You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
tdenetwork/kopete/protocols/yahoo/libkyahoo/webcamtask.cpp

701 lines
20 KiB

/*
Kopete Yahoo Protocol
Handles incoming webcam connections
Copyright (c) 2005 André Duffeck <duffeck@kde.org>
*************************************************************************
* *
* 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; either *
* version 2 of the License, or (at your option) any later version. *
* *
*************************************************************************
*/
#include "webcamtask.h"
#include "sendnotifytask.h"
#include "transfer.h"
#include "ymsgtransfer.h"
#include "yahootypes.h"
#include "client.h"
#include <tqbuffer.h>
#include <tqfile.h>
#include <tqtimer.h>
#include <tqpixmap.h>
#include <ktempfile.h>
#include <kprocess.h>
#include <kstreamsocket.h>
#include <kdebug.h>
#include <klocale.h>
using namespace KNetwork;
WebcamTask::WebcamTask(Task* tqparent) : Task(tqparent)
{
kdDebug(YAHOO_RAW_DEBUG) ;
transmittingData = false;
transmissionPending = false;
timestamp = 1;
}
WebcamTask::~WebcamTask()
{
}
bool WebcamTask::take( Transfer* transfer )
{
if ( !forMe( transfer ) )
return false;
YMSGTransfer *t = static_cast<YMSGTransfer*>(transfer);
if( t->service() == Yahoo::ServiceWebcam )
parseWebcamInformation( t );
// else
// parseMessage( transfer );
return true;
}
bool WebcamTask::forMe( const Transfer* transfer ) const
{
const YMSGTransfer *t = 0L;
t = dynamic_cast<const YMSGTransfer*>(transfer);
if (!t)
return false;
if ( t->service() == Yahoo::ServiceWebcam )
return true;
else
return false;
}
void WebcamTask::requestWebcam( const TQString &who )
{
kdDebug(YAHOO_RAW_DEBUG) ;
YMSGTransfer *t = new YMSGTransfer(Yahoo::ServiceWebcam);
t->setId( client()->sessionID() );
t->setParam( 1, client()->userId().local8Bit());
t->setParam( 5, who.local8Bit() );
keyPending = who;
send( t );
}
void WebcamTask::parseWebcamInformation( YMSGTransfer *t )
{
kdDebug(YAHOO_RAW_DEBUG) ;
YahooWebcamInformation info;
info.sender = keyPending;
info.server = t->firstParam( 102 );
info.key = t->firstParam( 61 );
info.status = InitialtqStatus;
info.dataLength = 0;
info.buffer = 0L;
info.headerRead = false;
if( info.sender == client()->userId() )
{
transmittingData = true;
info.direction = Outgoing;
}
else
info.direction = Incoming;
kdDebug(YAHOO_RAW_DEBUG) << "Got WebcamInformation: Sender: " << info.sender << " Server: " << info.server << " Key: " << info.key << endl;
KStreamSocket *socket = new KStreamSocket( info.server, TQString::number(5100) );
socketMap[socket] = info;
socket->enableRead( true );
connect( socket, TQT_SIGNAL( connected( const KResolverEntry& ) ), this, TQT_SLOT( slotConnectionStage1Established() ) );
connect( socket, TQT_SIGNAL( gotError(int) ), this, TQT_SLOT( slotConnectionFailed(int) ) );
connect( socket, TQT_SIGNAL( readyRead() ), this, TQT_SLOT( slotRead() ) );
socket->connect();
}
void WebcamTask::slotConnectionStage1Established()
{
KStreamSocket* socket = const_cast<KStreamSocket*>( dynamic_cast<const KStreamSocket*>( sender() ) );
if( !socket )
return;
