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e1ca671e45
v8/test/unittests/compiler-dispatcher/compiler-dispatcher-unittest.cc
Sigurd Schneider e1ca671e45 [debug] Ensure breaking on inlined builtins works 
This ensures that breaking on inlined builtins works, even when
compiling concurrently. This CL also introduces the member
Isolate::AbortConcurrentOptimization.

R=sigurds@chromium.org

Bug: v8:178
Cq-Include-Trybots: master.tryserver.chromium.linux:linux_chromium_rel_ng
Change-Id: Ie6cbb48ebde18036888af2dd715862e7a14ddf9d
Reviewed-on: https://chromium-review.googlesource.com/912468
Commit-Queue: Yang Guo <yangguo@chromium.org>
Reviewed-by: Yang Guo <yangguo@chromium.org>
Reviewed-by: Michael Starzinger <mstarzinger@chromium.org>
Reviewed-by: Sigurd Schneider <sigurds@chromium.org>
Cr-Commit-Position: refs/heads/master@{#51384}
2018-02-20 07:52:51 +00:00

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// Copyright 2016 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/compiler-dispatcher/compiler-dispatcher.h"
#include <sstream>
#include "include/v8-platform.h"
#include "src/api.h"
#include "src/ast/ast-value-factory.h"
#include "src/base/platform/semaphore.h"
#include "src/compiler-dispatcher/compiler-dispatcher-job.h"
#include "src/compiler-dispatcher/compiler-dispatcher-tracer.h"
#include "src/compiler-dispatcher/unoptimized-compile-job.h"
#include "src/compiler.h"
#include "src/flags.h"
#include "src/handles.h"
#include "src/objects-inl.h"
#include "src/parsing/parse-info.h"
#include "src/parsing/parsing.h"
#include "src/v8.h"
#include "test/unittests/test-helpers.h"
#include "test/unittests/test-utils.h"
#include "testing/gtest/include/gtest/gtest.h"
// V8 is smart enough to know something was already compiled and return compiled
// code straight away. We need a unique name for each test function so that V8
// returns an empty SharedFunctionInfo.
#define _STR(x) #x
#define STR(x) _STR(x)
#define _SCRIPT(fn, a, b, c) a fn b fn c
#define SCRIPT(a, b, c) _SCRIPT("f" STR(__LINE__), a, b, c)
#define TEST_SCRIPT() \
"function f" STR(__LINE__) "(x, y) { return x * y }; f" STR(__LINE__) ";"
namespace v8 {
namespace internal {
class CompilerDispatcherTestFlags {
public:
static void SetFlagsForTest() {
CHECK_NULL(save_flags_);
save_flags_ = new SaveFlags();
FLAG_single_threaded = true;
FlagList::EnforceFlagImplications();
FLAG_compiler_dispatcher = true;
}
static void RestoreFlags() {
CHECK_NOT_NULL(save_flags_);
delete save_flags_;
save_flags_ = nullptr;
}
private:
static SaveFlags* save_flags_;
DISALLOW_IMPLICIT_CONSTRUCTORS(CompilerDispatcherTestFlags);
};
SaveFlags* CompilerDispatcherTestFlags::save_flags_ = nullptr;
class CompilerDispatcherTest : public TestWithNativeContext {
public:
CompilerDispatcherTest() = default;
~CompilerDispatcherTest() override = default;
static void SetUpTestCase() {
CompilerDispatcherTestFlags::SetFlagsForTest();
TestWithNativeContext ::SetUpTestCase();
}
static void TearDownTestCase() {
TestWithNativeContext ::TearDownTestCase();
CompilerDispatcherTestFlags::RestoreFlags();
}
private:
DISALLOW_COPY_AND_ASSIGN(CompilerDispatcherTest);
};
namespace {
class MockPlatform : public v8::Platform {
public:
MockPlatform()
: time_(0.0),
time_step_(0.0),
idle_task_(nullptr),
sem_(0),
tracing_controller_(V8::GetCurrentPlatform()->GetTracingController()) {}
~MockPlatform() override {
base::LockGuard<base::Mutex> lock(&mutex_);
EXPECT_TRUE(foreground_tasks_.empty());
EXPECT_TRUE(background_tasks_.empty());
EXPECT_TRUE(idle_task_ == nullptr);
}
size_t NumberOfAvailableBackgroundThreads() override { return 1; }
