regression for commit 510

This commit is contained in:
rafael@riseup.net 2013-05-14 15:12:25 +00:00
parent 7c796baa9b
commit 8227296d5c
4 changed files with 100 additions and 177 deletions

View File

@ -252,7 +252,7 @@ Connector :: open ( void ) throw ( Exception )
/*------------------------------------------------------------------------------
* Transfer some data from the source to the sink
*----------------------------------------------------------------------------*/
unsigned long
unsigned int
Connector :: transfer ( unsigned long bytes,
unsigned int bufSize,
unsigned int sec,

View File

@ -228,7 +228,7 @@ class Connector : public virtual Referable, public virtual Reporter
* @return the number of bytes read from the Source.
* @exception Exception
*/
virtual unsigned long
virtual unsigned int
transfer ( unsigned long bytes,
unsigned int bufSize,
unsigned int sec,

View File

@ -68,10 +68,9 @@ void
MultiThreadedConnector :: init ( bool reconnect ) throw ( Exception )
{
this->reconnect = reconnect;
pthread_mutex_init( &mutex_start, 0);
pthread_cond_init( &cond_start, 0);
pthread_mutex_init( &mutex_done, 0);
pthread_cond_init( &cond_done, 0);
pthread_mutex_init( &mutexProduce, 0);
pthread_cond_init( &condProduce, 0);
threads = 0;
}
@ -87,10 +86,8 @@ MultiThreadedConnector :: strip ( void ) throw ( Exception )
threads = 0;
}
pthread_cond_destroy( &cond_start);
pthread_mutex_destroy( &mutex_start);
pthread_cond_destroy( &cond_done);
pthread_mutex_destroy( &mutex_done);
pthread_cond_destroy( &condProduce);
pthread_mutex_destroy( &mutexProduce);
}
@ -102,11 +99,9 @@ MultiThreadedConnector :: MultiThreadedConnector (
throw ( Exception )
: Connector( connector)
{
reconnect = connector.reconnect;
mutex_start = connector.mutex_start;
cond_start = connector.cond_start;
mutex_done = connector.mutex_done;
cond_done = connector.cond_done;
reconnect = connector.reconnect;
mutexProduce = connector.mutexProduce;
condProduce = connector.condProduce;
if ( threads ) {
delete[] threads;
@ -117,6 +112,7 @@ MultiThreadedConnector :: MultiThreadedConnector (
}
}
/*------------------------------------------------------------------------------
* Assignment operator
*----------------------------------------------------------------------------*/
@ -127,11 +123,9 @@ MultiThreadedConnector :: operator= ( const MultiThreadedConnector & connector )
if ( this != &connector ) {
Connector::operator=( connector);
reconnect = connector.reconnect;
mutex_start = connector.mutex_start;
cond_start = connector.cond_start;
mutex_done = connector.mutex_done;
cond_done = connector.cond_done;
reconnect = connector.reconnect;
mutexProduce = connector.mutexProduce;
condProduce = connector.condProduce;
if ( threads ) {
delete[] threads;
@ -145,6 +139,7 @@ MultiThreadedConnector :: operator= ( const MultiThreadedConnector & connector )
return *this;
}
/*------------------------------------------------------------------------------
* Open the source and all the sinks if needed
* Create the sink threads
@ -178,7 +173,7 @@ MultiThreadedConnector :: open ( void ) throw ( Exception )
threadData->connector = this;
threadData->ixSink = i;
threadData->accepting = true;
threadData->isDone = 1; // 1==STOP, activate thread in transfer()
threadData->isDone = true;
if ( pthread_create( &(threadData->thread),
&threadAttr,
ThreadData::threadFunction,
@ -192,10 +187,10 @@ MultiThreadedConnector :: open ( void ) throw ( Exception )
unsigned int j;
// signal to stop for all running threads
pthread_mutex_lock( &mutex_start);
pthread_mutex_lock( &mutexProduce);
running = false;
pthread_cond_broadcast( &cond_start);
pthread_mutex_unlock( &mutex_start);
pthread_cond_broadcast( &condProduce);
pthread_mutex_unlock( &mutexProduce);
for ( j = 0; j < i; ++j ) {
pthread_join( threads[j].thread, 0);
@ -214,14 +209,14 @@ MultiThreadedConnector :: open ( void ) throw ( Exception )
/*------------------------------------------------------------------------------
* Transfer some data from the source to the sink
*----------------------------------------------------------------------------*/
unsigned long
unsigned int
MultiThreadedConnector :: transfer ( unsigned long bytes,
unsigned int bufSize,
unsigned int sec,
unsigned int usec )
throw ( Exception )
{
unsigned long byteCounter; // when we reach byteCounter thread will end
unsigned int b;
if ( numSinks == 0 ) {
return 0;
@ -234,72 +229,47 @@ MultiThreadedConnector :: transfer ( unsigned long bytes,
dataBuffer = new unsigned char[bufSize];
dataSize = 0;
/* if bytes==0 transfer until end of program,
* if bytes>0 transfer upto number of bytes
*/
reportEvent( 6, "MultiThreadedConnector::transfer count:", bytes);
byteCounter = 0; // init, no data bytes sent yet
while (running && (bytes == 0 || byteCounter < bytes)) {
reportEvent( 6, "MultiThreadedConnector :: tranfer, bytes", bytes);
for ( b = 0; !bytes || b < bytes; ) {
if ( source->canRead( sec, usec) ) {
unsigned int i;
pthread_mutex_lock( &mutexProduce);
dataSize = source->read( dataBuffer, bufSize);
b += dataSize;
if (source->canRead(sec, usec)) {
unsigned int i;
dataSize = source->read(dataBuffer, bufSize);
byteCounter += dataSize;
// check for EOF
if (dataSize == 0) {
reportEvent(3, "MultiThreadedConnector :: transfer, EOF");
if ( dataSize == 0 ) {
reportEvent( 3, "MultiThreadedConnector :: transfer, EOF");
pthread_mutex_unlock( &mutexProduce);
break;
}
pthread_mutex_lock(&mutex_start);
for (i = 0; i < numSinks; ++i) {
if (threads[i].accepting)
threads[i].isDone = 0; // consumers => RUN
for ( i = 0; i < numSinks; ++i ) {
threads[i].isDone = false;
}
pthread_cond_broadcast(&cond_start); // kick the waiting consumers to look again
pthread_mutex_unlock(&mutex_start); // UNLOCK, release the consumers' cond variable
// wait for all sink threads to get done with this data
