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|
// ---------------------------------------------------------------------------80
// ICQ plugin for Miranda Instant Messenger
// ________________________________________
//
// Copyright © 2000-2001 Richard Hughes, Roland Rabien, Tristan Van de Vreede
// Copyright © 2001-2002 Jon Keating, Richard Hughes
// Copyright © 2002-2004 Martin Öberg, Sam Kothari, Robert Rainwater
// Copyright © 2004-2010 Joe Kucera
// Copyright © 2012-2014 Miranda NG Team
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
// -----------------------------------------------------------------------------
#include "icqoscar.h"
struct directthreadstartinfo
{
int type; // Only valid for outgoing connections
int incoming; // 1=incoming, 0=outgoing
HANDLE hConnection; // only valid for incoming connections, handle to the connection
MCONTACT hContact; // Only valid for outgoing connections
void* pvExtra; // Only valid for outgoing connections
};
static char client_check_data[] = {
"As part of this software beta version Mirabilis is "
"granting a limited access to the ICQ network, "
"servers, directories, listings, information and databases (\""
"ICQ Services and Information\"). The "
"ICQ Service and Information may databases (\""
"ICQ Services and Information\"). The "
"ICQ Service and Information may\0"
};
void CIcqProto::CloseContactDirectConns(MCONTACT hContact)
{
mir_cslock l(directConnListMutex);
for (int i = 0; i < directConns.getCount(); i++) {
if (!hContact || directConns[i]->hContact == hContact) {
HANDLE hConnection = directConns[i]->hConnection;
directConns[i]->hConnection = NULL; // do not allow reuse
NetLib_CloseConnection(&hConnection, FALSE);
}
}
}
directconnect* CIcqProto::FindFileTransferDC(filetransfer* ft)
{
directconnect* dc = NULL;
mir_cslock l(directConnListMutex);
for (int i = 0; i < directConns.getCount(); i++) {
if (directConns[i]->ft == ft) {
dc = directConns[i];
break;
}
}
return dc;
}
filetransfer* CIcqProto::FindExpectedFileRecv(DWORD dwUin, DWORD dwTotalSize)
{
filetransfer* pFt = NULL;
mir_cslock l(expectedFileRecvMutex);
for (int i = 0; i < expectedFileRecvs.getCount(); i++) {
if (expectedFileRecvs[i]->dwUin == dwUin && expectedFileRecvs[i]->dwTotalSize == dwTotalSize) {
pFt = expectedFileRecvs[i];
expectedFileRecvs.remove(i);
break;
}
}
return pFt;
}
int CIcqProto::sendDirectPacket(directconnect* dc, icq_packet* pkt)
{
int nResult = Netlib_Send(dc->hConnection, (const char*)pkt->pData, pkt->wLen + 2, 0);
if (nResult == SOCKET_ERROR) {
NetLog_Direct("Direct %p socket error: %d, closing", dc->hConnection, GetLastError());
CloseDirectConnection(dc);
}
SAFE_FREE((void**)&pkt->pData);
return nResult;
}
directthreadstartinfo* CreateDTSI(MCONTACT hContact, HANDLE hConnection, int type)
{
directthreadstartinfo *dtsi = (directthreadstartinfo*)SAFE_MALLOC(sizeof(directthreadstartinfo));
dtsi->hContact = hContact;
dtsi->hConnection = hConnection;
if (type == -1)
dtsi->incoming = 1;
else
dtsi->type = type;
return dtsi;
}
// Check if we have an open and initialized DC with type
// 'type' to the specified contact
BOOL CIcqProto::IsDirectConnectionOpen(MCONTACT hContact, int type, int bPassive)
{
BOOL bIsOpen = FALSE, bIsCreated = FALSE;
{
mir_cslock l(directConnListMutex);
for (int i = 0; i < directConns.getCount(); i++) {
if (directConns[i] && (directConns[i]->type == type)) {
if (directConns[i]->hContact == hContact)
if (directConns[i]->initialised) {
// Connection is OK
bIsOpen = TRUE;
// we are going to use the conn, so prevent timeout
directConns[i]->packetPending = 1;
break;
}
else
bIsCreated = TRUE; // we found pending connection
}
}
}
if (!bPassive && !bIsCreated && !bIsOpen && type == DIRECTCONN_STANDARD && m_bDCMsgEnabled == 2) { // do not try to open DC to offline contact
