bcdf2e2a54
R=ahaas@chromium.org Bug: v8:9429, v8:9396 Change-Id: I2a66142c04b2ec0e3ed57ea2392dda6d17d53b38 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1687895 Commit-Queue: Clemens Hammacher <clemensh@chromium.org> Reviewed-by: Andreas Haas <ahaas@chromium.org> Cr-Commit-Position: refs/heads/master@{#62554}
894 lines
30 KiB
C++
894 lines
30 KiB
C++
// Copyright 2017 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include <stddef.h>
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#include <stdint.h>
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#include <stdlib.h>
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#include <algorithm>
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#include "include/v8.h"
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#include "src/execution/isolate.h"
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#include "src/objects/objects-inl.h"
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#include "src/objects/objects.h"
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#include "src/utils/ostreams.h"
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#include "src/wasm/wasm-interpreter.h"
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#include "src/wasm/wasm-module-builder.h"
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#include "src/wasm/wasm-module.h"
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#include "test/common/wasm/flag-utils.h"
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#include "test/common/wasm/test-signatures.h"
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#include "test/common/wasm/wasm-module-runner.h"
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#include "test/fuzzer/fuzzer-support.h"
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#include "test/fuzzer/wasm-fuzzer-common.h"
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namespace v8 {
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namespace internal {
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namespace wasm {
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namespace fuzzer {
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namespace {
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constexpr int kMaxFunctions = 4;
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constexpr int kMaxGlobals = 64;
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class DataRange {
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Vector<const uint8_t> data_;
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public:
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explicit DataRange(Vector<const uint8_t> data) : data_(data) {}
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// Don't accidentally pass DataRange by value. This will reuse bytes and might
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// lead to OOM because the end might not be reached.
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// Define move constructor and move assignment, disallow copy constructor and
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// copy assignment (below).
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DataRange(DataRange&& other) V8_NOEXCEPT : DataRange(other.data_) {
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other.data_ = {};
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}
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DataRange& operator=(DataRange&& other) V8_NOEXCEPT {
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data_ = other.data_;
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other.data_ = {};
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return *this;
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}
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size_t size() const { return data_.size(); }
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DataRange split() {
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uint16_t num_bytes = get<uint16_t>() % std::max(size_t{1}, data_.size());
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DataRange split(data_.SubVector(0, num_bytes));
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data_ += num_bytes;
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return split;
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}
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template <typename T, size_t max_bytes = sizeof(T)>
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T get() {
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STATIC_ASSERT(max_bytes <= sizeof(T));
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// We want to support the case where we have less than sizeof(T) bytes
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// remaining in the slice. For example, if we emit an i32 constant, it's
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// okay if we don't have a full four bytes available, we'll just use what
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// we have. We aren't concerned about endianness because we are generating
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// arbitrary expressions.
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const size_t num_bytes = std::min(max_bytes, data_.size());
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T result = T();
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memcpy(&result, data_.begin(), num_bytes);
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data_ += num_bytes;
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return result;
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}
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DISALLOW_COPY_AND_ASSIGN(DataRange);
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};
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ValueType GetValueType(DataRange& data) { // NOLINT(runtime/references)
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switch (data.get<uint8_t>() % 4) {
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case 0:
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return kWasmI32;
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case 1:
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return kWasmI64;
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case 2:
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return kWasmF32;
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case 3:
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return kWasmF64;
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}
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UNREACHABLE();
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}
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class WasmGenerator {
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template <WasmOpcode Op, ValueType... Args>
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void op(DataRange& data) { // NOLINT(runtime/references)
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Generate<Args...>(data);
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builder_->Emit(Op);
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}
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class BlockScope {
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public:
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BlockScope(WasmGenerator* gen, WasmOpcode block_type, ValueType result_type,
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ValueType br_type)
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: gen_(gen) {
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gen->blocks_.push_back(br_type);
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gen->builder_->EmitWithU8(block_type,
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ValueTypes::ValueTypeCodeFor(result_type));
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}
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~BlockScope() {
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gen_->builder_->Emit(kExprEnd);
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gen_->blocks_.pop_back();
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}
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private:
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WasmGenerator* const gen_;
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};
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template <ValueType T>
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void block(DataRange& data) { // NOLINT(runtime/references)
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BlockScope block_scope(this, kExprBlock, T, T);
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Generate<T>(data);
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}
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template <ValueType T>
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void loop(DataRange& data) { // NOLINT(runtime/references)
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// When breaking to a loop header, don't provide any input value (hence
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// kWasmStmt).
