d3a3d73384
The {CallWasmFunctionForTesting} function currently receives arguments as a pair of {int} and {Handle<Object>*}. Encapsulating this as a {base::Vector} makes the relation more clear and improves readability at call sites. R=ahaas@chromium.org Change-Id: I884f8d0dc1c33389b60cc53750f2e3bfcaf644a5 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/4218353 Reviewed-by: Andreas Haas <ahaas@chromium.org> Commit-Queue: Clemens Backes <clemensb@chromium.org> Cr-Commit-Position: refs/heads/main@{#85638}
819 lines
29 KiB
C++
819 lines
29 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-context.h"
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#include "include/v8-exception.h"
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#include "include/v8-isolate.h"
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#include "include/v8-local-handle.h"
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#include "include/v8-metrics.h"
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#include "src/execution/isolate.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/wasm/wasm-opcodes-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/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::internal::wasm::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(
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Isolate* isolate, base::Vector<const uint8_t> wire_bytes,
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int32_t* max_steps, 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 = WasmFeatures::FromIsolate(isolate);
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ModuleResult module_res =
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DecodeWasmModule(enabled_features, wire_bytes, kNoVerifyFunctions,
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ModuleOrigin::kWasmOrigin);
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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(base::OwnedVector<uint8_t>::Of(wire_bytes));
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// The module is known to be valid as this point (it was compiled by the
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// caller before).
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module->set_all_functions_validated();
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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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ModuleWireBytes wire_bytes_accessor{wire_bytes};
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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 =
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wire_bytes_accessor.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 =
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ExecuteLiftoffCompilation(&env, func_body,
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LiftoffOptions{}
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.set_func_index(func.func_index)
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.set_for_debugging(kForDebugging)
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.set_max_steps(max_steps)
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.set_nondeterminism(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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isolate->heap()->EnsureWasmCanonicalRttsSize(module->MaxCanonicalTypeIndex() +
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1);
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return WasmModuleObject::New(isolate, std::move(native_module), script);
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}
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void ExecuteAgainstReference(Isolate* isolate,
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Handle<WasmModuleObject> module_object,
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int32_t max_executed_instructions) {
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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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int32_t max_steps = max_executed_instructions;
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int32_t nondeterminism = 0;
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HandleScope handle_scope(isolate); // Avoid leaking handles.
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Zone reference_module_zone(isolate->allocator(), "wasm reference module");
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Handle<WasmModuleObject> module_ref = CompileReferenceModule(
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isolate, module_object->native_module()->wire_bytes(), &max_steps,
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&nondeterminism);
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Handle<WasmInstanceObject> instance_ref;
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// Try to instantiate the reference instance, return if it fails.
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{
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ErrorThrower thrower(isolate, "ExecuteAgainstReference");
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if (!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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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_ref, "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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std::unique_ptr<const char[]> exception_ref;
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int32_t result_ref = testing::CallWasmFunctionForTesting(
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isolate, instance_ref, "main", compiled_args.as_vector(), &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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// Instantiate a fresh instance for the actual (non-ref) execution.
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Handle<WasmInstanceObject> instance;
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{
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ErrorThrower thrower(isolate, "ExecuteAgainstReference (second)");
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// We instantiated before, so the second instantiation must also succeed.
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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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DCHECK(thrower.error());
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// The only reason to fail the second instantiation should be OOM. Make
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// this a proper OOM crash so that ClusterFuzz categorizes it as such.