if (getContactStatus(hContact) == ID_STATUS_OFFLINE) return FALSE;
// do not try to open DC if previous attempt was not successfull
if (getByte(hContact, "DCStatus", 0)) return FALSE;
// Set DC status as tried
setByte(hContact, "DCStatus", 1);
// Create a new connection
OpenDirectConnection(hContact, DIRECTCONN_STANDARD, NULL);
}
return bIsOpen;
}
// This function is called from the Netlib when someone is connecting to
// one of our incomming DC ports
void icq_newConnectionReceived(HANDLE hNewConnection, DWORD, void *pExtra)
{
// Start a new thread for the incomming connection
CIcqProto* ppro = (CIcqProto*)pExtra;
ppro->ForkThread((CIcqProto::MyThreadFunc)&CIcqProto::icq_directThread, CreateDTSI(NULL, hNewConnection, -1));
}
// Opens direct connection of specified type to specified contact
void CIcqProto::OpenDirectConnection(MCONTACT hContact, int type, void* pvExtra)
{
// Create a new connection
directthreadstartinfo* dtsi = CreateDTSI(hContact, NULL, type);
dtsi->pvExtra = pvExtra;
ForkThread((MyThreadFunc)&CIcqProto::icq_directThread, dtsi);
}
// Safely close NetLib connection - do not corrupt direct connection list
void CIcqProto::CloseDirectConnection(directconnect *dc)
{
mir_cslock l(directConnListMutex);
NetLib_CloseConnection(&dc->hConnection, FALSE);
if (dc->hConnection)
NetLog_Direct("Direct conn closed (%p)", dc->hConnection);
}
// Called from icq_newConnectionReceived when a new incomming dc is done
// Called from OpenDirectConnection when a new outgoing dc is done
// Called from SendDirectMessage when a new outgoing dc is done
void __cdecl CIcqProto::icq_directThread(directthreadstartinfo *dtsi)
{
directconnect dc = { 0 };
NETLIBPACKETRECVER packetRecv = { 0 };
HANDLE hPacketRecver;
BOOL bFirstPacket = TRUE;
size_t nSkipPacketBytes = 0;
DWORD dwReqMsgID1 = 0, dwReqMsgID2 = 0;
srand(time(NULL));
{
// add to DC connection list
mir_cslock l(directConnListMutex);
directConns.insert(&dc);
}
// Initialize DC struct
dc.hContact = dtsi->hContact;
dc.dwThreadId = GetCurrentThreadId();
dc.incoming = dtsi->incoming;
dc.hConnection = dtsi->hConnection;
dc.ft = NULL;
if (!dc.incoming) {
dc.type = dtsi->type;
dc.dwRemoteExternalIP = getDword(dtsi->hContact, "IP", 0);
dc.dwRemoteInternalIP = getDword(dtsi->hContact, "RealIP", 0);
dc.dwRemotePort = getWord(dtsi->hContact, "UserPort", 0);
dc.dwRemoteUin = getContactUin(dtsi->hContact);
dc.dwConnectionCookie = getDword(dtsi->hContact, "DirectCookie", 0);
dc.wVersion = getWord(dtsi->hContact, "Version", 0);
if (!dc.dwRemoteExternalIP && !dc.dwRemoteInternalIP) { // we do not have any ip, do not try to connect
SAFE_FREE((void**)&dtsi);
goto LBL_Exit;
}
if (!dc.dwRemotePort) { // we do not have port, do not try to connect
SAFE_FREE((void**)&dtsi);
goto LBL_Exit;
}
if (dc.type == DIRECTCONN_STANDARD) {
// do nothing - some specific init for msg sessions
}
else if (dc.type == DIRECTCONN_FILE) {
dc.ft = (filetransfer*)dtsi->pvExtra;
dc.dwRemotePort = dc.ft->dwRemotePort;
}
else if (dc.type == DIRECTCONN_REVERSE) {
cookie_reverse_connect *pCookie = (cookie_reverse_connect*)dtsi->pvExtra;
dwReqMsgID1 = pCookie->dwMsgID1;
dwReqMsgID2 = pCookie->dwMsgID2;
dc.dwReqId = (DWORD)pCookie->ft;
SAFE_FREE((void**)&pCookie);
}
}
else dc.type = DIRECTCONN_STANDARD;
SAFE_FREE((void**)&dtsi);
// Load local IP information
dc.dwLocalExternalIP = getDword("IP", 0);
dc.dwLocalInternalIP = getDword("RealIP", 0);
// Create outgoing DC
if (!dc.incoming) {
NETLIBOPENCONNECTION nloc = { 0 };
IN_ADDR addr = { 0 }, addr2 = { 0 };
if (dc.dwRemoteExternalIP == dc.dwLocalExternalIP && dc.dwRemoteInternalIP)
addr.S_un.S_addr = htonl(dc.dwRemoteInternalIP);
else {
addr.S_un.S_addr = htonl(dc.dwRemoteExternalIP);
// for different internal, try it also (for LANs with multiple external IP, VPNs, etc.)
