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/*
*
* 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/QueueFlowLimit.h"
#include "qpid/broker/Broker.h"
#include "qpid/broker/Message.h"
#include "qpid/broker/Queue.h"
#include "qpid/broker/QueueSettings.h"
#include "qpid/Exception.h"
#include "qpid/framing/FieldValue.h"
#include "qpid/framing/reply_exceptions.h"
#include "qpid/log/Statement.h"
#include "qpid/sys/Mutex.h"
#include "qpid/broker/SessionState.h"
#include "qmf/org/apache/qpid/broker/Queue.h"
#include <sstream>
using namespace qpid::broker;
using namespace qpid::framing;
namespace {
/** ensure that the configured flow control stop and resume values are
* valid with respect to the maximum queue capacity, and each other
*/
template <typename T>
void validateFlowConfig(T max, T& stop, T& resume, const std::string& type, const std::string& queue)
{
if (resume > stop) {
throw InvalidArgumentException(QPID_MSG("Queue \"" << queue << "\": qpid.flow_resume_" << type
<< "=" << resume
<< " must be less than qpid.flow_stop_" << type
<< "=" << stop));
}
if (resume == 0) resume = stop;
if (max != 0 && (max < stop)) {
throw InvalidArgumentException(QPID_MSG("Queue \"" << queue << "\": qpid.flow_stop_" << type
<< "=" << stop
<< " must be less than qpid.max_" << type
<< "=" << max));
}
}
}
QueueFlowLimit::QueueFlowLimit(Queue *_queue,
uint32_t _flowStopCount, uint32_t _flowResumeCount,
uint64_t _flowStopSize, uint64_t _flowResumeSize)
: queue(_queue), queueName("<unknown>"),
flowStopCount(_flowStopCount), flowResumeCount(_flowResumeCount),
flowStopSize(_flowStopSize), flowResumeSize(_flowResumeSize),
flowStopped(false), count(0), size(0), broker(0)
{
uint32_t maxCount(0);
uint64_t maxSize(0);
if (queue) {
queueName = _queue->getName();
if (queue->getSettings().maxDepth.hasCount()) maxCount = queue->getSettings().maxDepth.getCount();
if (queue->getSettings().maxDepth.hasCount()) maxSize = queue->getSettings().maxDepth.getSize();
broker = queue->getBroker();
queueMgmtObj = boost::dynamic_pointer_cast<_qmfBroker::Queue> (queue->GetManagementObject());
if (queueMgmtObj) {
queueMgmtObj->set_flowStopped(isFlowControlActive());
}
}
validateFlowConfig( maxCount, flowStopCount, flowResumeCount, "count", queueName );
validateFlowConfig( maxSize, flowStopSize, flowResumeSize, "size", queueName );
QPID_LOG(info, "Queue \"" << queueName << "\": Flow limit created: flowStopCount=" << flowStopCount
<< ", flowResumeCount=" << flowResumeCount
<< ", flowStopSize=" << flowStopSize << ", flowResumeSize=" << flowResumeSize );
}
QueueFlowLimit::~QueueFlowLimit()
{
sys::Mutex::ScopedLock l(indexLock);
if (!index.empty()) {
// we're gone - release all pending msgs
for (std::map<framing::SequenceNumber, Message >::iterator itr = index.begin();
itr != index.end(); ++itr)
if (itr->second)
try {
itr->second.getPersistentContext()->getIngressCompletion().finishCompleter();
} catch (...) {} // ignore - not safe for a destructor to throw.
index.clear();
}
}
void QueueFlowLimit::enqueued(const Message& msg)
{
sys::Mutex::ScopedLock l(indexLock);
++count;
size += msg.getContentSize();
if (!flowStopped) {
if (flowStopCount && count > flowStopCount) {
flowStopped = true;
QPID_LOG(info, "Queue \"" << queueName << "\": has reached " << flowStopCount << " enqueued messages. Producer flow control activated." );
} else if (flowStopSize && size > flowStopSize) {
flowStopped = true;
QPID_LOG(info, "Queue \"" << queueName << "\": has reached " << flowStopSize << " enqueued bytes. Producer flow control activated." );
}
if (flowStopped && queueMgmtObj) {
queueMgmtObj->set_flowStopped(true);
queueMgmtObj->inc_flowStoppedCount();
}
}
if (flowStopped || !index.empty()) {
QPID_LOG(trace, "Queue \"" << queueName << "\": setting flow control for msg pos=" << msg.getSequence());
msg.getPersistentContext()->getIngressCompletion().startCompleter(); // don't complete until flow resumes
bool unique;
unique = index.insert(std::pair<framing::SequenceNumber, Message >(msg.getSequence(), msg)).second;
// Like this to avoid tripping up unused variable warning when NDEBUG set
if (!unique) assert(unique);
}
}
void QueueFlowLimit::dequeued(const Message& msg)
{
sys::Mutex::ScopedLock l(indexLock);
if (count > 0) {
--count;
} else {
throw Exception(QPID_MSG("Flow limit count underflow on dequeue. Queue=" << queueName));
}
uint64_t _size = msg.getContentSize();
if (_size <= size) {
size -= _size;
} else {
throw Exception(QPID_MSG("Flow limit size underflow on dequeue. Queue=" << queueName));
}
if (flowStopped &&
(flowResumeSize == 0 || size < flowResumeSize) &&
(flowResumeCount == 0 || count < flowResumeCount)) {
flowStopped = false;
if (queueMgmtObj)
queueMgmtObj->set_flowStopped(false);
