blob: 21c7b8a4afff6afebde9499e1505d0ecfa167352 [file] [log] [blame]
// 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 <cstdint>
#include <map>
#include <memory>
#include <unordered_set>
#include <utility>
#include "src/base/atomic-utils.h"
#include "src/base/macros.h"
#include "src/base/optional.h"
#include "src/base/platform/condition-variable.h"
#include "src/base/platform/mutex.h"
#include "src/base/platform/semaphore.h"
#include "src/common/globals.h"
#include "src/handles/maybe-handles.h"
#include "src/utils/identity-map.h"
#include "testing/gtest/include/gtest/gtest_prod.h" // nogncheck
namespace v8 {
class Platform;
enum class MemoryPressureLevel;
namespace internal {
class AstRawString;
class AstValueFactory;
class BackgroundCompileTask;
class CancelableTaskManager;
class UnoptimizedCompileJob;
class CompilerDispatcherTracer;
class FunctionLiteral;
class Isolate;
class ParseInfo;
class SharedFunctionInfo;
class TimedHistogram;
class WorkerThreadRuntimeCallStats;
class Zone;
template <typename T>
class Handle;
// The CompilerDispatcher uses a combination of idle tasks and background tasks
// to parse and compile lazily parsed functions.
// As both parsing and compilation currently requires a preparation and
// finalization step that happens on the main thread, every task has to be
// advanced during idle time first. Depending on the properties of the task, it
// can then be parsed or compiled on either background threads, or during idle
// time. Last, it has to be finalized during idle time again.
// CompilerDispatcher::jobs_ maintains the list of all CompilerDispatcherJobs
// the CompilerDispatcher knows about.
// CompilerDispatcher::pending_background_jobs_ contains the set of
// CompilerDispatcherJobs that can be processed on a background thread.
// CompilerDispatcher::running_background_jobs_ contains the set of
// CompilerDispatcherJobs that are currently being processed on a background
// thread.
// CompilerDispatcher::DoIdleWork tries to advance as many jobs out of jobs_ as
// possible during idle time. If a job can't be advanced, but is suitable for
// background processing, it fires off background threads.
// CompilerDispatcher::DoBackgroundWork advances one of the pending jobs, and
// then spins of another idle task to potentially do the final step on the main
// thread.
class V8_EXPORT_PRIVATE CompilerDispatcher {
using JobId = uintptr_t;
CompilerDispatcher(Isolate* isolate, Platform* platform,
size_t max_stack_size);
// Returns true if the compiler dispatcher is enabled.
bool IsEnabled() const;
base::Optional<JobId> Enqueue(const ParseInfo* outer_parse_info,
const AstRawString* function_name,
const FunctionLiteral* function_literal);
// Registers the given |function| with the compilation job |job_id|.
void RegisterSharedFunctionInfo(JobId job_id, SharedFunctionInfo function);
// Returns true if there is a pending job with the given id.
bool IsEnqueued(JobId job_id) const;
// Returns true if there is a pending job registered for the given function.
bool IsEnqueued(Handle<SharedFunctionInfo> function) const;
// Blocks until the given function is compiled (and does so as fast as
// possible). Returns true if the compile job was successful.
bool FinishNow(Handle<SharedFunctionInfo> function);
// Aborts compilation job |job_id|.
void AbortJob(JobId job_id);
// Aborts all jobs, blocking until all jobs are aborted.
void AbortAll();
FRIEND_TEST(CompilerDispatcherTest, IdleTaskNoIdleTime);
FRIEND_TEST(CompilerDispatcherTest, IdleTaskSmallIdleTime);
FRIEND_TEST(CompilerDispatcherTest, FinishNowWithWorkerTask);
FRIEND_TEST(CompilerDispatcherTest, AbortJobNotStarted);
FRIEND_TEST(CompilerDispatcherTest, AbortJobAlreadyStarted);
FRIEND_TEST(CompilerDispatcherTest, AsyncAbortAllPendingWorkerTask);
FRIEND_TEST(CompilerDispatcherTest, AsyncAbortAllRunningWorkerTask);
FRIEND_TEST(CompilerDispatcherTest, CompileMultipleOnBackgroundThread);
struct Job {
explicit Job(BackgroundCompileTask* task_arg);
bool IsReadyToFinalize(const base::MutexGuard&) {
return has_run && (!function.is_null() || aborted);
bool IsReadyToFinalize(base::Mutex* mutex) {
base::MutexGuard lock(mutex);
return IsReadyToFinalize(lock);
std::unique_ptr<BackgroundCompileTask> task;
MaybeHandle<SharedFunctionInfo> function;
bool has_run;
bool aborted;
using JobMap = std::map<JobId, std::unique_ptr<Job>>;
using SharedToJobIdMap = IdentityMap<JobId, FreeStoreAllocationPolicy>;
void WaitForJobIfRunningOnBackground(Job* job);
JobMap::const_iterator GetJobFor(Handle<SharedFunctionInfo> shared) const;
void ScheduleMoreWorkerTasksIfNeeded();
void ScheduleIdleTaskFromAnyThread(const base::MutexGuard&);
void DoBackgroundWork();
void DoIdleWork(double deadline_in_seconds);
// Returns iterator to the inserted job.
JobMap::const_iterator InsertJob(std::unique_ptr<Job> job);
// Returns iterator following the removed job.
JobMap::const_iterator RemoveJob(JobMap::const_iterator job);
Isolate* isolate_;
WorkerThreadRuntimeCallStats* worker_thread_runtime_call_stats_;
TimedHistogram* background_compile_timer_;
std::shared_ptr<v8::TaskRunner> taskrunner_;
Platform* platform_;
size_t max_stack_size_;
// Copy of FLAG_trace_compiler_dispatcher to allow for access from any thread.
bool trace_compiler_dispatcher_;
std::unique_ptr<CancelableTaskManager> task_manager_;
// Id for next job to be added
JobId next_job_id_;
// Mapping from job_id to job.
JobMap jobs_;
// Mapping from SharedFunctionInfo to the corresponding unoptimized
// compilation's JobId;
SharedToJobIdMap shared_to_unoptimized_job_id_;
// The following members can be accessed from any thread. Methods need to hold
// the mutex |mutex_| while accessing them.
base::Mutex mutex_;
// True if an idle task is scheduled to be run.
bool idle_task_scheduled_;
// Number of scheduled or running WorkerTask objects.
int num_worker_tasks_;
// The set of jobs that can be run on a background thread.
std::unordered_set<Job*> pending_background_jobs_;
// The set of jobs currently being run on background threads.
std::unordered_set<Job*> running_background_jobs_;
// If not nullptr, then the main thread waits for the task processing
// this job, and blocks on the ConditionVariable main_thread_blocking_signal_.
Job* main_thread_blocking_on_job_;
base::ConditionVariable main_thread_blocking_signal_;
// Test support.
base::AtomicValue<bool> block_for_testing_;
base::Semaphore semaphore_for_testing_;
} // namespace internal
} // namespace v8