std::shared_ptr<TaskRunner> GetForegroundTaskRunner(
v8::Isolate* isolate) override {
constexpr bool is_foreground_task_runner = true;
return std::make_shared<MockTaskRunner>(this, is_foreground_task_runner);
}
std::shared_ptr<TaskRunner> GetBackgroundTaskRunner(
v8::Isolate* isolate) override {
constexpr bool is_foreground_task_runner = false;
return std::make_shared<MockTaskRunner>(this, is_foreground_task_runner);
}
void CallOnBackgroundThread(Task* task,
ExpectedRuntime expected_runtime) override {
base::LockGuard<base::Mutex> lock(&mutex_);
background_tasks_.push_back(task);
}
void CallOnForegroundThread(v8::Isolate* isolate, Task* task) override {
base::LockGuard<base::Mutex> lock(&mutex_);
foreground_tasks_.push_back(task);
}
void CallDelayedOnForegroundThread(v8::Isolate* isolate, Task* task,
double delay_in_seconds) override {
UNREACHABLE();
}
void CallIdleOnForegroundThread(v8::Isolate* isolate,
IdleTask* task) override {
base::LockGuard<base::Mutex> lock(&mutex_);
ASSERT_TRUE(idle_task_ == nullptr);
idle_task_ = task;
}
bool IdleTasksEnabled(v8::Isolate* isolate) override { return true; }
double MonotonicallyIncreasingTime() override {
time_ += time_step_;
return time_;
}
double CurrentClockTimeMillis() override {
return time_ * base::Time::kMillisecondsPerSecond;
}
v8::TracingController* GetTracingController() override {
return tracing_controller_;
}
void RunIdleTask(double deadline_in_seconds, double time_step) {
time_step_ = time_step;
IdleTask* task;
{
base::LockGuard<base::Mutex> lock(&mutex_);
task = idle_task_;
ASSERT_TRUE(idle_task_ != nullptr);
idle_task_ = nullptr;
}
task->Run(deadline_in_seconds);
delete task;
}
bool IdleTaskPending() {
base::LockGuard<base::Mutex> lock(&mutex_);
return idle_task_;
}
bool BackgroundTasksPending() {
base::LockGuard<base::Mutex> lock(&mutex_);
return !background_tasks_.empty();
}
bool ForegroundTasksPending() {
base::LockGuard<base::Mutex> lock(&mutex_);
return !foreground_tasks_.empty();
}
void RunBackgroundTasksAndBlock(Platform* platform) {
std::vector<Task*> tasks;
{
base::LockGuard<base::Mutex> lock(&mutex_);
tasks.swap(background_tasks_);
}
platform->CallOnBackgroundThread(new TaskWrapper(this, tasks, true),
kShortRunningTask);
sem_.Wait();
}
void RunBackgroundTasks(Platform* platform) {
std::vector<Task*> tasks;
{
base::LockGuard<base::Mutex> lock(&mutex_);
tasks.swap(background_tasks_);
}
platform->CallOnBackgroundThread(new TaskWrapper(this, tasks, false),
kShortRunningTask);
}
void RunForegroundTasks() {
std::vector<Task*> tasks;
{
base::LockGuard<base::Mutex> lock(&mutex_);
tasks.swap(foreground_tasks_);
}
for (auto& task : tasks) {
task->Run();
delete task;
}
}
void ClearBackgroundTasks() {
std::vector<Task*> tasks;
{
base::LockGuard<base::Mutex> lock(&mutex_);
tasks.swap(background_tasks_);
}
for (auto& task : tasks) {
delete task;
}
}
void ClearForegroundTasks() {
std::vector<Task*> tasks;
{
base::LockGuard<base::Mutex> lock(&mutex_);
tasks.swap(foreground_tasks_);
}
for (auto& task : tasks) {
delete task;
}
}
void ClearIdleTask() {
base::LockGuard<base::Mutex> lock(&mutex_);
ASSERT_TRUE(idle_task_ != nullptr);
delete idle_task_;
idle_task_ = nullptr;
}
private:
class TaskWrapper : public Task {
public:
TaskWrapper(MockPlatform* platform, const std::vector<Task*>& tasks,
bool signal)
: platform_(platform), tasks_(tasks), signal_(signal) {}
~TaskWrapper() = default;
void Run() override {
for (auto& task : tasks_) {
task->Run();
delete task;
}
if (signal_) platform_->sem_.Signal();
}
private:
MockPlatform* platform_;
std::vector<Task*> tasks_;
bool signal_;
DISALLOW_COPY_AND_ASSIGN(TaskWrapper);
};