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if (strstr(thrower.error_msg(), "Out of memory")) {
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V8::FatalProcessOutOfMemory(isolate, "Wasm fuzzer second instantiation",
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thrower.error_msg());
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}
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FATAL("Second instantiation failed unexpectedly: %s",
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thrower.error_msg());
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}
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DCHECK(!thrower.error());
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}
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std::unique_ptr<const char[]> exception;
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int32_t result = testing::CallWasmFunctionForTesting(
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isolate, instance, "main", compiled_args.as_vector(), &exception);
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if ((exception_ref != nullptr) != (exception != nullptr)) {
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FATAL("Exception mispatch! Expected: <%s>; got: <%s>",
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exception_ref ? exception_ref.get() : "<no exception>",
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exception ? exception.get() : "<no 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 index_raw(uint32_t arg) {
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return arg < 128 ? std::to_string(arg)
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: "wasmUnsignedLeb(" + std::to_string(arg) + ")";
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}
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std::string index(uint32_t arg) { return index_raw(arg) + ", "; }
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std::string HeapTypeToJSByteEncoding(HeapType heap_type) {
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switch (heap_type.representation()) {
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case HeapType::kFunc:
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return "kFuncRefCode";
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case HeapType::kEq:
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return "kEqRefCode";
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case HeapType::kI31:
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return "kI31RefCode";
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case HeapType::kStruct:
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return "kStructRefCode";
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case HeapType::kArray:
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return "kArrayRefCode";
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case HeapType::kAny:
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return "kAnyRefCode";
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case HeapType::kExtern:
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return "kExternRefCode";
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case HeapType::kNone:
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return "kNullRefCode";
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case HeapType::kNoFunc:
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return "kNullFuncRefCode";
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case HeapType::kNoExtern:
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return "kNullExternRefCode";
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case HeapType::kBottom:
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UNREACHABLE();
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default:
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return index_raw(heap_type.ref_index());
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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::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::kStruct:
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return "kWasmStructRef";
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case HeapType::kArray:
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return "kWasmArrayRef";
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case HeapType::kExtern:
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return "kWasmExternRef";
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case HeapType::kAny:
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return "kWasmAnyRef";
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case HeapType::kNone:
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return "kWasmNullRef";
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case HeapType::kNoFunc:
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return "kWasmNullFuncRef";
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case HeapType::kNoExtern:
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return "kWasmNullExternRef";
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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::string ValueTypeToConstantName(ValueType type) {
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switch (type.kind()) {
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case kI8:
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return "kWasmI8";
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case kI16:
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return "kWasmI16";
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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 kRefNull:
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switch (type.heap_representation()) {
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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::kExtern:
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return "kWasmExternRef";
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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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case HeapType::kStruct:
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case HeapType::kArray:
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case HeapType::kI31:
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default:
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return "wasmRefNullType(" + HeapTypeToConstantName(type.heap_type()) +
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")";
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}
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case kRef:
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return "wasmRefType(" + HeapTypeToConstantName(type.heap_type()) + ")";
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case kRtt:
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case kVoid:
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case kBottom:
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UNREACHABLE();
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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.put('\'').write(name.name.begin(), name.name.size()).put('\'');
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}
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// An interface for WasmFullDecoder which appends to a stream a textual
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// representation of the expression, compatible with wasm-module-builder.js.
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class InitExprInterface {
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public:
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using ValidationTag = Decoder::FullValidationTag;
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static constexpr DecodingMode decoding_mode = kConstantExpression;
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struct Value : public ValueBase<ValidationTag> {
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template <typename... Args>
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explicit Value(Args&&... args) V8_NOEXCEPT
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: ValueBase(std::forward<Args>(args)...) {}
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};
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using Control = ControlBase<Value, ValidationTag>;
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using FullDecoder =
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WasmFullDecoder<ValidationTag, InitExprInterface, decoding_mode>;
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explicit InitExprInterface(StdoutStream& os) : os_(os) { os_ << "["; }
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#define EMPTY_INTERFACE_FUNCTION(name, ...) \
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V8_INLINE void name(FullDecoder* decoder, ##__VA_ARGS__) {}
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INTERFACE_META_FUNCTIONS(EMPTY_INTERFACE_FUNCTION)
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#undef EMPTY_INTERFACE_FUNCTION
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#define UNREACHABLE_INTERFACE_FUNCTION(name, ...) \
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V8_INLINE void name(FullDecoder* decoder, ##__VA_ARGS__) { UNREACHABLE(); }
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INTERFACE_NON_CONSTANT_FUNCTIONS(UNREACHABLE_INTERFACE_FUNCTION)
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#undef UNREACHABLE_INTERFACE_FUNCTION
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void I32Const(FullDecoder* decoder, Value* result, int32_t value) {
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os_ << "...wasmI32Const(" << value << "), ";
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}
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void I64Const(FullDecoder* decoder, Value* result, int64_t value) {
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os_ << "...wasmI64Const(" << value << "), ";
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}
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void F32Const(FullDecoder* decoder, Value* result, float value) {
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os_ << "...wasmF32Const(" << value << "), ";
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}
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void F64Const(FullDecoder* decoder, Value* result, double value) {
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os_ << "...wasmF64Const(" << value << "), ";
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}
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void S128Const(FullDecoder* decoder, Simd128Immediate& imm, Value* result) {
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os_ << "kSimdPrefix, kExprS128Const, " << std::hex;
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for (int i = 0; i < kSimd128Size; i++) {
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os_ << "0x" << static_cast<int>(imm.value[i]) << ", ";
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}
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os_ << std::dec;
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}
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void BinOp(FullDecoder* decoder, WasmOpcode opcode, const Value& lhs,
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const Value& rhs, Value* result) {
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// TODO(12089): Implement.