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BlockScope block_scope(this, kExprLoop, T, kWasmStmt);
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Generate<T>(data);
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}
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enum IfType { kIf, kIfElse };
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template <ValueType T, IfType type>
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void if_(DataRange& data) { // NOLINT(runtime/references)
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static_assert(T == kWasmStmt || type == kIfElse,
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"if without else cannot produce a value");
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Generate<kWasmI32>(data);
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BlockScope block_scope(this, kExprIf, T, T);
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Generate<T>(data);
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if (type == kIfElse) {
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builder_->Emit(kExprElse);
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Generate<T>(data);
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}
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}
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void br(DataRange& data) { // NOLINT(runtime/references)
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// There is always at least the block representing the function body.
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DCHECK(!blocks_.empty());
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const uint32_t target_block = data.get<uint32_t>() % blocks_.size();
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const ValueType break_type = blocks_[target_block];
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Generate(break_type, data);
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builder_->EmitWithI32V(
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kExprBr, static_cast<uint32_t>(blocks_.size()) - 1 - target_block);
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}
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template <ValueType wanted_type>
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void br_if(DataRange& data) { // NOLINT(runtime/references)
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// There is always at least the block representing the function body.
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DCHECK(!blocks_.empty());
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const uint32_t target_block = data.get<uint32_t>() % blocks_.size();
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const ValueType break_type = blocks_[target_block];
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Generate(break_type, data);
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Generate(kWasmI32, data);
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builder_->EmitWithI32V(
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kExprBrIf, static_cast<uint32_t>(blocks_.size()) - 1 - target_block);
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ConvertOrGenerate(break_type, wanted_type, data);
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}
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// TODO(eholk): make this function constexpr once gcc supports it
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static uint8_t max_alignment(WasmOpcode memop) {
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switch (memop) {
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case kExprI64LoadMem:
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case kExprF64LoadMem:
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case kExprI64StoreMem:
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case kExprF64StoreMem:
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return 3;
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case kExprI32LoadMem:
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case kExprI64LoadMem32S:
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case kExprI64LoadMem32U:
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case kExprF32LoadMem:
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case kExprI32StoreMem:
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case kExprI64StoreMem32:
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case kExprF32StoreMem:
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return 2;
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case kExprI32LoadMem16S:
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case kExprI32LoadMem16U:
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case kExprI64LoadMem16S:
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case kExprI64LoadMem16U:
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case kExprI32StoreMem16:
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case kExprI64StoreMem16:
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return 1;
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case kExprI32LoadMem8S:
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case kExprI32LoadMem8U:
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case kExprI64LoadMem8S:
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case kExprI64LoadMem8U:
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case kExprI32StoreMem8:
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case kExprI64StoreMem8:
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return 0;
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default:
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return 0;
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}
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}
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template <WasmOpcode memory_op, ValueType... arg_types>
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void memop(DataRange& data) { // NOLINT(runtime/references)
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const uint8_t align = data.get<uint8_t>() % (max_alignment(memory_op) + 1);
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const uint32_t offset = data.get<uint32_t>();
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// Generate the index and the arguments, if any.
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Generate<kWasmI32, arg_types...>(data);
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builder_->Emit(memory_op);
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builder_->EmitU32V(align);
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builder_->EmitU32V(offset);
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}
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void drop(DataRange& data) { // NOLINT(runtime/references)
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Generate(GetValueType(data), data);
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builder_->Emit(kExprDrop);
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}
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template <ValueType wanted_type>
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void call(DataRange& data) { // NOLINT(runtime/references)
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call(data, wanted_type);
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}
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void Convert(ValueType src, ValueType dst) {
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auto idx = [](ValueType t) -> int {
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switch (t) {
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case kWasmI32:
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return 0;
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case kWasmI64:
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return 1;
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case kWasmF32:
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return 2;
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case kWasmF64:
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return 3;
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default:
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UNREACHABLE();
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}
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};
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static constexpr WasmOpcode kConvertOpcodes[] = {
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// {i32, i64, f32, f64} -> i32
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kExprNop, kExprI32ConvertI64, kExprI32SConvertF32, kExprI32SConvertF64,
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// {i32, i64, f32, f64} -> i64
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kExprI64SConvertI32, kExprNop, kExprI64SConvertF32, kExprI64SConvertF64,
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// {i32, i64, f32, f64} -> f32
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kExprF32SConvertI32, kExprF32SConvertI64, kExprNop, kExprF32ConvertF64,
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// {i32, i64, f32, f64} -> f64
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kExprF64SConvertI32, kExprF64SConvertI64, kExprF64ConvertF32, kExprNop};
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int arr_idx = idx(dst) << 2 | idx(src);
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builder_->Emit(kConvertOpcodes[arr_idx]);
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}
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void ConvertOrGenerate(ValueType src, ValueType dst,
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DataRange& data) { // NOLINT(runtime/references)
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if (src == dst) return;
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if (src == kWasmStmt && dst != kWasmStmt) {
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Generate(dst, data);
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} else if (dst == kWasmStmt && src != kWasmStmt) {
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builder_->Emit(kExprDrop);
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} else {
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Convert(src, dst);
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}
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}
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void call(DataRange& data, // NOLINT(runtime/references)
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ValueType wanted_type) {
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int func_index = data.get<uint8_t>() % functions_.size();
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FunctionSig* sig = functions_[func_index];
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// Generate arguments.