class MockTaskRunner final : public TaskRunner {
public:
MockTaskRunner(MockPlatform* platform, bool is_foreground_task_runner)
: platform_(platform),
is_foreground_task_runner_(is_foreground_task_runner) {}
void PostTask(std::unique_ptr<v8::Task> task) override {
base::LockGuard<base::Mutex> lock(&platform_->mutex_);
if (is_foreground_task_runner_) {
platform_->foreground_tasks_.push_back(task.release());
} else {
platform_->background_tasks_.push_back(task.release());
}
}
void PostDelayedTask(std::unique_ptr<Task> task,
double delay_in_seconds) override {
UNREACHABLE();
};
void PostIdleTask(std::unique_ptr<IdleTask> task) override {
DCHECK(IdleTasksEnabled());
base::LockGuard<base::Mutex> lock(&platform_->mutex_);
ASSERT_TRUE(platform_->idle_task_ == nullptr);
platform_->idle_task_ = task.release();
}
bool IdleTasksEnabled() override {
// Idle tasks are enabled only in the foreground task runner.
return is_foreground_task_runner_;
};
private:
MockPlatform* platform_;
bool is_foreground_task_runner_;
};
double time_;
double time_step_;
// Protects all *_tasks_.
base::Mutex mutex_;
IdleTask* idle_task_;
std::vector<Task*> background_tasks_;
std::vector<Task*> foreground_tasks_;
base::Semaphore sem_;
v8::TracingController* tracing_controller_;
DISALLOW_COPY_AND_ASSIGN(MockPlatform);
};
} // namespace
TEST_F(CompilerDispatcherTest, Construct) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
}
TEST_F(CompilerDispatcherTest, IsEnqueued) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_TRUE(dispatcher.Enqueue(shared));
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
dispatcher.AbortAll(BlockingBehavior::kBlock);
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_TRUE(platform.IdleTaskPending());
platform.ClearIdleTask();
}
TEST_F(CompilerDispatcherTest, FinishNow) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(shared->is_compiled());
ASSERT_TRUE(dispatcher.Enqueue(shared));
ASSERT_TRUE(dispatcher.FinishNow(shared));
// Finishing removes the SFI from the queue.
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_TRUE(shared->is_compiled());
ASSERT_TRUE(platform.IdleTaskPending());
platform.ClearIdleTask();
}
TEST_F(CompilerDispatcherTest, FinishAllNow) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
constexpr int num_funcs = 2;
Handle<JSFunction> f[num_funcs];
Handle<SharedFunctionInfo> shared[num_funcs];
for (int i = 0; i < num_funcs; ++i) {
std::stringstream ss;
ss << 'f' << STR(__LINE__) << '_' << i;
std::string func_name = ss.str();
std::string script("function f" + func_name + "(x, y) { return x * y }; f" +
func_name + ";");
f[i] = RunJS<JSFunction>(script.c_str());
shared[i] = Handle<SharedFunctionInfo>(f[i]->shared(), i_isolate());
ASSERT_FALSE(shared[i]->is_compiled());
ASSERT_TRUE(dispatcher.Enqueue(shared[i]));
}
dispatcher.FinishAllNow();
for (int i = 0; i < num_funcs; ++i) {
// Finishing removes the SFI from the queue.
ASSERT_FALSE(dispatcher.IsEnqueued(shared[i]));
ASSERT_TRUE(shared[i]->is_compiled());
}
platform.ClearIdleTask();
platform.ClearBackgroundTasks();
}
TEST_F(CompilerDispatcherTest, IdleTask) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared));
ASSERT_TRUE(platform.IdleTaskPending());
// Since time doesn't progress on the MockPlatform, this is enough idle time
// to finish compiling the function.
platform.RunIdleTask(1000.0, 0.0);
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_TRUE(shared->is_compiled());
}
TEST_F(CompilerDispatcherTest, IdleTaskSmallIdleTime) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared));
ASSERT_TRUE(platform.IdleTaskPending());
// The job should be scheduled for the main thread.