// we do not spin here, we just wait for an event from the consumers
pthread_mutex_lock(&mutex_done);
while ( 1 ) {
int rc = 0;
// wait for condition : releases mutex so other thread can change condition
rc = pthread_cond_wait(&cond_done, &mutex_done);
// mutex is locked again
if (rc != 0) {
reportEvent(1, "MultiThreadedConnector pthread_cond_wait() fail");
break;
}
int acceptor_count=0;
int stopped_count=0;
for (i = 0; i < numSinks; ++i) {
if (threads[i].accepting) {
acceptor_count++; // number of accepting threads
if (threads[i].isDone == 1)
stopped_count++; // number of accepting threads which have STOP
}
}
// break when all accepting threads are done
if (acceptor_count == stopped_count) {
// tell sink threads that there is some data available
pthread_cond_broadcast( &condProduce);
// wait for all sink threads to get done with this data
while ( true ) {
for ( i = 0; i < numSinks && threads[i].isDone; ++i );
if ( i == numSinks ) {
break;
}
// at least one thread has not set the STOP flag yet
pthread_cond_wait( &condProduce, &mutexProduce);
}
pthread_mutex_unlock(&mutex_done);
// at this point all consumers are done with the block
pthread_mutex_unlock( &mutexProduce);
} else {
reportEvent(3,"MultiThreadedConnector :: transfer, can't read");
reportEvent( 3, "MultiThreadedConnector :: transfer, can't read");
break;
}
}
}
delete[] dataBuffer;
return byteCounter;
return b;
}
@ -308,115 +278,71 @@ MultiThreadedConnector :: transfer ( unsigned long bytes,
* Read the presented data
*----------------------------------------------------------------------------*/
void
MultiThreadedConnector::sinkThread(int ixSink)
MultiThreadedConnector :: sinkThread( int ixSink )
{
ThreadData * threadData = &threads[ixSink];
Sink * sink = sinks[ixSink].get( );
ThreadData * threadData = &threads[ixSink];
Sink * sink = sinks[ixSink].get();
while ( running )
{
while ( running ) {
// wait for some data to become available
// producer sets isDone==0 when consumer can continue
// producer sets isDone==2 or running==0 to request termination
pthread_mutex_lock( &mutex_start ); // LOCK
int rc=0;
while ( (rc==0) && running && (threadData->isDone==1) )
{
// wait for condition, releases lock
rc = pthread_cond_wait( &cond_start, &mutex_start );
// we hold the lock again
pthread_mutex_lock( &mutexProduce);
while ( running && threadData->isDone ) {
pthread_cond_wait( &condProduce, &mutexProduce);
}
pthread_mutex_unlock( &mutex_start ); // UNLOCK
// something wrong or signal to quit detected
// break out of this loop, will end the thread
if ( running==false || threadData->isDone==2 || rc != 0 )
if ( !running ) {
pthread_mutex_unlock( &mutexProduce);
break;
}
if ( threadData->cut )
{
sink->cut( );
if ( threadData->cut) {
sink->cut();
threadData->cut = false;
}
if ( threadData->accepting )
{
if ( sink->canWrite( 0, 0 ) )
{
try
{
sink->write( dataBuffer, dataSize );
} catch ( Exception & e )
{
if ( threadData->accepting ) {
if ( sink->canWrite( 0, 0) ) {
try {
sink->write( dataBuffer, dataSize);
} catch ( Exception & e ) {
// something wrong. don't accept more data, try to
// reopen the sink next time around
threadData->accepting = false;
}
}
else
{
} else {
reportEvent( 4,
"MultiThreadedConnector :: sinkThread can't write ",
ixSink );
"MultiThreadedConnector :: sinkThread can't write ",
ixSink);
// don't care if we can't write
}
}
threadData->isDone = true;
pthread_cond_broadcast( &condProduce);
pthread_mutex_unlock( &mutexProduce);
if ( !threadData->accepting ) {
if ( reconnect ) {
reportEvent( 4,
"MultiThreadedConnector :: sinkThread reconnecting ",
ixSink );
"MultiThreadedConnector :: sinkThread reconnecting ",
ixSink);
// if we're not accepting, try to reopen the sink
try {
sink->close( );
Util::sleep( 1L, 0L );
sink->open( );
sched_yield( );
threadData->accepting = sink->isOpen( );
} catch ( Exception & e ) {
sink->close();
Util::sleep(1L, 0L);
sink->open();
sched_yield();
threadData->accepting = sink->isOpen();
} catch ( Exception & e ) {
// don't care, just try and try again
}
}
else {
} else {
// if !reconnect, just stop the connector
// running = false; /* kill the whole application */
// tell that we used the databuffer, do not wait for us anymore
pthread_mutex_lock( &mutex_done );
threadData->isDone = 1; // 1==STOP
pthread_mutex_unlock( &mutex_done );
reportEvent( 4,
"MultiThreadedConnector :: sinkThread no reconnect? ",
ixSink );
try
{
threadData->accepting = false;
sink->close( );
} catch ( Exception & e )
{
// don't care, just try and try again
reportEvent( 9,
"MultiThreadedConnector :: sinkThread do not care2 ",
ixSink );
}
}
running = false;
}
}
pthread_mutex_lock( &mutex_done );
threadData->isDone = 1; // producer will check this flag
pthread_cond_signal( &cond_done ); // signal producer
pthread_mutex_unlock( &mutex_done );
} /* is running */
/* just make sure nobody will be waiting for us when we terminate */
pthread_mutex_lock( &mutex_done );
threadData->isDone = 1; // STOP
pthread_cond_signal( &cond_done ); // signal producer
pthread_mutex_unlock( &mutex_done );
}
}
/*------------------------------------------------------------------------------
* Signal to each sink to cut what they've done so far, and start anew.
*----------------------------------------------------------------------------*/
@ -443,15 +369,16 @@ MultiThreadedConnector :: close ( void ) throw ( Exception )
unsigned int i;
// signal to stop for all threads
pthread_mutex_lock( &mutex_start );
pthread_mutex_lock( &mutexProduce);
running = false;
pthread_cond_broadcast( &cond_start );
pthread_mutex_unlock( &mutex_start );
pthread_cond_broadcast( &condProduce);
pthread_mutex_unlock( &mutexProduce);
// wait for all the threads to finish
for ( i = 0; i < numSinks; ++i ) {
pthread_join( threads[i].thread, 0);
}
pthread_attr_destroy( &threadAttr);
Connector::close();
}

