// SoftEther VPN Source Code - Developer Edition Master Branch // Cedar Communication Module // Session.c // Session Manager #include "CedarPch.h" // Main routine of the session void SessionMain(SESSION *s) { CONNECTION *c; POLICY *policy; UINT64 now; UINT i = 0; PACKET_ADAPTER *pa; bool pa_inited = false; UINT packet_size; void *packet; bool packet_put; bool pa_fail = false; UINT test = 0; bool update_hub_last_comm = false; UINT err = ERR_SESSION_TIMEOUT; UINT64 next_black_list_check = 0; UINT64 next_update_hub_last_comm = 0; UINT64 auto_disconnect_tick = 0; bool block_all_packets = false; UINT64 next_check_block_all_packets = 0; TRAFFIC t; SOCK *msgdlg_sock = NULL; SOCK *nicinfo_sock = NULL; bool is_server_session = false; bool lock_receive_blocks_queue = false; // Validate arguments if (s == NULL) { return; } Debug("SessionMain: %s\n", s->Name); Notify(s, CLIENT_NOTIFY_ACCOUNT_CHANGED); // Generate a string from the session key BinToStr(s->SessionKeyStr, sizeof(s->SessionKeyStr), s->SessionKey, sizeof(s->SessionKey)); // Reset the number of retries s->CurrentRetryCount = 0; s->ConnectSucceed = true; s->SessionTimeOuted = false; s->NumDisconnected = 0; c = s->Connection; policy = s->Policy; // Initialize the packet adapter #ifdef OS_WIN32 if (s->IsVPNClientAndVLAN_Win32) { MsBeginVLanCard(); if (MsIsVLanCardShouldStop()) { err = ERR_SUSPENDING; goto CLEANUP; } } #endif // OS_WIN32 pa = s->PacketAdapter; if (pa->Init(s) == false) { // Initialization Failed if (s->VLanDeviceErrorCount >= 2) { s->ForceStopFlag = true; } else { s->VLanDeviceErrorCount++; } err = ERR_DEVICE_DRIVER_ERROR; goto CLEANUP; } pa_inited = true; if (s->BridgeMode == false) { s->Cancel2 = pa->GetCancel(s); } else { CANCEL *c = pa->GetCancel(s); CANCEL *old = s->Cancel1; s->Cancel1 = c; ReleaseCancel(old); } s->RetryFlag = false; s->LastCommTime = Tick64(); if (s->ServerMode == false) { s->NextConnectionTime = Tick64() + (UINT64)((UINT64)s->ClientOption->AdditionalConnectionInterval * (UINT64)1000); } s->NumConnectionsEstablished++; s->CurrentConnectionEstablishTime = Tick64(); if (s->FirstConnectionEstablisiedTime == 0) /* !!! Do not correct the spelling to keep the backward protocol compatibility !!! */ { s->FirstConnectionEstablisiedTime = Tick64(); /* !!! Do not correct the spelling to keep the backward protocol compatibility !!! */ } if (s->ServerMode == false && s->Cedar->Client != NULL) { if (s->Policy != NULL) { if (s->Policy->AutoDisconnect) { auto_disconnect_tick = s->CurrentConnectionEstablishTime + (UINT64)s->Policy->AutoDisconnect * 1000ULL; } } } s->LastIncrementTraffic = Tick64(); c->Err = ERR_SESSION_TIMEOUT; s->VLanDeviceErrorCount = 0; s->LastTryAddConnectTime = Tick64(); Notify(s, CLIENT_NOTIFY_ACCOUNT_CHANGED); if (policy != NULL) { // Determine the mode by referencing the contents of the policy if (policy->MonitorPort) { s->IsMonitorMode = true; } if (policy->NoRouting == false || policy->NoBridge == false) { s->IsBridgeMode = true; } } if (s->ServerMode == false && s->Cedar->Client != NULL) { if (IsEmptyUniStr(s->Client_Message) == false) { UI_MSG_DLG dlg; Zero(&dlg, sizeof(dlg)); if (s->ClientOption != NULL) { StrCpy(dlg.HubName, sizeof(dlg.HubName), s->ClientOption->HubName); StrCpy(dlg.ServerName, sizeof(dlg.ServerName), s->ClientOption->Hostname); } dlg.Msg = s->Client_Message; msgdlg_sock = CncMsgDlg(&dlg); } if (s->Win32HideNicInfoWindow == false) { UI_NICINFO info; Zero(&info, sizeof(info)); if (s->ClientOption != NULL) { StrCpy(info.NicName, sizeof(info.NicName), s->ClientOption->DeviceName); UniStrCpy(info.AccountName, sizeof(info.AccountName), s->ClientOption->AccountName); } nicinfo_sock = CncNicInfo(&info); } } is_server_session = s->ServerMode; lock_receive_blocks_queue = s->LinkModeServer; now = Tick64(); while (true) { Zero(&t, sizeof(t)); if (next_update_hub_last_comm == 0 || (next_update_hub_last_comm <= now)) { next_update_hub_last_comm = now + 1000; if (s->Hub != NULL) { if (update_hub_last_comm) { Lock(s->Hub->lock); { s->Hub->LastCommTime = SystemTime64(); } Unlock(s->Hub->lock); update_hub_last_comm = false; } } } if (is_server_session && s->LinkModeServer == false && s->SecureNATMode == false && s->BridgeMode == false && s->L3SwitchMode == false) { if (s->Hub != NULL && s->Hub->ForceDisableComm) { // Disconnect the session forcibly because the ForceDisableComm flag is set err = ERR_SERVER_CANT_ACCEPT; pa_fail = true; } } if (s->InProcMode) { if (c->TubeSock == NULL || IsTubeConnected(c->TubeSock->SendTube) == false || IsTubeConnected(c->TubeSock->RecvTube) == false) { // Disconnection occurs in the in-process mode err = ERR_DISCONNECTED; pa_fail = true; } } if (s->IsRUDPSession) { if (s->NumDisconnected >= 1 && s->EnableUdpRecovery == false) { // Disconnection occurs in the R-UDP session (UDP recovery is invalid) err = ERR_DISCONNECTED; pa_fail = true; } } // Chance of additional connection if (is_server_session == false) { if (GetGlobalServerFlag(GSF_DISABLE_SESSION_RECONNECT) == false) { ClientAdditionalConnectChance(s); } } // Receive a block ConnectionReceive(c, s->Cancel1, s->Cancel2); // Get the current time now = Tick64(); if (s->UseUdpAcceleration && s->UdpAccel != NULL && s->UdpAccel->FatalError) { // A serious error occurs during sending any data on UDP socket // in the case of using UDP acceleration function err = ERR_DISCONNECTED; pa_fail = true; } #ifdef OS_WIN32 if (s->IsVPNClientAndVLAN_Win32) { if (MsIsVLanCardShouldStop()) { // System is suspending err = ERR_SUSPENDING; pa_fail = true; } } #endif // OS_WIN32 // Pass the received block to the PacketAdapter if (lock_receive_blocks_queue) { LockQueue(c->ReceivedBlocks); } { BLOCK *b; packet_put = false; while (true) { b = GetNext(c->ReceivedBlocks); if (b == NULL) { break; } PROBE_DATA2("GetNext", b->Buf, b->Size); update_hub_last_comm = true; if (b->Size >= 14) { if (b->Buf[0] & 0x01) { if (is_server_session == false) { t.Recv.BroadcastCount++; t.Recv.BroadcastBytes += (UINT64)b->Size; } else { t.Send.BroadcastCount++; t.Send.BroadcastBytes += (UINT64)b->Size; } } else { if (is_server_session == false) { t.Recv.UnicastCount++; t.Recv.UnicastBytes += (UINT64)b->Size; } else { t.Send.UnicastCount++; t.Send.UnicastBytes += (UINT64)b->Size; } } } packet_put = true; PROBE_DATA2("pa->PutPacket", b->Buf, b->Size); if (pa->PutPacket(s, b->Buf, b->Size) == false) { pa_fail = true; err = ERR_DEVICE_DRIVER_ERROR; Free(b->Buf); Debug(" Error: pa->PutPacket(Packet) Failed.\n"); } Free(b); } if (true /* packet_put || is_server_session 2014.7.23 for optimizing */) { PROBE_DATA2("pa->PutPacket", NULL, 0); if (pa->PutPacket(s, NULL, 0) == false) { Debug(" Error: pa->PutPacket(NULL) Failed.\n"); pa_fail = true; err = ERR_DEVICE_DRIVER_ERROR; } } } if (lock_receive_blocks_queue) { UnlockQueue(c->ReceivedBlocks); } // Add the packet to be transmitted to SendBlocks by acquiring from PacketAdapter { UINT i, max_num = MAX_SEND_SOCKET_QUEUE_NUM; i = 0; while (packet_size = pa->GetNextPacket(s, &packet)) { BLOCK *b; if (packet_size == INFINITE) { err = ERR_DEVICE_DRIVER_ERROR; pa_fail = true; Debug(" Error: pa->GetNextPacket() Failed.