ASSERT_EQ(dispatcher.jobs_.size(), 1u);
ASSERT_EQ(UnoptimizedCompileJob::Status::kInitial,
dispatcher.jobs_.begin()->second->status());
// Only grant a little idle time and have time advance beyond it in one step.
platform.RunIdleTask(2.0, 1.0);
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
ASSERT_FALSE(shared->is_compiled());
ASSERT_TRUE(platform.IdleTaskPending());
// The job should be still scheduled for the main thread, but ready for
// parsing.
ASSERT_EQ(dispatcher.jobs_.size(), 1u);
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
dispatcher.jobs_.begin()->second->status());
// Now grant a lot of idle time and freeze time.
platform.RunIdleTask(1000.0, 0.0);
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_TRUE(shared->is_compiled());
ASSERT_FALSE(platform.IdleTaskPending());
}
TEST_F(CompilerDispatcherTest, IdleTaskException) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, 50);
std::string func_name("f" STR(__LINE__));
std::string script("function " + func_name + "(x) { var a = ");
for (int i = 0; i < 500; i++) {
// Alternate + and - to avoid n-ary operation nodes.
script += "'x' + 'x' - ";
}
script += " 'x'; }; " + func_name + ";";
Handle<JSFunction> f = RunJS<JSFunction>(script.c_str());
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared));
ASSERT_TRUE(platform.IdleTaskPending());
// Since time doesn't progress on the MockPlatform, this is enough idle time
// to finish compiling the function.
platform.RunIdleTask(1000.0, 0.0);
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_FALSE(shared->is_compiled());
ASSERT_FALSE(i_isolate()->has_pending_exception());
}
TEST_F(CompilerDispatcherTest, CompileOnBackgroundThread) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared));
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_EQ(dispatcher.jobs_.size(), 1u);
ASSERT_EQ(UnoptimizedCompileJob::Status::kInitial,
dispatcher.jobs_.begin()->second->status());
// Make compiling super expensive, and advance job as much as possible on the
// foreground thread.
dispatcher.tracer_->RecordCompile(50000.0, 1);
platform.RunIdleTask(10.0, 0.0);
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
dispatcher.jobs_.begin()->second->status());
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
ASSERT_FALSE(shared->is_compiled());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(platform.BackgroundTasksPending());
platform.RunBackgroundTasksAndBlock(V8::GetCurrentPlatform());
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_FALSE(platform.BackgroundTasksPending());
ASSERT_EQ(UnoptimizedCompileJob::Status::kCompiled,
dispatcher.jobs_.begin()->second->status());
// Now grant a lot of idle time and freeze time.
platform.RunIdleTask(1000.0, 0.0);
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_TRUE(shared->is_compiled());
ASSERT_FALSE(platform.IdleTaskPending());
}
TEST_F(CompilerDispatcherTest, FinishNowWithBackgroundTask) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared));
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_EQ(dispatcher.jobs_.size(), 1u);
ASSERT_EQ(UnoptimizedCompileJob::Status::kInitial,
dispatcher.jobs_.begin()->second->status());
// Make compiling super expensive, and advance job as much as possible on the
// foreground thread.
dispatcher.tracer_->RecordCompile(50000.0, 1);
platform.RunIdleTask(10.0, 0.0);
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
dispatcher.jobs_.begin()->second->status());
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
ASSERT_FALSE(shared->is_compiled());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(platform.BackgroundTasksPending());
// This does not block, but races with the FinishNow() call below.
platform.RunBackgroundTasks(V8::GetCurrentPlatform());
ASSERT_TRUE(dispatcher.FinishNow(shared));
// Finishing removes the SFI from the queue.