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UNIMPLEMENTED();
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}
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void UnOp(FullDecoder* decoder, WasmOpcode opcode, const Value& value,
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Value* result) {
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// TODO(12089): Implement.
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UNIMPLEMENTED();
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}
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void RefNull(FullDecoder* decoder, ValueType type, Value* result) {
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os_ << "kExprRefNull, " << HeapTypeToJSByteEncoding(type.heap_type())
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<< ", ";
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}
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void RefFunc(FullDecoder* decoder, uint32_t function_index, Value* result) {
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os_ << "kExprRefFunc, " << index(function_index);
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}
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void GlobalGet(FullDecoder* decoder, Value* result,
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const GlobalIndexImmediate& imm) {
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os_ << "kWasmGlobalGet, " << index(imm.index);
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}
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// The following operations assume non-rtt versions of the instructions.
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void StructNew(FullDecoder* decoder, const StructIndexImmediate& imm,
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const Value& rtt, const Value args[], Value* result) {
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os_ << "kGCPrefix, kExprStructNew, " << index(imm.index);
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}
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void StructNewDefault(FullDecoder* decoder, const StructIndexImmediate& imm,
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const Value& rtt, Value* result) {
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os_ << "kGCPrefix, kExprStructNewDefault, " << index(imm.index);
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}
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void ArrayNew(FullDecoder* decoder, const ArrayIndexImmediate& imm,
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const Value& length, const Value& initial_value,
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const Value& rtt, Value* result) {
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os_ << "kGCPrefix, kExprArrayNew, " << index(imm.index);
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}
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void ArrayNewDefault(FullDecoder* decoder, const ArrayIndexImmediate& imm,
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const Value& length, const Value& rtt, Value* result) {
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os_ << "kGCPrefix, kExprArrayNewDefault, " << index(imm.index);
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}
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void ArrayNewFixed(FullDecoder* decoder, const ArrayIndexImmediate& imm,
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const base::Vector<Value>& elements, const Value& rtt,
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Value* result) {
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os_ << "kGCPrefix, kExprArrayNewFixed, " << index(imm.index)
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<< index(static_cast<uint32_t>(elements.size()));
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}
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void ArrayNewSegment(FullDecoder* decoder,
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const ArrayIndexImmediate& array_imm,
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const IndexImmediate& data_segment_imm,
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const Value& offset_value, const Value& length_value,
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const Value& rtt, Value* result) {
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// TODO(7748): Implement.
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UNIMPLEMENTED();
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}
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void I31New(FullDecoder* decoder, const Value& input, Value* result) {
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os_ << "kGCPrefix, kExprI31New, ";
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}
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// Since we treat all instructions as rtt-less, we should not print rtts.