kdDebug(YAHOO_RAW_DEBUG) << "Webcam connection Stage1 to the user " << socketMap[socket].sender << " established." << endl;
disconnect( socket, TQT_SIGNAL( connected( const KResolverEntry& ) ), this, TQT_SLOT( slotConnectionStage1Established() ) );
disconnect( socket, TQT_SIGNAL( gotError(int) ), this, TQT_SLOT( slotConnectionFailed(int) ) );
socketMap[socket].status = ConnectedStage1;
TQByteArray buffer;
TQDataStream stream( buffer, IO_WriteOnly );
TQString s;
if( socketMap[socket].direction == Incoming )
{
socket->writeBlock( TQCString("<RVWCFG>").data(), 8 );
s = TQString("g=%1\r\n").tqarg(socketMap[socket].sender);
}
else
{
socket->writeBlock( TQCString("<RUPCFG>").data(), 8 );
s = TQString("f=1\r\n");
}
// Header: 08 00 01 00 00 00 00
stream << (TQ_INT8)0x08 << (TQ_INT8)0x00 << (TQ_INT8)0x01 << (TQ_INT8)0x00 << (TQ_INT32)s.length();
stream.writeRawBytes( s.local8Bit(), s.length() );
socket->writeBlock( buffer.data(), buffer.size() );
}
void WebcamTask::slotConnectionStage2Established()
{
KStreamSocket* socket = const_cast<KStreamSocket*>( dynamic_cast<const KStreamSocket*>( sender() ) );
if( !socket )
return;
kdDebug(YAHOO_RAW_DEBUG) << "Webcam connection Stage2 to the user " << socketMap[socket].sender << " established." << endl;
disconnect( socket, TQT_SIGNAL( connected( const KResolverEntry& ) ), this, TQT_SLOT( slotConnectionStage2Established() ) );
disconnect( socket, TQT_SIGNAL( gotError(int) ), this, TQT_SLOT( slotConnectionFailed(int) ) );
socketMap[socket].status = ConnectedStage2;
TQByteArray buffer;
TQDataStream stream( buffer, IO_WriteOnly );
TQString s;
if( socketMap[socket].direction == Incoming )
{
// Send <RETQIMG>-Packet
socket->writeBlock( TQCString("<RETQIMG>").data(), 8 );
// Send request information
s = TQString("a=2\r\nc=us\r\ne=21\r\nu=%1\r\nt=%2\r\ni=\r\ng=%3\r\no=w-2-5-1\r\np=1")
.tqarg(client()->userId()).tqarg(socketMap[socket].key).tqarg(socketMap[socket].sender);
// Header: 08 00 01 00 00 00 00
stream << (TQ_INT8)0x08 << (TQ_INT8)0x00 << (TQ_INT8)0x01 << (TQ_INT8)0x00 << (TQ_INT32)s.length();
}
else
{
// Send <RETQIMG>-Packet
socket->writeBlock( TQCString("<SNDIMG>").data(), 8 );
// Send request information
s = TQString("a=2\r\nc=us\r\nu=%1\r\nt=%2\r\ni=%3\r\no=w-2-5-1\r\np=2\r\nb=KopeteWebcam\r\nd=\r\n")
.tqarg(client()->userId()).tqarg(socketMap[socket].key).tqarg(socket->localAddress().nodeName());
// Header: 08 00 05 00 00 00 00 01 00 00 00 01
stream << (TQ_INT8)0x0d << (TQ_INT8)0x00 << (TQ_INT8)0x05 << (TQ_INT8)0x00 << (TQ_INT32)s.length()
<< (TQ_INT8)0x01 << (TQ_INT8)0x00 << (TQ_INT8)0x00 << (TQ_INT8)0x00 << (TQ_INT8)0x01;
}
socket->writeBlock( buffer.data(), buffer.size() );
socket->writeBlock( s.local8Bit(), s.length() );
}
void WebcamTask::slotConnectionFailed( int error )
{
KStreamSocket* socket = const_cast<KStreamSocket*>( dynamic_cast<const KStreamSocket*>( sender() ) );
kdDebug(YAHOO_RAW_DEBUG) << "Webcam connection to the user " << socketMap[socket].sender << " failed. Error " << error << " - " << socket->KSocketBase::errorString() << endl;
client()->notifyError( i18n("Webcam connection to the user %1 could not be established.\n\nPlease relogin and try again.")