if (dc.dwRemoteInternalIP != dc.dwRemoteExternalIP)
addr2.S_un.S_addr = htonl(dc.dwRemoteInternalIP);
}
// IP to connect to is empty, go away
if (!addr.S_un.S_addr)
goto LBL_Exit;
nloc.szHost = inet_ntoa(addr);
nloc.wPort = (WORD)dc.dwRemotePort;
nloc.timeout = 8; // 8 secs to connect
dc.hConnection = NetLib_OpenConnection(m_hDirectNetlibUser, dc.type == DIRECTCONN_REVERSE ? "Reverse " : NULL, &nloc);
if (!dc.hConnection && addr2.S_un.S_addr) { // first address failed, try second one if available
nloc.szHost = inet_ntoa(addr2);
dc.hConnection = NetLib_OpenConnection(m_hDirectNetlibUser, dc.type == DIRECTCONN_REVERSE ? "Reverse " : NULL, &nloc);
}
if (!dc.hConnection) {
if (CheckContactCapabilities(dc.hContact, CAPF_ICQDIRECT)) { // only if the contact support ICQ DC connections
if (dc.type != DIRECTCONN_REVERSE) { // try reverse connect
cookie_reverse_connect *pCookie = (cookie_reverse_connect*)SAFE_MALLOC(sizeof(cookie_reverse_connect));
DWORD dwCookie;
NetLog_Direct("connect() failed (%d), trying reverse.", GetLastError());
if (pCookie) { // init cookie
InitMessageCookie(pCookie);
pCookie->bMessageType = MTYPE_REVERSE_REQUEST;
pCookie->hContact = dc.hContact;
pCookie->dwUin = dc.dwRemoteUin;
pCookie->type = dc.type;
pCookie->ft = dc.ft;
dwCookie = AllocateCookie(CKT_REVERSEDIRECT, 0, dc.hContact, pCookie);
icq_sendReverseReq(&dc, dwCookie, (cookie_message_data*)pCookie);
goto LBL_Exit;
}
NetLog_Direct("Reverse failed (%s)", "malloc failed");
}
}
else // Set DC status to failed
setByte(dc.hContact, "DCStatus", 2);
if (dc.type == DIRECTCONN_REVERSE) // failed reverse connection
icq_sendReverseFailed(&dc, dwReqMsgID1, dwReqMsgID2, dc.dwReqId);
NetLog_Direct("connect() failed (%d)", GetLastError());
if (dc.type == DIRECTCONN_FILE) {
ProtoBroadcastAck(dc.ft->hContact, ACKTYPE_FILE, ACKRESULT_FAILED, dc.ft, 0);
// Release transfer
SafeReleaseFileTransfer((void**)&dc.ft);
}
goto LBL_Exit;
}
if (dc.type == DIRECTCONN_FILE)
dc.ft->hConnection = dc.hConnection;
if (dc.wVersion > 6)
sendPeerInit_v78(&dc);
else {
NetLog_Direct("Error: Unsupported direct protocol: %d, closing.", dc.wVersion);
CloseDirectConnection(&dc);
goto LBL_Exit;
}
}
hPacketRecver = (HANDLE)CallService(MS_NETLIB_CREATEPACKETRECVER, (WPARAM)dc.hConnection, 8192);
packetRecv.cbSize = sizeof(packetRecv);
packetRecv.bytesUsed = 0;
// Packet receiving loop
while (dc.hConnection) {
packetRecv.dwTimeout = dc.wantIdleTime ? 0 : 600000;
int recvResult = CallService(MS_NETLIB_GETMOREPACKETS, (WPARAM)hPacketRecver, (LPARAM)&packetRecv);
if (recvResult == 0) {
NetLog_Direct("Clean closure of direct socket (%p)", dc.hConnection);
break;
}
if (recvResult == SOCKET_ERROR) {
if (GetLastError() == ERROR_TIMEOUT) { // TODO: this will not work on some systems
if (dc.wantIdleTime) {
switch (dc.type) {
case DIRECTCONN_FILE:
handleFileTransferIdle(&dc);
break;
}
}
else if (dc.packetPending) { // do we expect packet soon?
