#ifndef QPID_CLUSTER_CONNECTION_H #define QPID_CLUSTER_CONNECTION_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 "types.h" #include "OutputInterceptor.h" #include "EventFrame.h" #include "McastFrameHandler.h" #include "qpid/broker/Connection.h" #include "qpid/amqp_0_10/Connection.h" #include "qpid/sys/AtomicValue.h" #include "qpid/sys/ConnectionInputHandler.h" #include "qpid/sys/ConnectionOutputHandler.h" #include "qpid/framing/SequenceNumber.h" #include "qpid/framing/FrameDecoder.h" #include namespace qpid { namespace framing { class AMQFrame; } namespace broker { class SemanticState; class QueuedMessage; class TxBuffer; class TxAccept; } namespace cluster { class Cluster; class Event; /** Intercept broker::Connection calls for shadow and local cluster connections. */ class Connection : public RefCounted, public sys::ConnectionInputHandler, public framing::AMQP_AllOperations::ClusterConnectionHandler, private broker::Connection::ErrorListener { public: /** Local connection. */ Connection(Cluster&, sys::ConnectionOutputHandler& out, const std::string& logId, MemberId, bool catchUp, bool isLink); /** Shadow connection. */ Connection(Cluster&, sys::ConnectionOutputHandler& out, const std::string& logId, const ConnectionId& id); ~Connection(); ConnectionId getId() const { return self; } broker::Connection& getBrokerConnection() { return connection; } /** Local connections may be clients or catch-up connections */ bool isLocal() const; bool isLocalClient() const { return isLocal() && !isCatchUp(); } /** True for connections that are shadowing remote broker connections */ bool isShadow() const; /** True if the connection is in "catch-up" mode: building initial broker state. */ bool isCatchUp() const { return catchUp; } /** True if the connection is a completed shared update connection */ bool isUpdated() const; Cluster& getCluster() { return cluster; } // ConnectionInputHandler methods void received(framing::AMQFrame&); void closed(); bool doOutput(); bool hasOutput() { return connection.hasOutput(); } void idleOut() { connection.idleOut(); } void idleIn() { connection.idleIn(); } /** Called if the connectors member has left the cluster */ void left(); // ConnectionCodec methods - called by IO layer with a read buffer. size_t decode(const char* buffer, size_t size); // Called for data delivered from the cluster. void deliveredFrame(const EventFrame&); void consumerState(const std::string& name, bool blocked, bool notifyEnabled, bool isInListener); // ==== Used in catch-up mode to build initial state. // // State update methods. void sessionState(const framing::SequenceNumber& replayStart, const framing::SequenceNumber& sendCommandPoint, const framing::SequenceSet& sentIncomplete, const framing::SequenceNumber& expected, const framing::SequenceNumber& received, const framing::SequenceSet& unknownCompleted, const SequenceSet& receivedIncomplete); void outputTask(uint16_t channel, const std::string& name); void shadowReady(uint64_t memberId, uint64_t connectionId, const std::string& username, const std::string& fragment, uint32_t sendMax); void membership(const framing::FieldTable&, const framing::FieldTable&, uint64_t frameSeq); void deliveryRecord(const std::string& queue, const framing::SequenceNumber& position, const std::string& tag, const framing::SequenceNumber& id, bool acquired, bool accepted, bool cancelled, bool completed, bool ended, bool windowing, bool enqueued, uint32_t credit); void queuePosition(const std::string&, const framing::SequenceNumber&); void expiryId(uint64_t); void txStart(); void txAccept(const framing::SequenceSet&); void txDequeue(const std::string&); void txEnqueue(const std::string&); void txPublish(const qpid::framing::Array&, bool); void txEnd(); void accumulatedAck(const qpid::framing::SequenceSet&); // Encoded queue/exchange replication. void queue(const std::string& encoded); void exchange(const std::string& encoded); void giveReadCredit(int credit); void deliverClose(); OutputInterceptor& getOutput() { return output; } private: struct NullFrameHandler : public framing::FrameHandler { void handle(framing::AMQFrame&) {} }; static NullFrameHandler nullFrameHandler; // Error listener functions void connectionError(const std::string&); void sessionError(uint16_t channel, const std::string&); void init(); bool checkUnsupported(const framing::AMQBody& body); void deliverDoOutput(uint32_t limit) { output.deliverDoOutput(limit); } boost::shared_ptr findQueue(const std::string& qname); broker::SessionState& sessionState(); broker::SemanticState& semanticState(); broker::QueuedMessage getUpdateMessage(); Cluster& cluster; ConnectionId self; bool catchUp; OutputInterceptor output; framing::FrameDecoder localDecoder; broker::Connection connection; framing::SequenceNumber deliverSeq; framing::ChannelId currentChannel; boost::shared_ptr txBuffer; bool expectProtocolHeader; McastFrameHandler mcastFrameHandler; static qpid::sys::AtomicValue catchUpId; friend std::ostream& operator<<(std::ostream&, const Connection&); }; }} // namespace qpid::cluster #endif /*!QPID_CLUSTER_CONNECTION_H*/