v8/test/cctest/wasm/test-streaming-compilation.cc
Clemens Hammacher 434066820f [wasm] Test that compile errors contain function names
Even in streaming mode we want to generate deterministic compile
errors, in particular they should contain the function name.
This CL adds a test to check that the name is present in the error
message even if the blob containing the function names is not present
at the time the compile error is detected.

R=ahaas@chromium.org

Bug: v8:8814
Change-Id: I17eb1b3bca48ee2b58b462089c140c30a3511be8
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1526001
Commit-Queue: Clemens Hammacher <clemensh@chromium.org>
Reviewed-by: Andreas Haas <ahaas@chromium.org>
Cr-Commit-Position: refs/heads/master@{#60302}
2019-03-18 16:06:18 +00:00

1225 lines
44 KiB
C++

// Copyright 2017 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-inl.h"
#include "src/objects-inl.h"
#include "src/objects/managed.h"
#include "src/v8.h"
#include "src/vector.h"
#include "src/wasm/module-decoder.h"
#include "src/wasm/streaming-decoder.h"
#include "src/wasm/wasm-engine.h"
#include "src/wasm/wasm-module-builder.h"
#include "src/wasm/wasm-module.h"
#include "src/wasm/wasm-objects-inl.h"
#include "src/wasm/wasm-objects.h"
#include "src/wasm/wasm-serialization.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 {
class MockPlatform final : public TestPlatform {
public:
MockPlatform() : task_runner_(std::make_shared<MockTaskRunner>()) {
// Now that it's completely constructed, make this the current platform.
i::V8::SetPlatformForTesting(this);
}
std::shared_ptr<TaskRunner> GetForegroundTaskRunner(
v8::Isolate* isolate) override {
return task_runner_;
}
void CallOnForegroundThread(v8::Isolate* isolate, Task* task) override {
task_runner_->PostTask(std::unique_ptr<Task>(task));
}
void CallOnWorkerThread(std::unique_ptr<v8::Task> task) override {
task_runner_->PostTask(std::move(task));
}
bool IdleTasksEnabled(v8::Isolate* isolate) override { return false; }
void ExecuteTasks() { task_runner_->ExecuteTasks(); }
private:
class MockTaskRunner final : public TaskRunner {
public:
void PostTask(std::unique_ptr<v8::Task> task) override {
tasks_.push(std::move(task));
}
void PostDelayedTask(std::unique_ptr<Task> task,
double delay_in_seconds) override {
tasks_.push(std::move(task));
}
void PostIdleTask(std::unique_ptr<IdleTask> task) override {
UNREACHABLE();
}
bool IdleTasksEnabled() override { return false; }
void ExecuteTasks() {
while (!tasks_.empty()) {
std::unique_ptr<Task> task = std::move(tasks_.front());
tasks_.pop();
task->Run();
}
}
private:
// We do not execute tasks concurrently, so we only need one list of tasks.
std::queue<std::unique_ptr<v8::Task>> tasks_;
};
std::shared_ptr<MockTaskRunner> task_runner_;
};
namespace {
enum class CompilationState {
kPending,
kFinished,
kFailed,
};
class TestResolver : public CompilationResultResolver {
public:
TestResolver(CompilationState* state, std::string* error_message,
std::shared_ptr<NativeModule>* native_module)
: state_(state),
error_message_(error_message),
native_module_(native_module) {}
void OnCompilationSucceeded(i::Handle<i::WasmModuleObject> module) override {
*state_ = CompilationState::kFinished;
if (!module.is_null()) {
*native_module_ = module->shared_native_module();
}
}
void OnCompilationFailed(i::Handle<i::Object> error_reason) override {
*state_ = CompilationState::kFailed;
Handle<String> str =
Object::ToString(CcTest::i_isolate(), error_reason).ToHandleChecked();
error_message_->assign(str->ToCString().get());
}
private:
CompilationState* const state_;
std::string* const error_message_;
std::shared_ptr<NativeModule>* const native_module_;
};
class StreamTester {
public:
StreamTester()
: zone_(&allocator_, "StreamTester"),
internal_scope_(CcTest::i_isolate()) {
v8::Isolate* isolate = CcTest::isolate();
i::Isolate* i_isolate = CcTest::i_isolate();
v8::Local<v8::Context> context = isolate->GetCurrentContext();
stream_ = i_isolate->wasm_engine()->StartStreamingCompilation(
i_isolate, kAllWasmFeatures, v8::Utils::OpenHandle(*context),
std::make_shared<TestResolver>(&state_, &error_message_,
&native_module_));
}
std::shared_ptr<StreamingDecoder> stream() { return stream_; }
// Compiled native module, valid after successful compile.
