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/*
transfer.cpp - Kopete Groupwise Protocol
Copyright (c) 2004 Matt Rogers <mattr@kde.org>
Based on code copyright (c) 2004 SUSE Linux AG <http://www.suse.com>
Kopete (c) 2002-2004 by the Kopete developers <kopete-devel@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 "transfer.h"
#include <ctype.h>
#include <qdeepcopy.h>
#include <kdebug.h>
Transfer::Transfer()
{
m_isBufferValid = false;
}
Transfer::Transfer( Buffer* buf )
{
m_buffer = buf;
m_isBufferValid = true;
}
Transfer::TransferType Transfer::type() const
{
return Transfer::RawTransfer;
}
QByteArray Transfer::toWire()
{
m_wireFormat.duplicate( m_buffer->buffer(), m_buffer->length() );
QByteArray wire = QDeepCopy<QByteArray>( m_wireFormat );
return wire;
}
Transfer::~Transfer()
{
delete m_buffer;
m_buffer = 0;
}
void Transfer::setBuffer( Buffer* buffer )
{
m_buffer = buffer;
}
Buffer* Transfer::buffer()
{
return m_buffer;
}
const Buffer* Transfer::buffer() const
{
return m_buffer;
}
bool Transfer::dataValid() const
{
return m_isBufferValid;
}
QString Transfer::toString() const
{
// line format:
//00 03 00 0b 00 00 90 b8 f5 9f 09 31 31 33 37 38 |;tJ�..........|
int i = 0;
QString output = "\n";
QString hex, ascii;
QByteArray::ConstIterator it;
QByteArray::ConstIterator end = m_wireFormat.end();
for ( it = m_wireFormat.begin(); it != end; ++it )
{
i++;
unsigned char c = static_cast<unsigned char>(*it);
if(c < 0x10)
hex.append("0");
hex.append(QString("%1 ").arg(c, 0, 16));
ascii.append(isprint(c) ? c : '.');
if (i == 16)
{
output += hex + " |" + ascii + "|\n";
i=0;
hex=QString::null;
ascii=QString::null;
}
}
if(!hex.isEmpty())
output += hex.leftJustify(48, ' ') + " |" + ascii.leftJustify(16, ' ') + '|';
output.append('\n');
return output;
}
void Transfer::populateWireBuffer( int offset, const QByteArray& buffer )
{
int j;
for ( uint i = 0; i < buffer.size(); ++i )
{
j = i + offset;
m_wireFormat[j] = buffer[i];
}
}
FlapTransfer::FlapTransfer()
: Transfer()
{
m_isFlapValid = false;
}
FlapTransfer::FlapTransfer( struct FLAP f, Buffer* buffer )
: Transfer( buffer )
{
m_flapChannel = f.channel;
m_flapSequence = f.sequence;
m_flapLength = f.length;
if ( m_flapChannel == 0 || m_flapLength < 6 )
m_isFlapValid = false;
else
m_isFlapValid = true;
}
FlapTransfer::FlapTransfer( Buffer* buffer, BYTE chan, WORD seq, WORD len )
: Transfer( buffer )
{
m_flapChannel = chan;
m_flapSequence = seq;
m_flapLength = len;
if ( m_flapChannel == 0 || m_flapLength < 6 )
m_isFlapValid = false;
else
m_isFlapValid = true;
}
FlapTransfer::~FlapTransfer()
{
}
QByteArray FlapTransfer::toWire()
{
//kdDebug(OSCAR_RAW_DEBUG) << k_funcinfo << "Buffer length is " << m_buffer.length() << endl;
//kdDebug(OSCAR_RAW_DEBUG) << k_funcinfo << "Buffer is " << m_buffer.toString() << endl;
m_wireFormat.truncate( 0 );
QByteArray useBuf;
useBuf.duplicate( m_buffer->buffer(), m_buffer->length() );
m_flapLength = useBuf.size();
m_wireFormat.resize( 6 + m_flapLength );
m_wireFormat[0] = 0x2A;
m_wireFormat[1] = m_flapChannel;
m_wireFormat[2] = (m_flapSequence & 0xFF00) >> 8;
m_wireFormat[3] = (m_flapSequence & 0x00FF);
m_wireFormat[4] = (m_flapLength & 0xFF00) >> 8;
m_wireFormat[5] = (m_flapLength & 0x00FF);
//deepcopy the high-level buffer to the wire format buffer
populateWireBuffer( 6, useBuf );
QByteArray wire = QDeepCopy<QByteArray>( m_wireFormat );
return wire;
}