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_TRUE(shared->is_compiled());
if (platform.IdleTaskPending()) platform.ClearIdleTask();
ASSERT_FALSE(platform.BackgroundTasksPending());
}
TEST_F(CompilerDispatcherTest, IdleTaskMultipleJobs) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script1[] = TEST_SCRIPT();
Handle<JSFunction> f1 = RunJS<JSFunction>(script1);
Handle<SharedFunctionInfo> shared1(f1->shared(), i_isolate());
const char script2[] = TEST_SCRIPT();
Handle<JSFunction> f2 = RunJS<JSFunction>(script2);
Handle<SharedFunctionInfo> shared2(f2->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared1));
ASSERT_TRUE(dispatcher.Enqueue(shared2));
ASSERT_TRUE(platform.IdleTaskPending());
// Since time doesn't progress on the MockPlatform, this is enough idle time
// to finish compiling the function.
platform.RunIdleTask(1000.0, 0.0);
ASSERT_FALSE(dispatcher.IsEnqueued(shared1));
ASSERT_FALSE(dispatcher.IsEnqueued(shared2));
ASSERT_TRUE(shared1->is_compiled());
ASSERT_TRUE(shared2->is_compiled());
}
TEST_F(CompilerDispatcherTest, FinishNowException) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, 50);
std::string func_name("f" STR(__LINE__));
std::string script("function " + func_name + "(x) { var a = ");
for (int i = 0; i < 500; i++) {
// Alternate + and - to avoid n-ary operation nodes.
script += "'x' + 'x' - ";
}
script += " 'x'; }; " + func_name + ";";
Handle<JSFunction> f = RunJS<JSFunction>(script.c_str());
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared));
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_FALSE(dispatcher.FinishNow(shared));
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_FALSE(shared->is_compiled());
ASSERT_TRUE(i_isolate()->has_pending_exception());
i_isolate()->clear_pending_exception();
platform.ClearIdleTask();
}
TEST_F(CompilerDispatcherTest, AsyncAbortAllPendingBackgroundTask) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared));
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_EQ(dispatcher.jobs_.size(), 1u);
ASSERT_EQ(UnoptimizedCompileJob::Status::kInitial,
dispatcher.jobs_.begin()->second->status());
// Make compiling super expensive, and advance job as much as possible on the
// foreground thread.
dispatcher.tracer_->RecordCompile(50000.0, 1);
platform.RunIdleTask(10.0, 0.0);
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
dispatcher.jobs_.begin()->second->status());
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
ASSERT_FALSE(shared->is_compiled());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(platform.BackgroundTasksPending());
// The background task hasn't yet started, so we can just cancel it.
dispatcher.AbortAll(BlockingBehavior::kDontBlock);
ASSERT_FALSE(platform.ForegroundTasksPending());
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_FALSE(shared->is_compiled());
platform.RunBackgroundTasksAndBlock(V8::GetCurrentPlatform());
if (platform.IdleTaskPending()) platform.ClearIdleTask();
ASSERT_FALSE(platform.BackgroundTasksPending());
ASSERT_FALSE(platform.ForegroundTasksPending());
}
TEST_F(CompilerDispatcherTest, AsyncAbortAllRunningBackgroundTask) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script1[] = TEST_SCRIPT();
Handle<JSFunction> f1 = RunJS<JSFunction>(script1);
Handle<SharedFunctionInfo> shared1(f1->shared(), i_isolate());
const char script2[] = TEST_SCRIPT();
Handle<JSFunction> f2 = RunJS<JSFunction>(script2);
Handle<SharedFunctionInfo> shared2(f2->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared1));
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_EQ(dispatcher.jobs_.size(), 1u);
ASSERT_EQ(UnoptimizedCompileJob::Status::kInitial,
dispatcher.jobs_.begin()->second->status());
// Make compiling super expensive, and advance job as much as possible on the
// foreground thread.
dispatcher.tracer_->RecordCompile(50000.0, 1);
platform.RunIdleTask(10.0, 0.0);
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
dispatcher.jobs_.begin()->second->status());
ASSERT_TRUE(dispatcher.IsEnqueued(shared1));
ASSERT_FALSE(shared1->is_compiled());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(platform.BackgroundTasksPending());
// Kick off background tasks and freeze them.
dispatcher.block_for_testing_.SetValue(true);
platform.RunBackgroundTasks(V8::GetCurrentPlatform());
// Busy loop until the background task started running.
while (dispatcher.block_for_testing_.Value()) {
}
dispatcher.AbortAll(BlockingBehavior::kDontBlock);
ASSERT_TRUE(platform.ForegroundTasksPending());
// We can't schedule new tasks while we're aborting.