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void RttCanon(FullDecoder* decoder, uint32_t type_index, Value* result) {}
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void StringConst(FullDecoder* decoder, const StringConstImmediate& imm,
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Value* result) {
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os_ << "...GCInstr(kExprStringConst), " << index(imm.index);
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}
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void DoReturn(FullDecoder* decoder, uint32_t /*drop_values*/) { os_ << "]"; }
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private:
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StdoutStream& os_;
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};
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void DecodeAndAppendInitExpr(StdoutStream& os, Zone* zone,
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const WasmModule* module,
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ModuleWireBytes module_bytes,
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ConstantExpression init, ValueType expected) {
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switch (init.kind()) {
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case ConstantExpression::kEmpty:
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UNREACHABLE();
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case ConstantExpression::kI32Const:
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os << "wasmI32Const(" << init.i32_value() << ")";
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break;
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case ConstantExpression::kRefNull:
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os << "[kExprRefNull, " << HeapTypeToJSByteEncoding(HeapType(init.repr()))
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<< "]";
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break;
|
|
case ConstantExpression::kRefFunc:
|
|
os << "[kExprRefFunc, " << index(init.index()) << "]";
|
|
break;
|
|
case ConstantExpression::kWireBytesRef: {
|
|
WireBytesRef ref = init.wire_bytes_ref();
|
|
auto sig = FixedSizeSignature<ValueType>::Returns(expected);
|
|
FunctionBody body(&sig, ref.offset(), module_bytes.start() + ref.offset(),
|
|
module_bytes.start() + ref.end_offset());
|
|
WasmFeatures detected;
|
|
WasmFullDecoder<Decoder::FullValidationTag, InitExprInterface,
|
|
kConstantExpression>
|
|
decoder(zone, module, WasmFeatures::All(), &detected, body, os);
|
|
decoder.DecodeFunctionBody();
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
} // namespace
|
|
|
|
void GenerateTestCase(Isolate* isolate, ModuleWireBytes wire_bytes,
|
|
bool compiles) {
|
|
constexpr bool kVerifyFunctions = false;
|
|
auto enabled_features = WasmFeatures::FromIsolate(isolate);
|
|
ModuleResult module_res =
|
|
DecodeWasmModule(enabled_features, wire_bytes.module_bytes(),
|
|
kVerifyFunctions, ModuleOrigin::kWasmOrigin);
|
|
CHECK_WITH_MSG(module_res.ok(), module_res.error().message().c_str());
|
|
WasmModule* module = module_res.value().get();
|
|
CHECK_NOT_NULL(module);
|
|
|
|
AccountingAllocator allocator;
|
|
Zone zone(&allocator, "constant expression zone");
|
|
|
|
StdoutStream os;
|
|
|
|
tzset();
|
|
time_t current_time = time(nullptr);
|
|
struct tm current_localtime;
|
|
#ifdef V8_OS_WIN
|
|
localtime_s(¤t_localtime, ¤t_time);
|
|
#else
|
|
localtime_r(¤t_time, ¤t_localtime);
|
|
#endif
|
|
int year = 1900 + current_localtime.tm_year;
|
|
|
|
os << "// Copyright " << year
|
|
<< " the V8 project authors. All rights reserved.\n"
|
|
"// Use of this source code is governed by a BSD-style license that "
|
|
"can be\n"
|
|
"// found in the LICENSE file.\n"
|
|
"\n"
|
|
"// Flags: --wasm-staging --experimental-wasm-gc\n"
|
|
"\n"
|
|
"d8.file.execute('test/mjsunit/wasm/wasm-module-builder.js');\n"
|
|
"\n"
|
|
"const builder = new WasmModuleBuilder();\n";
|
|
|
|
for (int i = 0; i < static_cast<int>(module->types.size()); i++) {
|
|
if (module->has_struct(i)) {
|
|
const StructType* struct_type = module->types[i].struct_type;
|
|
os << "builder.addStruct([";
|
|
int field_count = struct_type->field_count();
|
|
for (int index = 0; index < field_count; index++) {
|
|
os << "makeField(" << ValueTypeToConstantName(struct_type->field(index))
|
|
<< ", " << (struct_type->mutability(index) ? "true" : "false")
|
|
<< ")";
|
|
if (index + 1 < field_count) os << ", ";
|
|
}
|
|
os << "]);\n";
|
|
} else if (module->has_array(i)) {
|
|
const ArrayType* array_type = module->types[i].array_type;
|
|
os << "builder.addArray("
|
|
<< ValueTypeToConstantName(array_type->element_type()) << ", "
|
|
<< (array_type->mutability() ? "true" : "false") << ");\n";
|
|
} else {
|
|
DCHECK(module->has_signature(i));
|
|
const FunctionSig* sig = module->types[i].function_sig;
|
|
os << "builder.addType(makeSig(" << PrintParameters(sig) << ", "
|
|
<< PrintReturns(sig) << "));\n";
|
|
}
|
|
}
|
|
|
|
for (WasmImport imported : module->import_table) {
|
|
// TODO(wasm): Support other imports when needed.
