7810ce0468
We add support for struct and arraytypes in wasm-fuzzer-common. Also, we add addStruct and addArray while generating tests. Other OptRef types like eqref/anyref have been supported. Adding struct and arraytypes in wasm-compile has been placed at the beginning in order to generate them in addSignature. Bug: v8:11954 Change-Id: Ibe468dd4df70ad40367196c88353b28b7654f086 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/3074463 Reviewed-by: Thibaud Michaud <thibaudm@chromium.org> Reviewed-by: Manos Koukoutos <manoskouk@chromium.org> Commit-Queue: Rakhim Khismet <khismet@google.com> Cr-Commit-Position: refs/heads/master@{#76137}
647 lines
23 KiB
C++
647 lines
23 KiB
C++
// Copyright 2016 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 "test/fuzzer/wasm-fuzzer-common.h"
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#include <ctime>
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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/utils/ostreams.h"
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#include "src/wasm/baseline/liftoff-compiler.h"
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#include "src/wasm/function-body-decoder-impl.h"
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#include "src/wasm/module-instantiate.h"
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#include "src/wasm/wasm-engine.h"
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#include "src/wasm/wasm-feature-flags.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 "src/wasm/wasm-objects-inl.h"
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#include "src/zone/accounting-allocator.h"
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#include "src/zone/zone.h"
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#include "test/common/wasm/flag-utils.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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namespace v8 {
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namespace internal {
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namespace wasm {
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namespace fuzzer {
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// Compile a baseline module. We pass a pointer to a max step counter and a
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// nondeterminsm flag that are updated during execution by Liftoff.
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Handle<WasmModuleObject> CompileReferenceModule(Zone* zone, Isolate* isolate,
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ModuleWireBytes wire_bytes,
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ErrorThrower* thrower,
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int32_t* max_steps,
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int32_t* nondeterminism) {
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// Create the native module.
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std::shared_ptr<NativeModule> native_module;
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constexpr bool kNoVerifyFunctions = false;
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auto enabled_features = i::wasm::WasmFeatures::FromIsolate(isolate);
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ModuleResult module_res = DecodeWasmModule(
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enabled_features, wire_bytes.start(), wire_bytes.end(),
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kNoVerifyFunctions, ModuleOrigin::kWasmOrigin, isolate->counters(),
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isolate->metrics_recorder(), v8::metrics::Recorder::ContextId::Empty(),
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DecodingMethod::kSync, GetWasmEngine()->allocator());
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CHECK(module_res.ok());
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std::shared_ptr<WasmModule> module = module_res.value();
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CHECK_NOT_NULL(module);
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native_module =
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GetWasmEngine()->NewNativeModule(isolate, enabled_features, module, 0);
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native_module->SetWireBytes(
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base::OwnedVector<uint8_t>::Of(wire_bytes.module_bytes()));
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// Compile all functions with Liftoff.
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WasmCodeRefScope code_ref_scope;
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auto env = native_module->CreateCompilationEnv();
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for (size_t i = module->num_imported_functions; i < module->functions.size();
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++i) {
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auto& func = module->functions[i];
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base::Vector<const uint8_t> func_code = wire_bytes.GetFunctionBytes(&func);
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FunctionBody func_body(func.sig, func.code.offset(), func_code.begin(),
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func_code.end());
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auto result = ExecuteLiftoffCompilation(
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&env, func_body, func.func_index, kForDebugging,
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LiftoffOptions{}.set_max_steps(max_steps).set_nondeterminism(
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nondeterminism));
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native_module->PublishCode(
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native_module->AddCompiledCode(std::move(result)));
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}
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// Create the module object.