ASSERT_FALSE(dispatcher.Enqueue(shared2));
// Run the first AbortTask. Since the background job is still pending, it
// can't do anything.
platform.RunForegroundTasks();
{
base::LockGuard<base::Mutex> lock(&dispatcher.mutex_);
ASSERT_TRUE(dispatcher.abort_);
}
// Release background task.
dispatcher.semaphore_for_testing_.Signal();
// Busy loop until the background task scheduled another AbortTask task.
while (!platform.ForegroundTasksPending()) {
}
platform.RunForegroundTasks();
ASSERT_TRUE(dispatcher.jobs_.empty());
{
base::LockGuard<base::Mutex> lock(&dispatcher.mutex_);
ASSERT_FALSE(dispatcher.abort_);
}
ASSERT_TRUE(platform.IdleTaskPending());
platform.RunIdleTask(5.0, 1.0);
ASSERT_FALSE(platform.BackgroundTasksPending());
ASSERT_FALSE(platform.ForegroundTasksPending());
// Now it's possible to enqueue new functions again.
ASSERT_TRUE(dispatcher.Enqueue(shared2));
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_FALSE(platform.BackgroundTasksPending());
ASSERT_FALSE(platform.ForegroundTasksPending());
platform.ClearIdleTask();
}
TEST_F(CompilerDispatcherTest, FinishNowDuringAbortAll) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared));
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_EQ(dispatcher.jobs_.size(), 1u);
ASSERT_EQ(UnoptimizedCompileJob::Status::kInitial,
dispatcher.jobs_.begin()->second->status());
// Make compiling super expensive, and advance job as much as possible on the
// foreground thread.
dispatcher.tracer_->RecordCompile(50000.0, 1);
platform.RunIdleTask(10.0, 0.0);
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
dispatcher.jobs_.begin()->second->status());
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
ASSERT_FALSE(shared->is_compiled());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(platform.BackgroundTasksPending());
// Kick off background tasks and freeze them.
dispatcher.block_for_testing_.SetValue(true);
platform.RunBackgroundTasks(V8::GetCurrentPlatform());
// Busy loop until the background task started running.
while (dispatcher.block_for_testing_.Value()) {
}
dispatcher.AbortAll(BlockingBehavior::kDontBlock);
ASSERT_TRUE(platform.ForegroundTasksPending());
// Run the first AbortTask. Since the background job is still pending, it
// can't do anything.
platform.RunForegroundTasks();
{
base::LockGuard<base::Mutex> lock(&dispatcher.mutex_);
ASSERT_TRUE(dispatcher.abort_);
}
// While the background thread holds on to a job, it is still enqueud.
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
// Release background task.
dispatcher.semaphore_for_testing_.Signal();
// Force the compilation to finish, even while aborting.
ASSERT_TRUE(dispatcher.FinishNow(shared));
ASSERT_TRUE(dispatcher.jobs_.empty());
// Busy wait for the background task to finish.
for (;;) {
base::LockGuard<base::Mutex> lock(&dispatcher.mutex_);
if (dispatcher.num_background_tasks_ == 0) {
break;
}
}
ASSERT_TRUE(platform.ForegroundTasksPending());
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_FALSE(platform.BackgroundTasksPending());
platform.RunForegroundTasks();
{
base::LockGuard<base::Mutex> lock(&dispatcher.mutex_);
ASSERT_FALSE(dispatcher.abort_);
}
platform.ClearForegroundTasks();
platform.ClearIdleTask();
}
TEST_F(CompilerDispatcherTest, MemoryPressure) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
// Can't enqueue tasks under memory pressure.
dispatcher.MemoryPressureNotification(v8::MemoryPressureLevel::kCritical,
true);
ASSERT_FALSE(dispatcher.Enqueue(shared));
dispatcher.MemoryPressureNotification(v8::MemoryPressureLevel::kNone, true);
ASSERT_TRUE(dispatcher.Enqueue(shared));
// Memory pressure cancels current jobs.