\n"); break; } update_hub_last_comm = true; if ((c->CurrentSendQueueSize > MAX_BUFFERING_PACKET_SIZE) || block_all_packets) { // WHERE; // Discard because it exceeded the buffer size limit Free(packet); } else { bool priority; QUEUE *q = NULL; // Buffering if (packet_size >= 14) { UCHAR *buf = (UCHAR *)packet; if (buf[0] & 0x01) { if (is_server_session == false) { t.Send.BroadcastCount++; t.Send.BroadcastBytes += (UINT64)packet_size; } else { t.Recv.BroadcastCount++; t.Recv.BroadcastBytes += (UINT64)packet_size; } } else { if (is_server_session == false) { t.Send.UnicastCount++; t.Send.UnicastBytes += (UINT64)packet_size; } else { t.Recv.UnicastCount++; t.Recv.UnicastBytes += (UINT64)packet_size; } } } priority = IsPriorityHighestPacketForQoS(packet, packet_size); b = NewBlock(packet, packet_size, s->UseCompress ? 1 : 0); b->PriorityQoS = priority; if (b->PriorityQoS && c->Protocol == CONNECTION_TCP && s->QoS) { q = c->SendBlocks2; } else { q = c->SendBlocks; } if (q->num_item > MAX_STORED_QUEUE_NUM) { q = NULL; } if (q != NULL) { c->CurrentSendQueueSize += b->Size; InsertQueue(q, b); } else { FreeBlock(b); } } if ((i % 16) == 0) { int diff = ((int)c->CurrentSendQueueSize) - ((int)c->LastPacketQueueSize); CedarAddCurrentTcpQueueSize(c->Cedar, diff); c->LastPacketQueueSize = c->CurrentSendQueueSize; } i++; if (i >= max_num) { break; } } } AddTrafficForSession(s, &t); if (true) { int diff = ((int)c->CurrentSendQueueSize) - ((int)c->LastPacketQueueSize); CedarAddCurrentTcpQueueSize(c->Cedar, diff); c->LastPacketQueueSize = c->CurrentSendQueueSize; } now = Tick64(); // Send a block ConnectionSend(c, now); // Determine the automatic disconnection if (auto_disconnect_tick != 0 && auto_disconnect_tick <= now) { err = ERR_AUTO_DISCONNECTED; s->CurrentRetryCount = INFINITE; break; } // Stop determination if (s->Halt) { if (s->ForceStopFlag) { err = ERR_USER_CANCEL; } break; } // Increments the number of logins for user object and Virtual HUB object. // (It's incremented only if the time 30 seconds passed after connection. // If not do this, it will be incremented on DoS attacks or any error.) if (s->NumLoginIncrementTick != 0 && s->NumLoginIncrementTick <= now) { s->NumLoginIncrementTick = 0; if (s->NumLoginIncrementHubObject != NULL) { s->NumLoginIncrementHubObject->NumLogin++; } if (s->NumLoginIncrementUserObject != NULL) { s->NumLoginIncrementUserObject->NumLogin++; } } if (is_server_session) { HUB *hub; // Update of traffic data of the user if ((s->LastIncrementTraffic + INCREMENT_TRAFFIC_INTERVAL) <= now) { IncrementUserTraffic(s->Hub, s->UserNameReal, s); s->LastIncrementTraffic = now; } hub = s->Hub; if (hub != NULL) { if ((hub->LastIncrementTraffic + INCREMENT_TRAFFIC_INTERVAL) <= now) { hub->LastIncrementTraffic = now; IncrementHubTraffic(s->Hub); } } } if (s->LinkModeServer == false && s->SecureNATMode == false && s->BridgeMode == false && s->L3SwitchMode == false && s->InProcMode == false) { bool timeouted = false; if ((now > s->LastCommTime) && ((now - s->LastCommTime) >= ((UINT64)s->Timeout))) { // When communication is not possible for the predetermined time timeouted = true; WHERE; } if (c->Protocol == CONNECTION_TCP) { if (GetGlobalServerFlag(GSF_DISABLE_SESSION_RECONNECT)) { UINT num_tcp_connections = Count(c->CurrentNumConnection); if (num_tcp_connections == 0) { // All TCP connections are disconnected. // Terminate the session immediately. timeouted = true; } } } if (is_server_session == false && s->ClientOption != NULL && s->ClientOption->ConnectionDisconnectSpan == 0) { if (LIST_NUM(s->Connection->Tcp->TcpSockList) < s->MaxConnection) { if ((s->LastTryAddConnectTime + (UINT64)(s->ClientOption->AdditionalConnectionInterval * 1000 * 2 + CONNECTING_TIMEOUT * 2)) <= Tick64()) { if (s->IsRUDPSession == false || LIST_NUM(s->Connection->Tcp->TcpSockList) == 0) { timeouted = true; WHERE; } } } } if (timeouted) { // Timeout occurs Debug("** Session Timeouted.