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constexpr base::Vector<const char> kNoSourceUrl;
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Handle<Script> script =
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GetWasmEngine()->GetOrCreateScript(isolate, native_module, kNoSourceUrl);
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Handle<FixedArray> export_wrappers = isolate->factory()->NewFixedArray(
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static_cast<int>(module->num_exported_functions));
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return WasmModuleObject::New(isolate, std::move(native_module), script,
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export_wrappers);
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}
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void InterpretAndExecuteModule(i::Isolate* isolate,
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Handle<WasmModuleObject> module_object,
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Handle<WasmModuleObject> module_ref,
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int32_t* max_steps, int32_t* nondeterminism) {
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// We do not instantiate the module if there is a start function, because a
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// start function can contain an infinite loop which we cannot handle.
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if (module_object->module()->start_function_index >= 0) return;
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HandleScope handle_scope(isolate); // Avoid leaking handles.
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Handle<WasmInstanceObject> instance;
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// Try to instantiate, return if it fails.
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{
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ErrorThrower thrower(isolate, "WebAssembly Instantiation");
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if (!GetWasmEngine()
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->SyncInstantiate(isolate, &thrower, module_object, {},
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{}) // no imports & memory
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.ToHandle(&instance)) {
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isolate->clear_pending_exception();
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thrower.Reset(); // Ignore errors.
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return;
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}
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}
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// Get the "main" exported function. Do nothing if it does not exist.
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Handle<WasmExportedFunction> main_function;
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if (!testing::GetExportedFunction(isolate, instance, "main")
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.ToHandle(&main_function)) {
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return;
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}
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base::OwnedVector<Handle<Object>> compiled_args =
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testing::MakeDefaultArguments(isolate, main_function->sig());
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bool exception_ref = false;
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bool exception = false;
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int32_t result_ref = 0;
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int32_t result = 0;
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auto interpreter_result = testing::WasmInterpretationResult::Failed();
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if (module_ref.is_null()) {
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base::OwnedVector<WasmValue> arguments =
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testing::MakeDefaultInterpreterArguments(isolate, main_function->sig());
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// Now interpret.
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testing::WasmInterpretationResult interpreter_result =
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testing::InterpretWasmModule(isolate, instance,
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main_function->function_index(),
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arguments.begin());
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if (interpreter_result.failed()) return;
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// The WebAssembly spec allows the sign bit of NaN to be non-deterministic.
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// This sign bit can make the difference between an infinite loop and
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// terminating code. With possible non-determinism we cannot guarantee that
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// the generated code will not go into an infinite loop and cause a timeout
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// in Clusterfuzz. Therefore we do not execute the generated code if the
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// result may be non-deterministic.
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if (interpreter_result.possible_nondeterminism()) return;
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if (interpreter_result.finished()) {
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result_ref = interpreter_result.result();
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} else {
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DCHECK(interpreter_result.trapped());
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exception_ref = true;
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}
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// Reset the instance before the test run.
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{
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ErrorThrower thrower(isolate, "Second Instantiation");
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// We instantiated before, so the second instantiation must also succeed:
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CHECK(GetWasmEngine()
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->SyncInstantiate(isolate, &thrower, module_object, {},
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{}) // no imports & memory
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.ToHandle(&instance));
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}
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} else {
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Handle<WasmInstanceObject> instance_ref;
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{
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ErrorThrower thrower(isolate, "WebAssembly Instantiation");
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// We instantiated before, so the second instantiation must also succeed:
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CHECK(GetWasmEngine()
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->SyncInstantiate(isolate, &thrower, module_ref, {},
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{}) // no imports & memory
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.ToHandle(&instance_ref));
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}
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result_ref = testing::CallWasmFunctionForTesting(
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isolate, instance_ref, "main", static_cast<int>(compiled_args.size()),
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compiled_args.begin(), &exception_ref);
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// Reached max steps, do not try to execute the test module as it might
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// never terminate.
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if (*max_steps == 0) return;
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// If there is nondeterminism, we cannot guarantee the behavior of the test
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// module, and in particular it may not terminate.
