/* * * 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 "qpid/broker/MessageDeque.h" #include "qpid/broker/QueuedMessage.h" #include "qpid/log/Statement.h" namespace qpid { namespace broker { MessageDeque::MessageDeque() : available(0), head(0) {} size_t MessageDeque::index(const framing::SequenceNumber& position) { //assuming a monotonic sequence, with no messages removed except //from the ends of the deque, we can use the position to determin //an index into the deque if (messages.empty() || position < messages.front().position) return 0; return position - messages.front().position; } bool MessageDeque::deleted(const QueuedMessage& m) { size_t i = index(m.position); if (i < messages.size()) { messages[i].status = QueuedMessage::DELETED; clean(); return true; } else { return false; } } size_t MessageDeque::size() { return available; } void MessageDeque::release(const QueuedMessage& message) { size_t i = index(message.position); if (i < messages.size()) { QueuedMessage& m = messages[i]; if (m.status == QueuedMessage::ACQUIRED) { if (head > i) head = i; m.status = QueuedMessage::AVAILABLE; ++available; } } else { QPID_LOG(error, "Failed to release message at " << message.position << " " << message.payload->getFrames().getContent() << "; no such message (index=" << i << ", size=" << messages.size() << ")"); } } bool MessageDeque::acquire(const framing::SequenceNumber& position, QueuedMessage& message) { if (position < messages.front().position) return false; size_t i = index(position); if (i < messages.size()) { QueuedMessage& temp = messages[i]; if (temp.status == QueuedMessage::AVAILABLE) { temp.status = QueuedMessage::ACQUIRED; --available; message = temp; return true; } } return false; } bool MessageDeque::find(const framing::SequenceNumber& position, QueuedMessage& message) { size_t i = index(position); if (i < messages.size()) { message = messages[i]; return true; } else { return false; } } bool MessageDeque::browse(const framing::SequenceNumber& position, QueuedMessage& message, bool unacquired) { //get first message that is greater than position size_t i = index(position + 1); while (i < messages.size()) { QueuedMessage& m = messages[i++]; if (m.status == QueuedMessage::AVAILABLE || (!unacquired && m.status == QueuedMessage::ACQUIRED)) { message = m; return true; } } return false; } bool MessageDeque::consume(QueuedMessage& message) { while (head < messages.size()) { QueuedMessage& i = messages[head++]; if (i.status == QueuedMessage::AVAILABLE) { i.status = QueuedMessage::ACQUIRED; --available; message = i; return true; } } return false; } namespace { QueuedMessage padding(uint32_t pos) { return QueuedMessage(0, 0, pos, QueuedMessage::DELETED); } } // namespace bool MessageDeque::push(const QueuedMessage& added, QueuedMessage& /*not needed*/) { //add padding to prevent gaps in sequence, which break the index //calculation (needed for queue replication) while (messages.size() && (added.position - messages.back().position) > 1) messages.push_back(padding(messages.back().position + 1)); messages.push_back(added); messages.back().status = QueuedMessage::AVAILABLE; if (head >= messages.size()) head = messages.size() - 1; ++available; return false;//adding a message never causes one to be removed for deque } void MessageDeque::updateAcquired(const QueuedMessage& acquired) { // Pad the front of the queue if necessary while (messages.size() && (acquired.position < messages.front().position)) messages.push_front(padding(uint32_t(messages.front().position) - 1)); size_t i = index(acquired.position); if (i < messages.size()) { // Replace an existing padding message assert(messages[i].status == QueuedMessage::DELETED); messages[i] = acquired; messages[i].status = QueuedMessage::ACQUIRED; } else { // Push to the back // Pad the back of the queue if necessary while (messages.size() && (acquired.position - messages.back().position) > 1) messages.push_back(padding(messages.back().position + 1)); assert(!messages.size() || (acquired.position - messages.back().position) == 1); messages.push_back(acquired); messages.back().status = QueuedMessage::ACQUIRED; } } void MessageDeque::clean() { while (messages.size() && messages.front().status == QueuedMessage::DELETED) { messages.pop_front(); if (head) --head; } } void MessageDeque::foreach(Functor f) { for (Deque::iterator i = messages.begin(); i != messages.end(); ++i) { if (i->status == QueuedMessage::AVAILABLE) { f(*i); } } } void MessageDeque::removeIf(Predicate p) { for (Deque::iterator i = messages.begin(); i != messages.end(); ++i) { if (i->status == QueuedMessage::AVAILABLE && p(*i)) { //Use special status for this as messages are not yet //dequeued, but should not be considered on the queue //either (used for purging and moving) i->status = QueuedMessage::REMOVED; --available; } } clean(); } }} // namespace qpid::broker