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for (size_t i = 0; i < sig->parameter_count(); ++i) {
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Generate(sig->GetParam(i), data);
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}
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// Emit call.
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builder_->EmitWithU32V(kExprCallFunction, func_index);
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// Convert the return value to the wanted type.
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ValueType return_type =
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sig->return_count() == 0 ? kWasmStmt : sig->GetReturn(0);
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if (return_type == kWasmStmt && wanted_type != kWasmStmt) {
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// The call did not generate a value. Thus just generate it here.
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Generate(wanted_type, data);
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} else if (return_type != kWasmStmt && wanted_type == kWasmStmt) {
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// The call did generate a value, but we did not want one.
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builder_->Emit(kExprDrop);
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} else if (return_type != wanted_type) {
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// If the returned type does not match the wanted type, convert it.
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Convert(return_type, wanted_type);
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}
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}
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struct Var {
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uint32_t index;
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ValueType type = kWasmStmt;
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Var() = default;
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Var(uint32_t index, ValueType type) : index(index), type(type) {}
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bool is_valid() const { return type != kWasmStmt; }
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};
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Var GetRandomLocal(DataRange& data) { // NOLINT(runtime/references)
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uint32_t num_params =
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static_cast<uint32_t>(builder_->signature()->parameter_count());
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uint32_t num_locals = static_cast<uint32_t>(locals_.size());
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if (num_params + num_locals == 0) return {};
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uint32_t index = data.get<uint8_t>() % (num_params + num_locals);
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ValueType type = index < num_params ? builder_->signature()->GetParam(index)
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: locals_[index - num_params];
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return {index, type};
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}
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template <ValueType wanted_type>
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void local_op(DataRange& data, // NOLINT(runtime/references)
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WasmOpcode opcode) {
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Var local = GetRandomLocal(data);
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// If there are no locals and no parameters, just generate any value (if a
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// value is needed), or do nothing.
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if (!local.is_valid()) {
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if (wanted_type == kWasmStmt) return;
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return Generate<wanted_type>(data);
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}
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if (opcode != kExprGetLocal) Generate(local.type, data);
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builder_->EmitWithU32V(opcode, local.index);
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if (wanted_type != kWasmStmt && local.type != wanted_type) {
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Convert(local.type, wanted_type);
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}
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}
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template <ValueType wanted_type>
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void get_local(DataRange& data) { // NOLINT(runtime/references)
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static_assert(wanted_type != kWasmStmt, "illegal type");
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local_op<wanted_type>(data, kExprGetLocal);
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}
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void set_local(DataRange& data) { // NOLINT(runtime/references)
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local_op<kWasmStmt>(data, kExprSetLocal);
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}
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template <ValueType wanted_type>
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void tee_local(DataRange& data) { // NOLINT(runtime/references)
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local_op<wanted_type>(data, kExprTeeLocal);
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}
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template <size_t num_bytes>
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void i32_const(DataRange& data) { // NOLINT(runtime/references)
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builder_->EmitI32Const(data.get<int32_t, num_bytes>());
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}
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template <size_t num_bytes>
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void i64_const(DataRange& data) { // NOLINT(runtime/references)
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builder_->EmitI64Const(data.get<int64_t, num_bytes>());
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}
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Var GetRandomGlobal(DataRange& data, // NOLINT(runtime/references)
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bool ensure_mutable) {
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uint32_t index;
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if (ensure_mutable) {
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if (mutable_globals_.empty()) return {};
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index = mutable_globals_[data.get<uint8_t>() % mutable_globals_.size()];
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} else {
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if (globals_.empty()) return {};
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index = data.get<uint8_t>() % globals_.size();
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}
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ValueType type = globals_[index];
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return {index, type};
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}
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template <ValueType wanted_type>
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void global_op(DataRange& data) { // NOLINT(runtime/references)
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constexpr bool is_set = wanted_type == kWasmStmt;
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Var global = GetRandomGlobal(data, is_set);
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// If there are no globals, just generate any value (if a value is needed),
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// or do nothing.