NetLog_Direct("Keeping connection, packet pending.");
}
else {
NetLog_Direct("Connection inactive for 10 minutes, closing.");
break;
}
}
else {
NetLog_Direct("Abortive closure of direct socket (%p) (%d)", dc.hConnection, GetLastError());
break;
}
}
if (dc.type == DIRECTCONN_CLOSING)
packetRecv.bytesUsed = packetRecv.bytesAvailable;
else if (packetRecv.bytesAvailable < (int)nSkipPacketBytes) { // the whole buffer needs to be skipped
nSkipPacketBytes -= packetRecv.bytesAvailable;
packetRecv.bytesUsed = packetRecv.bytesAvailable;
}
else {
size_t i;
for (i = nSkipPacketBytes, nSkipPacketBytes = 0; (int)i + 2 <= packetRecv.bytesAvailable;) {
size_t wLen = *(WORD*)(packetRecv.buffer + i);
if (bFirstPacket) {
if (wLen > 64) { // roughly check first packet size
NetLog_Direct("Error: Overflowed packet, closing connection.");
CloseDirectConnection(&dc);
break;
}
bFirstPacket = FALSE;
}
else if (packetRecv.bytesAvailable >= (int)i + 2 && wLen > 8190) { // check for too big packages
NetLog_Direct("Error: Package too big: %d bytes, skipping.");
nSkipPacketBytes = wLen;
packetRecv.bytesUsed = int(i + 2);
break;
}
if (wLen + 2 + i > (size_t)packetRecv.bytesAvailable)
break;
if (dc.type == DIRECTCONN_STANDARD && wLen && packetRecv.buffer[i + 2] == 2) {
if (!DecryptDirectPacket(&dc, packetRecv.buffer + i + 3, wLen - 1)) {
NetLog_Direct("Error: Corrupted packet encryption, ignoring packet");
i += wLen + 2;
continue;
}
}
if (dc.type == DIRECTCONN_FILE && dc.initialised)
handleFileTransferPacket(&dc, packetRecv.buffer + i + 2, wLen);
else
handleDirectPacket(&dc, packetRecv.buffer + i + 2, wLen);
i += wLen + 2;
}
packetRecv.bytesUsed = (int)i;
}
}
// End of packet receiving loop
NetLib_SafeCloseHandle(&hPacketRecver);
CloseDirectConnection(&dc);
if (dc.ft) {
if (dc.ft->fileId != -1) {
_close(dc.ft->fileId);
ProtoBroadcastAck(dc.ft->hContact, ACKTYPE_FILE, dc.ft->dwBytesDone == dc.ft->dwTotalSize ? ACKRESULT_SUCCESS : ACKRESULT_FAILED, dc.ft, 0);
}
else if (dc.ft->hConnection)
ProtoBroadcastAck(dc.ft->hContact, ACKTYPE_FILE, ACKRESULT_FAILED, dc.ft, 0);
SafeReleaseFileTransfer((void**)&dc.ft);
_chdir("\\"); /* so we don't leave a subdir handle open so it can't be deleted */
}
LBL_Exit:
// remove from DC connection list
mir_cslock l(directConnListMutex);
directConns.remove(&dc);
}
void CIcqProto::handleDirectPacket(directconnect* dc, PBYTE buf, size_t wLen)
{
if (wLen < 1)
return;
switch (buf[0]) {
case PEER_FILE_INIT: // first packet of a file transfer
NetLog_Direct("Received PEER_FILE_INIT from %u", dc->dwRemoteUin);
if (dc->handshake)
handleFileTransferPacket(dc, buf, wLen);
else
NetLog_Direct("Received %s on uninitialised DC, ignoring.", "PEER_FILE_INIT");
break;
case PEER_INIT_ACK: // This is sent as a response to our PEER_INIT packet
if (wLen != 4) {
NetLog_Direct("Error: Received malformed PEER_INITACK from %u", dc->dwRemoteUin);
break;
}
NetLog_Direct("Received PEER_INITACK from %u on %s DC", dc->dwRemoteUin, dc->incoming ? "incoming" : "outgoing");
if (dc->incoming) dc->handshake = 1;
if (dc->incoming && dc->type == DIRECTCONN_REVERSE) {
dc->incoming = 0;