std::shared_ptr<NativeModule> native_module() { return native_module_; }
// Run all compiler tasks, both foreground and background tasks.
void RunCompilerTasks() {
static_cast<MockPlatform*>(i::V8::GetCurrentPlatform())->ExecuteTasks();
}
bool IsPromiseFulfilled() { return state_ == CompilationState::kFinished; }
bool IsPromiseRejected() { return state_ == CompilationState::kFailed; }
bool IsPromisePending() { return state_ == CompilationState::kPending; }
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));
}
Zone* zone() { return &zone_; }
const std::string& error_message() const { return error_message_; }
private:
AccountingAllocator allocator_;
Zone zone_;
i::HandleScope internal_scope_;
CompilationState state_ = CompilationState::kPending;
std::string error_message_;
std::shared_ptr<NativeModule> native_module_;
std::shared_ptr<StreamingDecoder> stream_;
};
} // namespace
#define STREAM_TEST(name) \
void RunStream_##name(); \
TEST(name) { \
MockPlatform platform; \
CcTest::InitializeVM(); \
RunStream_##name(); \
} \
void RunStream_##name()
// Create a valid module with 3 functions.
ZoneBuffer GetValidModuleBytes(Zone* zone) {
ZoneBuffer buffer(zone);
TestSignatures sigs;
WasmModuleBuilder builder(zone);
{
WasmFunctionBuilder* f = builder.AddFunction(sigs.i_iii());
uint8_t code[] = {kExprGetLocal, 0, kExprEnd};
f->EmitCode(code, arraysize(code));
}
{
WasmFunctionBuilder* f = builder.AddFunction(sigs.i_iii());
uint8_t code[] = {kExprGetLocal, 1, kExprEnd};
f->EmitCode(code, arraysize(code));
}
{
WasmFunctionBuilder* f = builder.AddFunction(sigs.i_iii());
uint8_t code[] = {kExprGetLocal, 2, kExprEnd};
f->EmitCode(code, arraysize(code));
}
builder.WriteTo(buffer);
return buffer;
}
// Create the same valid module as above and serialize it to test streaming
// with compiled module caching.
ZoneBuffer GetValidCompiledModuleBytes(Zone* zone, ZoneBuffer wire_bytes) {
// Use a tester to compile to a NativeModule.
StreamTester tester;
tester.OnBytesReceived(wire_bytes.begin(), wire_bytes.size());
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
// Serialize the NativeModule.
std::shared_ptr<NativeModule> native_module = tester.native_module();
CHECK(native_module);
i::wasm::WasmSerializer serializer(native_module.get());
size_t size = serializer.GetSerializedNativeModuleSize();
std::vector<byte> buffer(size);
CHECK(serializer.SerializeNativeModule({buffer.data(), size}));
ZoneBuffer result(zone, size);
result.write(buffer.data(), size);
return result;
}
// Test that all bytes arrive before doing any compilation. FinishStream is
// called immediately.
STREAM_TEST(TestAllBytesArriveImmediatelyStreamFinishesFirst) {
StreamTester tester;
ZoneBuffer buffer = GetValidModuleBytes(tester.zone());
tester.OnBytesReceived(buffer.begin(), buffer.end() - buffer.begin());
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
// Test that all bytes arrive before doing any compilation. FinishStream is
// called after the compilation is done.
STREAM_TEST(TestAllBytesArriveAOTCompilerFinishesFirst) {
StreamTester tester;
ZoneBuffer buffer = GetValidModuleBytes(tester.zone());
tester.OnBytesReceived(buffer.begin(), buffer.end() - buffer.begin());
tester.RunCompilerTasks();
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
size_t GetFunctionOffset(i::Isolate* isolate, const uint8_t* buffer,
size_t size, size_t index) {
ModuleResult result = DecodeWasmModule(
kAllWasmFeatures, buffer, buffer + size, false, ModuleOrigin::kWasmOrigin,
isolate->counters(), isolate->allocator());
CHECK(result.ok());
const WasmFunction* func = &result.value()->functions[1];
return func->code.offset();
}
// Test that some functions come in the beginning, some come after some
// functions already got compiled.