dispatcher.MemoryPressureNotification(v8::MemoryPressureLevel::kCritical,
true);
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
platform.ClearIdleTask();
}
namespace {
class PressureNotificationTask : public CancelableTask {
public:
PressureNotificationTask(Isolate* isolate, CompilerDispatcher* dispatcher,
base::Semaphore* sem)
: CancelableTask(isolate), dispatcher_(dispatcher), sem_(sem) {}
~PressureNotificationTask() override {}
void RunInternal() override {
dispatcher_->MemoryPressureNotification(v8::MemoryPressureLevel::kCritical,
false);
sem_->Signal();
}
private:
CompilerDispatcher* dispatcher_;
base::Semaphore* sem_;
DISALLOW_COPY_AND_ASSIGN(PressureNotificationTask);
};
} // namespace
TEST_F(CompilerDispatcherTest, MemoryPressureFromBackground) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_TRUE(dispatcher.Enqueue(shared));
base::Semaphore sem(0);
V8::GetCurrentPlatform()->CallOnBackgroundThread(
new PressureNotificationTask(i_isolate(), &dispatcher, &sem),
v8::Platform::kShortRunningTask);
sem.Wait();
// A memory pressure task is pending, and running it will cancel the job.
ASSERT_TRUE(platform.ForegroundTasksPending());
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
platform.RunForegroundTasks();
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_FALSE(shared->is_compiled());
// Since the AbortAll() call is made from a task, AbortAll thinks that there
// is at least one task running, and fires of an AbortTask to be safe.
ASSERT_TRUE(platform.ForegroundTasksPending());
platform.RunForegroundTasks();
ASSERT_FALSE(platform.ForegroundTasksPending());
platform.ClearIdleTask();
}
TEST_F(CompilerDispatcherTest, EnqueueJob) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
std::unique_ptr<CompilerDispatcherJob> job(
new UnoptimizedCompileJob(i_isolate(), dispatcher.tracer_.get(), shared,
dispatcher.max_stack_size_));
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
dispatcher.Enqueue(std::move(job));
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
ASSERT_TRUE(platform.IdleTaskPending());
platform.ClearIdleTask();
ASSERT_FALSE(platform.BackgroundTasksPending());
}
TEST_F(CompilerDispatcherTest, EnqueueAndStep) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_TRUE(dispatcher.EnqueueAndStep(shared));
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
dispatcher.jobs_.begin()->second->status());
ASSERT_TRUE(platform.IdleTaskPending());
platform.ClearIdleTask();
ASSERT_TRUE(platform.BackgroundTasksPending());
platform.ClearBackgroundTasks();
}
TEST_F(CompilerDispatcherTest, CompileLazyFinishesDispatcherJob) {
// Use the real dispatcher so that CompileLazy checks the same one for
// enqueued functions.
CompilerDispatcher* dispatcher = i_isolate()->compiler_dispatcher();
const char script[] = "function lazy() { return 42; }; lazy;";
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(shared->is_compiled());
ASSERT_FALSE(dispatcher->IsEnqueued(shared));
ASSERT_TRUE(dispatcher->Enqueue(shared));
ASSERT_TRUE(dispatcher->IsEnqueued(shared));
// Now force the function to run and ensure CompileLazy finished and dequeues
// it from the dispatcher.
RunJS("lazy();");
ASSERT_TRUE(shared->is_compiled());
ASSERT_FALSE(dispatcher->IsEnqueued(shared));
}
TEST_F(CompilerDispatcherTest, CompileLazy2FinishesDispatcherJob) {
// Use the real dispatcher so that CompileLazy checks the same one for
// enqueued functions.