\n"); s->SessionTimeOuted = true; err = ERR_SESSION_TIMEOUT; } } // Time-out decision if (pa_fail || s->SessionTimeOuted) { s->Halt = true; s->RetryFlag = true; // Retry flag break; } } CLEANUP: Debug("Session %s Finishing...\n", s->Name); // Remove from the session list of the HUB if (s->ServerMode) { // Update the user information IncrementUserTraffic(s->Hub, s->UserNameReal, s); DelSession(s->Hub, s); } s->ConnectSucceed = false; Notify(s, CLIENT_NOTIFY_ACCOUNT_CHANGED); if (s->Connection) { int diff = -((int)s->Connection->LastTcpQueueSize); s->Connection->LastTcpQueueSize = 0; s->Connection->Halt = true; CedarAddCurrentTcpQueueSize(s->Cedar, diff); diff = ((int)c->CurrentSendQueueSize) - ((int)c->LastPacketQueueSize); CedarAddCurrentTcpQueueSize(c->Cedar, diff); c->LastPacketQueueSize = c->CurrentSendQueueSize; } // Release the packet adapter if (pa_inited) { pa->Free(s); } #ifdef OS_WIN32 if (s->IsVPNClientAndVLAN_Win32) { MsEndVLanCard(); } #endif // OS_WIN32 if (s->ServerMode == false) { // Cancel to make all additional connection StopAllAdditionalConnectThread(s->Connection); } if (s->BridgeMode) { // Terminate the bridge if (s->Bridge->Active) { CloseEth(s->Bridge->Eth); s->Bridge->Eth = NULL; } } if (s->Cancel2 != NULL) { // Release the Cancel 2 ReleaseCancel(s->Cancel2); s->Cancel2 = NULL; } // Terminate the connection EndTunnelingMode(c); if (nicinfo_sock != NULL) { CncNicInfoFree(nicinfo_sock); } if (msgdlg_sock != NULL) { CndMsgDlgFree(msgdlg_sock); } c->Err = err; } // Get the time for the next delayed packet UINT GetNextDelayedPacketTickDiff(SESSION *s) { UINT i; UINT ret = 0x7fffffff; UINT64 now; // Validate arguments if (s == NULL) { return 0; } if (LIST_NUM(s->DelayedPacketList) >= 1) { now = TickHighres64(); LockList(s->DelayedPacketList); { for (i = 0;i < LIST_NUM(s->DelayedPacketList);i++) { PKT *p = LIST_DATA(s->DelayedPacketList, i); UINT64 t = p->DelayedForwardTick; UINT d = 0x7fffffff; if (now >= t) { d = 0; } else { d = (UINT)(t - now); } ret = MIN(ret, d); } } UnlockList(s->DelayedPacketList); } return ret; } // Determine whether the packet have priority in the VoIP / QoS function bool IsPriorityHighestPacketForQoS(void *data, UINT size) { UCHAR *buf; // Validate arguments if (data == NULL) { return false; } buf = (UCHAR *)data; if (size >= 16) { if (buf[12] == 0x08 && buf[13] == 0x00 && buf[15] != 0x00 && buf[15] != 0x08) { // IPv4 packet and ToS != 0 return true; } if (size >= 34 && size <= 128) { if (buf[12] == 0x08 && buf[13] == 0x00 && buf[23] == 0x01) { // IMCPv4 packet return true; } } } return false; } // Update the traffic information of the user void IncrementUserTraffic(HUB *hub, char *username, SESSION *s) { TRAFFIC report_traffic; // Validate arguments if (hub == NULL || username == NULL || s == NULL) { return; } Lock(s->TrafficLock); { // Calculate the traffic information (difference between last time) to be reported report_traffic.Send.BroadcastBytes = s->Traffic->Send.BroadcastBytes - s->OldTraffic->Send.BroadcastBytes; report_traffic.Send.BroadcastCount = s->Traffic->Send.BroadcastCount - s->OldTraffic->Send.BroadcastCount; report_traffic.Send.UnicastBytes = s->Traffic->Send.UnicastBytes - s->OldTraffic->Send.UnicastBytes; report_traffic.Send.UnicastCount = s->Traffic->Send.UnicastCount - s->OldTraffic->Send.UnicastCount; report_traffic.Recv.BroadcastBytes = s->Traffic->Recv.BroadcastBytes - s->OldTraffic->Recv.BroadcastBytes; report_traffic.Recv.BroadcastCount = s->Traffic->Recv.BroadcastCount - s->OldTraffic->Recv.BroadcastCount; report_traffic.Recv.UnicastBytes = s->Traffic->Recv.UnicastBytes - s->OldTraffic->Recv.UnicastBytes; report_traffic.Recv.UnicastCount = s->Traffic->Recv.UnicastCount - s->OldTraffic->Recv.UnicastCount; Copy(s->OldTraffic, s->Traffic, sizeof(TRAFFIC)); if (hub->FarmMember == false) { // Update the user information in the local database if it is not a farm member AcLock(hub); { USER *u = AcGetUser(hub, username); if (u != NULL) { Lock(u->lock); { AddTraffic(u->Traffic, &report_traffic); } Unlock(u->lock); if (u->Group != NULL) { Lock(u->Group->lock); { AddTraffic(u->Group->Traffic, &report_traffic); } Unlock(u->Group->lock); } ReleaseUser(u); } } AcUnlock(hub); } else { // Update the traffic difference report list in the case of farm member AddTrafficDiff(hub, username, TRAFFIC_DIFF_USER, &report_traffic); } } Unlock(s->TrafficLock); } // Cumulate the traffic information of the connection void AddTrafficForSession(SESSION *s, TRAFFIC *t) { HUB *h; TRAFFIC t2; // Validate arguments if (s == NULL || t == NULL) { return; } Lock(s->TrafficLock); { AddTraffic(s->Traffic, t); } Unlock(s->TrafficLock); if (s->ServerMode) { Copy(&t2.Recv, &t->Send, sizeof(TRAFFIC_ENTRY)); Copy(&t2.Send, &t->Recv, sizeof(TRAFFIC_ENTRY)); Lock(s->Cedar->TrafficLock); { AddTraffic(s->Cedar->Traffic, &t2); } Unlock(s->Cedar->TrafficLock); h = s->Hub; Lock(h->TrafficLock); { AddTraffic(h->Traffic, &t2); } Unlock(h->TrafficLock); } } // A chance to establish an additional connection for client void ClientAdditionalConnectChance(SESSION *s) { // Validate arguments if (s == NULL) { return; } if (s->ServerMode) { // Do not connect additionally in the server mode return; } if (s->Connection->Protocol != CONNECTION_TCP) { // Connect additionally only in the case of TCP protocol return; } if (s->IsRUDPSession && s->EnableUdpRecovery == false) { // Do not connect additionally if the UDP recovery is disabled in the case of R-UDP session return; } if (s->IsRUDPSession && (s->Connection->AdditionalConnectionFailedCounter > MAX_ADDITIONAL_CONNECTION_FAILED_COUNTER)) { // Not to make a large amount of repeated connection retry within a certain time in the case of R-UDP session return; } while (true) { if (s->Halt) { return; } // Consider whether there is a need to put an additional connection // by examining the number of current connections and MaxConnection property if (Count(s->Connection->CurrentNumConnection) < s->MaxConnection) { // Get the current time UINT64 now = Tick64(); // Examine the NextConnectionTime, and if the time passed, // attempt to make a connection if (s->NextConnectionTime == 0 || s->ClientOption->AdditionalConnectionInterval == 0 || (s->NextConnectionTime <= now)) { // Start the work to put an additional connection s->NextConnectionTime = now + ((UINT64)s->ClientOption->AdditionalConnectionInterval * (UINT64)1000); SessionAdditionalConnect(s); } else { break; } } else { break; } } } // Release the packet adapter void FreePacketAdapter(PACKET_ADAPTER *pa) { // Validate arguments if (pa == NULL) { return; } Free(pa); } // Create a new packet adapter PACKET_ADAPTER *NewPacketAdapter(PA_INIT *init, PA_GETCANCEL *getcancel, PA_GETNEXTPACKET *getnext, PA_PUTPACKET *put, PA_FREE *free) { PACKET_ADAPTER *pa; // Validate arguments if (init == NULL || getcancel == NULL || getnext == NULL || put == NULL || free == NULL) { return NULL; } pa = ZeroMalloc(sizeof(PACKET_ADAPTER)); pa->Init = init; pa->Free = free; pa->GetCancel = getcancel; pa->GetNextPacket = getnext; pa->PutPacket = put; return pa; } // Thread for putting an additional connection void ClientAdditionalThread(THREAD *t, void *param) { SESSION *s; CONNECTION *c; // Validate arguments if (t == NULL || param == NULL) { return; } s = (SESSION *)param; s->LastTryAddConnectTime = Tick64(); c = s->Connection; // Increment of connection counter Inc(c->CurrentNumConnection); LockList(c->ConnectingThreads); { // Add to processing thread Add(c->ConnectingThreads, t); AddRef(t->ref); } UnlockList(c->ConnectingThreads); // Notify the completion of initialization NoticeThreadInit(t); Debug("Additional Connection #%u\n", Count(c->CurrentNumConnection)); // Put an additional connection if (ClientAdditionalConnect(c, t) == false) { // Decrement the counter which is currently processing Dec(c->CurrentNumConnection); if (c->AdditionalConnectionFailedCounter == 0) { c->LastCounterResetTick = Tick64(); } c->AdditionalConnectionFailedCounter++; if ((c->LastCounterResetTick + (UINT64)ADDITIONAL_CONNECTION_COUNTER_RESET_INTERVAL) <= Tick64()) { // Reset the number of failures periodically c->AdditionalConnectionFailedCounter = 0; c->LastCounterResetTick = Tick64(); } } else { s->LastTryAddConnectTime = Tick64(); c->AdditionalConnectionFailedCounter = 0; c->LastCounterResetTick = Tick64(); } // Remove from the processing thread LockList(c->ConnectingThreads); { // Remove from the processing thread if (Delete(c->ConnectingThreads, t)) { ReleaseThread(t); } } UnlockList(c->ConnectingThreads); ReleaseSession(s); } // Put an additional connection from the client to the server void SessionAdditionalConnect(SESSION *s) { THREAD *t; // Validate arguments if (s == NULL) { return; } // s->LastTryAddConnectTime = Tick64(); AddRef(s->ref); t = NewThread(ClientAdditionalThread, (void *)s); WaitThreadInit(t); ReleaseThread(t); } // Connect the client session to the server bool SessionConnect(SESSION *s) { CONNECTION *c; bool ret = false; // Validate arguments if (s == NULL) { return false; } s->ClientStatus = CLIENT_STATUS_CONNECTING; Debug("SessionConnect() Started.\n"); // Initialize the session Lock(s->lock); { s->Err = ERR_NO_ERROR; if (s->Policy != NULL) { Free(s->Policy); s->Policy = NULL; } } Unlock(s->lock); s->CancelConnect = false; // Create a Client Connection c = NewClientConnection(s); s->Connection = c; // Connect the client to the server ret = ClientConnect(c); s->Err = c->Err; s->CancelConnect = false; if (s->Cedar->Client != NULL) { if (s->Policy != NULL) { if (s->Policy->NoSavePassword) { s->Client_NoSavePassword = true; if (s->Account != NULL) { Lock(s->Account->lock); { if (s->Account->ClientAuth != NULL) { if (s->Account->ClientAuth->AuthType == AUTHTYPE_PASSWORD || s->Account->ClientAuth->AuthType == AUTHTYPE_RADIUS) { Zero(s->Account->ClientAuth->HashedPassword, sizeof(s->Account->ClientAuth->HashedPassword)); Zero(s->Account->ClientAuth->PlainPassword, sizeof(s->Account->ClientAuth->PlainPassword)); } } } Unlock(s->Account->lock); CiSaveConfigurationFile(s->Cedar->Client); } } } } if (c->ClientConnectError_NoSavePassword) { s->Client_NoSavePassword = true; } // Release the client connection s->Connection = NULL; ReleaseConnection(c); Lock(s->lock); { if (s->Policy != NULL) { Free(s->Policy); s->Policy = NULL; } } Unlock(s->lock); return ret; } // Stop the session void StopSession(SESSION *s) { StopSessionEx(s, false); } void StopSessionEx(SESSION *s, bool no_wait) { // Validate arguments if (s == NULL) { return; } // Halting flag s->UserCanceled = true; s->CancelConnect = true; s->Halt = true; Debug("Stop Session %s\n", s->Name); // Cancel Cancel(s->Cancel1); // Event Set(s->HaltEvent); // Server and client mode if (s->Connection) { CONNECTION *c = s->Connection; AddRef(c->ref); StopConnection(c, no_wait); ReleaseConnection(c); } // Wait until the stop if (no_wait == false) { while (true) { s->ForceStopFlag = true; s->Halt = true; if (WaitThread(s->Thread, 20)) { break; } } } else { s->ForceStopFlag = true; s->Halt = true; } } // Cleanup the session void CleanupSession(SESSION *s) { // Validate arguments if (s == NULL) { return; } // Release the delayed packet list if (s->DelayedPacketList != NULL) { UINT i; for (i = 0;i < LIST_NUM(s->DelayedPacketList);i++) { PKT *p = LIST_DATA(s->DelayedPacketList, i); Free(p->PacketData); FreePacket(p); } ReleaseList(s->DelayedPacketList); } // Release the client connection options if (s->ClientOption != NULL) { Free(s->ClientOption); } // Release the client authentication data if (s->ClientAuth != NULL) { if (s->ClientAuth->ClientX != NULL) { FreeX(s->ClientAuth->ClientX); } if (s->ClientAuth->ClientX != NULL) { FreeK(s->ClientAuth->ClientK); } Free(s->ClientAuth); } FreeTraffic(s->Traffic); Free(s->Name); if (s->Thread != NULL) { ReleaseThread(s->Thread); } DeleteLock(s->lock); ReleaseEvent(s->HaltEvent); if (s->Cancel1) { ReleaseCancel(s->Cancel1); } if (s->Cancel2) { ReleaseCancel(s->Cancel2); } if (s->Policy) { Free(s->Policy); } if (s->Connection) { ReleaseConnection(s->Connection); } Free(s->Username); if (s->PacketAdapter) { FreePacketAdapter(s->PacketAdapter); } #ifdef OS_UNIX UnixVLanSetState(s->ClientOption->DeviceName, false); #endif if (s->OldTraffic != NULL) { FreeTraffic(s->OldTraffic); } DeleteLock(s->TrafficLock); if (s->CancelList != NULL) { ReleaseCancelList(s->CancelList); } if (s->Client_Message != NULL) { Free(s->Client_Message); } DeleteCounter(s->LoggingRecordCount); ReleaseSharedBuffer(s->IpcSessionSharedBuffer); Free(s); } // Release the session void ReleaseSession(SESSION *s) { // Validate arguments if (s == NULL) { return; } if (Release(s->ref) == 0) { CleanupSession(s); } } // Display the total data transfer size of the session void PrintSessionTotalDataSize(SESSION *s) { // Validate arguments if (s == NULL) { return; } Debug( "-- SESSION TOTAL PKT INFORMATION --\n\n" " TotalSendSize: %I64u\n" " TotalSendSizeReal: %I64u\n" " TotalRecvSize: %I64u\n" " TotalRecvSizeReal: %I64u\n" " Compression Rate: %.2f%% (Send)\n" " %.2f%% (Recv)\n", s->TotalSendSize, s->TotalSendSizeReal, s->TotalRecvSize, s->TotalRecvSizeReal, (float)((double)s->TotalSendSizeReal / (double)s->TotalSendSize * 100.0f), (float)((double)s->TotalRecvSizeReal / (double)s->TotalRecvSize * 100.0f) ); } // Client thread void ClientThread(THREAD *t, void *param) { SESSION *s; bool use_password_dlg; bool no_save_password = false; bool is_vpngate_connection = false; CEDAR *cedar; bool num_active_sessions_incremented = false; // Validate arguments if (t == NULL || param == NULL) { return; } Debug("ClientThread 0x%x Started.\n", t); s = (SESSION *)param; AddRef(s->ref); s->Thread = t; AddRef(t->ref); if (s->LinkModeClient == false) { CiIncrementNumActiveSessions(); num_active_sessions_incremented = true; } NoticeThreadInit(t); cedar = s->Cedar; s->ClientStatus = CLIENT_STATUS_CONNECTING; s->RetryFlag = true; s->CurrentRetryCount = 0; Notify(s, CLIENT_NOTIFY_ACCOUNT_CHANGED); if (s->Cedar->Client != NULL) { no_save_password = s->Cedar->Client->DontSavePassword; } s->Win32HideConnectWindow = s->ClientOption->HideStatusWindow; s->Win32HideNicInfoWindow = s->ClientOption->HideNicInfoWindow; while (true) { Zero(&s->ServerIP_CacheForNextConnect, sizeof(IP)); if (s->Link != NULL && ((*s->Link->StopAllLinkFlag) || s->Link->Halting)) { s->Err = ERR_USER_CANCEL; break; } CLog(s->Cedar->Client, "LC_CONNECT_1", s->ClientOption->AccountName, s->CurrentRetryCount + 1); if (s->LinkModeClient && s->Link != NULL) { HLog(s->Link->Hub, "LH_CONNECT_1", s->ClientOption->AccountName, s->CurrentRetryCount + 