webrtc/talk/base/messagequeue.cc
2014-01-13 09:35:02 +00:00

408 lines
12 KiB
C++

/*
* libjingle
* Copyright 2004--2005, Google Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifdef POSIX
#include <sys/time.h>
#endif
#include "talk/base/common.h"
#include "talk/base/logging.h"
#include "talk/base/messagequeue.h"
#include "talk/base/physicalsocketserver.h"
namespace talk_base {
const uint32 kMaxMsgLatency = 150; // 150 ms
//------------------------------------------------------------------
// MessageQueueManager
MessageQueueManager* MessageQueueManager::instance_ = NULL;
MessageQueueManager* MessageQueueManager::Instance() {
// Note: This is not thread safe, but it is first called before threads are
// spawned.
if (!instance_)
instance_ = new MessageQueueManager;
return instance_;
}
bool MessageQueueManager::IsInitialized() {
return instance_ != NULL;
}
MessageQueueManager::MessageQueueManager() {
}
MessageQueueManager::~MessageQueueManager() {
}
void MessageQueueManager::Add(MessageQueue *message_queue) {
return Instance()->AddInternal(message_queue);
}
void MessageQueueManager::AddInternal(MessageQueue *message_queue) {
// MessageQueueManager methods should be non-reentrant, so we
// ASSERT that is the case. If any of these ASSERT, please
// contact bpm or jbeda.
ASSERT(!crit_.CurrentThreadIsOwner());
CritScope cs(&crit_);
message_queues_.push_back(message_queue);
}
void MessageQueueManager::Remove(MessageQueue *message_queue) {
// If there isn't a message queue manager instance, then there isn't a queue
// to remove.
if (!instance_) return;
return Instance()->RemoveInternal(message_queue);
}
void MessageQueueManager::RemoveInternal(MessageQueue *message_queue) {
ASSERT(!crit_.CurrentThreadIsOwner()); // See note above.
// If this is the last MessageQueue, destroy the manager as well so that
// we don't leak this object at program shutdown. As mentioned above, this is
// not thread-safe, but this should only happen at program termination (when
// the ThreadManager is destroyed, and threads are no longer active).
bool destroy = false;
{
CritScope cs(&crit_);
std::vector<MessageQueue *>::iterator iter;
iter = std::find(message_queues_.begin(), message_queues_.end(),
message_queue);
if (iter != message_queues_.end()) {
message_queues_.erase(iter);
}
destroy = message_queues_.empty();
}
if (destroy) {
instance_ = NULL;
delete this;
}
}
void MessageQueueManager::Clear(MessageHandler *handler) {
// If there isn't a message queue manager instance, then there aren't any
// queues to remove this handler from.
if (!instance_) return;
return Instance()->ClearInternal(handler);
}
void MessageQueueManager::ClearInternal(MessageHandler *handler) {
ASSERT(!crit_.CurrentThreadIsOwner()); // See note above.
CritScope cs(&crit_);
std::vector<MessageQueue *>::iterator iter;
for (iter = message_queues_.begin(); iter != message_queues_.end(); iter++)
(*iter)->Clear(handler);
}
//------------------------------------------------------------------
// MessageQueue
MessageQueue::MessageQueue(SocketServer* ss)
: ss_(ss), fStop_(false), fPeekKeep_(false), active_(false),
dmsgq_next_num_(0) {
if (!ss_) {
// Currently, MessageQueue holds a socket server, and is the base class for
// Thread. It seems like it makes more sense for Thread to hold the socket
// server, and provide it to the MessageQueue, since the Thread controls
// the I/O model, and MQ is agnostic to those details. Anyway, this causes
// messagequeue_unittest to depend on network libraries... yuck.
default_ss_.reset(new PhysicalSocketServer());
ss_ = default_ss_.get();
}
ss_->SetMessageQueue(this);
}
MessageQueue::~MessageQueue() {
// The signal is done from here to ensure
// that it always gets called when the queue
// is going away.
SignalQueueDestroyed();
if (active_) {
MessageQueueManager::Remove(this);
Clear(NULL);
}
if (ss_) {
ss_->SetMessageQueue(NULL);
}
}
void MessageQueue::set_socketserver(SocketServer* ss) {
ss_ = ss ? ss : default_ss_.get();
ss_->SetMessageQueue(this);
}
void MessageQueue::Quit() {
fStop_ = true;
ss_->WakeUp();
}
bool MessageQueue::IsQuitting() {
return fStop_;
}
void MessageQueue::Restart() {
fStop_ = false;
}
bool MessageQueue::Peek(Message *pmsg, int cmsWait) {
if (fPeekKeep_) {
*pmsg = msgPeek_;
return true;
}
if (!Get(pmsg, cmsWait))
return false;
msgPeek_ = *pmsg;
fPeekKeep_ = true;
return true;
}
bool MessageQueue::Get(Message *pmsg, int cmsWait, bool process_io) {
// Return and clear peek if present
// Always return the peek if it exists so there is Peek/Get symmetry
if (fPeekKeep_) {
*pmsg = msgPeek_;
fPeekKeep_ = false;
return true;
}
// Get w/wait + timer scan / dispatch + socket / event multiplexer dispatch
int cmsTotal = cmsWait;
int cmsElapsed = 0;
uint32 msStart = Time();
uint32 msCurrent = msStart;
while (true) {
// Check for sent messages
ReceiveSends();
// Check for posted events
int cmsDelayNext = kForever;
bool first_pass = true;
while (true) {
// All queue operations need to be locked, but nothing else in this loop
// (specifically handling disposed message) can happen inside the crit.