.tqarg(socketMap[socket].sender), TQString("%1 - %2").tqarg(error).tqarg( socket->KSocketBase::errorString()), Client::Error );
socketMap.remove( socket );
socket->deleteLater();
}
void WebcamTask::slotRead()
{
KStreamSocket* socket = const_cast<KStreamSocket*>( dynamic_cast<const KStreamSocket*>( sender() ) );
if( !socket )
return;
switch( socketMap[socket].status )
{
case ConnectedStage1:
disconnect( socket, TQT_SIGNAL( readyRead() ), this, TQT_SLOT( slotRead() ) );
connectStage2( socket );
break;
case ConnectedStage2:
case Sending:
case SendingEmpty:
processData( socket );
default:
break;
}
}
void WebcamTask::connectStage2( KStreamSocket *socket )
{
kdDebug(YAHOO_RAW_DEBUG) ;
TQByteArray data( socket->bytesAvailable() );
socket->readBlock ( data.data (), data.size () );
kdDebug(YAHOO_RAW_DEBUG) << "Magic Byte:" << data[2] << endl;
socketMap[socket].status = ConnectedStage2;
TQString server;
int i = 4;
KStreamSocket *newSocket;
switch( (const char)data[2] )
{
case (TQ_INT8)0x06:
emit webcamNotAvailable(socketMap[socket].sender);
break;
case (TQ_INT8)0x04:
case (TQ_INT8)0x07:
while( (const char)data[i] != (TQ_INT8)0x00 )
server += data[i++];
kdDebug(YAHOO_RAW_DEBUG) << "Server:" << server << endl;
if( server.isEmpty() )
{
emit webcamNotAvailable(socketMap[socket].sender);
break;
}
kdDebug(YAHOO_RAW_DEBUG) << "Connecting to " << server << endl;
newSocket = new KStreamSocket( server, TQString::number(5100) );
socketMap[newSocket] = socketMap[socket];
newSocket->enableRead( true );
connect( newSocket, TQT_SIGNAL( connected( const KResolverEntry& ) ), this, TQT_SLOT( slotConnectionStage2Established() ) );
connect( newSocket, TQT_SIGNAL( gotError(int) ), this, TQT_SLOT( slotConnectionFailed(int) ) );
connect( newSocket, TQT_SIGNAL( readyRead() ), this, TQT_SLOT( slotRead() ) );
if( socketMap[newSocket].direction == Outgoing )
{
newSocket->enableWrite( true );
connect( newSocket, TQT_SIGNAL( readyWrite() ), this, TQT_SLOT( transmitWebcamImage() ) );
}
newSocket->connect();
break;
default:
break;
}
socketMap.remove( socket );
delete socket;
}
void WebcamTask::processData( KStreamSocket *socket )
{
TQByteArray data( socket->bytesAvailable() );
socket->readBlock ( data.data (), data.size () );
if( data.size() <= 0 )
{
kdDebug(YAHOO_RAW_DEBUG) << "No data read." << endl;
return;
}
parseData( data, socket );
}
void WebcamTask::parseData( TQByteArray &data, KStreamSocket *socket )
{
int headerLength = 0;
int read = 0;
YahooWebcamInformation *info = &socketMap[socket];
if( !info->headerRead )
{
headerLength = data[0];
kdDebug(YAHOO_RAW_DEBUG) << "headerLength " << headerLength << endl;
if( data.size() < headerLength )
return;
if( headerLength >= 8 )
{
kdDebug() << data[0] << data[1] << data[2] << data[3] << data[4] << data[5] << data[6] << data[7] << endl;
info->reason = data[1];
info->dataLength = yahoo_get32(data.data() + 4);
}
if( headerLength == 13 )
{
kdDebug() << data[8] << data[9] << data[10] << data[11] << data[12] << endl;
info->timestamp = yahoo_get32(data.data() + 9);
kdDebug(YAHOO_RAW_DEBUG) << "PacketType: " << data[8] << " reason: " << info->reason << " timestamp: " << info->timestamp << endl;
TQStringList::iterator it;
switch( data[8] )