|
|
CHECK_EQ(kExternalFunction, imported.kind);
|
|
auto module_name = PrintName(wire_bytes, imported.module_name);
|
|
auto field_name = PrintName(wire_bytes, imported.field_name);
|
|
int sig_index = module->functions[imported.index].sig_index;
|
|
os << "builder.addImport(" << module_name << ", " << field_name << ", "
|
|
<< sig_index << " /* sig */);\n";
|
|
}
|
|
|
|
if (module->has_memory) {
|
|
os << "builder.addMemory(" << module->initial_pages;
|
|
if (module->has_maximum_pages) {
|
|
os << ", " << module->maximum_pages;
|
|
} else {
|
|
os << ", undefined";
|
|
}
|
|
os << ", " << (module->mem_export ? "true" : "false");
|
|
if (module->has_shared_memory) {
|
|
os << ", true";
|
|
}
|
|
os << ");\n";
|
|
}
|
|
|
|
for (WasmDataSegment segment : module->data_segments) {
|
|
base::Vector<const uint8_t> data = wire_bytes.module_bytes().SubVector(
|
|
segment.source.offset(), segment.source.end_offset());
|
|
if (segment.active) {
|
|
// TODO(wasm): Add other expressions when needed.
|
|
CHECK_EQ(ConstantExpression::kI32Const, segment.dest_addr.kind());
|
|
os << "builder.addDataSegment(" << segment.dest_addr.i32_value() << ", ";
|
|
} else {
|
|
os << "builder.addPassiveDataSegment(";
|
|
}
|
|
os << "[";
|
|
if (!data.empty()) {
|
|
os << unsigned{data[0]};
|
|
for (unsigned byte : data + 1) os << ", " << byte;
|
|
}
|
|
os << "]);\n";
|
|
}
|
|
|
|
for (WasmGlobal& global : module->globals) {
|
|
os << "builder.addGlobal(" << ValueTypeToConstantName(global.type) << ", "
|
|
<< global.mutability << ", ";
|
|
DecodeAndAppendInitExpr(os, &zone, module, wire_bytes, global.init,
|
|
global.type);
|
|
os << ");\n";
|
|
}
|
|
|
|
Zone tmp_zone(isolate->allocator(), ZONE_NAME);
|
|
|
|
// TODO(9495): Add support for tables with explicit initializers.
|
|
for (const WasmTable& table : module->tables) {
|
|
os << "builder.addTable(" << ValueTypeToConstantName(table.type) << ", "
|
|
<< table.initial_size << ", "
|
|
<< (table.has_maximum_size ? std::to_string(table.maximum_size)
|
|
: "undefined")
|
|
<< ", undefined)\n";
|
|
}
|
|
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 << ", ";
|
|
DecodeAndAppendInitExpr(os, &zone, module, wire_bytes,
|
|
elem_segment.offset, kWasmI32);
|
|
os << ", ";
|
|
}
|
|
os << "[";
|
|
for (uint32_t i = 0; i < elem_segment.entries.size(); i++) {
|
|
if (elem_segment.element_type == WasmElemSegment::kExpressionElements) {
|
|
DecodeAndAppendInitExpr(os, &zone, module, wire_bytes,
|
|
elem_segment.entries[i], elem_segment.type);
|
|
} else {
|
|
os << elem_segment.entries[i].index();
|
|
}
|
|
if (i < elem_segment.entries.size() - 1) os << ", ";
|
|
}
|
|
os << "], "
|
|
<< (elem_segment.element_type == WasmElemSegment::kExpressionElements
|
|
? ValueTypeToConstantName(elem_segment.type)
|
|
: "undefined")
|
|
<< ");\n";
|
|
}
|
|
|
|
for (const WasmTag& tag : module->tags) {
|
|
os << "builder.addTag(makeSig(" << PrintParameters(tag.ToFunctionSig())
|
|
<< ", []));\n";
|
|
}
|
|
|
|
for (const WasmFunction& func : module->functions) {
|
|
if (func.imported) continue;
|
|
|
|
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;
|
|
DecodeLocalDecls(enabled_features, &decls, func_code.begin(),
|
|
func_code.end(), &tmp_zone);
|
|
if (decls.num_locals) {
|
|
os << " ";
|
|
for (size_t pos = 0, count = 1, locals = decls.num_locals; pos < locals;
|
|
pos += count, count = 1) {
|
|
ValueType type = decls.local_types[pos];
|
|
while (pos + count < locals && decls.local_types[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 EnableExperimentalWasmFeatures(v8::Isolate* isolate) {
|
|
struct EnableExperimentalWasmFeatures {
|
|
explicit EnableExperimentalWasmFeatures(v8::Isolate* isolate) {
|
|
// Enable all staged features.
