Nagram/TMessagesProj/jni/webrtc/base/task/post_job.cc
2020-08-14 19:58:22 +03:00

189 lines
6.7 KiB
C++

// Copyright 2019 The Chromium 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 "base/task/post_job.h"
#include "base/task/scoped_set_task_priority_for_current_thread.h"
#include "base/task/thread_pool/job_task_source.h"
#include "base/task/thread_pool/pooled_task_runner_delegate.h"
#include "base/task/thread_pool/thread_pool_impl.h"
#include "base/task/thread_pool/thread_pool_instance.h"
namespace base {
JobDelegate::JobDelegate(
internal::JobTaskSource* task_source,
internal::PooledTaskRunnerDelegate* pooled_task_runner_delegate)
: task_source_(task_source),
pooled_task_runner_delegate_(pooled_task_runner_delegate) {
DCHECK(task_source_);
#if DCHECK_IS_ON()
recorded_increase_version_ = task_source_->GetConcurrencyIncreaseVersion();
// Record max concurrency before running the worker task.
recorded_max_concurrency_ = task_source_->GetMaxConcurrency();
#endif // DCHECK_IS_ON()
}
JobDelegate::~JobDelegate() {
#if DCHECK_IS_ON()
// When ShouldYield() returns false, the worker task is expected to do
// work before returning.
size_t expected_max_concurrency = recorded_max_concurrency_;
if (!last_should_yield_ && expected_max_concurrency > 0)
--expected_max_concurrency;
AssertExpectedConcurrency(expected_max_concurrency);
#endif // DCHECK_IS_ON()
}
bool JobDelegate::ShouldYield() {
#if DCHECK_IS_ON()
// ShouldYield() shouldn't be called again after returning true.
DCHECK(!last_should_yield_);
#endif // DCHECK_IS_ON()
const bool should_yield =
task_source_->ShouldYield() ||
(pooled_task_runner_delegate_ &&
pooled_task_runner_delegate_->ShouldYield(task_source_));
#if DCHECK_IS_ON()
last_should_yield_ = should_yield;
#endif // DCHECK_IS_ON()
return should_yield;
}
void JobDelegate::YieldIfNeeded() {
// TODO(crbug.com/839091): Implement this.
}
void JobDelegate::NotifyConcurrencyIncrease() {
task_source_->NotifyConcurrencyIncrease();
}
void JobDelegate::AssertExpectedConcurrency(size_t expected_max_concurrency) {
// In dcheck builds, verify that max concurrency falls in one of the following
// cases:
// 1) max concurrency behaves normally and is below or equals the expected
// value.
// 2) max concurrency increased above the expected value, which implies
// there are new work items that the associated worker task didn't see and
// NotifyConcurrencyIncrease() should be called to adjust the number of
// worker.
// a) NotifyConcurrencyIncrease() was already called and the recorded
// concurrency version is out of date, i.e. less than the actual version.
// b) NotifyConcurrencyIncrease() has not yet been called, in which case the
// function waits for an imminent increase of the concurrency version,
// or for max concurrency to decrease below or equal the expected value.
// This prevent ill-formed GetMaxConcurrency() implementations that:
// - Don't decrease with the number of remaining work items.
// - Don't return an up-to-date value.
#if DCHECK_IS_ON()
// Case 1:
if (task_source_->GetMaxConcurrency() <= expected_max_concurrency)
return;
// Case 2a:
const size_t actual_version = task_source_->GetConcurrencyIncreaseVersion();
DCHECK_LE(recorded_increase_version_, actual_version);
if (recorded_increase_version_ < actual_version)
return;
// Case 2b:
const bool updated = task_source_->WaitForConcurrencyIncreaseUpdate(
recorded_increase_version_);
DCHECK(updated ||
task_source_->GetMaxConcurrency() <= expected_max_concurrency)
<< "Value returned by |max_concurrency_callback| is expected to "
"decrease, unless NotifyConcurrencyIncrease() is called.";
recorded_increase_version_ = task_source_->GetConcurrencyIncreaseVersion();
recorded_max_concurrency_ = task_source_->GetMaxConcurrency();
#endif // DCHECK_IS_ON()
}
JobHandle::JobHandle() = default;
JobHandle::JobHandle(scoped_refptr<internal::JobTaskSource> task_source)
: task_source_(std::move(task_source)) {}
JobHandle::~JobHandle() {
DCHECK(!task_source_)
<< "The Job must be cancelled, detached or joined before its "
"JobHandle is destroyed.";
}
JobHandle::JobHandle(JobHandle&&) = default;
JobHandle& JobHandle::operator=(JobHandle&& other) {
DCHECK(!task_source_)
<< "The Job must be cancelled, detached or joined before its "
"JobHandle is re-assigned.";
task_source_ = std::move(other.task_source_);
return *this;
}
void JobHandle::UpdatePriority(TaskPriority new_priority) {
task_source_->delegate()->UpdatePriority(task_source_, new_priority);
}
void JobHandle::NotifyConcurrencyIncrease() {
task_source_->NotifyConcurrencyIncrease();
}
void JobHandle::Join() {
DCHECK_GE(internal::GetTaskPriorityForCurrentThread(),
task_source_->priority_racy())
<< "Join may not be called on Job with higher priority than the current "
"thread.";
UpdatePriority(internal::GetTaskPriorityForCurrentThread());
bool must_run = task_source_->WillJoin();
while (must_run)
must_run = task_source_->RunJoinTask();
// Remove |task_source_| from the ThreadPool to prevent access to
// |max_concurrency_callback| after Join().
task_source_->delegate()->RemoveJobTaskSource(task_source_);
task_source_ = nullptr;
}
void JobHandle::Cancel() {
task_source_->Cancel();
Join();
}
void JobHandle::CancelAndDetach() {
task_source_->Cancel();
Detach();
}
void JobHandle::Detach() {
DCHECK(task_source_);
task_source_ = nullptr;
}
JobHandle PostJob(const Location& from_here,
const TaskTraits& traits,
RepeatingCallback<void(JobDelegate*)> worker_task,
RepeatingCallback<size_t()> max_concurrency_callback) {
DCHECK(ThreadPoolInstance::Get())
<< "Ref. Prerequisite section of post_task.h.\n\n"
"Hint: if this is in a unit test, you're likely merely missing a "
"base::test::TaskEnvironment member in your fixture.\n";
// ThreadPool is implicitly the destination for PostJob(). Extension traits
// cannot be used.
DCHECK_EQ(traits.extension_id(),
TaskTraitsExtensionStorage::kInvalidExtensionId);
auto task_source = base::MakeRefCounted<internal::JobTaskSource>(
from_here, traits, std::move(worker_task),
std::move(max_concurrency_callback),
static_cast<internal::ThreadPoolImpl*>(ThreadPoolInstance::Get()));
const bool queued =
static_cast<internal::ThreadPoolImpl*>(ThreadPoolInstance::Get())
->EnqueueJobTaskSource(task_source);
if (queued)
return internal::JobTaskSource::CreateJobHandle(std::move(task_source));
return JobHandle();
}
} // namespace base