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if (!global.is_valid()) {
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if (wanted_type == kWasmStmt) return;
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return Generate<wanted_type>(data);
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}
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if (is_set) Generate(global.type, data);
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builder_->EmitWithU32V(is_set ? kExprSetGlobal : kExprGetGlobal,
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global.index);
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if (!is_set && global.type != wanted_type) {
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Convert(global.type, wanted_type);
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}
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}
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template <ValueType wanted_type>
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void get_global(DataRange& data) { // NOLINT(runtime/references)
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static_assert(wanted_type != kWasmStmt, "illegal type");
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global_op<wanted_type>(data);
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}
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template <ValueType select_type>
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void select_with_type(DataRange& data) { // NOLINT(runtime/references)
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static_assert(select_type != kWasmStmt, "illegal type for select");
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Generate<select_type, select_type, kWasmI32>(data);
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// num_types is always 1.
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uint8_t num_types = 1;
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builder_->EmitWithU8U8(kExprSelectWithType, num_types,
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ValueTypes::ValueTypeCodeFor(select_type));
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}
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void set_global(DataRange& data) { // NOLINT(runtime/references)
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global_op<kWasmStmt>(data);
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}
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template <ValueType... Types>
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void sequence(DataRange& data) { // NOLINT(runtime/references)
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Generate<Types...>(data);
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}
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void current_memory(DataRange& data) { // NOLINT(runtime/references)
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builder_->EmitWithU8(kExprMemorySize, 0);
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}
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void grow_memory(DataRange& data); // NOLINT(runtime/references)
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using generate_fn = void (WasmGenerator::*const)(DataRange&);
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template <size_t N>
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void GenerateOneOf(generate_fn (&alternates)[N],
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DataRange& data) { // NOLINT(runtime/references)
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static_assert(N < std::numeric_limits<uint8_t>::max(),
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"Too many alternates. Replace with a bigger type if needed.");
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const auto which = data.get<uint8_t>();
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generate_fn alternate = alternates[which % N];
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(this->*alternate)(data);
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}
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struct GeneratorRecursionScope {
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explicit GeneratorRecursionScope(WasmGenerator* gen) : gen(gen) {
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++gen->recursion_depth;
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DCHECK_LE(gen->recursion_depth, kMaxRecursionDepth);
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}
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~GeneratorRecursionScope() {
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DCHECK_GT(gen->recursion_depth, 0);
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--gen->recursion_depth;
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}
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WasmGenerator* gen;
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};
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public:
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WasmGenerator(WasmFunctionBuilder* fn,
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const std::vector<FunctionSig*>& functions,
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const std::vector<ValueType>& globals,
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const std::vector<uint8_t>& mutable_globals,
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DataRange& data) // NOLINT(runtime/references)
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: builder_(fn),
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functions_(functions),
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globals_(globals),
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mutable_globals_(mutable_globals) {
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FunctionSig* sig = fn->signature();
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DCHECK_GE(1, sig->return_count());
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blocks_.push_back(sig->return_count() == 0 ? kWasmStmt : sig->GetReturn(0));
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constexpr uint32_t kMaxLocals = 32;
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locals_.resize(data.get<uint8_t>() % kMaxLocals);
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for (ValueType& local : locals_) {
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local = GetValueType(data);
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fn->AddLocal(local);
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}
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}
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void Generate(ValueType type, DataRange& data); // NOLINT(runtime/references)
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template <ValueType T>
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void Generate(DataRange& data); // NOLINT(runtime/references)
|
|
|
|
template <ValueType T1, ValueType T2, ValueType... Ts>
|
|
void Generate(DataRange& data) { // NOLINT(runtime/references)
|
|
// TODO(clemensh): Implement a more even split.
|
|
auto first_data = data.split();
|
|
Generate<T1>(first_data);
|
|
Generate<T2, Ts...>(data);
|
|
}
|
|
|
|
private:
|
|
WasmFunctionBuilder* builder_;
|
|
std::vector<ValueType> blocks_;
|
|
const std::vector<FunctionSig*>& functions_;
|
|
std::vector<ValueType> locals_;
|
|
std::vector<ValueType> globals_;
|
|
std::vector<uint8_t> mutable_globals_; // indexes into {globals_}.
