Esempio n. 1
1
int main(int argc, char **argv)
{
	SF_INFO sfi;
	SNDFILE *sf;

	sf_count_t nread;
	const size_t nframes = 512;
	float *buf;

	PaStream *stream;
	int err;

	/* Open the input file */
	if (argc < 2)
		DIE("Syntax: %s <filename>\n", argv[0]);
	memset(&sfi, 0, sizeof(sfi));
	if ((sf = sf_open(argv[1], SFM_READ, &sfi)) == NULL)
		DIE("Could not open \"%s\".\n", argv[1]);

	/* Allocate buffer */
	if ((buf = malloc(nframes * sfi.channels * sizeof(float))) == NULL)
		DIE("Could not malloc.");

	/* Initialise PortAudio and open stream for default output device */
	PA_ENSURE( Pa_Initialize() );
	/* Assume that the audio device can handle the input file's sample rate
	   and number of channels */
	PA_ENSURE( Pa_OpenDefaultStream(&stream, 0, sfi.channels, paFloat32, sfi.samplerate,
					paFramesPerBufferUnspecified, NULL, NULL) );
	PA_ENSURE( Pa_StartStream(stream) );

	/* Write file data to stream */
	while ((nread = sf_readf_float(sf, buf, nframes)) > 0)
		PA_ENSURE( Pa_WriteStream(stream, buf, nread) );

	/* Clean up */
	PA_ENSURE( Pa_StopStream(stream) );
	PA_ENSURE( Pa_CloseStream(stream) );
error:
	Pa_Terminate();
	sf_close(sf);
	free(buf);

	return err != paNoError;
}
Esempio n. 2
0
PaError PaUnixThread_NotifyParent( PaUnixThread* self )
{
    PaError result = paNoError;
    PA_UNLESS( self->parentWaiting, paInternalError );

    if( !self->locked )
    {
        PA_ENSURE( PaUnixMutex_Lock( &self->mtx ) );
        self->locked = 1;
    }
    self->parentWaiting = 0;
    pthread_cond_signal( &self->cond );
    PA_ENSURE( PaUnixMutex_Unlock( &self->mtx ) );
    self->locked = 0;

error:
    return result;
}
Esempio n. 3
0
PaError PaUnixThread_PrepareNotify( PaUnixThread* self )
{
    PaError result = paNoError;
    PA_UNLESS( self->parentWaiting, paInternalError );

    PA_ENSURE( PaUnixMutex_Lock( &self->mtx ) );
    self->locked = 1;

error:
    return result;
}
Esempio n. 4
0
static void *WatchdogFunc( void *userData )
{
    PaError result = paNoError, *pres = NULL;
    int err;
    PaAlsaThreading *th = (PaAlsaThreading *) userData;
    unsigned intervalMsec = 500;
    const PaTime maxSeconds = 3.;   /* Max seconds between callbacks */
    PaTime timeThen = PaUtil_GetTime(), timeNow, timeElapsed, cpuTimeThen, cpuTimeNow, cpuTimeElapsed;
    double cpuLoad, avgCpuLoad = 0.;
    int throttled = 0;

    assert( th );

    /* Execute OnWatchdogExit when exiting */
    pthread_cleanup_push( &OnWatchdogExit, th );

    /* Boost priority of callback thread */
    PA_ENSURE( result = BoostPriority( th ) );
    if( !result )
    {
        /* Boost failed, might as well exit */
        pthread_exit( NULL );
    }

    cpuTimeThen = th->callbackCpuTime;
    {
        int policy;
        struct sched_param spm = { 0 };
        pthread_getschedparam( pthread_self(), &policy, &spm );
        PA_DEBUG(( "%s: Watchdog priority is %d\n", __FUNCTION__, spm.sched_priority ));
    }

    while( 1 )
    {
        double lowpassCoeff = 0.9, lowpassCoeff1 = 0.99999 - lowpassCoeff;
        
