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/**
* @file llworkerthread.cpp
*
* $LicenseInfo:firstyear=2004&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "llworkerthread.h"
#include "llstl.h"
#if USE_FRAME_CALLBACK_MANAGER
#include "llframecallbackmanager.h"
#endif
//============================================================================
// Run on MAIN thread
LLWorkerThread::LLWorkerThread(const std::string& name, bool threaded, bool should_pause) :
LLQueuedThread(name, threaded, should_pause)
{
mDeleteMutex = new LLMutex(NULL);
if(!mLocalAPRFilePoolp)
{
mLocalAPRFilePoolp = new LLVolatileAPRPool() ;
}
}
LLWorkerThread::~LLWorkerThread()
{
// Delete any workers in the delete queue (should be safe - had better be!)
if (!mDeleteList.empty())
{
llwarns << "Worker Thread: " << mName << " destroyed with " << mDeleteList.size()
<< " entries in delete list." << llendl;
}
delete mDeleteMutex;
// ~LLQueuedThread() will be called here
}
//called only in destructor.
void LLWorkerThread::clearDeleteList()
{
// Delete any workers in the delete queue (should be safe - had better be!)
if (!mDeleteList.empty())
{
llwarns << "Worker Thread: " << mName << " destroyed with " << mDeleteList.size()
<< " entries in delete list." << llendl;
mDeleteMutex->lock();
for (delete_list_t::iterator iter = mDeleteList.begin(); iter != mDeleteList.end(); ++iter)
{
(*iter)->mRequestHandle = LLWorkerThread::nullHandle();
(*iter)->clearFlags(LLWorkerClass::WCF_HAVE_WORK);
delete *iter ;
}
mDeleteList.clear() ;
mDeleteMutex->unlock() ;
}
}
// virtual
S32 LLWorkerThread::update(F32 max_time_ms)
{
S32 res = LLQueuedThread::update(max_time_ms);
// Delete scheduled workers
std::vector<LLWorkerClass*> delete_list;
std::vector<LLWorkerClass*> abort_list;
mDeleteMutex->lock();
for (delete_list_t::iterator iter = mDeleteList.begin();
iter != mDeleteList.end(); )
{
delete_list_t::iterator curiter = iter++;
LLWorkerClass* worker = *curiter;
if (worker->deleteOK())
{
if (worker->getFlags(LLWorkerClass::WCF_WORK_FINISHED))
{
delete_list.push_back(worker);
mDeleteList.erase(curiter);
}
else if (!worker->getFlags(LLWorkerClass::WCF_ABORT_REQUESTED))
{
abort_list.push_back(worker);
}
}
}
mDeleteMutex->unlock();
// abort and delete after releasing mutex
for (std::vector<LLWorkerClass*>::iterator iter = abort_list.begin();
iter != abort_list.end(); ++iter)
{
(*iter)->abortWork(false);
}
for (std::vector<LLWorkerClass*>::iterator iter = delete_list.begin();
iter != delete_list.end(); ++iter)
{
LLWorkerClass* worker = *iter;
if (worker->mRequestHandle)
{
// Finished but not completed
completeRequest(worker->mRequestHandle);
worker->mRequestHandle = LLWorkerThread::nullHandle();
worker->clearFlags(LLWorkerClass::WCF_HAVE_WORK);
}
delete *iter;
}
// delete and aborted entries mean there's still work to do
res += delete_list.size() + abort_list.size();
return res;
}
//----------------------------------------------------------------------------
LLWorkerThread::handle_t LLWorkerThread::addWorkRequest(LLWorkerClass* workerclass, S32 param, U32 priority)
{
handle_t handle = generateHandle();
WorkRequest* req = new WorkRequest(handle, priority, workerclass, param);
bool res = addRequest(req);
if (!res)
{