View File

@ -105,7 +105,7 @@ class MultiThreadedConnector : public virtual Connector
* Marks if the thread has processed the last batch
* of data.
*/
int isDone;
bool isDone;
/**
* A flag to show that the sink should be made to cut in the
@ -123,7 +123,7 @@ class MultiThreadedConnector : public virtual Connector
this->ixSink = 0;
this->thread = 0;
this->accepting = false;
this->isDone = 1; // 0==RUN 1=STOP 2=TERMINATE
this->isDone = false;
this->cut = false;
}
@ -138,20 +138,16 @@ class MultiThreadedConnector : public virtual Connector
threadFunction( void * param );
};
/* mutex and cond variable for signaling new data
* the consumers wait for this
/**
* The mutex of this object.
*/
pthread_mutex_t mutex_start;
pthread_cond_t cond_start; // producer sets this
/* mutex and cond variable for signaling that a single thread has
* finished working on a block of data
* the producer waits for this, then checks if everyone is done
* and maybe waits again until everyone has finished on the data
pthread_mutex_t mutexProduce;
/**
* The conditional variable for presenting new data.
*/
pthread_mutex_t mutex_done;
pthread_cond_t cond_done; // consumer sets this
pthread_cond_t condProduce;
/**
* The thread attributes.
*/
@ -163,7 +159,7 @@ class MultiThreadedConnector : public virtual Connector
ThreadData * threads;
/**
* Signal if we're running or not running
* Signal if we're running or not, so the threads no if to stop.
*/
bool running;
@ -286,7 +282,7 @@ class MultiThreadedConnector : public virtual Connector
virtual MultiThreadedConnector &
operator= ( const MultiThreadedConnector & connector )
throw ( Exception );
/**
* Open the connector. Opens the Source and the Sinks if necessary.
*
@ -318,7 +314,7 @@ class MultiThreadedConnector : public virtual Connector
* @return the number of bytes read from the Source.
* @exception Exception
*/
virtual unsigned long
virtual unsigned int
transfer ( unsigned long bytes,
unsigned int bufSize,
unsigned int sec,