{
case 0x00:
if( info->direction == Incoming )
{
if( info->timestamp == 0 )
{
emit webcamClosed( info->sender, 3 );
cleanUpConnection( socket );
}
}
else
{
info->type = UserRequest;
info->headerRead = true;
}
break;
case 0x02:
info->type = Image;
info->headerRead = true;
break;
case 0x04:
if( info->timestamp == 1 )
{
emit webcamPaused( info->sender );
}
break;
case 0x05:
kdDebug(YAHOO_RAW_DEBUG) << "Ready for Transmission" << endl;
if( info->timestamp == 1 )
{
info->status = Sending;
emit readyForTransmission();
}
else if( info->timestamp == 0 )
{
info->status = SendingEmpty;
emit stopTransmission();
sendEmptyWebcamImage();
}
// Send Invitation packets
for(it = pendingInvitations.begin(); it != pendingInvitations.end(); it++)
{
SendNotifyTask *snt = new SendNotifyTask( tqparent() );
snt->setTarget( *it );
snt->setType( SendNotifyTask::NotifyWebcamInvite );
snt->go( true );
it = pendingInvitations.erase( it );
it--;
}
break;
case 0x07:
info->type = ConnectionClosed;
emit webcamClosed( info->sender, info->reason );
cleanUpConnection( socket );
case 0x0c:
info->type = NewWatcher;
info->headerRead = true;
break;
case 0x0d:
info->type = WatcherLeft;
info->headerRead = true;
break;
}
}
if( headerLength > 13 || headerLength <= 0) //Parse error
return;
if( !info->headerRead && data.size() > headerLength )
{
// More headers to read
kdDebug(YAHOO_RAW_DEBUG) << "More data to read..." << endl;
TQByteArray newData( data.size() - headerLength );
TQDataStream stream( newData, IO_WriteOnly );
stream.writeRawBytes( data.data() + headerLength, data.size() - headerLength );
parseData( newData, socket );
return;
}
kdDebug(YAHOO_RAW_DEBUG) << "Parsed Packet: HeaderLen: " << headerLength << " DataLen: " << info->dataLength << endl;
}
if( info->dataLength <= 0 )
{
kdDebug(YAHOO_RAW_DEBUG) << "No data to read. (info->dataLength <= 0)" << endl;
if( info->headerRead )
info->headerRead = false;
return;
}
if( headerLength >= data.size() )
{
kdDebug(YAHOO_RAW_DEBUG) << "No data to read. (headerLength >= data.size())" << endl;
return; //Nothing to read here...
}
if( !info->buffer )
{
kdDebug(YAHOO_RAW_DEBUG) << "Buffer created" << endl;
info->buffer = new TQBuffer();
info->buffer->open( IO_WriteOnly );
}
kdDebug(YAHOO_RAW_DEBUG) << "data.size() " << data.size() << " headerLength " << headerLength << " buffersize " << info->buffer->size() << endl;
read = headerLength + info->dataLength - info->buffer->size();
info->buffer->writeBlock( data.data() + headerLength, data.size() - headerLength );//info->dataLength - info->buffer->size() );
kdDebug(YAHOO_RAW_DEBUG) << "read " << data.size() - headerLength << " Bytes, Buffer is now " << info->buffer->size() << endl;
if( info->buffer->size() >= static_cast<uint>(info->dataLength) )
{
info->buffer->close();
TQString who;
switch( info->type )
{
case UserRequest:
{
who.append( info->buffer->buffer() );
who = who.mid( 2, who.tqfind('\n') - 3);
kdDebug(YAHOO_RAW_DEBUG) << "User wants to view webcam: " << who << " len: " << who.length() << " Index: " << accessGranted.tqfindIndex( who ) << endl;
if( accessGranted.tqfindIndex( who ) >= 0 )
{
grantAccess( who );
}
else
emit viewerRequest( who );
}
break;
case NewWatcher:
who.append( info->buffer->buffer() );
who = who.left( who.length() - 1 );
kdDebug(YAHOO_RAW_DEBUG) << "New Watcher of webcam: " << who << endl;
emit viewerJoined( who );
break;
case WatcherLeft:
who.append( info->buffer->buffer() );
who = who.left( who.length() - 1 );
kdDebug(YAHOO_RAW_DEBUG) << "A Watcher left: " << who << " len: " << who.length() << endl;
accessGranted.remove( who );
emit viewerLeft( who );
break;
case Image:
{
TQPixmap webcamImage;
//webcamImage.loadFromData( info->buffer->buffer() );
// FIXME (same)
//KTemporaryFile jpcTmpImageFile;
//jpcTmpImageFile.setAutoRemove(false);
//jpcTmpImageFile.open();
//KTemporaryFile bmpTmpImageFile;
//bmpTmpImageFile.setAutoRemove(false);
//bmpTmpImageFile.open();
//jpcTmpImageFile.write((info->buffer->buffer()).data(), info->buffer->size());
//jpcTmpImageFile.close();
KTempFile jpcTmpImageFile;
KTempFile bmpTmpImageFile;
TQFile *file = jpcTmpImageFile.file();
file->writeBlock((info->buffer->buffer()).data(), info->buffer->size());
file->close();
KProcess p;
p << "jasper";
p << "--input" << jpcTmpImageFile.name() << "--output" << bmpTmpImageFile.name() << "--output-format" << "bmp";
p.start( KProcess::Block );
if( p.exitStatus() != 0 )
{
kdDebug(YAHOO_RAW_DEBUG) << " jasper exited with status " << p.exitStatus() << " " << info->sender << endl;
}
else
{
webcamImage.load( bmpTmpImageFile.name() );
/******* UPTO THIS POINT ******/
emit webcamImageReceived( info->sender, webcamImage );
}
TQFile::remove(jpcTmpImageFile.name());
TQFile::remove(bmpTmpImageFile.name());
kdDebug(YAHOO_RAW_DEBUG) << "Image Received. Size: " << webcamImage.size() << endl;
}
break;
default:
break;
}
info->headerRead = false;
delete info->buffer;
info->buffer = 0L;
}
if( data.size() > read )
{
// More headers to read
kdDebug(YAHOO_RAW_DEBUG) << "More data to read..." << data.size() - read << endl;
TQByteArray newData( data.size() - read );
TQDataStream stream( newData, IO_WriteOnly );
stream.writeRawBytes( data.data() + read, data.size() - read );
parseData( newData, socket );
}
}
void WebcamTask::cleanUpConnection( KStreamSocket *socket )
{
socket->close();
YahooWebcamInformation *info = &socketMap[socket];
if( info->buffer )
delete info->buffer;
socketMap.remove( socket );
delete socket;
}
void WebcamTask::closeWebcam( const TQString & who )
{
kdDebug(YAHOO_RAW_DEBUG) ;
SocketInfoMap::Iterator it;
for( it = socketMap.begin(); it != socketMap.end(); it++ )
{
kdDebug(YAHOO_RAW_DEBUG) << it.data().sender << " - " << who << endl;
if( it.data().sender == who )
{
cleanUpConnection( it.key() );
return;
}
}
kdDebug(YAHOO_RAW_DEBUG) << "Error. You tried to close a connection that did not exist." << endl;
client()->notifyError( i18n( "An error occurred closing the webcam session. " ), i18n( "You tried to close a connection that did not exist." ), Client::Debug );
}
// Sending
void WebcamTask::registerWebcam()
{
kdDebug(YAHOO_RAW_DEBUG) ;
YMSGTransfer *t = new YMSGTransfer(Yahoo::ServiceWebcam);
t->setId( client()->sessionID() );
t->setParam( 1, client()->userId().local8Bit());
keyPending = client()->userId();
send( t );
}
void WebcamTask::addPendingInvitation( const TQString &userId )
{