STREAM_TEST(TestCutAfterOneFunctionStreamFinishesFirst) {
i::Isolate* isolate = CcTest::i_isolate();
StreamTester tester;
ZoneBuffer buffer = GetValidModuleBytes(tester.zone());
size_t offset = GetFunctionOffset(isolate, buffer.begin(), buffer.size(), 1);
tester.OnBytesReceived(buffer.begin(), offset);
tester.RunCompilerTasks();
CHECK(tester.IsPromisePending());
tester.OnBytesReceived(buffer.begin() + offset, buffer.size() - offset);
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
// Test that some functions come in the beginning, some come after some
// functions already got compiled. Call FinishStream after the compilation is
// done.
STREAM_TEST(TestCutAfterOneFunctionCompilerFinishesFirst) {
i::Isolate* isolate = CcTest::i_isolate();
StreamTester tester;
ZoneBuffer buffer = GetValidModuleBytes(tester.zone());
size_t offset = GetFunctionOffset(isolate, buffer.begin(), buffer.size(), 1);
tester.OnBytesReceived(buffer.begin(), offset);
tester.RunCompilerTasks();
CHECK(tester.IsPromisePending());
tester.OnBytesReceived(buffer.begin() + offset, buffer.size() - offset);
tester.RunCompilerTasks();
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
// Create a module with an invalid global section.
ZoneBuffer GetModuleWithInvalidSection(Zone* zone) {
ZoneBuffer buffer(zone);
TestSignatures sigs;
WasmModuleBuilder builder(zone);
// Add an invalid global to the module. The decoder will fail there.
builder.AddGlobal(kWasmStmt, false, true,
WasmInitExpr(WasmInitExpr::kGlobalIndex, 12));
{
WasmFunctionBuilder* f = builder.AddFunction(sigs.i_iii());
uint8_t code[] = {kExprGetLocal, 0, kExprEnd};
f->EmitCode(code, arraysize(code));
}
{
WasmFunctionBuilder* f = builder.AddFunction(sigs.i_iii());
uint8_t code[] = {kExprGetLocal, 1, kExprEnd};
f->EmitCode(code, arraysize(code));
}
{
WasmFunctionBuilder* f = builder.AddFunction(sigs.i_iii());
uint8_t code[] = {kExprGetLocal, 2, kExprEnd};
f->EmitCode(code, arraysize(code));
}
builder.WriteTo(buffer);
return buffer;
}
// Test an error in a section, found by the ModuleDecoder.
STREAM_TEST(TestErrorInSectionStreamFinishesFirst) {
StreamTester tester;
ZoneBuffer buffer = GetModuleWithInvalidSection(tester.zone());
tester.OnBytesReceived(buffer.begin(), buffer.end() - buffer.begin());
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
STREAM_TEST(TestErrorInSectionCompilerFinishesFirst) {
StreamTester tester;
ZoneBuffer buffer = GetModuleWithInvalidSection(tester.zone());
tester.OnBytesReceived(buffer.begin(), buffer.end() - buffer.begin());
tester.RunCompilerTasks();
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
STREAM_TEST(TestErrorInSectionWithCuts) {
StreamTester tester;
ZoneBuffer buffer = GetModuleWithInvalidSection(tester.zone());
const uint8_t* current = buffer.begin();
size_t remaining = buffer.end() - buffer.begin();
while (current < buffer.end()) {
size_t size = std::min(remaining, size_t{10});
tester.OnBytesReceived(current, size);
tester.RunCompilerTasks();
current += 10;
remaining -= size;
}
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
ZoneBuffer GetModuleWithInvalidSectionSize(Zone* zone) {
// We get a valid module and overwrite the size of the first section with an
// invalid value.