|
|
uint32_t recursion_depth = 0;
|
|
|
|
static constexpr uint32_t kMaxRecursionDepth = 64;
|
|
|
|
bool recursion_limit_reached() {
|
|
return recursion_depth >= kMaxRecursionDepth;
|
|
}
|
|
};
|
|
|
|
template <>
|
|
void WasmGenerator::Generate<kWasmStmt>(
|
|
DataRange& data) { // NOLINT(runtime/references)
|
|
GeneratorRecursionScope rec_scope(this);
|
|
if (recursion_limit_reached() || data.size() == 0) return;
|
|
|
|
constexpr generate_fn alternates[] = {
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmStmt>,
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmStmt, kWasmStmt, kWasmStmt>,
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmStmt, kWasmStmt, kWasmStmt,
|
|
kWasmStmt, kWasmStmt, kWasmStmt, kWasmStmt>,
|
|
&WasmGenerator::block<kWasmStmt>,
|
|
&WasmGenerator::loop<kWasmStmt>,
|
|
&WasmGenerator::if_<kWasmStmt, kIf>,
|
|
&WasmGenerator::if_<kWasmStmt, kIfElse>,
|
|
&WasmGenerator::br,
|
|
&WasmGenerator::br_if<kWasmStmt>,
|
|
|
|
&WasmGenerator::memop<kExprI32StoreMem, kWasmI32>,
|
|
&WasmGenerator::memop<kExprI32StoreMem8, kWasmI32>,
|
|
&WasmGenerator::memop<kExprI32StoreMem16, kWasmI32>,
|
|
&WasmGenerator::memop<kExprI64StoreMem, kWasmI64>,
|
|
&WasmGenerator::memop<kExprI64StoreMem8, kWasmI64>,
|
|
&WasmGenerator::memop<kExprI64StoreMem16, kWasmI64>,
|
|
&WasmGenerator::memop<kExprI64StoreMem32, kWasmI64>,
|
|
&WasmGenerator::memop<kExprF32StoreMem, kWasmF32>,
|
|
&WasmGenerator::memop<kExprF64StoreMem, kWasmF64>,
|
|
|
|
&WasmGenerator::drop,
|
|
|
|
&WasmGenerator::call<kWasmStmt>,
|
|
|
|
&WasmGenerator::set_local,
|
|
&WasmGenerator::set_global};
|
|
|
|
GenerateOneOf(alternates, data);
|
|
}
|
|
|
|
template <>
|
|
void WasmGenerator::Generate<kWasmI32>(
|
|
DataRange& data) { // NOLINT(runtime/references)
|
|
GeneratorRecursionScope rec_scope(this);
|
|
if (recursion_limit_reached() || data.size() <= 1) {
|
|
builder_->EmitI32Const(data.get<uint32_t>());
|
|
return;
|
|
}
|
|
|
|
constexpr generate_fn alternates[] = {
|
|
&WasmGenerator::i32_const<1>,
|
|
&WasmGenerator::i32_const<2>,
|
|
&WasmGenerator::i32_const<3>,
|
|
&WasmGenerator::i32_const<4>,
|
|
|
|
&WasmGenerator::sequence<kWasmI32, kWasmStmt>,
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmI32>,
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmI32, kWasmStmt>,
|
|
|
|
&WasmGenerator::op<kExprI32Eqz, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Eq, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Ne, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32LtS, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32LtU, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32GeS, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32GeU, kWasmI32, kWasmI32>,
|
|
|
|
&WasmGenerator::op<kExprI64Eqz, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Eq, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Ne, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64LtS, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64LtU, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64GeS, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64GeU, kWasmI64, kWasmI64>,
|
|
|
|
&WasmGenerator::op<kExprF32Eq, kWasmF32, kWasmF32>,
|
|
&WasmGenerator::op<kExprF32Ne, kWasmF32, kWasmF32>,
|
|
&WasmGenerator::op<kExprF32Lt, kWasmF32, kWasmF32>,
|
|
&WasmGenerator::op<kExprF32Ge, kWasmF32, kWasmF32>,
|
|
|
|
&WasmGenerator::op<kExprF64Eq, kWasmF64, kWasmF64>,
|
|
&WasmGenerator::op<kExprF64Ne, kWasmF64, kWasmF64>,
|
|
&WasmGenerator::op<kExprF64Lt, kWasmF64, kWasmF64>,
|
|
&WasmGenerator::op<kExprF64Ge, kWasmF64, kWasmF64>,
|
|
|
|
&WasmGenerator::op<kExprI32Add, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Sub, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Mul, kWasmI32, kWasmI32>,
|
|
|
|
