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//=============================================================================
//
// File : kvi_thread.cpp
// Creation date : Tue Jul 6 1999 16:04:45 CEST by Szymon Stefanek
//
// This file is part of the KVirc irc client distribution
// Copyright (C) 1999-2005 Szymon Stefanek (pragma at kvirc dot net)
//
// This program is FREE software. You can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your opinion) any later version.
//
// This program 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 General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, write to the Free Software Foundation,
// Inc. ,51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
//=============================================================================
#define __KVILIB__
#ifndef _GNU_SOURCE
#define _GNU_SOURCE
#endif
#include "kvi_thread.h"
#ifdef COMPILE_ON_WINDOWS
#include <io.h> // for _pipe()
#else
#include <unistd.h> //for pipe() and other tricks
#include <signal.h> // on Windows it is useless
#include <fcntl.h>
#endif
#include <errno.h>
#include "kvi_string.h"
#include "kvi_settings.h"
#include "kvi_error.h"
#include <tqapplication.h>
static void kvi_threadIgnoreSigalarm()
{
// On Windows this stuff is useless anyway
#ifdef COMPILE_IGNORE_SIGALARM
#ifndef COMPILE_ON_WINDOWS
// Funky hack for some Solaris machines (maybe others ?)
// For an obscure (at least to me) reason
// when using threads ,some part of the system
// starts kidding us by sending a SIGALRM in apparently
// "random" circumstances. (Xlib ?) (XServer ?)
// The default action for SIGALRM is to exit the application.
// Could not guess more about this stuff...
// Here goes a "blind" hack for that.
// Update: now we have an explaination too
//
// From: "Andre Stechert" (astechert at email dot com)
// To: pragma at kvirc dot net
// Subject: sigalarm on solaris ...
// Date: 26/7/2005 09:36
// Hi,
// I noticed in your readme that you were having problems with sigalarm
// in your solaris port and you weren't sure why. I quickly scanned your
// source code and noticed that you use usleep and threads. That's the problem,
// if you haven't already figured it out. On Solaris, usleep is implemented with
// SIGALARM. So is threading. So if you the active thread changes while
// a usleep is in progress, bang, the process is dead.
//
// There is no real feedback on this at the moment: if somebody
// experiences the problems please drop me a mail at pragma at kvirc dot net
// and we'll try to look for a better solution.
// If the explaination is correct then KVIrc could even lock up on those machines
// (never returning from an usleep() call ?)...
struct sigaction ignr_act;
ignr_act.sa_handler = SIG_IGN;
sigemptyset(&ignr_act.sa_mask);
#ifdef SA_NOMASK
ignr_act.sa_flags = SA_NOMASK;
#else
ignr_act.sa_flags = 0;
#endif
#ifdef SA_RESTART
ignr_act.sa_flags |= SA_RESTART;
#endif
if(sigaction(SIGALRM,&ignr_act,0) == -1)debug("Failed to set SIG_IGN for SIGALRM.");
#endif
#endif
}
#ifndef COMPILE_ON_WINDOWS
static void kvi_threadSigpipeHandler(int)
{
debug("Thread ????: Caught SIGPIPE: ignoring.");
}
#endif
static void kvi_threadCatchSigpipe()
{
// On windows this stuff is useless
#ifndef COMPILE_ON_WINDOWS
struct sigaction act;
act.sa_handler=&kvi_threadSigpipeHandler;
sigemptyset(&(act.sa_mask));
sigaddset(&(act.sa_mask), SIGPIPE);
// CC: take care of SunOS which automatically restarts interrupted system
// calls (and thus does not have SA_RESTART)
#ifdef SA_NOMASK
act.sa_flags = SA_NOMASK;
#else
act.sa_flags = 0;
#endif
#ifdef SA_RESTART
act.sa_flags |= SA_RESTART;
#endif
if(sigaction(SIGPIPE,&act,0L) == -1)debug("Failed to set the handler for SIGPIPE.");
#endif
}
static void kvi_threadInitialize()
{
#ifndef COMPILE_ON_WINDOWS
kvi_threadIgnoreSigalarm();
kvi_threadCatchSigpipe();
#endif
}
#define KVI_THREAD_PIPE_SIDE_MASTER 0
#define KVI_THREAD_PIPE_SIDE_SLAVE 1
// the maximum length of the slave->master queue
