#ifndef _broker_PersistableMessage_h #define _broker_PersistableMessage_h /* * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * */ #include #include #include #include #include "qpid/broker/BrokerImportExport.h" #include "qpid/broker/Persistable.h" #include "qpid/framing/amqp_types.h" #include "qpid/sys/Mutex.h" #include "qpid/broker/PersistableQueue.h" #include "qpid/broker/AsyncCompletion.h" namespace qpid { namespace broker { class MessageStore; /** * Base class for persistable messages. */ class PersistableMessage : public Persistable { typedef std::list< boost::weak_ptr > syncList; sys::Mutex asyncDequeueLock; sys::Mutex storeLock; /** * "Ingress" messages == messages sent _to_ the broker. * Tracks the number of outstanding asynchronous operations that must * complete before an inbound message can be considered fully received by the * broker. E.g. all enqueues have completed, the message has been written * to store, credit has been replenished, etc. Once all outstanding * operations have completed, the transfer of this message from the client * may be considered complete. */ AsyncCompletion ingressCompletion; /** * Tracks the number of outstanding asynchronous dequeue * operations. When the message is dequeued asynchronously the * count is incremented; when that dequeue completes it is * decremented. Thus when it is 0, there are no outstanding * dequeues. */ int asyncDequeueCounter; void dequeueAsync(); syncList synclist; struct ContentReleaseState { bool blocked; bool requested; bool released; ContentReleaseState(); }; ContentReleaseState contentReleaseState; protected: /** Called when all dequeues are complete for this message. */ virtual void allDequeuesComplete() = 0; void setContentReleased(); MessageStore* store; public: typedef boost::shared_ptr shared_ptr; /** * @returns the size of the headers when encoded */ virtual uint32_t encodedHeaderSize() const = 0; virtual ~PersistableMessage(); PersistableMessage(); void flush(); QPID_BROKER_EXTERN bool isContentReleased() const; QPID_BROKER_EXTERN void setStore(MessageStore*); void requestContentRelease(); void blockContentRelease(); bool checkContentReleasable(); bool isContentReleaseBlocked(); bool isContentReleaseRequested(); virtual QPID_BROKER_EXTERN bool isPersistent() const = 0; /** track the progress of a message received by the broker - see ingressCompletion above */ QPID_BROKER_INLINE_EXTERN bool isIngressComplete() { return ingressCompletion.isDone(); } QPID_BROKER_INLINE_EXTERN AsyncCompletion& getIngressCompletion() { return ingressCompletion; } QPID_BROKER_INLINE_EXTERN void enqueueStart() { ingressCompletion.startCompleter(); } QPID_BROKER_INLINE_EXTERN void enqueueComplete() { ingressCompletion.finishCompleter(); } QPID_BROKER_EXTERN void enqueueAsync(PersistableQueue::shared_ptr queue, MessageStore* _store); QPID_BROKER_EXTERN bool isDequeueComplete(); QPID_BROKER_EXTERN void dequeueComplete(); QPID_BROKER_EXTERN void dequeueAsync(PersistableQueue::shared_ptr queue, MessageStore* _store); bool isStoredOnQueue(PersistableQueue::shared_ptr queue); void addToSyncList(PersistableQueue::shared_ptr queue, MessageStore* _store); }; }} #endif