&WasmGenerator::op<kExprI32DivS, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32DivU, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32RemS, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32RemU, kWasmI32, kWasmI32>,
|
|
|
|
&WasmGenerator::op<kExprI32And, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Ior, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Xor, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Shl, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32ShrU, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32ShrS, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Ror, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Rol, kWasmI32, kWasmI32>,
|
|
|
|
&WasmGenerator::op<kExprI32Clz, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Ctz, kWasmI32>,
|
|
&WasmGenerator::op<kExprI32Popcnt, kWasmI32>,
|
|
|
|
&WasmGenerator::op<kExprI32ConvertI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI32SConvertF32, kWasmF32>,
|
|
&WasmGenerator::op<kExprI32UConvertF32, kWasmF32>,
|
|
&WasmGenerator::op<kExprI32SConvertF64, kWasmF64>,
|
|
&WasmGenerator::op<kExprI32UConvertF64, kWasmF64>,
|
|
&WasmGenerator::op<kExprI32ReinterpretF32, kWasmF32>,
|
|
|
|
&WasmGenerator::block<kWasmI32>,
|
|
&WasmGenerator::loop<kWasmI32>,
|
|
&WasmGenerator::if_<kWasmI32, kIfElse>,
|
|
&WasmGenerator::br_if<kWasmI32>,
|
|
|
|
&WasmGenerator::memop<kExprI32LoadMem>,
|
|
&WasmGenerator::memop<kExprI32LoadMem8S>,
|
|
&WasmGenerator::memop<kExprI32LoadMem8U>,
|
|
&WasmGenerator::memop<kExprI32LoadMem16S>,
|
|
&WasmGenerator::memop<kExprI32LoadMem16U>,
|
|
|
|
&WasmGenerator::current_memory,
|
|
&WasmGenerator::grow_memory,
|
|
|
|
&WasmGenerator::get_local<kWasmI32>,
|
|
&WasmGenerator::tee_local<kWasmI32>,
|
|
&WasmGenerator::get_global<kWasmI32>,
|
|
&WasmGenerator::op<kExprSelect, kWasmI32, kWasmI32, kWasmI32>,
|
|
&WasmGenerator::select_with_type<kWasmI32>,
|
|
|
|
&WasmGenerator::call<kWasmI32>};
|
|
|
|
GenerateOneOf(alternates, data);
|
|
}
|
|
|
|
template <>
|
|
void WasmGenerator::Generate<kWasmI64>(
|
|
DataRange& data) { // NOLINT(runtime/references)
|
|
GeneratorRecursionScope rec_scope(this);
|
|
if (recursion_limit_reached() || data.size() <= 1) {
|
|
builder_->EmitI64Const(data.get<int64_t>());
|
|
return;
|
|
}
|
|
|
|
constexpr generate_fn alternates[] = {
|
|
&WasmGenerator::i64_const<1>,
|
|
&WasmGenerator::i64_const<2>,
|
|
&WasmGenerator::i64_const<3>,
|
|
&WasmGenerator::i64_const<4>,
|
|
&WasmGenerator::i64_const<5>,
|
|
&WasmGenerator::i64_const<6>,
|
|
&WasmGenerator::i64_const<7>,
|
|
&WasmGenerator::i64_const<8>,
|
|
|
|
&WasmGenerator::sequence<kWasmI64, kWasmStmt>,
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmI64>,
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmI64, kWasmStmt>,
|
|
|
|
&WasmGenerator::op<kExprI64Add, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Sub, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Mul, kWasmI64, kWasmI64>,
|
|
|
|
&WasmGenerator::op<kExprI64DivS, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64DivU, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64RemS, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64RemU, kWasmI64, kWasmI64>,
|
|
|
|
&WasmGenerator::op<kExprI64And, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Ior, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Xor, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Shl, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64ShrU, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64ShrS, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Ror, kWasmI64, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Rol, kWasmI64, kWasmI64>,
|
|
|
|
&WasmGenerator::op<kExprI64Clz, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Ctz, kWasmI64>,
|
|
&WasmGenerator::op<kExprI64Popcnt, kWasmI64>,
|
|
|
|
&WasmGenerator::block<kWasmI64>,
|
|
&WasmGenerator::loop<kWasmI64>,
|
|
&WasmGenerator::if_<kWasmI64, kIfElse>,
|
|
