result_count; j++) {
PUSH(values[j], target_block->result_types[j]);
}
wasm_runtime_free(values);
}
target_block->is_reachable = true;
if (i == br_count)
default_llvm_block = target_block->llvm_end_block;
}
else {
/* Handle Loop parameters */
if (target_block->param_count) {
size = sizeof(LLVMValueRef)
* (uint64)target_block->param_count;
if (size >= UINT32_MAX
|| !(values = wasm_runtime_malloc((uint32)size))) {
aot_set_last_error("allocate memory failed.");
goto fail;
}
for (j = 0; j < target_block->param_count; j++) {
param_index = target_block->param_count - 1 - j;
POP(value, target_block->param_types[param_index]);
values[param_index] = value;
ADD_TO_PARAM_PHIS(target_block, value, param_index);
}
for (j = 0; j < target_block->param_count; j++) {
PUSH(values[j], target_block->param_types[j]);
}
wasm_runtime_free(values);
}
if (i == br_count)
default_llvm_block = target_block->llvm_entry_block;
}
}
/* Create switch IR */
if (!(value_switch = LLVMBuildSwitch(comp_ctx->builder, value_cmp,
default_llvm_block, br_count))) {
aot_set_last_error("llvm build switch failed.");
return false;
}
/* Add each case for switch IR */
for (i = 0; i < br_count; i++) {
value_case = I32_CONST(i);
CHECK_LLVM_CONST(value_case);
target_block = get_target_block(func_ctx, br_depths[i]);
if (!target_block)
return false;
target_llvm_block = target_block->label_type != LABEL_TYPE_LOOP
? target_block->llvm_end_block
: target_block->llvm_entry_block;
LLVMAddCase(value_switch, value_case, target_llvm_block);
}
return handle_next_reachable_block(comp_ctx, func_ctx, p_frame_ip);
}
else {
/* Compare value is constant, create br IR */
depth_idx = (uint32)LLVMConstIntGetZExtValue(value_cmp);
br_depth = br_depths[br_count];
if (depth_idx < br_count) {
br_depth = br_depths[depth_idx];
}
return aot_compile_op_br(comp_ctx, func_ctx, br_depth, p_frame_ip);
}
fail:
if (values)
wasm_runtime_free(values);
return false;
}
bool
aot_compile_op_return(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
uint8 **p_frame_ip)
{
AOTBlock *block_func = func_ctx->block_stack.block_list_head;
LLVMValueRef value;
LLVMValueRef ret;
AOTFuncType *func_type;
uint32 i, param_index, result_index;
#if WASM_ENABLE_DEBUG_AOT != 0
LLVMMetadataRef return_location;
#endif
bh_assert(block_func);
func_type = func_ctx->aot_func->func_type;
#if WASM_ENABLE_DEBUG_AOT != 0
return_location = dwarf_gen_location(
comp_ctx, func_ctx,
(*p_frame_ip - 1) - comp_ctx->comp_data->wasm_module->buf_code);
#endif
if (block_func->result_count) {
/* Store extra result values to function parameters */
for (i = 0; i < block_func->result_count - 1; i++) {
LLVMValueRef res;
result_index = block_func->result_count - 1 - i;
POP(value, block_func->result_types[result_index]);
param_index = func_type->param_count + result_index;
if (!(res = LLVMBuildStore(
comp_ctx->builder, value,
LLVMGetParam(func_ctx->func, param_index)))) {
aot_set_last_error("llvm build store failed.");
goto fail;
}
LLVMSetAlignment(res, 1);
}
/* Return the first result value */
POP(value, block_func->result_types[0]);
if (!(ret = LLVMBuildRet(comp_ctx->builder, value))) {
aot_set_last_error("llvm build return failed.");
goto fail;
}
#if WASM_ENABLE_DEBUG_AOT != 0
LLVMInstructionSetDebugLoc(ret, return_location);
#endif
}
else {
if (!(ret = LLVMBuildRetVoid(comp_ctx->builder))) {
aot_set_last_error("llvm build return void failed.");
goto fail;
}
#if WASM_ENABLE_DEBUG_AOT != 0
LLVMInstructionSetDebugLoc(ret, return_location);
#endif
}
return handle_next_reachable_block(comp_ctx, func_ctx, p_frame_ip);
fail:
return false;
}
bool
aot_compile_op_unreachable(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
uint8 **p_frame_ip)
{
if (!aot_emit_exception(comp_ctx, func_ctx, EXCE_UNREACHABLE, false, NULL,
NULL))
return false;
return handle_next_reachable_block(comp_ctx, func_ctx, p_frame_ip);
}
bool
aot_handle_next_reachable_block(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx, uint8 **p_frame_ip)
{
return handle_next_reachable_block(comp_ctx, func_ctx, p_frame_ip);
}
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