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/*
Kopete Groupwise Protocol
responseprotocol.cpp - Protocol used for reading incoming GroupWise Responses
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 <tqbuffer.h>
#include "response.h"
#include "responseprotocol.h"
ResponseProtocol::ResponseProtocol(TQObject* tqparent, const char* name): InputProtocolBase(tqparent, name)
{
}
ResponseProtocol::~ResponseProtocol()
{
}
Transfer * ResponseProtocol::parse( const TQByteArray & wire, uint & bytes )
{
m_bytes = 0;
m_collatingFields.clear();
//m_din = new TQDataStream( wire, IO_ReadOnly );
TQBuffer inBuf( wire );
inBuf.open( IO_ReadOnly);
m_din.setDevice( &inBuf );
m_din.setByteOrder( TQDataStream::LittleEndian );
// check that this begins with a HTTP (is a response)
TQ_UINT32 val;
m_din >> val;
m_bytes += sizeof( TQ_UINT32 );
Q_ASSERT( tqstrncmp( (const char *)&val, "HTTP", strlen( "HTTP" ) ) == 0 );
// read rest of HTTP header and look for a 301 redirect.
TQCString headerFirst;
if ( !readGroupWiseLine( headerFirst ) )
return 0;
// pull out the HTTP return code
int firstSpace = headerFirst.find( ' ' );
TQString rtnField = headerFirst.mid( firstSpace, headerFirst.find( ' ', firstSpace + 1 ) );
bool ok = true;
int rtnCode;
int packetState = -1;
rtnCode = rtnField.toInt( &ok );
debug( "CoreProtocol::readResponse() got HTTP return code " );
// read rest of header
TQStringList headerRest;
TQCString line;
while ( line != "\r\n" )
{
if ( !readGroupWiseLine( line ) )
{
m_din.unsetDevice();
return 0;
}
headerRest.append( line );
debug( TQString( "- read header line - (%1) : %2" ).tqarg( line.length() ).tqarg( line.data() ) );
}
debug( "ResponseProtocol::readResponse() header finished" );
// if it's a redirect, set flag
if ( ok && rtnCode == 301 )
{
debug( "- server redirect " );
packetState = ServerRedirect;
m_din.unsetDevice();
return 0;
}
// other header processing ( 500! )
if ( ok && rtnCode == 500 )
{
debug( TQString( "- server error %1" ).tqarg( rtnCode ) );
packetState = ServerError;
m_din.unsetDevice();
return 0;
}
if ( ok && rtnCode == 404 )
{
debug( TQString( "- server error %1" ).tqarg( rtnCode ) );
packetState = ServerError;
m_din.unsetDevice();
return 0;
}
if ( m_din.atEnd() )
{
debug( "- no fields" );
packetState = ProtocolError;
m_din.unsetDevice();
return 0;
}
// read fields
if ( !readFields( -1 ) )
{
m_din.unsetDevice();
return 0;
}
// find transaction id field and create Response object if nonzero
int tId = 0;
int resultCode = 0;
Field::FieldListIterator it;
Field::FieldListIterator end = m_collatingFields.end();
it = m_collatingFields.find( NM_A_SZ_TRANSACTION_ID );
if ( it != end )
{
Field::SingleField * sf = dynamic_cast<Field::SingleField*>( *it );
if ( sf )
{
tId = sf->value().toInt();
debug( TQString( "ResponseProtocol::readResponse() - transaction ID is %1" ).tqarg( tId ) );
m_collatingFields.remove( it );
delete sf;
}
}
it = m_collatingFields.find( NM_A_SZ_RESULT_CODE );
if ( it != end )
{
Field::SingleField * sf = dynamic_cast<Field::SingleField*>( *it );
if ( sf )
{
resultCode = sf->value().toInt();
debug( TQString( "ResponseProtocol::readResponse() - result code is %1" ).tqarg( resultCode ) );
m_collatingFields.remove( it );
delete sf;
}
}
// append to inQueue
if ( tId )
{
debug( TQString( "ResponseProtocol::readResponse() - setting state Available, got %1 fields in base array" ).tqarg(m_collatingFields.count() ) );
packetState = Available;
bytes = m_bytes;
m_din.unsetDevice();
return new Response( tId, resultCode, m_collatingFields );
}
else
{
debug( "- WARNING - NO TRANSACTION ID FOUND!" );
m_state = ProtocolError;
m_din.unsetDevice();
m_collatingFields.purge();
return 0;
}
}
bool ResponseProtocol::readFields( int fieldCount, Field::FieldList * list )
{
// build a list of fields.