&WasmGenerator::br_if<kWasmI64>,
|
|
|
|
&WasmGenerator::memop<kExprI64LoadMem>,
|
|
&WasmGenerator::memop<kExprI64LoadMem8S>,
|
|
&WasmGenerator::memop<kExprI64LoadMem8U>,
|
|
&WasmGenerator::memop<kExprI64LoadMem16S>,
|
|
&WasmGenerator::memop<kExprI64LoadMem16U>,
|
|
&WasmGenerator::memop<kExprI64LoadMem32S>,
|
|
&WasmGenerator::memop<kExprI64LoadMem32U>,
|
|
|
|
&WasmGenerator::get_local<kWasmI64>,
|
|
&WasmGenerator::tee_local<kWasmI64>,
|
|
&WasmGenerator::get_global<kWasmI64>,
|
|
&WasmGenerator::op<kExprSelect, kWasmI64, kWasmI64, kWasmI32>,
|
|
&WasmGenerator::select_with_type<kWasmI64>,
|
|
|
|
&WasmGenerator::call<kWasmI64>};
|
|
|
|
GenerateOneOf(alternates, data);
|
|
}
|
|
|
|
template <>
|
|
void WasmGenerator::Generate<kWasmF32>(
|
|
DataRange& data) { // NOLINT(runtime/references)
|
|
GeneratorRecursionScope rec_scope(this);
|
|
if (recursion_limit_reached() || data.size() <= sizeof(float)) {
|
|
builder_->EmitF32Const(data.get<float>());
|
|
return;
|
|
}
|
|
|
|
constexpr generate_fn alternates[] = {
|
|
&WasmGenerator::sequence<kWasmF32, kWasmStmt>,
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmF32>,
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmF32, kWasmStmt>,
|
|
|
|
&WasmGenerator::op<kExprF32Add, kWasmF32, kWasmF32>,
|
|
&WasmGenerator::op<kExprF32Sub, kWasmF32, kWasmF32>,
|
|
&WasmGenerator::op<kExprF32Mul, kWasmF32, kWasmF32>,
|
|
|
|
&WasmGenerator::block<kWasmF32>,
|
|
&WasmGenerator::loop<kWasmF32>,
|
|
&WasmGenerator::if_<kWasmF32, kIfElse>,
|
|
&WasmGenerator::br_if<kWasmF32>,
|
|
|
|
&WasmGenerator::memop<kExprF32LoadMem>,
|
|
|
|
&WasmGenerator::get_local<kWasmF32>,
|
|
&WasmGenerator::tee_local<kWasmF32>,
|
|
&WasmGenerator::get_global<kWasmF32>,
|
|
&WasmGenerator::op<kExprSelect, kWasmF32, kWasmF32, kWasmI32>,
|
|
&WasmGenerator::select_with_type<kWasmF32>,
|
|
|
|
&WasmGenerator::call<kWasmF32>};
|
|
|
|
GenerateOneOf(alternates, data);
|
|
}
|
|
|
|
template <>
|
|
void WasmGenerator::Generate<kWasmF64>(
|
|
DataRange& data) { // NOLINT(runtime/references)
|
|
GeneratorRecursionScope rec_scope(this);
|
|
if (recursion_limit_reached() || data.size() <= sizeof(double)) {
|
|
builder_->EmitF64Const(data.get<double>());
|
|
return;
|
|
}
|
|
|
|
constexpr generate_fn alternates[] = {
|
|
&WasmGenerator::sequence<kWasmF64, kWasmStmt>,
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmF64>,
|
|
&WasmGenerator::sequence<kWasmStmt, kWasmF64, kWasmStmt>,
|
|
|
|
&WasmGenerator::op<kExprF64Add, kWasmF64, kWasmF64>,
|
|
&WasmGenerator::op<kExprF64Sub, kWasmF64, kWasmF64>,
|
|
&WasmGenerator::op<kExprF64Mul, kWasmF64, kWasmF64>,
|
|
|
|
&WasmGenerator::block<kWasmF64>,
|
|
&WasmGenerator::loop<kWasmF64>,
|
|
&WasmGenerator::if_<kWasmF64, kIfElse>,
|
|
&WasmGenerator::br_if<kWasmF64>,
|
|
|
|
&WasmGenerator::memop<kExprF64LoadMem>,
|
|
|
|
&WasmGenerator::get_local<kWasmF64>,
|
|
&WasmGenerator::tee_local<kWasmF64>,
|
|
&WasmGenerator::get_global<kWasmF64>,
|
|
&WasmGenerator::op<kExprSelect, kWasmF64, kWasmF64, kWasmI32>,
|
|
&WasmGenerator::select_with_type<kWasmF64>,
|
|
|
|
&WasmGenerator::call<kWasmF64>};
|
|
|
|
GenerateOneOf(alternates, data);
|
|
}
|
|
|
|
void WasmGenerator::grow_memory(DataRange& data) {
|
|
Generate<kWasmI32>(data);
|
|
builder_->EmitWithU8(kExprMemoryGrow, 0);
|
|
}
|
|
|
|
void WasmGenerator::Generate(ValueType type, DataRange& data) {
|
|
switch (type) {
|
|
case kWasmStmt:
|
|
return Generate<kWasmStmt>(data);
|
|
case kWasmI32:
|
|
return Generate<kWasmI32>(data);
|
|
case kWasmI64:
|
|
return Generate<kWasmI64>(data);
|
|
case kWasmF32:
|
|
return Generate<kWasmF32>(data);
|
|
case kWasmF64:
|
|
return Generate<kWasmF64>(data);
|
|
default:
|
|
UNREACHABLE();
|
|
}
|
|
}
|
|
|
|
FunctionSig* GenerateSig(Zone* zone,
|
|
DataRange& data) { // NOLINT(runtime/references)
|
|
// Generate enough parameters to spill some to the stack.
