// Copyright (c) 2012 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 "content/browser/histogram_synchronizer.h" #include #include "base/bind.h" #include "base/bind_helpers.h" #include "base/lazy_instance.h" #include "base/location.h" #include "base/logging.h" #include "base/metrics/histogram_delta_serialization.h" #include "base/metrics/histogram_macros.h" #include "base/pickle.h" #include "base/single_thread_task_runner.h" #include "base/task/post_task.h" #include "base/threading/thread.h" #include "base/threading/thread_restrictions.h" #include "content/browser/histogram_controller.h" #include "content/public/browser/browser_task_traits.h" #include "content/public/browser/browser_thread.h" #include "content/public/browser/histogram_fetcher.h" #include "content/public/common/content_constants.h" namespace content { using base::Time; using base::TimeDelta; using base::TimeTicks; namespace { // Negative numbers are never used as sequence numbers. We explicitly pick a // negative number that is "so negative" that even when we add one (as is done // when we generated the next sequence number) that it will still be negative. // We have code that handles wrapping around on an overflow into negative // territory. static const int kNeverUsableSequenceNumber = -2; } // anonymous namespace // The "RequestContext" structure describes an individual request received from // the UI. All methods are accessible on UI thread. class HistogramSynchronizer::RequestContext { public: // A map from sequence_number_ to the actual RequestContexts. typedef std::map RequestContextMap; RequestContext(base::OnceClosure callback, int sequence_number) : callback_(std::move(callback)), sequence_number_(sequence_number), received_process_group_count_(0), processes_pending_(0) {} ~RequestContext() {} void SetReceivedProcessGroupCount(bool done) { DCHECK_CURRENTLY_ON(BrowserThread::UI); received_process_group_count_ = done; } // Methods for book keeping of processes_pending_. void AddProcessesPending(int processes_pending) { DCHECK_CURRENTLY_ON(BrowserThread::UI); processes_pending_ += processes_pending; } void DecrementProcessesPending() { DCHECK_CURRENTLY_ON(BrowserThread::UI); --processes_pending_; } // Records that we are waiting for one less histogram data from a process for // the given sequence number. If |received_process_group_count_| and // |processes_pending_| are zero, then delete the current object by calling // Unregister. void DeleteIfAllDone() { DCHECK_CURRENTLY_ON(BrowserThread::UI); if (processes_pending_ <= 0 && received_process_group_count_) RequestContext::Unregister(sequence_number_); } // Register |callback| in |outstanding_requests_| map for the given // |sequence_number|. static void Register(base::OnceClosure callback, int sequence_number) { DCHECK_CURRENTLY_ON(BrowserThread::UI); RequestContext* request = new RequestContext(std::move(callback), sequence_number); outstanding_requests_.Get()[sequence_number] = request; } // Find the |RequestContext| in |outstanding_requests_| map for the given // |sequence_number|. static RequestContext* GetRequestContext(int sequence_number) { DCHECK_CURRENTLY_ON(BrowserThread::UI); auto it = outstanding_requests_.Get().find(sequence_number); if (it == outstanding_requests_.Get().end()) return nullptr; RequestContext* request = it->second; DCHECK_EQ(sequence_number, request->sequence_number_); return request; } // Delete the entry for the given |sequence_number| from // |outstanding_requests_| map. This method is called when all changes have // been acquired, or when the wait time expires (whichever is sooner). static void Unregister(int sequence_number) { DCHECK_CURRENTLY_ON(BrowserThread::UI); auto it = outstanding_requests_.Get().find(sequence_number); if (it == outstanding_requests_.Get().end()) return; RequestContext* request = it->second; DCHECK_EQ(sequence_number, request->sequence_number_); bool received_process_group_count = request->received_process_group_count_; int unresponsive_processes = request->processes_pending_; std::move(request->callback_).Run(); delete request; outstanding_requests_.Get().erase(it); UMA_HISTOGRAM_BOOLEAN("Histogram.ReceivedProcessGroupCount", received_process_group_count); UMA_HISTOGRAM_COUNTS_1M("Histogram.PendingProcessNotResponding", unresponsive_processes); } // Delete all the entries in |outstanding_requests_| map. static void OnShutdown() { // Just in case we have any pending tasks, clear them out. while (!outstanding_requests_.Get().empty()) { auto it = outstanding_requests_.Get().begin(); delete it->second; outstanding_requests_.Get().erase(it); } } // Requests are made to asynchronously send data to the |callback_|. base::OnceClosure callback_; // The sequence number used by the most recent update request to contact all // processes. int sequence_number_; // Indicates if we have received all pending processes count. bool received_process_group_count_; // The number of pending processes (all renderer processes and browser child // processes) that have not yet responded to requests. int processes_pending_; // Map of all outstanding RequestContexts, from sequence_number_ to // RequestContext. static base::LazyInstance::Leaky outstanding_requests_; }; // static base::LazyInstance ::Leaky HistogramSynchronizer::RequestContext::outstanding_requests_ = LAZY_INSTANCE_INITIALIZER; HistogramSynchronizer::HistogramSynchronizer() : lock_(), last_used_sequence_number_(kNeverUsableSequenceNumber), async_sequence_number_(kNeverUsableSequenceNumber) { HistogramController::GetInstance()->Register(this); } HistogramSynchronizer::~HistogramSynchronizer() { RequestContext::OnShutdown(); // Just in case we have any pending tasks, clear them out. SetTaskRunnerAndCallback(nullptr, base::NullCallback()); } HistogramSynchronizer* HistogramSynchronizer::GetInstance() { return base::Singleton< HistogramSynchronizer, base::LeakySingletonTraits>::get(); } // static void HistogramSynchronizer::FetchHistograms() { if (!BrowserThread::CurrentlyOn(BrowserThread::UI)) { base::PostTask(FROM_HERE, {BrowserThread::UI}, base::BindOnce(&HistogramSynchronizer::FetchHistograms)); return; } DCHECK_CURRENTLY_ON(BrowserThread::UI); HistogramSynchronizer* current_synchronizer = HistogramSynchronizer::GetInstance(); if (current_synchronizer == nullptr) return; current_synchronizer->RegisterAndNotifyAllProcesses( HistogramSynchronizer::UNKNOWN, base::TimeDelta::FromMinutes(1)); } void FetchHistogramsAsynchronously(scoped_refptr task_runner, base::OnceClosure callback, base::TimeDelta wait_time) { HistogramSynchronizer::FetchHistogramsAsynchronously( std::move(task_runner), std::move(callback), wait_time); } // static void HistogramSynchronizer::FetchHistogramsAsynchronously( scoped_refptr task_runner, base::OnceClosure callback, base::TimeDelta wait_time) { DCHECK(task_runner); DCHECK(callback); HistogramSynchronizer* current_synchronizer = HistogramSynchronizer::GetInstance(); current_synchronizer->SetTaskRunnerAndCallback(std::move(task_runner), std::move(callback)); current_synchronizer->RegisterAndNotifyAllProcesses( HistogramSynchronizer::ASYNC_HISTOGRAMS, wait_time); } void HistogramSynchronizer::RegisterAndNotifyAllProcesses( ProcessHistogramRequester requester, base::TimeDelta wait_time) { DCHECK_CURRENTLY_ON(BrowserThread::UI); int sequence_number = GetNextAvailableSequenceNumber(requester); base::OnceClosure callback = base::BindOnce( &HistogramSynchronizer::ForceHistogramSynchronizationDoneCallback, base::Unretained(this), sequence_number); RequestContext::Register(std::move(callback), sequence_number); // Get histogram data from renderer and browser child processes. HistogramController::GetInstance()->GetHistogramData(sequence_number); // Post a task that would be called after waiting for wait_time. This acts // as a watchdog, to cancel the requests for non-responsive processes. base::PostDelayedTask( FROM_HERE, {BrowserThread::UI}, base::BindOnce(&RequestContext::Unregister, sequence_number), wait_time); } void HistogramSynchronizer::OnPendingProcesses(int sequence_number, int pending_processes, bool end) { DCHECK_CURRENTLY_ON(BrowserThread::UI); RequestContext* request = RequestContext::GetRequestContext(sequence_number); if (!request) return; request->AddProcessesPending(pending_processes); request->SetReceivedProcessGroupCount(end); request->DeleteIfAllDone(); } void HistogramSynchronizer::OnHistogramDataCollected( int sequence_number, const std::vector& pickled_histograms) { DCHECK_CURRENTLY_ON(BrowserThread::UI); base::HistogramDeltaSerialization::DeserializeAndAddSamples( pickled_histograms); RequestContext* request = RequestContext::GetRequestContext(sequence_number); if (!request) return; // Delete request if we have heard back from all child processes. request->DecrementProcessesPending(); request->DeleteIfAllDone(); } void HistogramSynchronizer::SetTaskRunnerAndCallback( scoped_refptr task_runner, base::OnceClosure callback) { base::OnceClosure old_callback; scoped_refptr old_task_runner; { base::AutoLock auto_lock(lock_); old_callback = std::move(callback_); callback_ = std::move(callback); old_task_runner = std::move(callback_task_runner_); callback_task_runner_ = std::move(task_runner); // Prevent premature calling of our new callbacks. async_sequence_number_ = kNeverUsableSequenceNumber; } // Just in case there was a task pending.... InternalPostTask(std::move(old_task_runner), std::move(old_callback)); } void HistogramSynchronizer::ForceHistogramSynchronizationDoneCallback( int sequence_number) { base::OnceClosure callback; scoped_refptr task_runner; { base::AutoLock lock(lock_); if (sequence_number != async_sequence_number_) return; callback = std::move(callback_); task_runner = std::move(callback_task_runner_); callback_.Reset(); } InternalPostTask(std::move(task_runner), std::move(callback)); } void HistogramSynchronizer::InternalPostTask( scoped_refptr task_runner, base::OnceClosure callback) { if (callback.is_null() || !task_runner) return; task_runner->PostTask(FROM_HERE, std::move(callback)); } int HistogramSynchronizer::GetNextAvailableSequenceNumber( ProcessHistogramRequester requester) { base::AutoLock auto_lock(lock_); ++last_used_sequence_number_; // Watch out for wrapping to a negative number. if (last_used_sequence_number_ < 0) { // Bypass the reserved number, which is used when a renderer spontaneously // decides to send some histogram data. last_used_sequence_number_ = kHistogramSynchronizerReservedSequenceNumber + 1; } DCHECK_NE(last_used_sequence_number_, kHistogramSynchronizerReservedSequenceNumber); if (requester == ASYNC_HISTOGRAMS) async_sequence_number_ = last_used_sequence_number_; return last_used_sequence_number_; } } // namespace content