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if (*nondeterminism != 0) return;
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}
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result = testing::CallWasmFunctionForTesting(
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isolate, instance, "main", static_cast<int>(compiled_args.size()),
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compiled_args.begin(), &exception);
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if (exception_ref != exception) {
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const char* exception_text[] = {"no exception", "exception"};
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FATAL("expected: %s; got: %s", exception_text[interpreter_result.trapped()],
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exception_text[exception]);
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}
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if (!exception) {
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CHECK_EQ(result_ref, result);
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}
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}
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namespace {
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struct PrintSig {
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const size_t num;
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const std::function<ValueType(size_t)> getter;
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};
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PrintSig PrintParameters(const FunctionSig* sig) {
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return {sig->parameter_count(), [=](size_t i) { return sig->GetParam(i); }};
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}
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PrintSig PrintReturns(const FunctionSig* sig) {
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return {sig->return_count(), [=](size_t i) { return sig->GetReturn(i); }};
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}
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std::string ValueTypeToConstantName(ValueType type) {
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switch (type.kind()) {
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case kI32:
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return "kWasmI32";
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case kI64:
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return "kWasmI64";
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case kF32:
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return "kWasmF32";
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case kF64:
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return "kWasmF64";
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case kS128:
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return "kWasmS128";
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case kOptRef:
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switch (type.heap_representation()) {
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case HeapType::kExtern:
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return "kWasmExternRef";
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case HeapType::kFunc:
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return "kWasmFuncRef";
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case HeapType::kEq:
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return "kWasmEqRef";
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case HeapType::kAny:
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return "kWasmAnyRef";
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case HeapType::kData:
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return "wasmOptRefType(kWasmDataRef)";
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case HeapType::kI31:
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return "wasmOptRefType(kWasmI31Ref)";
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case HeapType::kBottom:
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default:
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return "wasmOptRefType(" + std::to_string(type.ref_index()) + ")";
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}
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default:
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UNREACHABLE();
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}
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}
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std::string HeapTypeToConstantName(HeapType heap_type) {
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switch (heap_type.representation()) {
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case HeapType::kFunc:
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return "kWasmFuncRef";
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case HeapType::kExtern:
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return "kWasmExternRef";
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case HeapType::kEq:
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return "kWasmEqRef";
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case HeapType::kI31:
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return "kWasmI31Ref";
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case HeapType::kData:
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return "kWasmDataRef";
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case HeapType::kAny:
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return "kWasmAnyRef";
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case HeapType::kBottom:
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UNREACHABLE();
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default:
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return std::to_string(heap_type.ref_index());
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}
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}
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std::ostream& operator<<(std::ostream& os, const PrintSig& print) {
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os << "[";
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for (size_t i = 0; i < print.num; ++i) {
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os << (i == 0 ? "" : ", ") << ValueTypeToConstantName(print.getter(i));
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}
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return os << "]";
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}
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struct PrintName {
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WasmName name;
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PrintName(ModuleWireBytes wire_bytes, WireBytesRef ref)
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: name(wire_bytes.GetNameOrNull(ref)) {}
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};
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std::ostream& operator<<(std::ostream& os, const PrintName& name) {
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return os.write(name.name.begin(), name.name.size());
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}
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std::ostream& operator<<(std::ostream& os, WasmElemSegment::Entry entry) {
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os << "WasmInitExpr.";
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switch (entry.kind) {
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case WasmElemSegment::Entry::kGlobalGetEntry:
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os << "GlobalGet(" << entry.index;
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break;
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case WasmElemSegment::Entry::kRefFuncEntry:
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os << "RefFunc(" << entry.index;
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break;
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case WasmElemSegment::Entry::kRefNullEntry:
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os << "RefNull(" << HeapType(entry.index).name().c_str();
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break;
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}
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return os << ")";
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}
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// Appends an initializer expression encoded in {wire_bytes}, in the offset
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// contained in {expr}.
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// TODO(7748): Find a way to implement other expressions here.