void FlapTransfer::setFlapChannel( BYTE channel )
{
if ( channel != 0 )
{
m_flapChannel = channel;
m_isFlapValid = true;
}
}
BYTE FlapTransfer::flapChannel() const
{
return m_flapChannel;
}
void FlapTransfer::setFlapSequence( WORD seq )
{
m_flapSequence = seq;
}
WORD FlapTransfer::flapSequence() const
{
return m_flapSequence;
}
void FlapTransfer::setFlapLength( WORD len )
{
m_flapLength = len;
}
WORD FlapTransfer::flapLength() const
{
return m_flapLength;
}
bool FlapTransfer::flapValid() const
{
return m_isFlapValid;
}
Transfer::TransferType FlapTransfer::type() const
{
return Transfer::FlapTransfer;
}
SnacTransfer::SnacTransfer()
: FlapTransfer()
{
m_isSnacValid = false;
}
SnacTransfer::SnacTransfer( Buffer* buffer, BYTE chan, WORD seq, WORD len, WORD service,
WORD subtype, WORD flags, DWORD reqId )
: FlapTransfer( buffer, chan, seq, len )
{
m_snacService = service;
m_snacSubtype = subtype;
m_snacFlags = flags;
m_snacReqId = reqId;
if ( m_snacService == 0 || m_snacSubtype == 0 )
m_isSnacValid = false;
else
m_isSnacValid = true;
}
SnacTransfer::SnacTransfer( struct FLAP f, struct SNAC s, Buffer* buffer )
: FlapTransfer( f, buffer )
{
m_snacService = s.family;
m_snacSubtype = s.subtype;
m_snacFlags = s.flags;
m_snacReqId = s.id;
if ( m_snacService == 0 || m_snacSubtype == 0 )
m_isSnacValid = false;
else
m_isSnacValid = true;
}
SnacTransfer::~SnacTransfer()
{
}
QByteArray SnacTransfer::toWire()
{
m_wireFormat.truncate( 0 );
QByteArray useBuf;
useBuf.duplicate( m_buffer->buffer(), m_buffer->length() );
setFlapLength( useBuf.size() + 10 );
m_wireFormat.resize( 16 + useBuf.size() );
//Transfer the flap - 6 bytes
m_wireFormat[0] = 0x2A;
m_wireFormat[1] = flapChannel();
m_wireFormat[2] = (flapSequence() & 0xFF00) >> 8;
m_wireFormat[3] = (flapSequence() & 0x00FF);
m_wireFormat[4] = (flapLength() & 0xFF00) >> 8;
m_wireFormat[5] = (flapLength() & 0x00FF);
//Transfer the Snac - 10 bytes
m_wireFormat[6] = (m_snacService & 0xFF00) >> 8;
m_wireFormat[7] = (m_snacService & 0x00FF);
m_wireFormat[8] = (m_snacSubtype & 0xFF00) >> 8;
m_wireFormat[9] = (m_snacSubtype & 0x00FF);
m_wireFormat[10] = (m_snacFlags & 0xFF00) >> 8;
m_wireFormat[11] = (m_snacFlags & 0x00FF);
m_wireFormat[12] = (m_snacReqId & 0xFF000000) >> 24;
m_wireFormat[13] = (m_snacReqId & 0x00FF0000) >> 16;
m_wireFormat[14] = (m_snacReqId & 0x0000FF00) >> 8;
m_wireFormat[15] = (m_snacReqId & 0x000000FF);
//deepcopy the high-level buffer to the wire format buffer
populateWireBuffer( 16, useBuf );
QByteArray wire = QDeepCopy<QByteArray>( m_wireFormat );
return wire;
}
Transfer::TransferType SnacTransfer::type() const
{
return Transfer::SnacTransfer;
}
bool SnacTransfer::snacValid() const
{
return m_isSnacValid;
}
void SnacTransfer::setSnacService( WORD service )
{
m_snacService = service;
}
WORD SnacTransfer::snacService() const
{
return m_snacService;
}
void SnacTransfer::setSnacSubtype( WORD subtype )
{
m_snacSubtype = subtype;
}
WORD SnacTransfer::snacSubtype() const
{
return m_snacSubtype;
}
void SnacTransfer::setSnacFlags( WORD flags )
{
m_snacFlags = flags;
}
WORD SnacTransfer::snacFlags() const
{
return m_snacFlags;
}
void SnacTransfer::setSnacRequest( DWORD id )
{
m_snacReqId = id;
}
DWORD SnacTransfer::snacRequest() const
{
return m_snacReqId;
}
SNAC SnacTransfer::snac() const
{
SNAC s = { m_snacService, m_snacSubtype, m_snacFlags, m_snacReqId };
return s;
}
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