ZoneBuffer buffer = GetValidModuleBytes(zone);
// 9 == 4 (wasm magic) + 4 (version) + 1 (section code)
uint8_t* section_size_address = const_cast<uint8_t*>(buffer.begin()) + 9;
// 0x808080800F is an invalid module size in leb encoding.
section_size_address[0] = 0x80;
section_size_address[1] = 0x80;
section_size_address[2] = 0x80;
section_size_address[3] = 0x80;
section_size_address[4] = 0x0F;
return buffer;
}
STREAM_TEST(TestErrorInSectionSizeStreamFinishesFirst) {
StreamTester tester;
ZoneBuffer buffer = GetModuleWithInvalidSectionSize(tester.zone());
tester.OnBytesReceived(buffer.begin(), buffer.end() - buffer.begin());
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
STREAM_TEST(TestErrorInSectionSizeCompilerFinishesFirst) {
StreamTester tester;
ZoneBuffer buffer = GetModuleWithInvalidSectionSize(tester.zone());
tester.OnBytesReceived(buffer.begin(), buffer.end() - buffer.begin());
tester.RunCompilerTasks();
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
STREAM_TEST(TestErrorInSectionSizeWithCuts) {
StreamTester tester;
ZoneBuffer buffer = GetModuleWithInvalidSectionSize(tester.zone());
const uint8_t* current = buffer.begin();
size_t remaining = buffer.end() - buffer.begin();
while (current < buffer.end()) {
size_t size = std::min(remaining, size_t{10});
tester.OnBytesReceived(current, size);
tester.RunCompilerTasks();
current += 10;
remaining -= size;
}
tester.RunCompilerTasks();
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
// Test an error in the code section, found by the ModuleDecoder. The error is a
// functions count in the code section which differs from the functions count in
// the function section.
STREAM_TEST(TestErrorInCodeSectionDetectedByModuleDecoder) {
StreamTester tester;
uint8_t code[] = {
U32V_1(4), // body size
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(1 + arraysize(code) * 2), // section size
U32V_1(2), // !!! invalid function count !!!
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
// Test an error in the code section, found by the StreamingDecoder. The error
// is an invalid function body size, so that there are not enough bytes in the
// code section for the function body.
STREAM_TEST(TestErrorInCodeSectionDetectedByStreamingDecoder) {
StreamTester tester;
uint8_t code[] = {
U32V_1(26), // !!! invalid body size !!!
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(1 + arraysize(code) * 3), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
// Test an error in the code section, found by the Compiler. The error is an
// invalid return type.
STREAM_TEST(TestErrorInCodeSectionDetectedByCompiler) {
StreamTester tester;
uint8_t code[] = {
U32V_1(4), // !!! invalid body size !!!
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
uint8_t invalid_code[] = {
U32V_1(4), // !!! invalid body size !!!
U32V_1(0), // locals count
kExprI64Const, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(1 + arraysize(code) * 2 +
arraysize(invalid_code)), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.RunCompilerTasks();
tester.OnBytesReceived(code, arraysize(code));
tester.RunCompilerTasks();
tester.OnBytesReceived(invalid_code, arraysize(invalid_code));
tester.RunCompilerTasks();
tester.OnBytesReceived(code, arraysize(code));
tester.RunCompilerTasks();
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
// Test Abort before any bytes arrive.
STREAM_TEST(TestAbortImmediately) {
StreamTester tester;
tester.stream()->Abort();
tester.RunCompilerTasks();
}
// Test Abort within a section.
STREAM_TEST(TestAbortWithinSection1) {
StreamTester tester;
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1) // type count
// Type section is not yet complete.
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.RunCompilerTasks();
tester.stream()->Abort();
tester.RunCompilerTasks();
}
// Test Abort within a section.
STREAM_TEST(TestAbortWithinSection2) {
StreamTester tester;
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
// Function section is not yet complete.
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.RunCompilerTasks();
tester.stream()->Abort();
tester.RunCompilerTasks();
}
// Test Abort just before the code section.
STREAM_TEST(TestAbortAfterSection) {
StreamTester tester;
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.RunCompilerTasks();
tester.stream()->Abort();
tester.RunCompilerTasks();
}
// Test Abort after the function count in the code section. The compiler tasks
// execute before the abort.
STREAM_TEST(TestAbortAfterFunctionsCount1) {
StreamTester tester;
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(20), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.RunCompilerTasks();
tester.stream()->Abort();
tester.RunCompilerTasks();
}
// Test Abort after the function count in the code section. The compiler tasks
// do not execute before the abort.
STREAM_TEST(TestAbortAfterFunctionsCount2) {
StreamTester tester;
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(20), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.stream()->Abort();
tester.RunCompilerTasks();
}
// Test Abort after some functions got compiled. The compiler tasks execute
// before the abort.
STREAM_TEST(TestAbortAfterFunctionGotCompiled1) {
StreamTester tester;
uint8_t code[] = {
U32V_1(4), // !!! invalid body size !!!
