// Copyright 2015 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 "ipc/attachment_broker.h" #include #include "base/bind.h" #include "base/location.h" #include "base/sequenced_task_runner.h" namespace { IPC::AttachmentBroker* g_attachment_broker = nullptr; } namespace IPC { // static void AttachmentBroker::SetGlobal(AttachmentBroker* broker) { CHECK(!g_attachment_broker || !broker) << "Global attachment broker address: " << broker << ". New attachment broker address: " << broker; g_attachment_broker = broker; } // static AttachmentBroker* AttachmentBroker::GetGlobal() { return g_attachment_broker; } AttachmentBroker::AttachmentBroker() : last_unique_id_(0) {} AttachmentBroker::~AttachmentBroker() {} bool AttachmentBroker::GetAttachmentWithId( BrokerableAttachment::AttachmentId id, scoped_refptr* out_attachment) { base::AutoLock auto_lock(*get_lock()); for (AttachmentVector::iterator it = attachments_.begin(); it != attachments_.end(); ++it) { if ((*it)->GetIdentifier() == id) { *out_attachment = *it; attachments_.erase(it); return true; } } return false; } void AttachmentBroker::AddObserver( AttachmentBroker::Observer* observer, const scoped_refptr& runner) { base::AutoLock auto_lock(*get_lock()); auto it = std::find_if(observers_.begin(), observers_.end(), [observer](const ObserverInfo& info) { return info.observer == observer; }); if (it == observers_.end()) { ObserverInfo info; info.observer = observer; info.runner = runner; info.unique_id = ++last_unique_id_; observers_.push_back(info); } } void AttachmentBroker::RemoveObserver(AttachmentBroker::Observer* observer) { base::AutoLock auto_lock(*get_lock()); auto it = std::find_if(observers_.begin(), observers_.end(), [observer](const ObserverInfo& info) { return info.observer == observer; }); if (it != observers_.end()) observers_.erase(it); } void AttachmentBroker::RegisterCommunicationChannel(Endpoint* endpoint) { NOTREACHED(); } void AttachmentBroker::DeregisterCommunicationChannel(Endpoint* endpoint) { NOTREACHED(); } void AttachmentBroker::HandleReceivedAttachment( const scoped_refptr& attachment) { { base::AutoLock auto_lock(*get_lock()); attachments_.push_back(attachment); } NotifyObservers(attachment->GetIdentifier()); } void AttachmentBroker::NotifyObservers( const BrokerableAttachment::AttachmentId& id) { base::AutoLock auto_lock(*get_lock()); // Dispatch notifications onto the appropriate task runners. This has two // effects: // 1. Ensures that the notification is posted from the right task runner. // 2. Avoids any complications from re-entrant functions, since one of the // observers may be halfway through processing some messages. for (const auto& info : observers_) { info.runner->PostTask( FROM_HERE, base::Bind(&AttachmentBroker::NotifyObserver, base::Unretained(this), info.unique_id, id)); } } void AttachmentBroker::NotifyObserver( int unique_id, const BrokerableAttachment::AttachmentId& id) { Observer* observer = nullptr; { // Check that the same observer is still registered. base::AutoLock auto_lock(*get_lock()); auto it = std::find_if(observers_.begin(), observers_.end(), [unique_id](const ObserverInfo& info) { return info.unique_id == unique_id; }); if (it == observers_.end()) return; observer = it->observer; } observer->ReceivedBrokerableAttachmentWithId(id); } AttachmentBroker::ObserverInfo::ObserverInfo() {} AttachmentBroker::ObserverInfo::~ObserverInfo() {} } // namespace IPC