// Otherwise, disposed MessageHandlers will cause deadlocks.
{
CritScope cs(&crit_);
// On the first pass, check for delayed messages that have been
// triggered and calculate the next trigger time.
if (first_pass) {
first_pass = false;
while (!dmsgq_.empty()) {
if (TimeIsLater(msCurrent, dmsgq_.top().msTrigger_)) {
cmsDelayNext = TimeDiff(dmsgq_.top().msTrigger_, msCurrent);
break;
}
msgq_.push_back(dmsgq_.top().msg_);
dmsgq_.pop();
}
}
// Pull a message off the message queue, if available.
if (msgq_.empty()) {
break;
} else {
*pmsg = msgq_.front();
msgq_.pop_front();
}
} // crit_ is released here.
// Log a warning for time-sensitive messages that we're late to deliver.
if (pmsg->ts_sensitive) {
int32 delay = TimeDiff(msCurrent, pmsg->ts_sensitive);
if (delay > 0) {
LOG_F(LS_WARNING) << "id: " << pmsg->message_id << " delay: "
<< (delay + kMaxMsgLatency) << "ms";
}
}
// If this was a dispose message, delete it and skip it.
if (MQID_DISPOSE == pmsg->message_id) {
ASSERT(NULL == pmsg->phandler);
delete pmsg->pdata;
*pmsg = Message();
continue;
}
return true;
}
if (fStop_)
break;
// Which is shorter, the delay wait or the asked wait?
int cmsNext;
if (cmsWait == kForever) {
cmsNext = cmsDelayNext;
} else {
cmsNext = _max(0, cmsTotal - cmsElapsed);
if ((cmsDelayNext != kForever) && (cmsDelayNext < cmsNext))
cmsNext = cmsDelayNext;
}
// Wait and multiplex in the meantime
if (!ss_->Wait(cmsNext, process_io))
return false;
// If the specified timeout expired, return
msCurrent = Time();
cmsElapsed = TimeDiff(msCurrent, msStart);
if (cmsWait != kForever) {
if (cmsElapsed >= cmsWait)
return false;
}
}
return false;
}
void MessageQueue::ReceiveSends() {
}
void MessageQueue::Post(MessageHandler *phandler, uint32 id,
MessageData *pdata, bool time_sensitive) {
if (fStop_)
return;
// Keep thread safe
// Add the message to the end of the queue
// Signal for the multiplexer to return
CritScope cs(&crit_);
EnsureActive();
Message msg;
msg.phandler = phandler;
msg.message_id = id;
msg.pdata = pdata;
if (time_sensitive) {
msg.ts_sensitive = Time() + kMaxMsgLatency;
}
msgq_.push_back(msg);
ss_->WakeUp();
}
void MessageQueue::DoDelayPost(int cmsDelay, uint32 tstamp,
MessageHandler *phandler, uint32 id, MessageData* pdata) {
if (fStop_)
return;
// Keep thread safe
// Add to the priority queue. Gets sorted soonest first.
// Signal for the multiplexer to return.
CritScope cs(&crit_);
EnsureActive();
Message msg;
msg.phandler = phandler;
msg.message_id = id;
msg.pdata = pdata;
DelayedMessage dmsg(cmsDelay, tstamp, dmsgq_next_num_, msg);
dmsgq_.push(dmsg);
// If this message queue processes 1 message every millisecond for 50 days,
// we will wrap this number. Even then, only messages with identical times
// will be misordered, and then only briefly. This is probably ok.
VERIFY(0 != ++dmsgq_next_num_);
ss_->WakeUp();
}
int MessageQueue::GetDelay() {
CritScope cs(&crit_);
if (!msgq_.empty())
return 0;
if (!dmsgq_.empty()) {
int delay = TimeUntil(dmsgq_.top().msTrigger_);
if (delay < 0)
delay = 0;
return delay;
}
return kForever;
}
void MessageQueue::Clear(MessageHandler *phandler, uint32 id,
MessageList* removed) {
CritScope cs(&crit_);
// Remove messages with phandler
if (fPeekKeep_ && msgPeek_.Match(phandler, id)) {
if (removed) {
removed->push_back(msgPeek_);
} else {
delete msgPeek_.pdata;
}
fPeekKeep_ = false;
}
// Remove from ordered message queue
for (MessageList::iterator it = msgq_.begin(); it != msgq_.end();) {
if (it->Match(phandler, id)) {
if (removed) {
removed->push_back(*it);
} else {
delete it->pdata;
}
it = msgq_.erase(it);
} else {
++it;
}
}
// Remove from priority queue. Not directly iterable, so use this approach
PriorityQueue::container_type::iterator new_end = dmsgq_.container().begin();
for (PriorityQueue::container_type::iterator it = new_end;
it != dmsgq_.container().end(); ++it) {
if (it->msg_.Match(phandler, id)) {
if (removed) {
removed->push_back(it->msg_);
} else {
delete it->msg_.pdata;
}
} else {
*new_end++ = *it;
}
}
dmsgq_.container().erase(new_end, dmsgq_.container().end());
dmsgq_.reheap();
}
void MessageQueue::Dispatch(Message *pmsg) {
pmsg->phandler->OnMessage(pmsg);
}
void MessageQueue::EnsureActive() {
ASSERT(crit_.CurrentThreadIsOwner());
if (!active_) {
active_ = true;
MessageQueueManager::Add(this);
}
}
} // namespace talk_base