QPID_LOG(info, "Queue \"" << queueName << "\": has drained below the flow control resume level. Producer flow control deactivated." );
}
if (!index.empty()) {
if (!flowStopped) {
// flow enabled - release all pending msgs
for (std::map<framing::SequenceNumber, Message >::iterator itr = index.begin();
itr != index.end(); ++itr)
if (itr->second)
itr->second.getPersistentContext()->getIngressCompletion().finishCompleter();
index.clear();
} else {
// even if flow controlled, we must release this msg as it is being dequeued
std::map<framing::SequenceNumber, Message >::iterator itr = index.find(msg.getSequence());
if (itr != index.end()) { // this msg is flow controlled, release it:
msg.getPersistentContext()->getIngressCompletion().finishCompleter();
index.erase(itr);
}
}
}
}
void QueueFlowLimit::encode(Buffer& buffer) const
{
buffer.putLong(flowStopCount);
buffer.putLong(flowResumeCount);
buffer.putLongLong(flowStopSize);
buffer.putLongLong(flowResumeSize);
buffer.putLong(count);
buffer.putLongLong(size);
}
void QueueFlowLimit::decode ( Buffer& buffer )
{
flowStopCount = buffer.getLong();
flowResumeCount = buffer.getLong();
flowStopSize = buffer.getLongLong();
flowResumeSize = buffer.getLongLong();
count = buffer.getLong();
size = buffer.getLongLong();
}
uint32_t QueueFlowLimit::encodedSize() const {
return sizeof(uint32_t) + // flowStopCount
sizeof(uint32_t) + // flowResumecount
sizeof(uint64_t) + // flowStopSize
sizeof(uint64_t) + // flowResumeSize
sizeof(uint32_t) + // count
sizeof(uint64_t); // size
}
const std::string QueueFlowLimit::flowStopCountKey("qpid.flow_stop_count");
const std::string QueueFlowLimit::flowResumeCountKey("qpid.flow_resume_count");
const std::string QueueFlowLimit::flowStopSizeKey("qpid.flow_stop_size");
const std::string QueueFlowLimit::flowResumeSizeKey("qpid.flow_resume_size");
uint64_t QueueFlowLimit::defaultMaxSize;
uint QueueFlowLimit::defaultFlowStopRatio;
uint QueueFlowLimit::defaultFlowResumeRatio;
void QueueFlowLimit::setDefaults(uint64_t maxQueueSize, uint flowStopRatio, uint flowResumeRatio)
{
defaultMaxSize = maxQueueSize;
defaultFlowStopRatio = flowStopRatio;
defaultFlowResumeRatio = flowResumeRatio;
/** @todo KAG: Verify valid range on Broker::Options instead of here */
if (flowStopRatio > 100 || flowResumeRatio > 100)
throw InvalidArgumentException(QPID_MSG("Default queue flow ratios must be between 0 and 100, inclusive:"
<< " flowStopRatio=" << flowStopRatio
<< " flowResumeRatio=" << flowResumeRatio));
if (flowResumeRatio > flowStopRatio)
throw InvalidArgumentException(QPID_MSG("Default queue flow stop ratio must be >= flow resume ratio:"
<< " flowStopRatio=" << flowStopRatio
<< " flowResumeRatio=" << flowResumeRatio));
}
void QueueFlowLimit::observe(Queue& queue, const QueueSettings& settings)
{
QueueFlowLimit *ptr = createLimit( &queue, settings );
if (ptr) {
boost::shared_ptr<QueueFlowLimit> observer(ptr);
queue.addObserver(observer);
}
}
/** returns ptr to a QueueFlowLimit, else 0 if no limit */
QueueFlowLimit *QueueFlowLimit::createLimit(Queue *queue, const QueueSettings& settings)
{
if (settings.dropMessagesAtLimit) {
// The size of a RING queue is limited by design - no need for flow control.
return 0;
}
if (settings.flowStop.hasCount() || settings.flowStop.hasSize()) {
// user provided (some) flow settings manually...
if (settings.flowStop.getCount() || settings.flowStop.getSize()) {
return new QueueFlowLimit(queue,
settings.flowStop.getCount(),
settings.flowResume.getCount(),
settings.flowStop.getSize(),
settings.flowResume.getSize());
} else {
//don't have a non-zero value for either the count or the
//size to stop at, yet at least one of these settings was
//provided, i.e it was set to 0 explicitly which we treat
//as turning it off
return 0;
}
}
if (defaultFlowStopRatio) { // broker has a default ratio setup...
uint64_t maxByteCount = settings.maxDepth.hasSize() ? settings.maxDepth.getSize() : defaultMaxSize;
uint64_t flowStopSize = (uint64_t)(maxByteCount * (defaultFlowStopRatio/100.0) + 0.5);
uint64_t flowResumeSize = (uint64_t)(maxByteCount * (defaultFlowResumeRatio/100.0));
uint32_t maxMsgCount = settings.maxDepth.hasCount() ? settings.maxDepth.getCount() : 0;
uint32_t flowStopCount = (uint32_t)(maxMsgCount * (defaultFlowStopRatio/100.0) + 0.5);
uint32_t flowResumeCount = (uint32_t)(maxMsgCount * (defaultFlowResumeRatio/100.0));
return new QueueFlowLimit(queue, flowStopCount, flowResumeCount, flowStopSize, flowResumeSize);
}
return 0;
}
namespace qpid {
namespace broker {
std::ostream& operator<<(std::ostream& out, const QueueFlowLimit& f)
{
out << "; flowStopCount=" << f.flowStopCount << ", flowResumeCount=" << f.flowResumeCount;
out << "; flowStopSize=" << f.flowStopSize << ", flowResumeSize=" << f.flowResumeSize;
return out;
}
}
}
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