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void AppendInitExpr(std::ostream& os, ModuleWireBytes wire_bytes,
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WireBytesRef expr) {
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Decoder decoder(wire_bytes.module_bytes());
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const byte* pc = wire_bytes.module_bytes().begin() + expr.offset();
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uint32_t length;
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os << "WasmInitExpr.";
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switch (static_cast<WasmOpcode>(pc[0])) {
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case kExprGlobalGet:
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os << "GlobalGet("
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<< decoder.read_u32v<Decoder::kNoValidation>(pc + 1, &length);
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break;
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case kExprI32Const:
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os << "I32Const("
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<< decoder.read_i32v<Decoder::kNoValidation>(pc + 1, &length);
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break;
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case kExprI64Const:
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os << "I64Const("
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<< decoder.read_i64v<Decoder::kNoValidation>(pc + 1, &length);
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break;
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case kExprF32Const: {
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uint32_t result = decoder.read_u32<Decoder::kNoValidation>(pc + 1);
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os << "F32Const(" << bit_cast<float>(result);
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break;
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}
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case kExprF64Const: {
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uint64_t result = decoder.read_u64<Decoder::kNoValidation>(pc + 1);
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os << "F64Const(" << bit_cast<double>(result);
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break;
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}
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case kSimdPrefix: {
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DCHECK_LE(2 + kSimd128Size, expr.length());
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DCHECK_EQ(static_cast<WasmOpcode>(pc[1]), kExprS128Const & 0xff);
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os << "S128Const([";
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for (int i = 0; i < kSimd128Size; i++) {
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os << int(decoder.read_u8<Decoder::kNoValidation>(pc + 2 + i));
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if (i + 1 < kSimd128Size) os << ", ";
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}
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os << "]";
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break;
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}
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case kExprRefFunc:
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os << "RefFunc("
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<< decoder.read_u32v<Decoder::kNoValidation>(pc + 1, &length);
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break;
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case kExprRefNull: {
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HeapType heap_type =
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value_type_reader::read_heap_type<Decoder::kNoValidation>(
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&decoder, pc + 1, &length, nullptr, WasmFeatures::All());
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os << "RefNull(" << HeapTypeToConstantName(heap_type);
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break;
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}
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default:
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UNREACHABLE();
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}
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os << ")";
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}
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} // namespace
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void GenerateTestCase(Isolate* isolate, ModuleWireBytes wire_bytes,
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bool compiles) {
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constexpr bool kVerifyFunctions = false;
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auto enabled_features = i::wasm::WasmFeatures::FromIsolate(isolate);
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ModuleResult module_res = DecodeWasmModule(
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enabled_features, wire_bytes.start(), wire_bytes.end(), kVerifyFunctions,
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ModuleOrigin::kWasmOrigin, isolate->counters(),
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isolate->metrics_recorder(), v8::metrics::Recorder::ContextId::Empty(),
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DecodingMethod::kSync, GetWasmEngine()->allocator());
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CHECK(module_res.ok());
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WasmModule* module = module_res.value().get();
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CHECK_NOT_NULL(module);
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StdoutStream os;
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tzset();
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time_t current_time = time(nullptr);
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struct tm current_localtime;
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#ifdef V8_OS_WIN
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localtime_s(¤t_localtime, ¤t_time);
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#else
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localtime_r(¤t_time, ¤t_localtime);
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#endif
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int year = 1900 + current_localtime.tm_year;
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os << "// Copyright " << year
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<< " the V8 project authors. All rights reserved.\n"
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"// Use of this source code is governed by a BSD-style license that "
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"can be\n"
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"// found in the LICENSE file.\n"