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(20), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.RunCompilerTasks();
tester.stream()->Abort();
tester.RunCompilerTasks();
}
// Test Abort after some functions got compiled. The compiler tasks execute
// before the abort.
STREAM_TEST(TestAbortAfterFunctionGotCompiled2) {
StreamTester tester;
uint8_t code[] = {
U32V_1(4), // !!! invalid body size !!!
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(20), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.stream()->Abort();
tester.RunCompilerTasks();
}
// Test Abort after all functions got compiled.
STREAM_TEST(TestAbortAfterCodeSection1) {
StreamTester tester;
uint8_t code[] = {
U32V_1(4), // body size
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(1 + arraysize(code) * 3), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.RunCompilerTasks();
tester.stream()->Abort();
tester.RunCompilerTasks();
}
// Test Abort after all functions got compiled.
STREAM_TEST(TestAbortAfterCodeSection2) {
StreamTester tester;
uint8_t code[] = {
U32V_1(4), // body size
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(1 + arraysize(code) * 3), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.stream()->Abort();
tester.RunCompilerTasks();
}
STREAM_TEST(TestAbortAfterCompilationError1) {
StreamTester tester;
uint8_t code[] = {
U32V_1(4), // !!! invalid body size !!!
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
uint8_t invalid_code[] = {
U32V_1(4), // !!! invalid body size !!!
U32V_1(0), // locals count
kExprI64Const, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(1 + arraysize(code) * 2 +
arraysize(invalid_code)), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(invalid_code, arraysize(invalid_code));
tester.OnBytesReceived(code, arraysize(code));
tester.RunCompilerTasks();
tester.stream()->Abort();
tester.RunCompilerTasks();
}
STREAM_TEST(TestAbortAfterCompilationError2) {
StreamTester tester;
uint8_t code[] = {
U32V_1(4), // !!! invalid body size !!!
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
uint8_t invalid_code[] = {
U32V_1(4), // !!! invalid body size !!!
U32V_1(0), // locals count
kExprI64Const, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(1 + arraysize(code) * 2 +
arraysize(invalid_code)), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(invalid_code, arraysize(invalid_code));
tester.OnBytesReceived(code, arraysize(code));
tester.stream()->Abort();
tester.RunCompilerTasks();
}
STREAM_TEST(TestOnlyModuleHeader) {
StreamTester tester;
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
STREAM_TEST(TestModuleWithZeroFunctions) {
StreamTester tester;
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1), // section size
U32V_1(0), // type count
kFunctionSectionCode, // section code
U32V_1(1), // section size
U32V_1(0), // functions count
kCodeSectionCode, // section code
U32V_1(1), // section size
U32V_1(0), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
STREAM_TEST(TestModuleWithMultipleFunctions) {
StreamTester tester;
uint8_t code[] = {
U32V_1(4), // body size
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(1 + arraysize(code) * 3), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.RunCompilerTasks();
tester.OnBytesReceived(code, arraysize(code));
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
STREAM_TEST(TestModuleWithDataSection) {
StreamTester tester;
uint8_t code[] = {
U32V_1(4), // body size
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(1 + arraysize(code) * 3), // section size
U32V_1(3), // functions count
};
const uint8_t data_section[] = {
kDataSectionCode, // section code
U32V_1(1), // section size
U32V_1(0), // data segment count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.RunCompilerTasks();
tester.OnBytesReceived(data_section, arraysize(data_section));
tester.RunCompilerTasks();
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
// Test that all bytes arrive before doing any compilation. FinishStream is
// called immediately.
STREAM_TEST(TestModuleWithImportedFunction) {
StreamTester tester;
ZoneBuffer buffer(tester.zone());
TestSignatures sigs;
WasmModuleBuilder builder(tester.zone());
builder.AddImport(ArrayVector("Test"), sigs.i_iii());
{
WasmFunctionBuilder* f = builder.AddFunction(sigs.i_iii());
uint8_t code[] = {kExprGetLocal, 0, kExprEnd};
f->EmitCode(code, arraysize(code));
}
builder.WriteTo(buffer);
tester.OnBytesReceived(buffer.begin(), buffer.end() - buffer.begin());
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
STREAM_TEST(TestModuleWithErrorAfterDataSection) {
StreamTester tester;
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 1), // section size
U32V_1(1), // functions count
0, // signature index
kCodeSectionCode, // section code
U32V_1(6), // section size
U32V_1(1), // functions count
U32V_1(4), // body size
U32V_1(0), // locals count
kExprGetLocal, // some code
0, // some code
kExprEnd, // some code
kDataSectionCode, // section code
U32V_1(1), // section size
U32V_1(0), // data segment count
kUnknownSectionCode, // section code
U32V_1(1), // invalid section size
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
// Test that cached bytes work.