llerrs << "add called after LLWorkerThread::cleanupClass()" << llendl;
req->deleteRequest();
handle = nullHandle();
}
return handle;
}
void LLWorkerThread::deleteWorker(LLWorkerClass* workerclass)
{
mDeleteMutex->lock();
mDeleteList.push_back(workerclass);
mDeleteMutex->unlock();
}
//============================================================================
// Runs on its OWN thread
LLWorkerThread::WorkRequest::WorkRequest(handle_t handle, U32 priority, LLWorkerClass* workerclass, S32 param) :
LLQueuedThread::QueuedRequest(handle, priority),
mWorkerClass(workerclass),
mParam(param)
{
}
LLWorkerThread::WorkRequest::~WorkRequest()
{
}
// virtual (required for access by LLWorkerThread)
void LLWorkerThread::WorkRequest::deleteRequest()
{
LLQueuedThread::QueuedRequest::deleteRequest();
}
// virtual
bool LLWorkerThread::WorkRequest::processRequest()
{
LLWorkerClass* workerclass = getWorkerClass();
workerclass->setWorking(true);
bool complete = workerclass->doWork(getParam());
workerclass->setWorking(false);
return complete;
}
// virtual
void LLWorkerThread::WorkRequest::finishRequest(bool completed)
{
LLWorkerClass* workerclass = getWorkerClass();
workerclass->finishWork(getParam(), completed);
U32 flags = LLWorkerClass::WCF_WORK_FINISHED | (completed ? 0 : LLWorkerClass::WCF_WORK_ABORTED);
workerclass->setFlags(flags);
}
//============================================================================
// LLWorkerClass:: operates in main thread
LLWorkerClass::LLWorkerClass(LLWorkerThread* workerthread, const std::string& name)
: mWorkerThread(workerthread),
mWorkerClassName(name),
mRequestHandle(LLWorkerThread::nullHandle()),
mRequestPriority(LLWorkerThread::PRIORITY_NORMAL),
mMutex(NULL),
mWorkFlags(0)
{
if (!mWorkerThread)
{
llerrs << "LLWorkerClass() called with NULL workerthread: " << name << llendl;
}
}
LLWorkerClass::~LLWorkerClass()
{
llassert_always(!(mWorkFlags & WCF_WORKING));
llassert_always(mWorkFlags & WCF_DELETE_REQUESTED);
llassert_always(!mMutex.isLocked());
if (mRequestHandle != LLWorkerThread::nullHandle())
{
LLWorkerThread::WorkRequest* workreq = (LLWorkerThread::WorkRequest*)mWorkerThread->getRequest(mRequestHandle);
if (!workreq)
{
llerrs << "LLWorkerClass destroyed with stale work handle" << llendl;
}
if (workreq->getStatus() != LLWorkerThread::STATUS_ABORTED &&
workreq->getStatus() != LLWorkerThread::STATUS_COMPLETE)
{
llerrs << "LLWorkerClass destroyed with active worker! Worker Status: " << workreq->getStatus() << llendl;
}
}
}
void LLWorkerClass::setWorkerThread(LLWorkerThread* workerthread)
{
mMutex.lock();
if (mRequestHandle != LLWorkerThread::nullHandle())
{
llerrs << "LLWorkerClass attempt to change WorkerThread with active worker!" << llendl;
}
mWorkerThread = workerthread;
mMutex.unlock();
}
//----------------------------------------------------------------------------
//virtual
void LLWorkerClass::finishWork(S32 param, bool success)
{
}
//virtual
bool LLWorkerClass::deleteOK()
{
return true; // default always OK
}
//----------------------------------------------------------------------------
// Called from worker thread
void LLWorkerClass::setWorking(bool working)
{
mMutex.lock();
if (working)
{
llassert_always(!(mWorkFlags & WCF_WORKING));
setFlags(WCF_WORKING);
}
else
{
llassert_always((mWorkFlags & WCF_WORKING));
