This release addresses the following issues:
1. The crash bug fix when receiving file
2. Now the sending is based on MSRP messages, there is no longer file receiving or sending. Client sends data as MSRP was designed.
3. Soma MSRP stack was created so that the client told the correct session-id, Symbian stack generated it by itself. This is not allowed, it was changed so that clients tell the session-id (same as used in SIP INVITE).
4. Unnecessary division of data to chunks removed when there is no need to interrupt sending. The message is sent in as few chunks as possible.
5. Stack can now receive files and chunks with ?unlimited? size. Old stack wrote the incoming data to memory and did not utilize disk space until the end of chunk was reached (large chunks from another client crashed it).
6. Now when writing the incoming data to file, it will take into account the byte-range header values. So, this complies with the RFC4975 requirements that stack must be able to handle chunks that come in any sequence.
7. Some buffering changes to outgoing/incoming data.
8. The outgoing data is now checked that it does not contain the created transaction-id before sending the data.
9. MSRP success reports are now implemented and tested against servers.
10. Progress report system fixed so progress is now visible on client (all the way to 100%).
11. Message Cancel receiving / Cancel sending now corrected and made to work as rfc4975 requires. (termination from sender and error code from receiver when cancelling).
12. Bug correction related to messages received not belonging to any session, old stack implementation did send error response, but after response was written it did give the buffer to client anyway. Now corrected.
/*
* Copyright (c) 2005 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description: implementation
*
*/
#include "tsrtpstreaminstatenormal.h"
#include "msrtpstreamincontext.h"
#include "msrtpcryptohandlercontext.h"
#include "msrtpcryptohandlercontextrtp.h"
#include "msrtpcryptohandlercontextrtcp.h"
#include "srtputils.h"
// ----------------------------------------------------------------------------
// TSRTPStreamInStateNormal::TSRTPStreamInStateNormal
// ----------------------------------------------------------------------------
//
TSRTPStreamInStateNormal::TSRTPStreamInStateNormal(
MSRTPStreamInContext& aStreamContext,
MSRTPCryptoHandlerContextRTP& aCryptoHandlerRTPContext,
MSRTPCryptoHandlerContextRTCP& aCryptoHandlerRTCPContext)
: TSRTPStreamInStateBase(aStreamContext,
aCryptoHandlerRTPContext,
aCryptoHandlerRTCPContext)
{
}
// ----------------------------------------------------------------------------
// TSRTPStreamInStateNormal::DoUnprotectSrtpL
// ----------------------------------------------------------------------------
//
HBufC8* TSRTPStreamInStateNormal::DoUnprotectSrtpL(const TDesC8& aPacket)
{
SRTP_DEBUG_DETAIL( "TSRTPStreamInStateNormal::DoUnprotectSrtpL ENTRY" );
SRTP_DEBUG_TINT_VALUE( "Encrypted PacketLength is", aPacket.Length() );
// first initialize current encrypted RTP packet..
iCryptoHandlerRTPContext.InitializeEncryptedPacketL(aPacket);
// Step 2 (in RFC 3711, section 3.3):
// count the packet index i
iCryptoHandlerRTPContext.CountReceiverPacketIndexL();
// check MKI if it is used
iCryptoHandlerRTPContext.CheckMasterKeyIdentifierL();
// derive session keys..
if (iCryptoHandlerRTPContext.MasterKeysUpdated())
{
iCryptoHandlerRTPContext.DeriveSessionKeysL();
}
// do the replay protection
iCryptoHandlerRTPContext.ReplayProtectionL();
// do the authentication (integrity check)
iCryptoHandlerRTPContext.AuthenticateL();
// decrypt..
HBufC8* decryptedPacket = iCryptoHandlerRTPContext.DecryptL();
// Step 7, conditional update s_l and ROC values..
// (in RFC 3711, section 3.3):
iCryptoHandlerRTPContext.Update_s_l_and_RocL();
iCryptoHandlerRTPContext.AddReplayIndex();
///Should check the next Packet Index and decide if need to be re-key
SRTP_DEBUG_TINT_VALUE( "the decrypted packet Length is", decryptedPacket->Length());
SRTP_DEBUG_DETAIL( "TSRTPStreamInStateNormal::DoUnprotectSrtpL EXIT" );
return decryptedPacket;
}
// ----------------------------------------------------------------------------
// TSRTPStreamInStateNormal::DoUnprotectSrtcpL
// ----------------------------------------------------------------------------
//
HBufC8* TSRTPStreamInStateNormal::DoUnprotectSrtcpL(const TDesC8& aPacket)
{
// first initialize current encrypted RTP packet..
iCryptoHandlerRTCPContext.InitializeEncryptedPacketL(aPacket);
//(in RFC 3711, section 3.4):
// count the packet index i
iCryptoHandlerRTCPContext.ReceiverPacketIndexL();
// check MKI if it is used
iCryptoHandlerRTCPContext.CheckMasterKeyIdentifierL();
// derive session keys..
if (iCryptoHandlerRTCPContext.MasterKeysUpdated())
{
iCryptoHandlerRTCPContext.DeriveSessionKeysL();
}
// do the replay protection
iCryptoHandlerRTCPContext.ReplayProtectionL();
// do the authentication (integrity check)
iCryptoHandlerRTCPContext.AuthenticateL();
// decrypt..
HBufC8* decryptedPacket = iCryptoHandlerRTCPContext.DecryptL();
iCryptoHandlerRTCPContext.AddReplayIndex();
///Should check the next Packet Index and decide if need to be re-key
//Set updateKey needed and then lateron compared the key if the key is the same then ignore packet
//implemented later
// return decrypted RTCP packet
return decryptedPacket;
}