// over this length , the slave is forced to usleep()
#define KVI_THREAD_MAX_EVENT_QUEUE_LENGTH 50
static KviThreadManager * g_pThreadManager = 0;
void KviThreadManager::globalInit()
{
kvi_threadInitialize(); // we want this to apply to the main thread too
g_pThreadManager = new KviThreadManager();
}
void KviThreadManager::globalDestroy()
{
delete g_pThreadManager;
g_pThreadManager = 0;
}
KviThreadManager::KviThreadManager()
: TQObject()
{
if(g_pThreadManager)debug("Hey...what are ya doing ?");
m_pMutex = new KviMutex();
m_pThreadList = new KviPointerList<KviThread>;
m_pThreadList->setAutoDelete(false);
m_iWaitingThreads = 0;
#ifndef COMPILE_ON_WINDOWS
m_iTriggerCount = 0;
m_pEventQueue = new KviPointerList<KviThreadPendingEvent>;
m_pEventQueue->setAutoDelete(true);
if(pipe(m_fd) != 0)
{
debug("Ops...thread manager pipe creation failed (%s)",KviTQString::toUtf8(KviError::getDescription(KviError::translateSystemError(errno))).data());
}
if(fcntl(m_fd[KVI_THREAD_PIPE_SIDE_SLAVE],F_SETFL,O_NONBLOCK) == -1)
{
debug("Ops...thread manager slave pipe initialisation failed (%s)",KviTQString::toUtf8(KviError::getDescription(KviError::translateSystemError(errno))).data());
}
if(fcntl(m_fd[KVI_THREAD_PIPE_SIDE_MASTER],F_SETFL,O_NONBLOCK) == -1)
{
debug("Ops...thread manager master pipe initialisation failed (%s)",KviTQString::toUtf8(KviError::getDescription(KviError::translateSystemError(errno))).data());
}
m_pSn = new TQSocketNotifier(m_fd[KVI_THREAD_PIPE_SIDE_MASTER],TQSocketNotifier::Read);
connect(m_pSn,TQT_SIGNAL(activated(int)),this,TQT_SLOT(eventsPending(int)));
m_pSn->setEnabled(true);
#endif
}
KviThreadManager::~KviThreadManager()
{
m_pMutex->lock();
// Terminate all the slaves
while(KviThread *t = m_pThreadList->first())
{
m_pMutex->unlock();
delete t;
m_pMutex->lock();
}
// there are no more child threads
// thus no more slave events are sent.
// Disable the socket notifier, we no longer need it
#ifndef COMPILE_ON_WINDOWS
m_pSn->setEnabled(false);
delete m_pSn;
m_pSn = 0;
#endif
// we're no longer in this world
g_pThreadManager = 0;
#ifndef COMPILE_ON_WINDOWS
// close the pipes
close(m_fd[KVI_THREAD_PIPE_SIDE_SLAVE]);
close(m_fd[KVI_THREAD_PIPE_SIDE_MASTER]);
// Kill the pending events
while(KviThreadPendingEvent *ev = m_pEventQueue->first())
{
delete ev->e;
m_pEventQueue->removeFirst();
}
delete m_pEventQueue;
m_pEventQueue = 0;
#endif
m_pMutex->unlock();
// finish the cleanup
delete m_pMutex;
m_pMutex = 0;
delete m_pThreadList;
m_pThreadList = 0;
// byez :)
}
void KviThreadManager::killPendingEvents(TQObject * receiver)
{
#ifndef COMPILE_ON_WINDOWS
if(!g_pThreadManager)return;
g_pThreadManager->killPendingEventsByReceiver(receiver);
#endif
}
void KviThreadManager::killPendingEventsByReceiver(TQObject * receiver)
{
#ifndef COMPILE_ON_WINDOWS
KviPointerList<KviThreadPendingEvent> l;
l.setAutoDelete(false);
m_pMutex->lock();
for(KviThreadPendingEvent * ev = m_pEventQueue->first();ev;ev = m_pEventQueue->next())
{
if(ev->o == receiver)l.append(ev);
}
for(KviThreadPendingEvent * ev = l.first();ev;ev = l.next())
{
delete ev->e;
m_pEventQueue->removeRef(ev);
}
m_pMutex->unlock();
#endif
}
void KviThreadManager::registerSlaveThread(KviThread *t)
{
m_pMutex->lock();
m_pThreadList->append(t);
m_pMutex->unlock();
}
void KviThreadManager::unregisterSlaveThread(KviThread *t)
{
m_pMutex->lock();
m_pThreadList->removeRef(t);
m_pMutex->unlock();
}
void KviThreadManager::postSlaveEvent(TQObject *o,TQEvent *e)
{
#ifdef COMPILE_ON_WINDOWS
TQApplication::postEvent(o,e); // we believe this to be thread-safe
#else
KviThreadPendingEvent * ev = new KviThreadPendingEvent;
ev->o = o;
ev->e = e;
m_pMutex->lock();
// if the queue gets too long , make this (slave) thread sleep
// there is a special case where we can't stop the slaves posting events
// it's when a thread-master-side is waiting for it's thread-slave-side
// it the thread-master-side runs in the application main thread then
// the main thread is sleeping and can't process events.