CompilerDispatcher* dispatcher = i_isolate()->compiler_dispatcher();
const char source2[] = "function lazy2() { return 42; }; lazy2;";
Handle<JSFunction> lazy2 = RunJS<JSFunction>(source2);
Handle<SharedFunctionInfo> shared2(lazy2->shared(), i_isolate());
ASSERT_FALSE(shared2->is_compiled());
const char source1[] = "function lazy1() { return lazy2(); }; lazy1;";
Handle<JSFunction> lazy1 = RunJS<JSFunction>(source1);
Handle<SharedFunctionInfo> shared1(lazy1->shared(), i_isolate());
ASSERT_FALSE(shared1->is_compiled());
ASSERT_TRUE(dispatcher->Enqueue(shared1));
ASSERT_TRUE(dispatcher->Enqueue(shared2));
RunJS("lazy1();");
ASSERT_TRUE(shared1->is_compiled());
ASSERT_TRUE(shared2->is_compiled());
ASSERT_FALSE(dispatcher->IsEnqueued(shared1));
ASSERT_FALSE(dispatcher->IsEnqueued(shared2));
}
TEST_F(CompilerDispatcherTest, EnqueueAndStepTwice) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script[] = TEST_SCRIPT();
Handle<JSFunction> f = RunJS<JSFunction>(script);
Handle<SharedFunctionInfo> shared(f->shared(), i_isolate());
ASSERT_FALSE(dispatcher.IsEnqueued(shared));
ASSERT_TRUE(dispatcher.EnqueueAndStep(shared));
ASSERT_TRUE(dispatcher.IsEnqueued(shared));
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
dispatcher.jobs_.begin()->second->status());
// EnqueueAndStep of the same function again (shouldn't step the job.
ASSERT_TRUE(dispatcher.EnqueueAndStep(shared));
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
dispatcher.jobs_.begin()->second->status());
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_TRUE(platform.BackgroundTasksPending());
platform.ClearIdleTask();
platform.ClearBackgroundTasks();
}
TEST_F(CompilerDispatcherTest, CompileMultipleOnBackgroundThread) {
MockPlatform platform;
CompilerDispatcher dispatcher(i_isolate(), &platform, FLAG_stack_size);
const char script1[] = TEST_SCRIPT();
Handle<JSFunction> f1 = RunJS<JSFunction>(script1);
Handle<SharedFunctionInfo> shared1(f1->shared(), i_isolate());
const char script2[] = TEST_SCRIPT();
Handle<JSFunction> f2 = RunJS<JSFunction>(script2);
Handle<SharedFunctionInfo> shared2(f2->shared(), i_isolate());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(dispatcher.Enqueue(shared1));
ASSERT_TRUE(dispatcher.Enqueue(shared2));
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_EQ(dispatcher.jobs_.size(), 2u);
ASSERT_EQ(UnoptimizedCompileJob::Status::kInitial,
dispatcher.jobs_.begin()->second->status());
ASSERT_EQ(UnoptimizedCompileJob::Status::kInitial,
(++dispatcher.jobs_.begin())->second->status());
// Make compiling super expensive, and advance job as much as possible on the
// foreground thread.
dispatcher.tracer_->RecordCompile(50000.0, 1);
platform.RunIdleTask(10.0, 0.0);
ASSERT_EQ(dispatcher.jobs_.size(), 2u);
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
dispatcher.jobs_.begin()->second->status());
ASSERT_EQ(UnoptimizedCompileJob::Status::kPrepared,
(++dispatcher.jobs_.begin())->second->status());
ASSERT_TRUE(dispatcher.IsEnqueued(shared1));
ASSERT_TRUE(dispatcher.IsEnqueued(shared2));
ASSERT_FALSE(shared1->is_compiled());
ASSERT_FALSE(shared2->is_compiled());
ASSERT_FALSE(platform.IdleTaskPending());
ASSERT_TRUE(platform.BackgroundTasksPending());
platform.RunBackgroundTasksAndBlock(V8::GetCurrentPlatform());
ASSERT_TRUE(platform.IdleTaskPending());
ASSERT_FALSE(platform.BackgroundTasksPending());
ASSERT_EQ(dispatcher.jobs_.size(), 2u);
ASSERT_EQ(UnoptimizedCompileJob::Status::kCompiled,
dispatcher.jobs_.begin()->second->status());
ASSERT_EQ(UnoptimizedCompileJob::Status::kCompiled,
(++dispatcher.jobs_.begin())->second->status());
// Now grant a lot of idle time and freeze time.
platform.RunIdleTask(1000.0, 0.0);
ASSERT_FALSE(dispatcher.IsEnqueued(shared1));
ASSERT_FALSE(dispatcher.IsEnqueued(shared2));
ASSERT_TRUE(shared1->is_compiled());
ASSERT_TRUE(shared2->is_compiled());
ASSERT_FALSE(platform.IdleTaskPending());
}
#undef _STR
#undef STR
#undef _SCRIPT
#undef SCRIPT
#undef TEST_SCRIPT
} // namespace internal
} // namespace v8
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