/* * * 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 "Connection.h" #include "Cluster.h" #include "qpid/broker/SessionState.h" #include "qpid/framing/AMQFrame.h" #include "qpid/framing/AllInvoker.h" #include "qpid/framing/ClusterConnectionDeliverCloseBody.h" #include "qpid/framing/ConnectionCloseBody.h" #include "qpid/framing/ConnectionCloseOkBody.h" #include "qpid/log/Statement.h" #include namespace qpid { namespace cluster { using namespace framing; NoOpConnectionOutputHandler Connection::discardHandler; // Shadow connections Connection::Connection(Cluster& c, sys::ConnectionOutputHandler& out, const std::string& wrappedId, ConnectionId myId) : cluster(c), self(myId), catchUp(false), output(*this, out), connection(&output, cluster.getBroker(), wrappedId) { QPID_LOG(debug, "New connection: " << *this); } // Local connections Connection::Connection(Cluster& c, sys::ConnectionOutputHandler& out, const std::string& wrappedId, MemberId myId, bool isCatchUp) : cluster(c), self(myId, this), catchUp(isCatchUp), output(*this, out), connection(&output, cluster.getBroker(), wrappedId) { QPID_LOG(debug, "New connection: " << *this); } Connection::~Connection() { QPID_LOG(debug, "Deleted connection: " << *this); } bool Connection::doOutput() { return output.doOutput(); } // Delivery of doOutput allows us to run the real connection doOutput() // which stocks up the write buffers with data. // void Connection::deliverDoOutput(uint32_t requested) { assert(!catchUp); output.deliverDoOutput(requested); } // Received from a directly connected client. void Connection::received(framing::AMQFrame& f) { QPID_LOG(trace, "RECV " << *this << ": " << f); if (isShadow()) { // Final close that completes catch-up for shadow connection. if (catchUp && f.getMethod() && f.getMethod()->isA()) { AMQFrame ok(in_place()); connection.getOutput().send(ok); } else QPID_LOG(warning, *this << " ignoring unexpected frame: " << f); } else { currentChannel = f.getChannel(); if (!framing::invoke(*this, *f.getBody()).wasHandled()) connection.received(f); } } // Delivered from cluster. void Connection::delivered(framing::AMQFrame& f) { QPID_LOG(trace, "DLVR " << *this << ": " << f); assert(!isCatchUp()); // Handle connection controls, deliver other frames to connection. currentChannel = f.getChannel(); if (!framing::invoke(*this, *f.getBody()).wasHandled()) connection.received(f); } void Connection::closed() { try { QPID_LOG(debug, "Connection closed " << *this); if (catchUp) { catchUp = false; cluster.catchUpClosed(boost::intrusive_ptr(this)); if (!isShadow()) connection.closed(); } // Local network connection has closed. We need to keep the // connection around but replace the output handler with a // no-op handler as the network output handler will be // deleted. output.setOutputHandler(discardHandler); if (isLocal()) { // This was a local replicated connection. Multicast a deliver // closed and process any outstanding frames from the cluster // until self-delivery of deliver-close. cluster.mcastControl(ClusterConnectionDeliverCloseBody(), this); ++mcastSeq; } } catch (const std::exception& e) { QPID_LOG(error, QPID_MSG("While closing connection: " << e.what())); } } void Connection::deliverClose () { assert(!catchUp); connection.closed(); cluster.erase(self); } // Decode data from local clients. size_t Connection::decode(const char* buffer, size_t size) { if (catchUp) { // Handle catch-up locally. Buffer buf(const_cast(buffer), size); while (localDecoder.decode(buf)) received(localDecoder.frame); } else { // Multicast local connections. assert(isLocal()); cluster.mcastBuffer(buffer, size, self, ++mcastSeq); } return size; } void Connection::deliverBuffer(Buffer& buf) { assert(!catchUp); ++deliverSeq; while (mcastDecoder.decode(buf)) delivered(mcastDecoder.frame); } void Connection::sessionState( const SequenceNumber& replayStart, const SequenceNumber& sendCommandPoint, const SequenceSet& sentIncomplete, const SequenceNumber& expected, const SequenceNumber& received, const SequenceSet& unknownCompleted, const SequenceSet& receivedIncomplete) { broker::SessionHandler& h = connection.getChannel(currentChannel); broker::SessionState* s = h.getSession(); s->setState( replayStart, sendCommandPoint, sentIncomplete, expected, received, unknownCompleted, receivedIncomplete); QPID_LOG(debug, "Received session state dump for " << s->getId()); } void Connection::shadowReady(uint64_t memberId, uint64_t connectionId) { ConnectionId shadow = ConnectionId(memberId, connectionId); QPID_LOG(debug, "Catch-up connection " << self << " becomes shadow " << shadow); self = shadow; assert(isShadow()); } void Connection::dumpComplete() { // FIXME aconway 2008-09-18: use or remove. } bool Connection::isLocal() const { return self.first == cluster.getSelf() && self.second == this; } std::ostream& operator<<(std::ostream& o, const Connection& c) { return o << c.getId() << "(" << (c.isLocal() ? "local" : "shadow") << (c.isCatchUp() ? ",catchup" : "") << ")"; } }} // namespace qpid::cluster