// Since we can't be really sure that the thread-master-side will be running
// on the main application thread we also can't artificially process the events.
// So the solution is to skip this algorithm when at least one
// thread is in waiting state.
while((m_pEventQueue->count() > KVI_THREAD_MAX_EVENT_QUEUE_LENGTH) && (m_iWaitingThreads < 1))
{
// wait for the master to process the queue
m_pMutex->unlock();
// WARNING : This will fail if for some reason
// the master thread gets here! It will wait indefinitely for itself
// if(pthread_self() != m_hMasterThread) ... ????
#ifdef COMPILE_ON_WINDOWS
::Sleep(1); // 1ms
#else
// FIXME : use nanosleep() ?
::usleep(1000); // 1 ms
#endif
m_pMutex->lock();
}
m_pEventQueue->append(ev);
// Write bulk to the pipe... but only if there is no other wakeup pending
if(m_iTriggerCount < 1)
{
// I don't know if writing to a pipe is reentrant
// thus, in doubt, the write is interlocked (it's non blocking anyway)
int written = write(m_fd[KVI_THREAD_PIPE_SIDE_SLAVE],"?",1);
if(written < 1)
{
// ops.. failed to write down the event..
// this is quite irritating now...
debug("Ops.. failed to write down the trigger");
// FIXME: maybe a single shot timer ?
} else {
m_iTriggerCount++;
}
} // else no need to trigger : there is a wakeup pending in there
m_pMutex->unlock();
#endif
}
void KviThreadManager::eventsPending(int fd)
{
#ifndef COMPILE_ON_WINDOWS
char buf[10];
// do we need to check for errors here ?
int readed = read(fd,buf,10);
m_pMutex->lock();
// welcome to the critical section :)
// grab the first event in the queue
while(KviThreadPendingEvent *ev = m_pEventQueue->first())
{
// allow the other threads to post events:
// unlock the event queue
m_pMutex->unlock();
// let the app process the event
// DANGER !
TQApplication::postEvent(ev->o,ev->e);
// jump out of the loop if we have been destroyed
if(!g_pThreadManager)return;
// ufff... we're still alive :)))
// regrab the event queue
m_pMutex->lock();
// remove the event we have just processed
m_pEventQueue->removeRef(ev);
// here we're looping locked and havn't decremended the trigger count
}
// decrement the trigger count on the line: still atomic
if(readed >= 0)
{
if(readed < m_iTriggerCount)
{
m_iTriggerCount -= readed;
} else {
m_iTriggerCount = 0;
}
}
// ok , job done.. can relax now
m_pMutex->unlock();
#endif
}
void KviThreadManager::threadEnteredWaitState()
{
m_pMutex->lock();
m_iWaitingThreads++;
m_pMutex->unlock();
}
void KviThreadManager::threadLeftWaitState()
{
m_pMutex->lock();
m_iWaitingThreads--;
if(m_iWaitingThreads < 0)
{
debug("Ops.. got a negative number of waiting threads ?");
m_iWaitingThreads = 0;
}
m_pMutex->unlock();
}
#ifndef COMPILE_ON_WINDOWS
bool KviMutex::locked()
{
if(!kvi_threadMutexTryLock(&m_mutex))return true;
kvi_threadMutexUnlock(&m_mutex);
return false;
}
#endif
#ifdef COMPILE_ON_WINDOWS
DWORD WINAPI internal_start_thread(LPVOID arg)
{
// Slave thread...
((KviThread *)arg)->internalThreadRun_doNotTouchThis();
return 0;
}
#else
static void * internal_start_thread(void * arg)
{
// Slave thread...
((KviThread *)arg)->internalThreadRun_doNotTouchThis();
return 0;
}
#endif
KviThread::KviThread()
{
g_pThreadManager->registerSlaveThread(this);
m_pRunningMutex = new KviMutex();
setRunning(false);
setStartingUp(false);
}
KviThread::~KviThread()
{
// debug(">> KviThread::~KviThread() : (this = %d)",this);
wait();
delete m_pRunningMutex;
g_pThreadManager->unregisterSlaveThread(this);
// debug("<< KviThread::~KviThread() : (this = %d)",this);
}
void KviThread::setRunning(bool bRunning)
{
m_pRunningMutex->lock();
m_bRunning = bRunning;
m_pRunningMutex->unlock();
}
void KviThread::setStartingUp(bool bStartingUp)
{
m_pRunningMutex->lock();
m_bStartingUp = bStartingUp;
m_pRunningMutex->unlock();
}
bool KviThread::isRunning()
{
bool bRunning = true;
m_pRunningMutex->lock();
bRunning = m_bRunning;
m_pRunningMutex->unlock();
return bRunning;
}
bool KviThread::isStartingUp()
{
bool bIsStartingUp = true;
m_pRunningMutex->lock();
bIsStartingUp = m_bStartingUp;
m_pRunningMutex->unlock();
return bIsStartingUp;
}
bool KviThread::start()
{
// We're on the master side thread here!
