#ifndef _broker_BrokerQueue_h #define _broker_BrokerQueue_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/framing/amqp_types.h" #include "ConnectionToken.h" #include "Consumer.h" #include "BrokerMessage.h" #include "qpid/framing/FieldTable.h" #include "qpid/sys/Serializer.h" #include "qpid/sys/Monitor.h" #include "PersistableQueue.h" #include "QueuePolicy.h" #include "QueueBindings.h" // TODO aconway 2007-02-06: Use auto_ptr and boost::ptr_vector to // enforce ownership of Consumers. namespace qpid { namespace broker { class MessageStore; class QueueRegistry; class Exchange; /** * Thrown when exclusive access would be violated. */ using std::string; /** * The brokers representation of an amqp queue. Messages are * delivered to a queue from where they can be dispatched to * registered consumers or be stored until dequeued or until one * or more consumers registers. */ class Queue : public PersistableQueue{ typedef std::vector Consumers; typedef std::deque Messages; struct DispatchFunctor { Queue& queue; DispatchFunctor(Queue& q) : queue(q) {} void operator()() { queue.dispatch(); } }; const string name; const bool autodelete; MessageStore* const store; const ConnectionToken* const owner; Consumers consumers; Messages messages; int next; mutable qpid::sys::RWlock consumerLock; mutable qpid::sys::Mutex messageLock; Consumer* exclusive; mutable uint64_t persistenceId; framing::FieldTable settings; std::auto_ptr policy; QueueBindings bindings; boost::shared_ptr alternateExchange; qpid::sys::Serializer serializer; DispatchFunctor dispatchCallback; void pop(); void push(Message::shared_ptr& msg); bool dispatch(Message::shared_ptr& msg); void setPolicy(std::auto_ptr policy); /** * only called by serilizer */ void dispatch(); protected: /** * Call back from store */ virtual void notifyDurableIOComplete(); public: typedef boost::shared_ptr shared_ptr; typedef std::vector vector; Queue(const string& name, bool autodelete = false, MessageStore* const store = 0, const ConnectionToken* const owner = 0); ~Queue(); void create(const qpid::framing::FieldTable& settings); void configure(const qpid::framing::FieldTable& settings); void destroy(); void bound(const string& exchange, const string& key, const qpid::framing::FieldTable& args); void unbind(ExchangeRegistry& exchanges, Queue::shared_ptr shared_ref); /** * Delivers a message to the queue. Will record it as * enqueued if persistent then process it. */ void deliver(Message::shared_ptr& msg); /** * Dispatches the messages immediately to a consumer if * one is available or stores it for later if not. */ void process(Message::shared_ptr& msg); /** * Returns a message to the in-memory queue (due to lack * of acknowledegement from a receiver). If a consumer is * available it will be dispatched immediately, else it * will be returned to the front of the queue. */ void requeue(Message::shared_ptr& msg); /** * Used during recovery to add stored messages back to the queue */ void recover(Message::shared_ptr& msg); /** * Request dispatch any queued messages providing there are * consumers for them. Only one thread can be dispatching * at any time, so this call schedules the despatch based on * the serilizer policy. */ void requestDispatch(); void consume(Consumer* c, bool exclusive = false); void cancel(Consumer* c); uint32_t purge(); uint32_t getMessageCount() const; uint32_t getConsumerCount() const; inline const string& getName() const { return name; } inline const bool isExclusiveOwner(const ConnectionToken* const o) const { return o == owner; } inline bool hasExclusiveConsumer() const { return exclusive; } inline bool hasExclusiveOwner() const { return owner != 0; } inline bool isDurable() const { return store != 0; } inline const framing::FieldTable& getSettings() const { return settings; } inline bool isAutoDelete() const { return autodelete; } bool canAutoDelete() const; bool enqueue(TransactionContext* ctxt, Message::shared_ptr& msg); /** * dequeue from store (only done once messages is acknowledged) */ bool dequeue(TransactionContext* ctxt, Message::shared_ptr& msg); /** * dequeues from memory only */ Message::shared_ptr dequeue(); const QueuePolicy* const getPolicy(); void setAlternateExchange(boost::shared_ptr exchange); boost::shared_ptr getAlternateExchange(); //PersistableQueue support: uint64_t getPersistenceId() const; void setPersistenceId(uint64_t persistenceId) const; void encode(framing::Buffer& buffer) const; uint32_t encodedSize() const; static Queue::shared_ptr decode(QueueRegistry& queues, framing::Buffer& buffer); }; } } #endif /*!_broker_BrokerQueue_h*/