src/third_party/v8/test/cctest/wasm/test-compilation-cache.cc - cobalt - Git at Google

 // Copyright 2020 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "src/api/api-inl.h"
 #include "src/init/v8.h"

 #include "src/wasm/streaming-decoder.h"
 #include "src/wasm/wasm-code-manager.h"
 #include "src/wasm/wasm-engine.h"
 #include "src/wasm/wasm-module-builder.h"

 #include "test/cctest/cctest.h"

 #include "test/common/wasm/test-signatures.h"
 #include "test/common/wasm/wasm-macro-gen.h"

 namespace v8 {
 namespace internal {
 namespace wasm {

 namespace {

 class TestResolver : public CompilationResultResolver {
  public:
   explicit TestResolver(std::atomic<int>* pending)
       : native_module_(nullptr), pending_(pending) {}

   void OnCompilationSucceeded(i::Handle<i::WasmModuleObject> module) override {
     if (!module.is_null()) {
       native_module_ = module->shared_native_module();
       pending_->fetch_sub(1);
     }
   }

   void OnCompilationFailed(i::Handle<i::Object> error_reason) override {
     CHECK(false);
   }

   std::shared_ptr<NativeModule> native_module() { return native_module_; }

  private:
   std::shared_ptr<NativeModule> native_module_;
   std::atomic<int>* pending_;
 };

 class StreamTester {
  public:
   explicit StreamTester(std::shared_ptr<TestResolver> test_resolver)
       : internal_scope_(CcTest::i_isolate()), test_resolver_(test_resolver) {
     i::Isolate* i_isolate = CcTest::i_isolate();

     Handle<Context> context = i_isolate->native_context();

     stream_ = i_isolate->wasm_engine()->StartStreamingCompilation(
         i_isolate, WasmFeatures::All(), context,
         "WebAssembly.compileStreaming()", test_resolver_);
   }

   void OnBytesReceived(const uint8_t* start, size_t length) {
     stream_->OnBytesReceived(Vector<const uint8_t>(start, length));
   }

   void FinishStream() { stream_->Finish(); }

   void SetCompiledModuleBytes(const uint8_t* start, size_t length) {
     stream_->SetCompiledModuleBytes(Vector<const uint8_t>(start, length));
   }

  private:
   i::HandleScope internal_scope_;
   std::shared_ptr<StreamingDecoder> stream_;
   std::shared_ptr<TestResolver> test_resolver_;
 };

 // Create a valid module such that the bytes depend on {n}.
 ZoneBuffer GetValidModuleBytes(Zone* zone, int n) {
   ZoneBuffer buffer(zone);
   TestSignatures sigs;
   WasmModuleBuilder builder(zone);
   {
     WasmFunctionBuilder* f = builder.AddFunction(sigs.v_v());
     uint8_t code[] = {kExprI32Const, n, kExprDrop, kExprEnd};
     f->EmitCode(code, arraysize(code));
   }
   builder.WriteTo(&buffer);
   return buffer;
 }

 std::shared_ptr<NativeModule> SyncCompile(Vector<const uint8_t> bytes) {
   ErrorThrower thrower(CcTest::i_isolate(), "Test");
   auto enabled_features = WasmFeatures::FromIsolate(CcTest::i_isolate());
   auto wire_bytes = ModuleWireBytes(bytes.begin(), bytes.end());
   Handle<WasmModuleObject> module =
       CcTest::i_isolate()
           ->wasm_engine()
           ->SyncCompile(CcTest::i_isolate(), enabled_features, &thrower,
                         wire_bytes)
           .ToHandleChecked();
   return module->shared_native_module();
 }

 // Shared prefix.
 constexpr uint8_t kPrefix[] = {
     WASM_MODULE_HEADER,                // module header
     kTypeSectionCode,                  // section code
     U32V_1(1 + SIZEOF_SIG_ENTRY_v_v),  // section size
     U32V_1(1),                         // type count
     SIG_ENTRY_v_v,                     // signature entry
     kFunctionSectionCode,              // section code
     U32V_1(2),                         // section size
     U32V_1(1),                         // functions count
     0,                                 // signature index
     kCodeSectionCode,                  // section code
     U32V_1(7),                         // section size
     U32V_1(1),                         // functions count
     5,                                 // body size
 };

 constexpr uint8_t kFunctionA[] = {
     U32V_1(0), kExprI32Const, U32V_1(0), kExprDrop, kExprEnd,
 };
 constexpr uint8_t kFunctionB[] = {
     U32V_1(0), kExprI32Const, U32V_1(1), kExprDrop, kExprEnd,
 };

 constexpr size_t kPrefixSize = arraysize(kPrefix);
 constexpr size_t kFunctionSize = arraysize(kFunctionA);

