#ifndef QPID_SYS_POLLABLEQUEUE_H #define QPID_SYS_POLLABLEQUEUE_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 "qpid/sys/PollableCondition.h" #include "qpid/sys/Dispatcher.h" #include "qpid/sys/DispatchHandle.h" #include "qpid/sys/Monitor.h" #include #include #include #include namespace qpid { namespace sys { class Poller; /** * A queue that can be polled by sys::Poller. Any thread can push to * the queue, on wakeup the poller thread processes all items on the * queue by passing them to a callback in a batch. */ template class PollableQueue { public: typedef std::deque Queue; /** * Callback to process a batch of items from the queue. * @param values to process, any items remaining after call are put back on the queue. */ typedef boost::function Callback; /** When the queue is selected by the poller, values are passed to callback cb. */ PollableQueue(const Callback& cb, const boost::shared_ptr& poller); ~PollableQueue(); /** Push a value onto the queue. Thread safe */ void push(const T& t); /** Start polling. */ void start(); /** Stop polling and wait for the current callback, if any, to complete. */ void stop(); /** Are we currently stopped?*/ bool isStopped() const { ScopedLock l(lock); return stopped; } size_t size() { ScopedLock l(lock); return queue.size(); } bool empty() { ScopedLock l(lock); return queue.empty(); } private: typedef sys::Monitor::ScopedLock ScopedLock; typedef sys::Monitor::ScopedUnlock ScopedUnlock; void dispatch(sys::DispatchHandle&); mutable sys::Monitor lock; Callback callback; boost::shared_ptr poller; PollableCondition condition; DispatchHandle handle; Queue queue, batch; Thread dispatcher; bool stopped; }; template PollableQueue::PollableQueue( const Callback& cb, const boost::shared_ptr& p) : callback(cb), poller(p), handle(condition, boost::bind(&PollableQueue::dispatch, this, _1), 0, 0), stopped(true) { handle.startWatch(poller); handle.unwatch(); } template void PollableQueue::start() { ScopedLock l(lock); if (!stopped) return; stopped = false; if (!queue.empty()) condition.set(); handle.rewatch(); } template PollableQueue::~PollableQueue() { handle.stopWatch(); } template void PollableQueue::push(const T& t) { ScopedLock l(lock); if (queue.empty()) condition.set(); queue.push_back(t); } template void PollableQueue::dispatch(sys::DispatchHandle& h) { ScopedLock l(lock); assert(dispatcher.id() == 0); dispatcher = Thread::current(); while (!stopped && !queue.empty()) { assert(batch.empty()); batch.swap(queue); { ScopedUnlock u(lock); // Allow concurrent push to queue. callback(batch); } if (!batch.empty()) { queue.insert(queue.begin(), batch.begin(), batch.end()); // put back unprocessed items. batch.clear(); } } dispatcher = Thread(); if (queue.empty()) condition.clear(); if (stopped) lock.notifyAll(); else h.rewatch(); } template void PollableQueue::stop() { ScopedLock l(lock); if (stopped) return; handle.unwatch(); stopped = true; // Avoid deadlock if stop is called from the dispatch thread while (dispatcher.id() && dispatcher.id() != Thread::current().id()) lock.wait(); } }} // namespace qpid::sys #endif /*!QPID_SYS_POLLABLEQUEUE_H*/