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156 lines
5.2 KiB
C++
156 lines
5.2 KiB
C++
// Copyright 2016 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 "base/task/task_scheduler/scheduler_lock_impl.h"
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#include <algorithm>
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#include <unordered_map>
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#include <vector>
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#include "base/lazy_instance.h"
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#include "base/logging.h"
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#include "base/synchronization/condition_variable.h"
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#include "base/threading/platform_thread.h"
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#include "base/threading/thread_local_storage.h"
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namespace base {
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namespace internal {
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namespace {
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class SafeAcquisitionTracker {
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public:
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SafeAcquisitionTracker() : tls_acquired_locks_(&OnTLSDestroy) {}
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void RegisterLock(const SchedulerLockImpl* const lock,
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const SchedulerLockImpl* const predecessor) {
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DCHECK_NE(lock, predecessor) << "Reentrant locks are unsupported.";
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AutoLock auto_lock(allowed_predecessor_map_lock_);
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allowed_predecessor_map_[lock] = predecessor;
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AssertSafePredecessor(lock);
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}
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void UnregisterLock(const SchedulerLockImpl* const lock) {
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AutoLock auto_lock(allowed_predecessor_map_lock_);
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allowed_predecessor_map_.erase(lock);
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}
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void RecordAcquisition(const SchedulerLockImpl* const lock) {
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AssertSafeAcquire(lock);
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GetAcquiredLocksOnCurrentThread()->push_back(lock);
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}
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void RecordRelease(const SchedulerLockImpl* const lock) {
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LockVector* acquired_locks = GetAcquiredLocksOnCurrentThread();
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const auto iter_at_lock =
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std::find(acquired_locks->begin(), acquired_locks->end(), lock);
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DCHECK(iter_at_lock != acquired_locks->end());
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acquired_locks->erase(iter_at_lock);
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}
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private:
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using LockVector = std::vector<const SchedulerLockImpl*>;
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using PredecessorMap =
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std::unordered_map<const SchedulerLockImpl*, const SchedulerLockImpl*>;
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// This asserts that the lock is safe to acquire. This means that this should
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// be run before actually recording the acquisition.
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void AssertSafeAcquire(const SchedulerLockImpl* const lock) {
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const LockVector* acquired_locks = GetAcquiredLocksOnCurrentThread();
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// If the thread currently holds no locks, this is inherently safe.
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if (acquired_locks->empty())
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return;
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// Otherwise, make sure that the previous lock acquired is an allowed
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// predecessor.
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AutoLock auto_lock(allowed_predecessor_map_lock_);
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// Using at() is exception-safe here as |lock| was registered already.
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const SchedulerLockImpl* allowed_predecessor =
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allowed_predecessor_map_.at(lock);
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DCHECK_EQ(acquired_locks->back(), allowed_predecessor);
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}
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// Asserts that |lock|'s registered predecessor is safe. Because
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// SchedulerLocks are registered at construction time and any predecessor
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// specified on a SchedulerLock must already exist, the first registered
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// SchedulerLock in a potential chain must have a null predecessor and is thus
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// cycle-free. Any subsequent SchedulerLock with a predecessor must come from
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// the set of registered SchedulerLocks. Since the registered SchedulerLocks
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// only contain cycle-free SchedulerLocks, this subsequent SchedulerLock is
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// itself cycle-free and may be safely added to the registered SchedulerLock
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// set.
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void AssertSafePredecessor(const SchedulerLockImpl* lock) const {
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allowed_predecessor_map_lock_.AssertAcquired();
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// Using at() is exception-safe here as |lock| was registered already.
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const SchedulerLockImpl* predecessor = allowed_predecessor_map_.at(lock);
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if (predecessor) {
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DCHECK(allowed_predecessor_map_.find(predecessor) !=
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allowed_predecessor_map_.end())
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<< "SchedulerLock was registered before its predecessor. "
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<< "Potential cycle detected";
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}
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}
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LockVector* GetAcquiredLocksOnCurrentThread() {
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if (!tls_acquired_locks_.Get())
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tls_acquired_locks_.Set(new LockVector);
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return reinterpret_cast<LockVector*>(tls_acquired_locks_.Get());
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}
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static void OnTLSDestroy(void* value) {
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delete reinterpret_cast<LockVector*>(value);
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}
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// Synchronizes access to |allowed_predecessor_map_|.
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Lock allowed_predecessor_map_lock_;
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// A map of allowed predecessors.
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PredecessorMap allowed_predecessor_map_;
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// A thread-local slot holding a vector of locks currently acquired on the
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// current thread.
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ThreadLocalStorage::Slot tls_acquired_locks_;
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DISALLOW_COPY_AND_ASSIGN(SafeAcquisitionTracker);
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};
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LazyInstance<SafeAcquisitionTracker>::Leaky g_safe_acquisition_tracker =
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LAZY_INSTANCE_INITIALIZER;
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} // namespace
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SchedulerLockImpl::SchedulerLockImpl() : SchedulerLockImpl(nullptr) {}
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SchedulerLockImpl::SchedulerLockImpl(const SchedulerLockImpl* predecessor) {
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g_safe_acquisition_tracker.Get().RegisterLock(this, predecessor);
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}
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SchedulerLockImpl::~SchedulerLockImpl() {
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g_safe_acquisition_tracker.Get().UnregisterLock(this);
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}
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void SchedulerLockImpl::Acquire() {
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lock_.Acquire();
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g_safe_acquisition_tracker.Get().RecordAcquisition(this);
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}
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void SchedulerLockImpl::Release() {
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lock_.Release();
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g_safe_acquisition_tracker.Get().RecordRelease(this);
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}
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void SchedulerLockImpl::AssertAcquired() const {
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lock_.AssertAcquired();
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}
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std::unique_ptr<ConditionVariable>
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SchedulerLockImpl::CreateConditionVariable() {
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return std::make_unique<ConditionVariable>(&lock_);
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}
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} // namespace internal
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} // namespace base
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