 }  // namespace

 TEST(TestAsyncCache) {
   CcTest::InitializeVM();
   i::HandleScope internal_scope(CcTest::i_isolate());
   AccountingAllocator allocator;
   Zone zone(&allocator, "CompilationCacheTester");

   auto bufferA = GetValidModuleBytes(&zone, 0);
   auto bufferB = GetValidModuleBytes(&zone, 1);

   std::atomic<int> pending(3);
   auto resolverA1 = std::make_shared<TestResolver>(&pending);
   auto resolverA2 = std::make_shared<TestResolver>(&pending);
   auto resolverB = std::make_shared<TestResolver>(&pending);

   CcTest::i_isolate()->wasm_engine()->AsyncCompile(
       CcTest::i_isolate(), WasmFeatures::All(), resolverA1,
       ModuleWireBytes(bufferA.begin(), bufferA.end()), true,
       "WebAssembly.compile");
   CcTest::i_isolate()->wasm_engine()->AsyncCompile(
       CcTest::i_isolate(), WasmFeatures::All(), resolverA2,
       ModuleWireBytes(bufferA.begin(), bufferA.end()), true,
       "WebAssembly.compile");
   CcTest::i_isolate()->wasm_engine()->AsyncCompile(
       CcTest::i_isolate(), WasmFeatures::All(), resolverB,
       ModuleWireBytes(bufferB.begin(), bufferB.end()), true,
       "WebAssembly.compile");

   while (pending > 0) {
     v8::platform::PumpMessageLoop(i::V8::GetCurrentPlatform(),
                                   CcTest::isolate());
   }

   CHECK_EQ(resolverA1->native_module(), resolverA2->native_module());
   CHECK_NE(resolverA1->native_module(), resolverB->native_module());
 }

 TEST(TestStreamingCache) {
   CcTest::InitializeVM();

   std::atomic<int> pending(3);
   auto resolverA1 = std::make_shared<TestResolver>(&pending);
   auto resolverA2 = std::make_shared<TestResolver>(&pending);
   auto resolverB = std::make_shared<TestResolver>(&pending);

   StreamTester testerA1(resolverA1);
   StreamTester testerA2(resolverA2);
   StreamTester testerB(resolverB);

   // Start receiving kPrefix bytes.
   testerA1.OnBytesReceived(kPrefix, kPrefixSize);
   testerA2.OnBytesReceived(kPrefix, kPrefixSize);
   testerB.OnBytesReceived(kPrefix, kPrefixSize);

   // Receive function bytes and start streaming compilation.
   testerA1.OnBytesReceived(kFunctionA, kFunctionSize);
   testerA1.FinishStream();
   testerA2.OnBytesReceived(kFunctionA, kFunctionSize);
   testerA2.FinishStream();
   testerB.OnBytesReceived(kFunctionB, kFunctionSize);
   testerB.FinishStream();

   while (pending > 0) {
     v8::platform::PumpMessageLoop(i::V8::GetCurrentPlatform(),
                                   CcTest::isolate());
   }

   std::shared_ptr<NativeModule> native_module_A1 = resolverA1->native_module();
   std::shared_ptr<NativeModule> native_module_A2 = resolverA2->native_module();
   std::shared_ptr<NativeModule> native_module_B = resolverB->native_module();
   CHECK_EQ(native_module_A1, native_module_A2);
   CHECK_NE(native_module_A1, native_module_B);
 }

 TEST(TestStreamingAndSyncCache) {
   CcTest::InitializeVM();

   std::atomic<int> pending(1);
   auto resolver = std::make_shared<TestResolver>(&pending);
   StreamTester tester(resolver);

   tester.OnBytesReceived(kPrefix, kPrefixSize);

   // Compile the same module synchronously to make sure we don't deadlock
   // waiting for streaming compilation to finish.
   auto full_bytes = OwnedVector<uint8_t>::New(kPrefixSize + kFunctionSize);
   memcpy(full_bytes.begin(), kPrefix, kPrefixSize);
   memcpy(full_bytes.begin() + kPrefixSize, kFunctionA, kFunctionSize);
   auto native_module_sync = SyncCompile(full_bytes.as_vector());

   // Streaming compilation should just discard its native module now and use the
   // one inserted in the cache by sync compilation.
   tester.OnBytesReceived(kFunctionA, kFunctionSize);
   tester.FinishStream();

   while (pending > 0) {
     v8::platform::PumpMessageLoop(i::V8::GetCurrentPlatform(),
                                   CcTest::isolate());
   }

   std::shared_ptr<NativeModule> native_module_streaming =
       resolver->native_module();
   CHECK_EQ(native_module_streaming, native_module_sync);
 }