kdDebug(YAHOO_RAW_DEBUG) << "Inviting " << userId << " to watch the webcam." << endl;
pendingInvitations.append( userId );
accessGranted.append( userId );
}
void WebcamTask::grantAccess( const TQString &userId )
{
kdDebug(YAHOO_RAW_DEBUG) ;
KStreamSocket *socket = 0L;
SocketInfoMap::Iterator it;
for( it = socketMap.begin(); it != socketMap.end(); it++ )
{
if( it.data().direction == Outgoing )
{
socket = it.key();
break;
}
}
if( !socket )
{
kdDebug(YAHOO_RAW_DEBUG) << "Error. No outgoing socket found." << endl;
return;
}
TQByteArray ar;
TQDataStream stream( ar, IO_WriteOnly );
TQString user = TQString("u=%1").tqarg(userId);
stream << (TQ_INT8)0x0d << (TQ_INT8)0x00 << (TQ_INT8)0x05 << (TQ_INT8)0x00 << (TQ_INT32)user.length()
<< (TQ_INT8)0x00 << (TQ_INT8)0x00 << (TQ_INT8)0x00 << (TQ_INT8)0x00 << (TQ_INT8)0x01;
socket->writeBlock( ar.data(), ar.size() );
socket->writeBlock( user.local8Bit(), user.length() );
}
void WebcamTask::closeOutgoingWebcam()
{
kdDebug(YAHOO_RAW_DEBUG) ;
KStreamSocket *socket = 0L;
SocketInfoMap::Iterator it;
for( it = socketMap.begin(); it != socketMap.end(); it++ )
{
if( it.data().direction == Outgoing )
{
socket = it.key();
break;
}
}
if( !socket )
{
kdDebug(YAHOO_RAW_DEBUG) << "Error. No outgoing socket found." << endl;
return;
}
cleanUpConnection( socket );
transmittingData = false;
}
void WebcamTask::sendEmptyWebcamImage()
{
kdDebug(YAHOO_RAW_DEBUG) ;
KStreamSocket *socket = 0L;
SocketInfoMap::Iterator it;
for( it = socketMap.begin(); it != socketMap.end(); it++ )
{
if( it.data().direction == Outgoing )
{
socket = it.key();
break;
}
}
if( !socket )
{
kdDebug(YAHOO_RAW_DEBUG) << "Error. No outgoing socket found." << endl;
return;
}
if( socketMap[socket].status != SendingEmpty )
return;
pictureBuffer.resize( 0 );
transmissionPending = true;
TQTimer::singleShot( 1000, this, TQT_SLOT(sendEmptyWebcamImage()) );
}
void WebcamTask::sendWebcamImage( const TQByteArray &image )
{
kdDebug(YAHOO_RAW_DEBUG) ;
pictureBuffer = image;
transmissionPending = true;
KStreamSocket *socket = 0L;
SocketInfoMap::Iterator it;
for( it = socketMap.begin(); it != socketMap.end(); it++ )
{
if( it.data().direction == Outgoing )
{
socket = it.key();
break;
}
}
if( !socket )
{
kdDebug(YAHOO_RAW_DEBUG) << "Error. No outgoing socket found." << endl;
return;
}
socket->enableWrite( true );
}
void WebcamTask::transmitWebcamImage()
{
if( !transmissionPending )
return;
kdDebug(YAHOO_RAW_DEBUG) << "arraysize: " << pictureBuffer.size() << endl;
// Find outgoing socket
KStreamSocket *socket = 0L;
SocketInfoMap::Iterator it;
for( it = socketMap.begin(); it != socketMap.end(); it++ )
{
if( it.data().direction == Outgoing )
{
socket = it.key();
break;
}
}
if( !socket )
{
kdDebug(YAHOO_RAW_DEBUG) << "Error. No outgoing socket found." << endl;
return;
}
socket->enableWrite( false );
TQByteArray buffer;
TQDataStream stream( buffer, IO_WriteOnly );
stream << (TQ_INT8)0x0d << (TQ_INT8)0x00 << (TQ_INT8)0x05 << (TQ_INT8)0x00 << (TQ_INT32)pictureBuffer.size()
<< (TQ_INT8)0x02 << (TQ_INT32)timestamp++;
socket->writeBlock( buffer.data(), buffer.size() );
if( pictureBuffer.size() )
socket->writeBlock( pictureBuffer.data(), pictureBuffer.size() );
transmissionPending = false;
}
#include "webcamtask.moc"