/** * @file llthread.cpp * * Copyright (c) 2004-2007, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlife.com/developers/opensource/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at http://secondlife.com/developers/opensource/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. */ #include "linden_common.h" #include "llapr.h" #include "llthread.h" #include "lltimer.h" #if LL_LINUX #include #endif //---------------------------------------------------------------------------- // Usage: // void run_func(LLThread* thread) // { // } // LLThread* thread = new LLThread(); // thread->run(run_func); // ... // thread->setQuitting(); // while(!timeout) // { // if (thread->isStopped()) // { // delete thread; // break; // } // } // //---------------------------------------------------------------------------- // // Handed to the APR thread creation function // void *APR_THREAD_FUNC LLThread::staticRun(apr_thread_t *apr_threadp, void *datap) { LLThread *threadp = (LLThread *)datap; // Set thread state to running threadp->mStatus = RUNNING; // Run the user supplied function threadp->run(); llinfos << "LLThread::staticRun() Exiting: " << threadp->mName << llendl; // We're done with the run function, this thread is done executing now. threadp->mStatus = STOPPED; return NULL; } LLThread::LLThread(const std::string& name, apr_pool_t *poolp) : mPaused(FALSE), mName(name), mAPRThreadp(NULL), mStatus(STOPPED) { // Thread creation probably CAN be paranoid about APR being initialized, if necessary if (poolp) { mIsLocalPool = FALSE; mAPRPoolp = poolp; } else { mIsLocalPool = TRUE; apr_pool_create(&mAPRPoolp, NULL); // Create a subpool for this thread } mRunCondition = new LLCondition(mAPRPoolp); } LLThread::~LLThread() { shutdown(); } void LLThread::shutdown() { // Warning! If you somehow call the thread destructor from itself, // the thread will die in an unclean fashion! if (mAPRThreadp) { if (!isStopped()) { // The thread isn't already stopped // First, set the flag that indicates that we're ready to die setQuitting(); llinfos << "LLThread::~LLThread() Killing thread " << mName << " Status: " << mStatus << llendl; // Now wait a bit for the thread to exit // It's unclear whether I should even bother doing this - this destructor // should netver get called unless we're already stopped, really... S32 counter = 0; const S32 MAX_WAIT = 600; while (counter < MAX_WAIT) { if (isStopped()) { break; } // Sleep for a tenth of a second ms_sleep(100); yield(); counter++; } } if (!isStopped()) { // This thread just wouldn't stop, even though we gave it time llwarns << "LLThread::~LLThread() exiting thread before clean exit!" << llendl; return; } mAPRThreadp = NULL; } delete mRunCondition; if (mIsLocalPool) { apr_pool_destroy(mAPRPoolp); } } void LLThread::start() { apr_thread_create(&mAPRThreadp, NULL, staticRun, (void *)this, mAPRPoolp); // We won't bother joining apr_thread_detach(mAPRThreadp); } //============================================================================ // Called from MAIN THREAD. // Request that the thread pause/resume. // The thread will pause when (and if) it calls checkPause() void LLThread::pause() { if (!mPaused) { // this will cause the thread to stop execution as soon as checkPause() is called mPaused = 1; // Does not need to be atomic since this is only set/unset from the main thread } } void LLThread::unpause() { if (mPaused) { mPaused = 0; } wake(); // wake up the thread if necessary } // virtual predicate function -- returns true if the thread should wake up, false if it should sleep. bool LLThread::runCondition(void) { // by default, always run. Handling of pause/unpause is done regardless of this function's result. return true; } //============================================================================ // Called from run() (CHILD THREAD). // Stop thread execution if requested until unpaused. void LLThread::checkPause() { mRunCondition->lock(); // This is in a while loop because the pthread API allows for spurious wakeups. while(shouldSleep()) { mRunCondition->wait(); // unlocks mRunCondition // mRunCondition is locked when the thread wakes up } mRunCondition->unlock(); } //============================================================================ void LLThread::setQuitting() { mRunCondition->lock(); if (mStatus == RUNNING) { mStatus = QUITTING; } mRunCondition->unlock(); wake(); } // static void LLThread::yield() { #if LL_LINUX sched_yield(); // annoyingly, apr_thread_yield is a noop on linux... #else apr_thread_yield(); #endif } void LLThread::wake() { mRunCondition->lock(); if(!shouldSleep()) { mRunCondition->signal(); } mRunCondition->unlock(); } void LLThread::wakeLocked() { if(!shouldSleep()) { mRunCondition->signal(); } } //============================================================================ LLMutex::LLMutex(apr_pool_t *poolp) : mAPRMutexp(NULL) { if (poolp) { mIsLocalPool = FALSE; mAPRPoolp = poolp; } else { mIsLocalPool = TRUE; apr_pool_create(&mAPRPoolp, NULL); // Create a subpool for this thread } apr_thread_mutex_create(&mAPRMutexp, APR_THREAD_MUTEX_DEFAULT, mAPRPoolp); } LLMutex::~LLMutex() { #if _DEBUG llassert(!isLocked()); // better not be locked! #endif apr_thread_mutex_destroy(mAPRMutexp); mAPRMutexp = NULL; if (mIsLocalPool) { apr_pool_destroy(mAPRPoolp); } } void LLMutex::lock() { apr_thread_mutex_lock(mAPRMutexp); } void LLMutex::unlock() { apr_thread_mutex_unlock(mAPRMutexp); } bool LLMutex::isLocked() { apr_status_t status = apr_thread_mutex_trylock(mAPRMutexp); if (APR_STATUS_IS_EBUSY(status)) { return true; } else { apr_thread_mutex_unlock(mAPRMutexp); return false; } } //============================================================================ LLCondition::LLCondition(apr_pool_t *poolp) : LLMutex(poolp) { // base class (LLMutex) has already ensured that mAPRPoolp is set up. apr_thread_cond_create(&mAPRCondp, mAPRPoolp); } LLCondition::~LLCondition() { apr_thread_cond_destroy(mAPRCondp); mAPRCondp = NULL; } void LLCondition::wait() { apr_thread_cond_wait(mAPRCondp, mAPRMutexp); } void LLCondition::signal() { apr_thread_cond_signal(mAPRCondp); } void LLCondition::broadcast() { apr_thread_cond_broadcast(mAPRCondp); } //============================================================================ //---------------------------------------------------------------------------- //static LLMutex* LLThreadSafeRefCount::sMutex = 0; //static void LLThreadSafeRefCount::initClass() { if (!sMutex) { sMutex = new LLMutex(0); } } //static void LLThreadSafeRefCount::cleanupClass() { delete sMutex; sMutex = NULL; } //---------------------------------------------------------------------------- LLThreadSafeRefCount::LLThreadSafeRefCount() : mRef(0) { } LLThreadSafeRefCount::~LLThreadSafeRefCount() { if (mRef != 0) { llerrs << "deleting non-zero reference" << llendl; } } //============================================================================ LLResponder::~LLResponder() { } //============================================================================