|
|
#define ENABLE_STAGED_FEATURES(feat, ...) \
|
|
v8_flags.experimental_wasm_##feat = true;
|
|
FOREACH_WASM_STAGING_FEATURE_FLAG(ENABLE_STAGED_FEATURES)
|
|
#undef ENABLE_STAGED_FEATURES
|
|
|
|
// Enable non-staged experimental features that we also want to fuzz.
|
|
v8_flags.experimental_wasm_gc = true;
|
|
|
|
// Enforce implications from enabling features.
|
|
FlagList::EnforceFlagImplications();
|
|
|
|
// Last, install any conditional features. Implications are handled
|
|
// implicitly.
|
|
isolate->InstallConditionalFeatures(isolate->GetCurrentContext());
|
|
}
|
|
};
|
|
// The compiler will properly synchronize the constructor call.
|
|
static EnableExperimentalWasmFeatures one_time_enable_experimental_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;
|
|
|
|
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.
|
|
EnableExperimentalWasmFeatures(isolate);
|
|
|
|
v8::TryCatch try_catch(isolate);
|
|
HandleScope scope(i_isolate);
|
|
|
|
AccountingAllocator allocator;
|
|
Zone zone(&allocator, ZONE_NAME);
|
|
|
|
ZoneBuffer buffer(&zone);
|
|
|
|
// The first byte specifies some internal configuration, like which function
|
|
// is compiled with with compiler, and other flags.
|
|
uint8_t configuration_byte = data.empty() ? 0 : data[0];
|
|
if (!data.empty()) data += 1;
|
|
|
|
// Derive the compiler configuration for the first four functions from the
|
|
// configuration byte, to choose for each function between:
|
|
// 0: TurboFan
|
|
// 1: Liftoff
|
|
// 2: Liftoff for debugging
|
|
uint8_t tier_mask = 0;
|
|
uint8_t debug_mask = 0;
|
|
for (int i = 0; i < 4; ++i, configuration_byte /= 3) {
|
|
int compiler_config = configuration_byte % 3;
|
|
tier_mask |= (compiler_config == 0) << i;
|
|
debug_mask |= (compiler_config == 2) << i;
|
|
}
|
|
// Note: After dividing by 3 for 4 times, configuration_byte is within [0, 3].
|
|
|
|
FlagScope<bool> turbo_mid_tier_regalloc(
|
|
&v8_flags.turbo_force_mid_tier_regalloc, configuration_byte == 0);
|
|
|
|
if (!GenerateModule(i_isolate, &zone, data, &buffer)) {
|
|
return;
|
|
}
|
|
|
|
testing::SetupIsolateForWasmModule(i_isolate);
|
|
|
|
ErrorThrower interpreter_thrower(i_isolate, "Interpreter");
|
|
ModuleWireBytes wire_bytes(buffer.begin(), buffer.end());
|
|
|
|
if (require_valid && v8_flags.wasm_fuzzer_gen_test) {
|
|
GenerateTestCase(i_isolate, wire_bytes, true);
|
|
}
|
|
|
|
auto enabled_features = 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(&v8_flags.liftoff, true);
|
|
FlagScope<bool> no_tier_up(&v8_flags.wasm_tier_up, false);
|
|
FlagScope<int> tier_mask_scope(&v8_flags.wasm_tier_mask_for_testing,
|
|
tier_mask);
|
|
FlagScope<int> debug_mask_scope(&v8_flags.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 && v8_flags.wasm_fuzzer_gen_test) {
|
|
GenerateTestCase(i_isolate, wire_bytes, compiles);
|
|
}
|
|
|
|
std::string error_message;
|
|
bool result = GetWasmEngine()->SyncValidate(i_isolate, enabled_features,
|
|
wire_bytes, &error_message);
|
|
|
|
CHECK_EQ(compiles, result);
|
|
CHECK_WITH_MSG(
|
|
!require_valid || result,
|
|
("Generated module should validate, but got: " + error_message).c_str());
|
|
|
|
if (!compiles) return;
|
|
|
|
ExecuteAgainstReference(i_isolate, compiled_module.ToHandleChecked(),
|
|
kDefaultMaxFuzzerExecutedInstructions);
|
|
}
|
|
|
|
} // namespace v8::internal::wasm::fuzzer
|