cookie_reverse_connect *pCookie;
if (FindCookie(dc->dwReqId, NULL, (void**)&pCookie) && pCookie) { // valid reverse DC, check and init session
FreeCookie(dc->dwReqId);
if (pCookie->dwUin == dc->dwRemoteUin) { // valid connection
dc->type = pCookie->type;
dc->ft = (filetransfer*)pCookie->ft;
dc->hContact = pCookie->hContact;
if (dc->type == DIRECTCONN_STANDARD) { // init message session
sendPeerMsgInit(dc, 0);
}
else if (dc->type == DIRECTCONN_FILE) { // init file session
sendPeerFileInit(dc);
dc->initialised = 1;
}
SAFE_FREE((void**)&pCookie);
break;
}
else {
SAFE_FREE((void**)&pCookie);
NetLog_Direct("Error: Invalid connection (UINs does not match).");
CloseDirectConnection(dc);
return;
}
}
else {
NetLog_Direct("Error: Received unexpected reverse DC, closing.");
CloseDirectConnection(dc);
return;
}
}
break;
case PEER_INIT: /* connect packet */
NetLog_Direct("Received PEER_INIT");
buf++;
if (wLen < 3)
return;
unpackLEWord(&buf, &dc->wVersion);
if (dc->wVersion > 6) { // we support only versions 7 and up
DWORD dwUin;
DWORD dwPort;
DWORD dwCookie;
MCONTACT hContact = 0;
if (wLen != 0x30) {
NetLog_Direct("Error: Received malformed PEER_INIT");
return;
}
size_t wSecondLen;
unpackLEWord(&buf, &wSecondLen);
if (wSecondLen && wSecondLen != 0x2b) { // OMG? GnomeICU sets this to zero
NetLog_Direct("Error: Received malformed PEER_INIT");
return;
}
unpackLEDWord(&buf, &dwUin);
if (dwUin != m_dwLocalUIN) {
NetLog_Direct("Error: Received PEER_INIT targeted to %u", dwUin);
CloseDirectConnection(dc);
return;
}
buf += 2; /* 00 00 */
unpackLEDWord(&buf, &dc->dwRemotePort);
unpackLEDWord(&buf, &dc->dwRemoteUin);
unpackDWord(&buf, &dc->dwRemoteExternalIP);
unpackDWord(&buf, &dc->dwRemoteInternalIP);
buf++; /* 04: accept direct connections */
unpackLEDWord(&buf, &dwPort);
if (dwPort != dc->dwRemotePort) {
NetLog_Direct("Error: Received malformed PEER_INIT (invalid port)");
return;
}
unpackLEDWord(&buf, &dwCookie);
buf += 8; // Unknown stuff
unpackLEDWord(&buf, &dc->dwReqId);
if (dc->dwRemoteUin || !dc->dwReqId) { // OMG! Licq sends on reverse connection empty uin
hContact = HContactFromUIN(dc->dwRemoteUin, NULL);
if (hContact == INVALID_CONTACT_ID) {
NetLog_Direct("Error: Received PEER_INIT from %u not on my list", dwUin);
CloseDirectConnection(dc);
return; /* don't allow direct connection with people not on my clist */
}
if (dc->incoming) { // this is the first PEER_INIT with our cookie
if (dwCookie != getDword(hContact, "DirectCookie", 0)) {
NetLog_Direct("Error: Received PEER_INIT with broken cookie");
CloseDirectConnection(dc);
return;
}
}
else { // this is the second PEER_INIT with peer cookie
if (dwCookie != dc->dwConnectionCookie) {
NetLog_Direct("Error: Received PEER_INIT with broken cookie");
CloseDirectConnection(dc);
return;
}
}
}
if (dc->incoming && dc->dwReqId) { // this is reverse connection
dc->type = DIRECTCONN_REVERSE;
if (!dc->dwRemoteUin) { // we need to load cookie (licq)
cookie_reverse_connect *pCookie;
if (FindCookie(dc->dwReqId, NULL, (void**)&pCookie) && pCookie) { // valid reverse DC, check and init session
dc->dwRemoteUin = pCookie->dwUin;
dc->hContact = pCookie->hContact;