 }  // namespace wasm
 }  // namespace internal
 }  // namespace v8
	// Copyright 2020 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "src/api/api-inl.h"
	#include "src/init/v8.h"

	#include "src/wasm/streaming-decoder.h"
	#include "src/wasm/wasm-code-manager.h"
	#include "src/wasm/wasm-engine.h"
	#include "src/wasm/wasm-module-builder.h"

	#include "test/cctest/cctest.h"

	#include "test/common/wasm/test-signatures.h"
	#include "test/common/wasm/wasm-macro-gen.h"

	namespace v8 {
	namespace internal {
	namespace wasm {

	namespace {

	class TestResolver : public CompilationResultResolver {
	public:
	explicit TestResolver(std::atomic<int>* pending)
	: native_module_(nullptr), pending_(pending) {}

	void OnCompilationSucceeded(i::Handle<i::WasmModuleObject> module) override {
	if (!module.is_null()) {
	native_module_ = module->shared_native_module();
	pending_->fetch_sub(1);
	}
	}

	void OnCompilationFailed(i::Handle<i::Object> error_reason) override {
	CHECK(false);
	}

	std::shared_ptr<NativeModule> native_module() { return native_module_; }

	private:
	std::shared_ptr<NativeModule> native_module_;
	std::atomic<int>* pending_;
	};

	class StreamTester {
	public:
	explicit StreamTester(std::shared_ptr<TestResolver> test_resolver)
	: internal_scope_(CcTest::i_isolate()), test_resolver_(test_resolver) {
	i::Isolate* i_isolate = CcTest::i_isolate();

	Handle<Context> context = i_isolate->native_context();

	stream_ = i_isolate->wasm_engine()->StartStreamingCompilation(
	i_isolate, WasmFeatures::All(), context,
	"WebAssembly.compileStreaming()", test_resolver_);
	}

	void OnBytesReceived(const uint8_t* start, size_t length) {
	stream_->OnBytesReceived(Vector<const uint8_t>(start, length));
	}

	void FinishStream() { stream_->Finish(); }

	void SetCompiledModuleBytes(const uint8_t* start, size_t length) {
	stream_->SetCompiledModuleBytes(Vector<const uint8_t>(start, length));
	}

	private:
	i::HandleScope internal_scope_;
	std::shared_ptr<StreamingDecoder> stream_;
	std::shared_ptr<TestResolver> test_resolver_;
	};

	// Create a valid module such that the bytes depend on {n}.
	ZoneBuffer GetValidModuleBytes(Zone* zone, int n) {
	ZoneBuffer buffer(zone);
	TestSignatures sigs;
	WasmModuleBuilder builder(zone);
	{
	WasmFunctionBuilder* f = builder.AddFunction(sigs.v_v());
	uint8_t code[] = {kExprI32Const, n, kExprDrop, kExprEnd};
	f->EmitCode(code, arraysize(code));
	}
	builder.WriteTo(&buffer);
	return buffer;
	}

	std::shared_ptr<NativeModule> SyncCompile(Vector<const uint8_t> bytes) {
	ErrorThrower thrower(CcTest::i_isolate(), "Test");
	auto enabled_features = WasmFeatures::FromIsolate(CcTest::i_isolate());
	auto wire_bytes = ModuleWireBytes(bytes.begin(), bytes.end());
	Handle<WasmModuleObject> module =
	CcTest::i_isolate()
	->wasm_engine()
	->SyncCompile(CcTest::i_isolate(), enabled_features, &thrower,
	wire_bytes)
	.ToHandleChecked();
	return module->shared_native_module();
	}

	// Shared prefix.
	constexpr uint8_t kPrefix[] = {
	WASM_MODULE_HEADER, // module header
	kTypeSectionCode, // section code
	U32V_1(1 + SIZEOF_SIG_ENTRY_v_v), // section size
	U32V_1(1), // type count
	SIG_ENTRY_v_v, // signature entry
	kFunctionSectionCode, // section code
	U32V_1(2), // section size
	U32V_1(1), // functions count
	0, // signature index
	kCodeSectionCode, // section code
	U32V_1(7), // section size
	U32V_1(1), // functions count
	5, // body size
	};

	constexpr uint8_t kFunctionA[] = {
	U32V_1(0), kExprI32Const, U32V_1(0), kExprDrop, kExprEnd,
	};
	constexpr uint8_t kFunctionB[] = {
	U32V_1(0), kExprI32Const, U32V_1(1), kExprDrop, kExprEnd,
	};

	constexpr size_t kPrefixSize = arraysize(kPrefix);
	constexpr size_t kFunctionSize = arraysize(kFunctionA);