if(isStartingUp() || isRunning())return false;
setStartingUp(true);
return kvi_threadCreate(&m_thread,internal_start_thread,this);
}
void KviThread::wait()
{
// We're on the master side here...and we're waiting the slave to exit
// debug(">> KviThread::wait() (this=%d)",this);
while(isStartingUp())usleep(500); // sleep 500 microseconds
// debug("!! KviThread::wait() (this=%d)",this);
g_pThreadManager->threadEnteredWaitState();
while(isRunning())
{
usleep(500); // sleep 500 microseconds
}
g_pThreadManager->threadLeftWaitState();
// debug("<< KviThread::wait() (this=%d)",this);
}
void KviThread::exit()
{
// We're on the slave side thread here! (m_bRunning is true , m_bStartingUp is false)
setRunning(false);
kvi_threadExit();
}
void KviThread::internalThreadRun_doNotTouchThis()
{
// we're on the slave thread here!
// debug(">> KviThread::internalRun (this=%d)",this);
setRunning(true);
setStartingUp(false);
kvi_threadInitialize();
run();
setRunning(false);
// debug("<< KviThread::internalRun (this=%d",this);
}
void KviThread::usleep(unsigned long usec)
{
#ifdef COMPILE_ON_WINDOWS
int s = usec / 1000;
if(s < 1)s = 1;
::Sleep(s); // Sleep one millisecond...this is the best that we can do
#else
// FIXME : use nanosleep() ?
::usleep(usec);
#endif
}
void KviThread::msleep(unsigned long msec)
{
#ifdef COMPILE_ON_WINDOWS
::Sleep(msec);
#else
// FIXME : use nanosleep() ?
::usleep(msec * 1000);
#endif
}
void KviThread::sleep(unsigned long sec)
{
#ifdef COMPILE_ON_WINDOWS
::Sleep(sec * 1000);
#else
::sleep(sec);
#endif
}
void KviThread::postEvent(TQObject * o,TQEvent *e)
{
// slave side
g_pThreadManager->postSlaveEvent(o,e);
}
KviSensitiveThread::KviSensitiveThread()
: KviThread()
{
m_pLocalEventQueueMutex = new KviMutex();
m_pLocalEventQueue = new KviPointerList<KviThreadEvent>;
m_pLocalEventQueue->setAutoDelete(false);
}
KviSensitiveThread::~KviSensitiveThread()
{
// debug("Entering KviSensitiveThread::~KviSensitiveThread (this=%d)",this);
terminate();
// debug("KviSensitiveThread::~KviSensitiveThread : terminate called (This=%d)",this);
m_pLocalEventQueueMutex->lock();
m_pLocalEventQueue->setAutoDelete(true);
delete m_pLocalEventQueue;
m_pLocalEventQueue = 0;
m_pLocalEventQueueMutex->unlock();
delete m_pLocalEventQueueMutex;
m_pLocalEventQueueMutex = 0;
// debug("Exiting KviSensitiveThread::~KviSensitiveThread (this=%d)",this);
}
void KviSensitiveThread::enqueueEvent(KviThreadEvent *e)
{
// debug(">>> KviSensitiveThread::enqueueEvent() (this=%d)",this);
m_pLocalEventQueueMutex->lock();
if(!m_pLocalEventQueue)
{
// ops...already terminated (???)...eat the event and return
delete e;
m_pLocalEventQueueMutex->unlock();
return;
}
m_pLocalEventQueue->append(e);
m_pLocalEventQueueMutex->unlock();
// debug("<<< KviSensitiveThread::enqueueEvent() (this=%d)",this);
}
KviThreadEvent * KviSensitiveThread::dequeueEvent()
{
// debug(">>> KviSensitiveThread::dequeueEvent() (this=%d)",this);
KviThreadEvent * ret;
m_pLocalEventQueueMutex->lock();
ret = m_pLocalEventQueue->first();
if(ret)m_pLocalEventQueue->removeFirst();
m_pLocalEventQueueMutex->unlock();
// debug("<<< KviSensitiveThread::dequeueEvent() (this=%d)",this);
return ret;
}
void KviSensitiveThread::terminate()
{
// debug("Entering KviSensitiveThread::terminate (this=%d)",this);
enqueueEvent(new KviThreadEvent(KVI_THREAD_EVENT_TERMINATE));
// debug("KviSensitiveThread::terminate() : event enqueued waiting (this=%d)",this);
wait();
// debug("Exiting KviSensitiveThread::terminate (this=%d)",this);
}
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