}
else {
NetLog_Direct("Error: Received unexpected reverse DC, closing.");
CloseDirectConnection(dc);
return;
}
}
}
sendPeerInitAck(dc); // ack good PEER_INIT packet
if (dc->incoming) { // store good IP info
dc->hContact = hContact;
dc->dwConnectionCookie = dwCookie;
setDword(dc->hContact, "IP", dc->dwRemoteExternalIP);
setDword(dc->hContact, "RealIP", dc->dwRemoteInternalIP);
sendPeerInit_v78(dc); // reply with our PEER_INIT
}
else { // outgoing
dc->handshake = 1;
if (dc->type == DIRECTCONN_REVERSE) {
dc->incoming = 1; // this is incoming reverse connection
dc->type = DIRECTCONN_STANDARD; // we still do not know type
}
else if (dc->type == DIRECTCONN_STANDARD) { // send PEER_MSGINIT
sendPeerMsgInit(dc, 0);
}
else if (dc->type == DIRECTCONN_FILE) {
sendPeerFileInit(dc);
dc->initialised = 1;
}
}
// Set DC Status to successful
setByte(dc->hContact, "DCStatus", 0);
}
else {
NetLog_Direct("Unsupported direct protocol: %d, closing connection", dc->wVersion);
CloseDirectConnection(dc);
}
break;
case PEER_MSG: /* messaging packets */
NetLog_Direct("Received PEER_MSG from %u", dc->dwRemoteUin);
if (dc->initialised)
handleDirectMessage(dc, buf+1, wLen-1);
else
NetLog_Direct("Received %s on uninitialised DC, ignoring.", "PEER_MSG");
break;
case PEER_MSG_INIT: /* init message connection */
// it is sent by both contains GUID of message channel
if (!m_bDCMsgEnabled) { // DC messaging disabled, close connection
NetLog_Direct("Messaging DC requested, denied");
CloseDirectConnection(dc);
break;
}
NetLog_Direct("Received PEER_MSG_INIT from %u", dc->dwRemoteUin);
buf++;
if (wLen != 0x21)
break;
if (!dc->handshake) {
NetLog_Direct("Received %s on unitialised DC, ignoring.", "PEER_MSG_INIT");
break;
}
{
DWORD q1, q2, q3, q4;
buf += 4; /* always 10 */
buf += 4; /* some id */
buf += 4; /* sequence - always 0 on incoming */
unpackDWord(&buf, &q1); // session type GUID
unpackDWord(&buf, &q2);
if (!dc->incoming) // skip marker on sequence 1
buf += 4;
unpackDWord(&buf, &q3);
unpackDWord(&buf, &q4);
if (!CompareGUIDs(q1, q2, q3, q4, PSIG_MESSAGE)) { // This is not for normal messages, useless so kill.
if (CompareGUIDs(q1, q2, q3, q4, PSIG_STATUS_PLUGIN))
NetLog_Direct("Status Manager Plugin connections not supported, closing.");
else if (CompareGUIDs(q1, q2, q3, q4, PSIG_INFO_PLUGIN))
NetLog_Direct("Info Manager Plugin connection not supported, closing.");
else
NetLog_Direct("Unknown connection type init, closing.");
CloseDirectConnection(dc);
break;
}
}
if (dc->incoming) // reply with our PEER_MSG_INIT
sendPeerMsgInit(dc, 1);
NetLog_Direct("Direct message session ready.");
dc->initialised = 1;
break;
default:
NetLog_Direct("Unknown direct packet ignored.");
break;
}
}
void EncryptDirectPacket(directconnect* dc, icq_packet* p)
{
unsigned long B1;
unsigned long M1;
unsigned long check;
unsigned int i;
unsigned char X1;
unsigned char X2;
unsigned char X3;
unsigned char* buf = (unsigned char*)(p->pData + 3);
unsigned char bak[6];
unsigned long offset;
unsigned long key;
unsigned long hex;
unsigned long size = p->wLen - 1;
if (dc->wVersion < 4)
return; // no encryption necessary.