        /* Test before and after in case whatever underlying sleep call isn't interrupted by pthread_cancel */
        pthread_testcancel();
        Pa_Sleep( intervalMsec );
        pthread_testcancel();

        if( PaUtil_GetTime() - th->callbackTime > maxSeconds )
        {
            PA_DEBUG(( "Watchdog: Terminating callback thread\n" ));
            /* Tell thread to terminate */
            err = pthread_kill( th->callbackThread, SIGKILL );
            pthread_exit( NULL );
        }

        PA_DEBUG(( "%s: PortAudio reports CPU load: %g\n", __FUNCTION__, PaUtil_GetCpuLoad( th->cpuLoadMeasurer ) ));

        /* Check if we should throttle, or unthrottle :P */
        cpuTimeNow = th->callbackCpuTime;
        cpuTimeElapsed = cpuTimeNow - cpuTimeThen;
        cpuTimeThen = cpuTimeNow;

        timeNow = PaUtil_GetTime();
        timeElapsed = timeNow - timeThen;
        timeThen = timeNow;
        cpuLoad = cpuTimeElapsed / timeElapsed;
        avgCpuLoad = avgCpuLoad * lowpassCoeff + cpuLoad * lowpassCoeff1;
        /*
        if( throttled )
            PA_DEBUG(( "Watchdog: CPU load: %g, %g\n", avgCpuLoad, cpuTimeElapsed ));
            */
        if( PaUtil_GetCpuLoad( th->cpuLoadMeasurer ) > .925 )
        {
            static int policy;
            static struct sched_param spm = { 0 };
            static const struct sched_param defaultSpm = { 0 };
            PA_DEBUG(( "%s: Throttling audio thread, priority %d\n", __FUNCTION__, spm.sched_priority ));

            pthread_getschedparam( th->callbackThread, &policy, &spm );
            if( !pthread_setschedparam( th->callbackThread, SCHED_OTHER, &defaultSpm ) )
            {
                throttled = 1;
            }
            else
                PA_DEBUG(( "Watchdog: Couldn't lower priority of audio thread: %s\n", strerror( errno ) ));

            /* Give other processes a go, before raising priority again */
            PA_DEBUG(( "%s: Watchdog sleeping for %lu msecs before unthrottling\n", __FUNCTION__, th->throttledSleepTime ));
            Pa_Sleep( th->throttledSleepTime );

            /* Reset callback priority */
            if( pthread_setschedparam( th->callbackThread, SCHED_FIFO, &spm ) != 0 )
            {
                PA_DEBUG(( "%s: Couldn't raise priority of audio thread: %s\n", __FUNCTION__, strerror( errno ) ));
            }

            if( PaUtil_GetCpuLoad( th->cpuLoadMeasurer ) >= .99 )
                intervalMsec = 50;
            else
                intervalMsec = 100;

            /*
            lowpassCoeff = .97;
            lowpassCoeff1 = .99999 - lowpassCoeff;
            */
        }
        else if( throttled && avgCpuLoad < .8 )
        {
            intervalMsec = 500;
            throttled = 0;

            /*
            lowpassCoeff = .9;
            lowpassCoeff1 = .99999 - lowpassCoeff;
            */
        }
    }

    pthread_cleanup_pop( 1 );   /* Execute cleanup on exit */

error:
    /* Shouldn't get here in the normal case */

    /* Pass on error code */
    pres = malloc( sizeof (PaError) );
    *pres = result;
    
    pthread_exit( pres );
}
Esempio n. 5
0
PaError PaUnixThread_New( PaUnixThread* self, void* (*threadFunc)( void* ), void* threadArg, PaTime waitForChild,
        int rtSched )
{
    PaError result = paNoError;
    pthread_attr_t attr;
    int started = 0;

    memset( self, 0, sizeof (PaUnixThread) );
    PaUnixMutex_Initialize( &self->mtx );
    PA_ASSERT_CALL( pthread_cond_init( &self->cond, NULL ), 0 );

    self->parentWaiting = 0 != waitForChild;