	} // namespace

	TEST(TestAsyncCache) {
	CcTest::InitializeVM();
	i::HandleScope internal_scope(CcTest::i_isolate());
	AccountingAllocator allocator;
	Zone zone(&allocator, "CompilationCacheTester");

	auto bufferA = GetValidModuleBytes(&zone, 0);
	auto bufferB = GetValidModuleBytes(&zone, 1);

	std::atomic<int> pending(3);
	auto resolverA1 = std::make_shared<TestResolver>(&pending);
	auto resolverA2 = std::make_shared<TestResolver>(&pending);
	auto resolverB = std::make_shared<TestResolver>(&pending);

	CcTest::i_isolate()->wasm_engine()->AsyncCompile(
	CcTest::i_isolate(), WasmFeatures::All(), resolverA1,
	ModuleWireBytes(bufferA.begin(), bufferA.end()), true,
	"WebAssembly.compile");
	CcTest::i_isolate()->wasm_engine()->AsyncCompile(
	CcTest::i_isolate(), WasmFeatures::All(), resolverA2,
	ModuleWireBytes(bufferA.begin(), bufferA.end()), true,
	"WebAssembly.compile");
	CcTest::i_isolate()->wasm_engine()->AsyncCompile(
	CcTest::i_isolate(), WasmFeatures::All(), resolverB,
	ModuleWireBytes(bufferB.begin(), bufferB.end()), true,
	"WebAssembly.compile");

	while (pending > 0) {
	v8::platform::PumpMessageLoop(i::V8::GetCurrentPlatform(),
	CcTest::isolate());
	}

	CHECK_EQ(resolverA1->native_module(), resolverA2->native_module());
	CHECK_NE(resolverA1->native_module(), resolverB->native_module());
	}

	TEST(TestStreamingCache) {
	CcTest::InitializeVM();

	std::atomic<int> pending(3);
	auto resolverA1 = std::make_shared<TestResolver>(&pending);
	auto resolverA2 = std::make_shared<TestResolver>(&pending);
	auto resolverB = std::make_shared<TestResolver>(&pending);

	StreamTester testerA1(resolverA1);
	StreamTester testerA2(resolverA2);
	StreamTester testerB(resolverB);

	// Start receiving kPrefix bytes.
	testerA1.OnBytesReceived(kPrefix, kPrefixSize);
	testerA2.OnBytesReceived(kPrefix, kPrefixSize);
	testerB.OnBytesReceived(kPrefix, kPrefixSize);

	// Receive function bytes and start streaming compilation.
	testerA1.OnBytesReceived(kFunctionA, kFunctionSize);
	testerA1.FinishStream();
	testerA2.OnBytesReceived(kFunctionA, kFunctionSize);
	testerA2.FinishStream();
	testerB.OnBytesReceived(kFunctionB, kFunctionSize);
	testerB.FinishStream();

	while (pending > 0) {
	v8::platform::PumpMessageLoop(i::V8::GetCurrentPlatform(),
	CcTest::isolate());
	}

	std::shared_ptr<NativeModule> native_module_A1 = resolverA1->native_module();
	std::shared_ptr<NativeModule> native_module_A2 = resolverA2->native_module();
	std::shared_ptr<NativeModule> native_module_B = resolverB->native_module();
	CHECK_EQ(native_module_A1, native_module_A2);
	CHECK_NE(native_module_A1, native_module_B);
	}

	TEST(TestStreamingAndSyncCache) {
	CcTest::InitializeVM();

	std::atomic<int> pending(1);
	auto resolver = std::make_shared<TestResolver>(&pending);
	StreamTester tester(resolver);

	tester.OnBytesReceived(kPrefix, kPrefixSize);

	// Compile the same module synchronously to make sure we don't deadlock
	// waiting for streaming compilation to finish.
	auto full_bytes = OwnedVector<uint8_t>::New(kPrefixSize + kFunctionSize);
	memcpy(full_bytes.begin(), kPrefix, kPrefixSize);
	memcpy(full_bytes.begin() + kPrefixSize, kFunctionA, kFunctionSize);
	auto native_module_sync = SyncCompile(full_bytes.as_vector());

	// Streaming compilation should just discard its native module now and use the
	// one inserted in the cache by sync compilation.
	tester.OnBytesReceived(kFunctionA, kFunctionSize);
	tester.FinishStream();

	while (pending > 0) {
	v8::platform::PumpMessageLoop(i::V8::GetCurrentPlatform(),
	CcTest::isolate());
	}

	std::shared_ptr<NativeModule> native_module_streaming =
	resolver->native_module();
	CHECK_EQ(native_module_streaming, native_module_sync);
	}

	} // namespace wasm
	} // namespace internal
	} // namespace v8