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"\n"
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"// Flags: --wasm-staging --experimental-wasm-gc\n"
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"\n"
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"load('test/mjsunit/wasm/wasm-module-builder.js');\n"
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"\n"
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"const builder = new WasmModuleBuilder();\n";
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if (module->has_memory) {
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os << "builder.addMemory(" << module->initial_pages;
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if (module->has_maximum_pages) {
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os << ", " << module->maximum_pages;
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} else {
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os << ", undefined";
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}
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os << ", " << (module->mem_export ? "true" : "false");
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if (module->has_shared_memory) {
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os << ", true";
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}
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os << ");\n";
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}
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for (WasmGlobal& glob : module->globals) {
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os << "builder.addGlobal(" << ValueTypeToConstantName(glob.type) << ", "
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<< glob.mutability << ", ";
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AppendInitExpr(os, wire_bytes, glob.init);
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os << ");\n";
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}
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#if DEBUG
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for (uint8_t kind : module->type_kinds) {
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DCHECK(kWasmArrayTypeCode == kind || kWasmStructTypeCode == kind ||
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kWasmFunctionTypeCode == kind);
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}
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#endif
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for (int i = 0; i < static_cast<int>(module->types.size()); i++) {
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if (module->has_struct(i)) {
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const StructType* struct_type = module->types[i].struct_type;
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os << "builder.addStruct([";
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int field_count = struct_type->field_count();
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for (int index = 0; index < field_count; index++) {
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os << "makeField(" << ValueTypeToConstantName(struct_type->field(index))
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<< ", " << (struct_type->mutability(index) ? "true" : "false")
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<< ")";
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if (index + 1 < field_count)
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os << ", ";
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else
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os << "]);\n";
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}
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} else if (module->has_array(i)) {
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const ArrayType* array_type = module->types[i].array_type;
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os << "builder.addArray("
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<< ValueTypeToConstantName(array_type->element_type()) << ","
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<< (array_type->mutability() ? "true" : "false") << ");\n";
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} else {
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DCHECK(module->has_signature(i));
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const FunctionSig* sig = module->types[i].function_sig;
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os << "builder.addType(makeSig(" << PrintParameters(sig) << ", "
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<< PrintReturns(sig) << "));\n";
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}
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}
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Zone tmp_zone(isolate->allocator(), ZONE_NAME);
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// There currently cannot be more than one table.
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// TODO(manoskouk): Add support for more tables.
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// TODO(9495): Add support for talbes with explicit initializers.
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DCHECK_GE(1, module->tables.size());
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for (const WasmTable& table : module->tables) {
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os << "builder.setTableBounds(" << table.initial_size << ", ";
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if (table.has_maximum_size) {
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os << table.maximum_size << ");\n";
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} else {
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os << "undefined);\n";
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}
|
|
}
|
|
for (const WasmElemSegment& elem_segment : module->elem_segments) {
|
|
const char* status_str =
|
|
elem_segment.status == WasmElemSegment::kStatusActive
|
|
? "Active"
|
|
: elem_segment.status == WasmElemSegment::kStatusPassive
|
|
? "Passive"
|
|
: "Declarative";
|
|
os << "builder.add" << status_str << "ElementSegment(";
|
|
if (elem_segment.status == WasmElemSegment::kStatusActive) {
|
|
os << elem_segment.table_index << ", ";
|
|
AppendInitExpr(os, wire_bytes, elem_segment.offset);
|
|
os << ", ";
|
|
}
|
|
os << "[";
|
|
for (uint32_t i = 0; i < elem_segment.entries.size(); i++) {
|
|
os << elem_segment.entries[i];
|
|
if (i < elem_segment.entries.size() - 1) os << ", ";
|
|
}
|
|
os << "], " << ValueTypeToConstantName(elem_segment.type) << ");\n";
|
|
}
|
|
|
|
for (const WasmFunction& func : module->functions) {
|
|
base::Vector<const uint8_t> func_code = wire_bytes.GetFunctionBytes(&func);
|
|
os << "// Generate function " << (func.func_index + 1) << " (out of "
|
|
<< module->functions.size() << ").\n";
|
|
|
|
// Add function.
|
|
os << "builder.addFunction(undefined, " << func.sig_index
|
|
<< " /* sig */)\n";
|
|
|
|
// Add locals.