    /* Spawn thread */

/* Temporarily disabled since we should test during configuration for presence of required mman.h header */
#if 0
#if defined _POSIX_MEMLOCK && (_POSIX_MEMLOCK != -1)
    if( rtSched )
    {
        if( mlockall( MCL_CURRENT | MCL_FUTURE ) < 0 )
        {
            int savedErrno = errno;             /* In case errno gets overwritten */
            assert( savedErrno != EINVAL );     /* Most likely a programmer error */
            PA_UNLESS( (savedErrno == EPERM), paInternalError );
            PA_DEBUG(( "%s: Failed locking memory\n", __FUNCTION__ ));
        }
        else
            PA_DEBUG(( "%s: Successfully locked memory\n", __FUNCTION__ ));
    }
#endif
#endif

    PA_UNLESS( !pthread_attr_init( &attr ), paInternalError );
    /* Priority relative to other processes */
    PA_UNLESS( !pthread_attr_setscope( &attr, PTHREAD_SCOPE_SYSTEM ), paInternalError );   

    PA_UNLESS( !pthread_create( &self->thread, &attr, threadFunc, threadArg ), paInternalError );
    started = 1;

    if( rtSched )
    {
#if 0
        if( self->useWatchdog )
        {
            int err;
            struct sched_param wdSpm = { 0 };
            /* Launch watchdog, watchdog sets callback thread priority */
            int prio = PA_MIN( self->rtPrio + 4, sched_get_priority_max( SCHED_FIFO ) );
            wdSpm.sched_priority = prio;

            PA_UNLESS( !pthread_attr_init( &attr ), paInternalError );
            PA_UNLESS( !pthread_attr_setinheritsched( &attr, PTHREAD_EXPLICIT_SCHED ), paInternalError );
            PA_UNLESS( !pthread_attr_setscope( &attr, PTHREAD_SCOPE_SYSTEM ), paInternalError );
            PA_UNLESS( !pthread_attr_setschedpolicy( &attr, SCHED_FIFO ), paInternalError );
            PA_UNLESS( !pthread_attr_setschedparam( &attr, &wdSpm ), paInternalError );
            if( (err = pthread_create( &self->watchdogThread, &attr, &WatchdogFunc, self )) )
            {
                PA_UNLESS( err == EPERM, paInternalError );
                /* Permission error, go on without realtime privileges */
                PA_DEBUG(( "Failed bumping priority\n" ));
            }
            else
            {
                int policy;
                self->watchdogRunning = 1;
                PA_ENSURE_SYSTEM( pthread_getschedparam( self->watchdogThread, &policy, &wdSpm ), 0 );
                /* Check if priority is right, policy could potentially differ from SCHED_FIFO (but that's alright) */
                if( wdSpm.sched_priority != prio )
                {
                    PA_DEBUG(( "Watchdog priority not set correctly (%d)\n", wdSpm.sched_priority ));
                    PA_ENSURE( paInternalError );
                }
            }
        }
        else
#endif
            PA_ENSURE( BoostPriority( self ) );

        {
            int policy;
            struct sched_param spm;
            pthread_getschedparam(self->thread, &policy, &spm);
        }
    }
    
    if( self->parentWaiting )
    {
        PaTime till;
        struct timespec ts;
        int res = 0;
        PaTime now;

        PA_ENSURE( PaUnixMutex_Lock( &self->mtx ) );

        /* Wait for stream to be started */
        now = PaUtil_GetTime();
        till = now + waitForChild;

        while( self->parentWaiting && !res )
        {
            if( waitForChild > 0 )
            {
                ts.tv_sec = (time_t) floor( till );
                ts.tv_nsec = (long) ((till - floor( till )) * 1e9);
                res = pthread_cond_timedwait( &self->cond, &self->mtx.mtx, &ts );
            }
            else
            {
                res = pthread_cond_wait( &self->cond, &self->mtx.mtx );
            }
        }

        PA_ENSURE( PaUnixMutex_Unlock( &self->mtx ) );

        PA_UNLESS( !res || ETIMEDOUT == res, paInternalError );
        PA_DEBUG(( "%s: Waited for %g seconds for stream to start\n", __FUNCTION__, PaUtil_GetTime() - now ));
        if( ETIMEDOUT == res )
        {
            PA_ENSURE( paTimedOut );
        }
    }

end:
    return result;
error:
    if( started )
    {
        PaUnixThread_Terminate( self, 0, NULL );
    }

    goto end;
}