STREAM_TEST(TestDeserializationBypassesCompilation) {
StreamTester tester;
ZoneBuffer wire_bytes = GetValidModuleBytes(tester.zone());
ZoneBuffer module_bytes =
GetValidCompiledModuleBytes(tester.zone(), wire_bytes);
tester.SetCompiledModuleBytes(module_bytes.begin(), module_bytes.size());
tester.OnBytesReceived(wire_bytes.begin(), wire_bytes.size());
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
// Test that bad cached bytes don't cause compilation of wire bytes to fail.
STREAM_TEST(TestDeserializationFails) {
StreamTester tester;
ZoneBuffer wire_bytes = GetValidModuleBytes(tester.zone());
ZoneBuffer module_bytes =
GetValidCompiledModuleBytes(tester.zone(), wire_bytes);
// corrupt header
byte first_byte = *module_bytes.begin();
module_bytes.patch_u8(0, first_byte + 1);
tester.SetCompiledModuleBytes(module_bytes.begin(), module_bytes.size());
tester.OnBytesReceived(wire_bytes.begin(), wire_bytes.size());
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
}
// Test that a non-empty function section with a missing code section fails.
STREAM_TEST(TestFunctionSectionWithoutCodeSection) {
StreamTester tester;
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
}
STREAM_TEST(TestSetModuleCompiledCallback) {
StreamTester tester;
bool callback_called = false;
tester.stream()->SetModuleCompiledCallback(
[&callback_called](const std::shared_ptr<NativeModule> module) {
callback_called = true;
});
uint8_t code[] = {
U32V_1(4), // body size
U32V_1(0), // locals count
kExprGetLocal, 0, kExprEnd // body
};
const uint8_t bytes[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(1 + 3), // section size
U32V_1(3), // functions count
0, // signature index
0, // signature index
0, // signature index
kCodeSectionCode, // section code
U32V_1(1 + arraysize(code) * 3), // section size
U32V_1(3), // functions count
};
tester.OnBytesReceived(bytes, arraysize(bytes));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.OnBytesReceived(code, arraysize(code));
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseFulfilled());
CHECK(callback_called);
}
// Test that a compile error contains the name of the function, even if the name
// section is not present at the time the error is detected.
STREAM_TEST(TestCompileErrorFunctionName) {
const uint8_t bytes_module_with_code[] = {
WASM_MODULE_HEADER, // module header
kTypeSectionCode, // section code
U32V_1(1 + SIZEOF_SIG_ENTRY_x_x), // section size
U32V_1(1), // type count
SIG_ENTRY_x_x(kLocalI32, kLocalI32), // signature entry
kFunctionSectionCode, // section code
U32V_1(2), // section size
U32V_1(1), // functions count
0, // signature index
kCodeSectionCode, // section code
U32V_1(3), // section size
U32V_1(1), // functions count
1, // body size
kExprNop, // body
};
const uint8_t bytes_names[] = {
kUnknownSectionCode, // section code
U32V_1(11), // section size
4, // section name length
'n', // section name
'a', // section name
'm', // section name
'e', // section name
NameSectionKindCode::kFunction, // name section kind
4, // name section kind length
1, // num function names
0, // function index
1, // function name length
'f', // function name
};
for (bool late_names : {false, true}) {
StreamTester tester;
tester.OnBytesReceived(bytes_module_with_code,
arraysize(bytes_module_with_code));
if (late_names) tester.RunCompilerTasks();
tester.OnBytesReceived(bytes_names, arraysize(bytes_names));
tester.FinishStream();
tester.RunCompilerTasks();
CHECK(tester.IsPromiseRejected());
CHECK_EQ(
"CompileError: WebAssembly.compile(): Compiling function #0:\"f\" "
"failed: function body must end with \"end\" opcode @+25",
tester.error_message());
}
}
#undef STREAM_TEST
} // namespace wasm
} // namespace internal
} // namespace v8