|
|
BodyLocalDecls decls(&tmp_zone);
|
|
DecodeLocalDecls(enabled_features, &decls, module, func_code.begin(),
|
|
func_code.end());
|
|
if (!decls.type_list.empty()) {
|
|
os << " ";
|
|
for (size_t pos = 0, count = 1, locals = decls.type_list.size();
|
|
pos < locals; pos += count, count = 1) {
|
|
ValueType type = decls.type_list[pos];
|
|
while (pos + count < locals && decls.type_list[pos + count] == type) {
|
|
++count;
|
|
}
|
|
os << ".addLocals(" << ValueTypeToConstantName(type) << ", " << count
|
|
<< ")";
|
|
}
|
|
os << "\n";
|
|
}
|
|
|
|
// Add body.
|
|
os << " .addBodyWithEnd([\n";
|
|
|
|
FunctionBody func_body(func.sig, func.code.offset(), func_code.begin(),
|
|
func_code.end());
|
|
PrintRawWasmCode(isolate->allocator(), func_body, module, kOmitLocals);
|
|
os << "]);\n";
|
|
}
|
|
|
|
for (WasmExport& exp : module->export_table) {
|
|
if (exp.kind != kExternalFunction) continue;
|
|
os << "builder.addExport('" << PrintName(wire_bytes, exp.name) << "', "
|
|
<< exp.index << ");\n";
|
|
}
|
|
|
|
if (compiles) {
|
|
os << "const instance = builder.instantiate();\n"
|
|
"print(instance.exports.main(1, 2, 3));\n";
|
|
} else {
|
|
os << "assertThrows(function() { builder.instantiate(); }, "
|
|
"WebAssembly.CompileError);\n";
|
|
}
|
|
}
|
|
|
|
void OneTimeEnableStagedWasmFeatures(v8::Isolate* isolate) {
|
|
struct EnableStagedWasmFeatures {
|
|
explicit EnableStagedWasmFeatures(v8::Isolate* isolate) {
|
|
#define ENABLE_STAGED_FEATURES(feat, desc, val) \
|
|
FLAG_experimental_wasm_##feat = true;
|
|
FOREACH_WASM_STAGING_FEATURE_FLAG(ENABLE_STAGED_FEATURES)
|
|
#undef ENABLE_STAGED_FEATURES
|
|
isolate->InstallConditionalFeatures(isolate->GetCurrentContext());
|
|
}
|
|
};
|
|
// The compiler will properly synchronize the constructor call.
|
|
static EnableStagedWasmFeatures one_time_enable_staged_features(isolate);
|
|
}
|
|
|
|
void WasmExecutionFuzzer::FuzzWasmModule(base::Vector<const uint8_t> data,
|
|
bool require_valid) {
|
|
v8_fuzzer::FuzzerSupport* support = v8_fuzzer::FuzzerSupport::Get();
|
|
v8::Isolate* isolate = support->GetIsolate();
|
|
|
|
// Strictly enforce the input size limit. Note that setting "max_len" on the
|
|
// fuzzer target is not enough, since different fuzzers are used and not all
|
|
// respect that limit.
|
|
if (data.size() > max_input_size()) return;
|
|
|
|
i::Isolate* i_isolate = reinterpret_cast<Isolate*>(isolate);
|
|
|
|
// Clear any pending exceptions from a prior run.
|
|
i_isolate->clear_pending_exception();
|
|
|
|
v8::Isolate::Scope isolate_scope(isolate);
|
|
v8::HandleScope handle_scope(isolate);
|
|
v8::Context::Scope context_scope(support->GetContext());
|
|
|
|
// We explicitly enable staged WebAssembly features here to increase fuzzer
|
|
// coverage. For libfuzzer fuzzers it is not possible that the fuzzer enables
|
|
// the flag by itself.