|
|
constexpr int kMaxParameters = 15;
|
|
int num_params = int{data.get<uint8_t>()} % (kMaxParameters + 1);
|
|
bool has_return = data.get<bool>();
|
|
|
|
FunctionSig::Builder builder(zone, has_return ? 1 : 0, num_params);
|
|
if (has_return) builder.AddReturn(GetValueType(data));
|
|
for (int i = 0; i < num_params; ++i) builder.AddParam(GetValueType(data));
|
|
return builder.Build();
|
|
}
|
|
|
|
} // namespace
|
|
|
|
class WasmCompileFuzzer : public WasmExecutionFuzzer {
|
|
bool GenerateModule(
|
|
Isolate* isolate, Zone* zone, Vector<const uint8_t> data,
|
|
ZoneBuffer& buffer, int32_t& num_args,
|
|
std::unique_ptr<WasmValue[]>& interpreter_args,
|
|
std::unique_ptr<Handle<Object>[]>& compiler_args) override {
|
|
TestSignatures sigs;
|
|
|
|
WasmModuleBuilder builder(zone);
|
|
|
|
DataRange range(data);
|
|
std::vector<FunctionSig*> function_signatures;
|
|
function_signatures.push_back(sigs.i_iii());
|
|
|
|
static_assert(kMaxFunctions >= 1, "need min. 1 function");
|
|
int num_functions = 1 + (range.get<uint8_t>() % kMaxFunctions);
|
|
|
|
for (int i = 1; i < num_functions; ++i) {
|
|
function_signatures.push_back(GenerateSig(zone, range));
|
|
}
|
|
|
|
int num_globals = range.get<uint8_t>() % (kMaxGlobals + 1);
|
|
std::vector<ValueType> globals;
|
|
std::vector<uint8_t> mutable_globals;
|
|
globals.reserve(num_globals);
|
|
mutable_globals.reserve(num_globals);
|
|
|
|
for (int i = 0; i < num_globals; ++i) {
|
|
ValueType type = GetValueType(range);
|
|
const bool exported = range.get<bool>();
|
|
// 1/8 of globals are immutable.
|
|
const bool mutability = (range.get<uint8_t>() % 8) != 0;
|
|
builder.AddGlobal(type, exported, mutability, WasmInitExpr());
|
|
globals.push_back(type);
|
|
if (mutability) mutable_globals.push_back(static_cast<uint8_t>(i));
|
|
}
|
|
|
|
for (int i = 0; i < num_functions; ++i) {
|
|
DataRange function_range =
|
|
i == num_functions - 1 ? std::move(range) : range.split();
|
|
|
|
FunctionSig* sig = function_signatures[i];
|
|
WasmFunctionBuilder* f = builder.AddFunction(sig);
|
|
|
|
WasmGenerator gen(f, function_signatures, globals, mutable_globals,
|
|
function_range);
|
|
ValueType return_type =
|
|
sig->return_count() == 0 ? kWasmStmt : sig->GetReturn(0);
|
|
gen.Generate(return_type, function_range);
|
|
|
|
f->Emit(kExprEnd);
|
|
if (i == 0) builder.AddExport(CStrVector("main"), f);
|
|
}
|
|
|
|
builder.SetMaxMemorySize(32);
|
|
builder.WriteTo(&buffer);
|
|
|
|
num_args = 3;
|
|
interpreter_args.reset(
|
|
new WasmValue[3]{WasmValue(1), WasmValue(2), WasmValue(3)});
|
|
|
|
compiler_args.reset(new Handle<Object>[3]{
|
|
handle(Smi::FromInt(1), isolate), handle(Smi::FromInt(2), isolate),
|
|
handle(Smi::FromInt(3), isolate)});
|
|
return true;
|
|
}
|
|
};
|
|
|
|
extern "C" int LLVMFuzzerTestOneInput(const uint8_t* data, size_t size) {
|
|
constexpr bool require_valid = true;
|
|
EXPERIMENTAL_FLAG_SCOPE(anyref);
|
|
WasmCompileFuzzer().FuzzWasmModule({data, size}, require_valid);
|
|
return 0;
|
|
}
|
|
|
|
} // namespace fuzzer
|
|
} // namespace wasm
|
|
} // namespace internal
|
|
} // namespace v8
|