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200 lines
5.8 KiB
C++
200 lines
5.8 KiB
C++
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// Copyright (c) 2013 The Chromium 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 "tools/gn/scheduler.h"
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#include <algorithm>
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#include "base/bind.h"
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#include "base/single_thread_task_runner.h"
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#include "base/task_scheduler/post_task.h"
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#include "base/threading/thread_task_runner_handle.h"
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#include "tools/gn/standard_out.h"
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#include "tools/gn/target.h"
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Scheduler* g_scheduler = nullptr;
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Scheduler::Scheduler()
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: main_thread_task_runner_(base::ThreadTaskRunnerHandle::Get()),
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input_file_manager_(new InputFileManager),
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verbose_logging_(false),
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pool_work_count_cv_(&pool_work_count_lock_),
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is_failed_(false),
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has_been_shutdown_(false) {
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g_scheduler = this;
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}
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Scheduler::~Scheduler() {
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WaitForPoolTasks();
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g_scheduler = nullptr;
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}
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bool Scheduler::Run() {
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runner_.Run();
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bool local_is_failed;
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{
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base::AutoLock lock(lock_);
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local_is_failed = is_failed();
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has_been_shutdown_ = true;
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}
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// Don't do this while holding |lock_|, since it will block on the workers,
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// which may be in turn waiting on the lock.
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WaitForPoolTasks();
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return !local_is_failed;
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}
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void Scheduler::Log(const std::string& verb, const std::string& msg) {
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if (task_runner()->BelongsToCurrentThread()) {
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LogOnMainThread(verb, msg);
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} else {
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// The run loop always joins on the sub threads, so the lifetime of this
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// object outlives the invocations of this function, hence "unretained".
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task_runner()->PostTask(FROM_HERE,
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base::Bind(&Scheduler::LogOnMainThread,
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base::Unretained(this), verb, msg));
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}
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}
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void Scheduler::FailWithError(const Err& err) {
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DCHECK(err.has_error());
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{
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base::AutoLock lock(lock_);
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if (is_failed_ || has_been_shutdown_)
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return; // Ignore errors once we see one.
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is_failed_ = true;
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}
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if (task_runner()->BelongsToCurrentThread()) {
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FailWithErrorOnMainThread(err);
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} else {
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// The run loop always joins on the sub threads, so the lifetime of this
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// object outlives the invocations of this function, hence "unretained".
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task_runner()->PostTask(FROM_HERE,
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base::Bind(&Scheduler::FailWithErrorOnMainThread,
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base::Unretained(this), err));
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}
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}
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void Scheduler::ScheduleWork(base::OnceClosure work) {
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IncrementWorkCount();
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pool_work_count_.Increment();
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base::PostTaskWithTraits(
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FROM_HERE, {base::MayBlock()},
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base::BindOnce(&Scheduler::DoWork, base::Unretained(this),
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std::move(work)));
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}
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void Scheduler::AddGenDependency(const base::FilePath& file) {
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base::AutoLock lock(lock_);
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gen_dependencies_.push_back(file);
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}
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std::vector<base::FilePath> Scheduler::GetGenDependencies() const {
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base::AutoLock lock(lock_);
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return gen_dependencies_;
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}
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void Scheduler::AddWrittenFile(const SourceFile& file) {
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base::AutoLock lock(lock_);
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written_files_.push_back(file);
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}
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void Scheduler::AddUnknownGeneratedInput(const Target* target,
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const SourceFile& file) {
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base::AutoLock lock(lock_);
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unknown_generated_inputs_.insert(std::make_pair(file, target));
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}
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void Scheduler::AddWriteRuntimeDepsTarget(const Target* target) {
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base::AutoLock lock(lock_);
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write_runtime_deps_targets_.push_back(target);
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}
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std::vector<const Target*> Scheduler::GetWriteRuntimeDepsTargets() const {
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base::AutoLock lock(lock_);
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return write_runtime_deps_targets_;
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}
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bool Scheduler::IsFileGeneratedByWriteRuntimeDeps(
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const OutputFile& file) const {
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base::AutoLock lock(lock_);
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// Number of targets should be quite small, so brute-force search is fine.
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for (const Target* target : write_runtime_deps_targets_) {
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if (file == target->write_runtime_deps_output()) {
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return true;
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}
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}
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return false;
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}
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std::multimap<SourceFile, const Target*>
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Scheduler::GetUnknownGeneratedInputs() const {
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base::AutoLock lock(lock_);
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// Remove all unknown inputs that were written files. These are OK as inputs
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// to build steps since they were written as a side-effect of running GN.
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//
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// It's assumed that this function is called once during cleanup to check for
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// errors, so performing this work in the lock doesn't matter.
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std::multimap<SourceFile, const Target*> filtered = unknown_generated_inputs_;
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for (const SourceFile& file : written_files_)
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filtered.erase(file);
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return filtered;
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}
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void Scheduler::ClearUnknownGeneratedInputsAndWrittenFiles() {
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base::AutoLock lock(lock_);
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unknown_generated_inputs_.clear();
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written_files_.clear();
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}
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void Scheduler::IncrementWorkCount() {
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work_count_.Increment();
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}
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void Scheduler::DecrementWorkCount() {
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if (!work_count_.Decrement()) {
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if (task_runner()->BelongsToCurrentThread()) {
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OnComplete();
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} else {
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task_runner()->PostTask(FROM_HERE, base::Bind(&Scheduler::OnComplete,
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base::Unretained(this)));
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}
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}
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}
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void Scheduler::LogOnMainThread(const std::string& verb,
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const std::string& msg) {
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OutputString(verb, DECORATION_YELLOW);
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OutputString(" " + msg + "\n");
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}
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void Scheduler::FailWithErrorOnMainThread(const Err& err) {
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err.PrintToStdout();
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runner_.Quit();
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}
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void Scheduler::DoWork(base::OnceClosure closure) {
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std::move(closure).Run();
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DecrementWorkCount();
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if (!pool_work_count_.Decrement()) {
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base::AutoLock auto_lock(pool_work_count_lock_);
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pool_work_count_cv_.Signal();
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}
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}
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void Scheduler::OnComplete() {
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// Should be called on the main thread.
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DCHECK(task_runner()->BelongsToCurrentThread());
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runner_.Quit();
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}
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void Scheduler::WaitForPoolTasks() {
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base::AutoLock lock(pool_work_count_lock_);
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while (!pool_work_count_.IsZero())
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pool_work_count_cv_.Wait();
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}
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