switch (dc->wVersion) {
case 4:
case 5:
offset = 6;
break;
default:
offset = 0;
}
// calculate verification data
M1 = (rand() % ((size < 255 ? size : 255) - 10)) + 10;
X1 = buf[M1] ^ 0xFF;
X2 = rand() % 220;
X3 = client_check_data[X2] ^ 0xFF;
if (offset) {
memcpy(bak, buf, sizeof(bak));
B1 = (buf[offset + 4] << 24) | (buf[offset + 6] << 16) | (buf[2] << 8) | buf[0];
}
else B1 = (buf[4] << 24) | (buf[6] << 16) | (buf[4] << 8) | (buf[6]);
// calculate checkcode
check = (M1 << 24) | (X1 << 16) | (X2 << 8) | X3;
check ^= B1;
// main XOR key
key = 0x67657268 * size + check;
// XORing the actual data
for (i = 0; i < (size + 3) / 4; i += 4) {
hex = key + client_check_data[i & 0xFF];
*(PDWORD)(buf + i) ^= hex;
}
// in TCPv4 are the first 6 bytes unencrypted
// so restore them
if (offset)
memcpy(buf, bak, sizeof(bak));
// storing the checkcode
*(PDWORD)(buf + offset) = check;
}
int DecryptDirectPacket(directconnect* dc, PBYTE buf, size_t wLen)
{
unsigned long hex;
unsigned long B1;
unsigned long M1;
unsigned int i;
unsigned char X1;
unsigned char X2;
unsigned char X3;
unsigned char bak[6];
unsigned long size = (unsigned long)wLen;
if (dc->wVersion < 4)
return 1; // no decryption necessary.
if (size < 4)
return 1;
if (dc->wVersion < 4)
return 1;
// backup the first 6 bytes
unsigned long offset = (dc->wVersion == 4 || dc->wVersion == 5) ? 6 : 0;
if (offset)
memcpy(bak, buf, sizeof(bak));
// retrieve checkcode
unsigned long check = *(PDWORD)(buf + offset);
// main XOR key
unsigned long key = 0x67657268 * size + check;
for (i = 4; i < (size + 3) / 4; i += 4) {
hex = key + client_check_data[i & 0xFF];
*(PDWORD)(buf + i) ^= hex;
}
// retrive validate data
if (offset) {
// in TCPv4 are the first 6 bytes unencrypted
// so restore them
memcpy(buf, bak, sizeof(bak));
B1 = (buf[offset + 4] << 24) | (buf[offset + 6] << 16) | (buf[2] << 8) | buf[0];
}
else B1 = (buf[4] << 24) | (buf[6] << 16) | (buf[4] << 8) | (buf[6] << 0);
// special decryption
B1 ^= check;
// validate packet
M1 = (B1 >> 24) & 0xFF;
if (M1 < 10 || M1 >= size)
return 0;
X1 = buf[M1] ^ 0xFF;
if (((B1 >> 16) & 0xFF) != X1)
return 0;
X2 = (BYTE)((B1 >> 8) & 0xFF);
if (X2 < 220) {
X3 = client_check_data[X2] ^ 0xFF;
if ((B1 & 0xFF) != X3)
return 0;
}
return 1;
}
// This should be called only if connection already exists
int CIcqProto::SendDirectMessage(MCONTACT hContact, icq_packet *pkt)
{
mir_cslock l(directConnListMutex);
for (int i = 0; i < directConns.getCount(); i++) {
if (directConns[i] == NULL)
continue;
if (directConns[i]->hContact == hContact) {
if (directConns[i]->initialised) {
// This connection can be reused, send packet and exit
NetLog_Direct("Sending direct message");
if (pkt->pData[2] == 2)
EncryptDirectPacket(directConns[i], pkt);
sendDirectPacket(directConns[i], pkt);
directConns[i]->packetPending = 0; // packet done
return TRUE; // Success
}
break; // connection not ready, use server instead
}
}
return FALSE; // connection pending, we failed, use server instead
}
// Sends a PEER_INIT packet through a DC
// -----------------------------------------------------------------------
// This packet is sent during direct connection initialization between two
// ICQ clients. It is sent by the originator of the connection to start
// the handshake and by the receiver directly after it has sent the
// PEER_ACK packet as a reply to the originator's PEER_INIT. The values
// after the COOKIE field have been added for v7.