// If there is already a list of fields stored in m_collatingFields,
// the list we're reading on this iteration must be a nested list
// so when we're done reading it, add it to the MultiList element
// that is the last element in the top list in m_collatingFields.
// if we find the beginning of a new nested list, push the current list onto m_collatingFields
debug( "ResponseProtocol::readFields()" );
if ( fieldCount > 0 )
debug( TQString( "reading %1 fields" ).tqarg( fieldCount ) );
Field::FieldList currentList;
while ( fieldCount != 0 ) // prevents bad input data from ruining our day
{
// the field being read
// read field
TQ_UINT8 type, method;
TQ_UINT32 val;
TQCString tag;
// read uint8 type
if ( !okToProceed() )
{
currentList.purge();
return false;
}
m_din >> type;
m_bytes += sizeof( TQ_UINT8 );
// if type is 0 SOMETHING_INVALID, we're at the end of the fields
if ( type == 0 ) /*&& m_din->atEnd() )*/
{
debug( "- end of field list" );
m_packetState = FieldsRead;
// do something to indicate we're done
break;
}
// read uint8 method
if ( !okToProceed() )
{
currentList.purge();
return false;
}
m_din >> method;
m_bytes += sizeof( TQ_UINT8 );
// read tag and length
if ( !safeReadBytes( tag, val ) )
{
currentList.purge();
return false;
}
debug( TQString( "- type: %1, method: %2, tag: %3," ).tqarg( type ).tqarg( method ).tqarg( tag.data() ) );
// if multivalue or array
if ( type == NMFIELD_TYPE_MV || type == NMFIELD_TYPE_ARRAY )
{
// read length uint32
if ( !okToProceed() )
{
currentList.purge();
return false;
}
m_din >> val;
m_bytes += sizeof( TQ_UINT32 );
// create multifield
debug( TQString( " multi field containing: %1" ).tqarg( val ) );
Field::MultiField* m = new Field::MultiField( tag, method, 0, type );
currentList.append( m );
if ( !readFields( val, ¤tList) )
{
currentList.purge();
return false;
}
}
else
{
if ( type == NMFIELD_TYPE_UTF8 || type == NMFIELD_TYPE_DN )
{
TQCString rawData;
if( !safeReadBytes( rawData, val ) )
{
currentList.purge();
return false;
}
if ( val > NMFIELD_MAX_STR_LENGTH )
{
m_packetState = ProtocolError;
break;
}
// convert to tqunicode - ignore the terminating NUL, because TQt<3.3.2 doesn't sanity check val.
TQString fieldValue = TQString::fromUtf8( rawData.data(), val - 1 );
debug( TQString( "- utf/dn single field: %1" ).tqarg( fieldValue ) );
// create singlefield
Field::SingleField* s = new Field::SingleField( tag, method, 0, type, fieldValue );
currentList.append( s );
}
else
{
// otherwise ( numeric )
// read value uint32
if ( !okToProceed() )
{
currentList.purge();
return false;
}
m_din >> val;
m_bytes += sizeof( TQ_UINT32 );
debug( TQString( "- numeric field: %1" ).tqarg( val ) );
Field::SingleField* s = new Field::SingleField( tag, method, 0, type, val );
currentList.append( s );
}
}
// decrease the fieldCount if we're using it
if ( fieldCount > 0 )
fieldCount--;
}
// got a whole list!
// if fieldCount == 0, we've just read a whole nested list, so add this list to the last element in 'list'
if ( fieldCount == 0 && list )
{
debug( "- finished reading nested list" );
Field::MultiField * m = dynamic_cast<Field::MultiField*>( list->last() );
m->setFields( currentList );
}
// if fieldCount == -1; we're done reading the top level fieldlist, so store it.
if ( fieldCount == -1 )
{
debug( "- finished reading ALL FIELDS!" );
m_collatingFields = currentList;
}
return true;
}
bool ResponseProtocol::readGroupWiseLine( TQCString & line )
{
line = TQCString();
while ( true )
{
TQ_UINT8 c;
if (! okToProceed() )
return false;
m_din >> c;
m_bytes++;
line += TQChar(c).latin1();
if ( c == '\n' )
break;
}
return true;
}
#include "responseprotocol.moc"
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