clearFlags(WCF_WORKING);
}
mMutex.unlock();
}
//----------------------------------------------------------------------------
bool LLWorkerClass::yield()
{
LLThread::yield();
mWorkerThread->checkPause();
bool res;
mMutex.lock();
res = (getFlags() & WCF_ABORT_REQUESTED) ? true : false;
mMutex.unlock();
return res;
}
//----------------------------------------------------------------------------
// calls startWork, adds doWork() to queue
void LLWorkerClass::addWork(S32 param, U32 priority)
{
mMutex.lock();
llassert_always(!(mWorkFlags & (WCF_WORKING|WCF_HAVE_WORK)));
if (mRequestHandle != LLWorkerThread::nullHandle())
{
llerrs << "LLWorkerClass attempt to add work with active worker!" << llendl;
}
#if _DEBUG
// llinfos << "addWork: " << mWorkerClassName << " Param: " << param << llendl;
#endif
startWork(param);
clearFlags(WCF_WORK_FINISHED|WCF_WORK_ABORTED);
setFlags(WCF_HAVE_WORK);
mRequestHandle = mWorkerThread->addWorkRequest(this, param, priority);
mMutex.unlock();
}
void LLWorkerClass::abortWork(bool autocomplete)
{
mMutex.lock();
#if _DEBUG
// LLWorkerThread::WorkRequest* workreq = mWorkerThread->getRequest(mRequestHandle);
// if (workreq)
// llinfos << "abortWork: " << mWorkerClassName << " Param: " << workreq->getParam() << llendl;
#endif
if (mRequestHandle != LLWorkerThread::nullHandle())
{
mWorkerThread->abortRequest(mRequestHandle, autocomplete);
mWorkerThread->setPriority(mRequestHandle, LLQueuedThread::PRIORITY_IMMEDIATE);
setFlags(WCF_ABORT_REQUESTED);
}
mMutex.unlock();
}
// if doWork is complete or aborted, call endWork() and return true
bool LLWorkerClass::checkWork(bool aborting)
{
LLMutexLock lock(&mMutex);
bool complete = false, abort = false;
if (mRequestHandle != LLWorkerThread::nullHandle())
{
LLWorkerThread::WorkRequest* workreq = (LLWorkerThread::WorkRequest*)mWorkerThread->getRequest(mRequestHandle);
if(!workreq)
{
if(mWorkerThread->isQuitting() || mWorkerThread->isStopped()) //the mWorkerThread is not running
{
mRequestHandle = LLWorkerThread::nullHandle();
clearFlags(WCF_HAVE_WORK);
}
else
{
llassert_always(workreq);
}
return true ;
}
LLQueuedThread::status_t status = workreq->getStatus();
if (status == LLWorkerThread::STATUS_ABORTED)
{
complete = true;
abort = true;
}
else if (status == LLWorkerThread::STATUS_COMPLETE)
{
complete = true;
}
else
{
llassert_always(!aborting || (workreq->getFlags() & LLQueuedThread::FLAG_ABORT));
}
if (complete)
{
llassert_always(!(getFlags(WCF_WORKING)));
endWork(workreq->getParam(), abort);
mWorkerThread->completeRequest(mRequestHandle);
mRequestHandle = LLWorkerThread::nullHandle();
clearFlags(WCF_HAVE_WORK);
}
}
else
{
complete = true;
}
return complete;
}
void LLWorkerClass::scheduleDelete()
{
bool do_delete = false;
mMutex.lock();
if (!(getFlags(WCF_DELETE_REQUESTED)))
{
setFlags(WCF_DELETE_REQUESTED);
do_delete = true;
}
mMutex.unlock();
if (do_delete)
{
mWorkerThread->deleteWorker(this);
}
}
void LLWorkerClass::setPriority(U32 priority)
{
mMutex.lock();
if (mRequestHandle != LLWorkerThread::nullHandle() && mRequestPriority != priority)
{
mRequestPriority = priority;
mWorkerThread->setPriority(mRequestHandle, priority);
}
mMutex.unlock();
}
//============================================================================
|