|
|
OneTimeEnableStagedWasmFeatures(isolate);
|
|
|
|
v8::TryCatch try_catch(isolate);
|
|
HandleScope scope(i_isolate);
|
|
|
|
AccountingAllocator allocator;
|
|
Zone zone(&allocator, ZONE_NAME);
|
|
|
|
ZoneBuffer buffer(&zone);
|
|
// The first byte builds the bitmask to control which function will be
|
|
// compiled with Turbofan and which one with Liftoff.
|
|
uint8_t tier_mask = data.empty() ? 0 : data[0];
|
|
if (!data.empty()) data += 1;
|
|
// Build the bitmask to control which functions should be compiled for
|
|
// debugging.
|
|
uint8_t debug_mask = data.empty() ? 0 : data[0];
|
|
if (!data.empty()) data += 1;
|
|
// Control whether Liftoff or the interpreter will be used as the reference
|
|
// tier.
|
|
// TODO(thibaudm): Port nondeterminism detection to arm.
|
|
#if defined(V8_TARGET_ARCH_X64) || defined(V8_TARGET_ARCH_X86)
|
|
bool liftoff_as_reference = data.empty() ? false : data[0] % 2;
|
|
#else
|
|
bool liftoff_as_reference = false;
|
|
#endif
|
|
if (!data.empty()) data += 1;
|
|
if (!GenerateModule(i_isolate, &zone, data, &buffer, liftoff_as_reference)) {
|
|
return;
|
|
}
|
|
|
|
testing::SetupIsolateForWasmModule(i_isolate);
|
|
|
|
ErrorThrower interpreter_thrower(i_isolate, "Interpreter");
|
|
ModuleWireBytes wire_bytes(buffer.begin(), buffer.end());
|
|
|
|
if (require_valid && FLAG_wasm_fuzzer_gen_test) {
|
|
GenerateTestCase(i_isolate, wire_bytes, true);
|
|
}
|
|
|
|
auto enabled_features = i::wasm::WasmFeatures::FromIsolate(i_isolate);
|
|
MaybeHandle<WasmModuleObject> compiled_module;
|
|
{
|
|
// Explicitly enable Liftoff, disable tiering and set the tier_mask. This
|
|
// way, we deterministically test a combination of Liftoff and Turbofan.
|
|
FlagScope<bool> liftoff(&FLAG_liftoff, true);
|
|
FlagScope<bool> no_tier_up(&FLAG_wasm_tier_up, false);
|
|
FlagScope<int> tier_mask_scope(&FLAG_wasm_tier_mask_for_testing, tier_mask);
|
|
FlagScope<int> debug_mask_scope(&FLAG_wasm_debug_mask_for_testing,
|
|
debug_mask);
|
|
compiled_module = GetWasmEngine()->SyncCompile(
|
|
i_isolate, enabled_features, &interpreter_thrower, wire_bytes);
|
|
}
|
|
bool compiles = !compiled_module.is_null();
|
|
if (!require_valid && FLAG_wasm_fuzzer_gen_test) {
|
|
GenerateTestCase(i_isolate, wire_bytes, compiles);
|
|
}
|
|
|
|
bool validates =
|
|
GetWasmEngine()->SyncValidate(i_isolate, enabled_features, wire_bytes);
|
|
|
|
CHECK_EQ(compiles, validates);
|
|
CHECK_IMPLIES(require_valid, validates);
|
|
|
|
if (!compiles) return;
|
|
|
|
int32_t max_steps = 16 * 1024;
|
|
int32_t nondeterminism = false;
|
|
Handle<WasmModuleObject> module_ref;
|
|
if (liftoff_as_reference) {
|
|
module_ref = CompileReferenceModule(&zone, i_isolate, wire_bytes,
|
|
&interpreter_thrower, &max_steps,
|
|
&nondeterminism);
|
|
}
|
|
InterpretAndExecuteModule(i_isolate, compiled_module.ToHandleChecked(),
|
|
module_ref, &max_steps, &nondeterminism);
|
|
}
|
|
|
|
} // namespace fuzzer
|
|
} // namespace wasm
|
|
} // namespace internal
|
|
} // namespace v8
|