void CIcqProto::sendPeerInit_v78(directconnect* dc)
{
icq_packet packet;
directPacketInit(&packet, 48);
packByte(&packet, PEER_INIT); // Command
packLEWord(&packet, dc->wVersion); // Version
packLEWord(&packet, 43); // Data length
packLEDWord(&packet, dc->dwRemoteUin); // UIN of remote user
packWord(&packet, 0); // Unknown
packLEDWord(&packet, wListenPort); // Our port
packLEDWord(&packet, m_dwLocalUIN); // Our UIN
packDWord(&packet, dc->dwLocalExternalIP); // Our external IP
packDWord(&packet, dc->dwLocalInternalIP); // Our internal IP
packByte(&packet, DC_TYPE); // TCP connection flags
packLEDWord(&packet, wListenPort); // Our port
packLEDWord(&packet, dc->dwConnectionCookie); // DC cookie
packLEDWord(&packet, WEBFRONTPORT); // Unknown
packLEDWord(&packet, CLIENTFEATURES); // Unknown
if (dc->type == DIRECTCONN_REVERSE)
packLEDWord(&packet, dc->dwReqId); // Reverse Request Cookie
else
packDWord(&packet, 0); // Unknown
sendDirectPacket(dc, &packet);
NetLog_Direct("Sent PEER_INIT to %u on %s DC", dc->dwRemoteUin, dc->incoming ? "incoming" : "outgoing");
}
// Sends a PEER_INIT packet through a DC
// -----------------------------------------------------------------------
// This is sent to acknowledge a PEER_INIT packet.
void CIcqProto::sendPeerInitAck(directconnect* dc)
{
icq_packet packet;
directPacketInit(&packet, 4); // Packet length
packLEDWord(&packet, PEER_INIT_ACK); //
sendDirectPacket(dc, &packet);
NetLog_Direct("Sent PEER_INIT_ACK to %u on %s DC", dc->dwRemoteUin, dc->incoming ? "incoming" : "outgoing");
}
// Sends a PEER_MSG_INIT packet through a DC
// -----------------------------------------------------------------------
// This packet starts message session.
void CIcqProto::sendPeerMsgInit(directconnect* dc, DWORD dwSeq)
{
icq_packet packet;
directPacketInit(&packet, 33);
packByte(&packet, PEER_MSG_INIT);
packLEDWord(&packet, 10); // unknown
packLEDWord(&packet, 1); // message connection
packLEDWord(&packet, dwSeq); // sequence is 0,1
if (!dwSeq) {
packGUID(&packet, PSIG_MESSAGE); // message type GUID
packLEWord(&packet, 1); // delimiter
packLEWord(&packet, 4);
}
else {
packDWord(&packet, 0); // first part of Message GUID
packDWord(&packet, 0);
packLEWord(&packet, 1); // delimiter
packLEWord(&packet, 4);
packDWord(&packet, 0); // second part of Message GUID
packDWord(&packet, 0);
}
sendDirectPacket(dc, &packet);
NetLog_Direct("Sent PEER_MSG_INIT to %u on %s DC", dc->dwRemoteUin, dc->incoming ? "incoming" : "outgoing");
}
// Sends a PEER_FILE_INIT packet through a DC
// -----------------------------------------------------------------------
// This packet configures file-transfer session.
void CIcqProto::sendPeerFileInit(directconnect* dc)
{
ptrA tmp(getStringA("Nick"));
char *szNick = NEWSTR_ALLOCA((tmp == NULL) ? "" : tmp);
size_t nNickLen = mir_strlen(szNick);
icq_packet packet;
directPacketInit(&packet, 20 + nNickLen);
packByte(&packet, PEER_FILE_INIT); /* packet type */
packLEDWord(&packet, 0); /* unknown */
packLEDWord(&packet, dc->ft->dwFileCount);
packLEDWord(&packet, dc->ft->dwTotalSize);
packLEDWord(&packet, dc->ft->dwTransferSpeed);
packLEWord(&packet, WORD(nNickLen + 1));
packBuffer(&packet, (LPBYTE)szNick, nNickLen + 1);
sendDirectPacket(dc, &packet);
NetLog_Direct("Sent PEER_FILE_INIT to %u on %s DC", dc->dwRemoteUin, dc->incoming ? "incoming" : "outgoing");
}
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