1); } Debug("Trying to Connect to Server... (%u / %u)\n", s->CurrentRetryCount + 0, s->ClientOption->NumRetry); // Initialize // s->TotalRecvSize = s->TotalRecvSizeReal = // s->TotalSendSize = s->TotalSendSizeReal = 0; s->NextConnectionTime = 0; // Connect s->ClientStatus = CLIENT_STATUS_CONNECTING; s->Halt = false; SessionConnect(s); if (s->UserCanceled) { s->Err = ERR_USER_CANCEL; } Debug("Disconnected. Err = %u : %S\n", s->Err, _E(s->Err)); PrintSessionTotalDataSize(s); CLog(s->Cedar->Client, "LC_CONNECT_ERROR", s->ClientOption->AccountName, GetUniErrorStr(s->Err), s->Err); #ifdef OS_UNIX UnixVLanSetState(s->ClientOption->DeviceName, false); #endif if (s->LinkModeClient && s->Link != NULL) { HLog(s->Link->Hub, "LH_CONNECT_ERROR", s->ClientOption->AccountName, GetUniErrorStr(s->Err), s->Err); } s->ClientStatus = CLIENT_STATUS_RETRY; if (s->Link != NULL) { ((LINK *)s->Link)->LastError = s->Err; } if (s->Halt && (s->RetryFlag == false) || s->ForceStopFlag) { // Must be aborted if (s->Err == ERR_DEVICE_DRIVER_ERROR) { #ifdef OS_WIN32 wchar_t tmp[MAX_SIZE]; if (s->Account != NULL && s->Cedar->Client != NULL) { UniFormat(tmp, sizeof(tmp), _UU("ERRDLG_DEVICE_ERROR"), s->ClientOption->DeviceName, s->Err, _E(s->Err)); MsgBox(NULL, 0x10000 | 0x40000 | 0x200000 | 0x30, tmp); } #endif // OS_WIN32 } break; } // Determine whether to display the password re-entry dialog use_password_dlg = false; if (s->Account != NULL && s->Cedar->Client != NULL) { #ifdef OS_WIN32 if (s->ClientAuth->AuthType == CLIENT_AUTHTYPE_PASSWORD || s->ClientAuth->AuthType == CLIENT_AUTHTYPE_PLAIN_PASSWORD) { if (s->Err == ERR_AUTH_FAILED || s->Err == ERR_PROXY_AUTH_FAILED) { use_password_dlg = true; } } #endif // OS_WIN32 } // Failed to connect or the connection is disconnected // Wait for retry interval if (use_password_dlg == false) { UINT retry_interval = s->RetryInterval; if (s->LinkModeClient) { UINT current_num_links = Count(s->Cedar->CurrentActiveLinks); UINT max_retry_interval = MAX(1000 * current_num_links, retry_interval); retry_interval += retry_interval * MIN(s->CurrentRetryCount, 1000); retry_interval = MIN(retry_interval, max_retry_interval); // On the cascade client, adjust the retry_interval. (+/- 20%) if (retry_interval >= 1000 && retry_interval <= (60 * 60 * 1000)) { retry_interval = (retry_interval * 8 / 10) + (Rand32() % (retry_interval * 4 / 10)); } } if (s->Err == ERR_HUB_IS_BUSY || s->Err == ERR_LICENSE_ERROR || s->Err == ERR_HUB_STOPPING || s->Err == ERR_TOO_MANY_USER_SESSION) { retry_interval = RETRY_INTERVAL_SPECIAL; } if (s->CurrentRetryCount >= s->ClientOption->NumRetry) { // Retry count excess #ifndef OS_WIN32 break; #else // OS_WIN32 if (s->Win32HideConnectWindow == false && s->Cedar->Client != NULL && s->Account != NULL) { // Show a reconnection dialog UI_CONNECTERROR_DLG p; Zero(&p, sizeof(p)); UniStrCpy(p.AccountName, sizeof(p.AccountName), s->ClientOption->AccountName); StrCpy(p.ServerName, sizeof(p.ServerName), s->ClientOption->Hostname); p.Err = s->Err; p.CurrentRetryCount = s->CurrentRetryCount + 1; s->Halt = false; p.RetryLimit = 0; p.RetryIntervalSec = 0; p.CancelEvent = s->HaltEvent; p.HideWindow = s->Win32HideConnectWindow; if (CncConnectErrorDlg(s, &p) == false) { // Abort break; } else { s->Win32HideConnectWindow = p.HideWindow; goto SKIP; } } else { break; } #endif } #ifndef OS_WIN32 // Simple wait Wait(s->HaltEvent, retry_interval); #else // OS_WIN32 if (s->Win32HideConnectWindow == false && s->Cedar->Client != NULL && s->Account != NULL) { // Show a reconnection dialog UI_CONNECTERROR_DLG p; Zero(&p, sizeof(p)); UniStrCpy(p.AccountName, sizeof(p.AccountName), s->ClientOption->AccountName); StrCpy(p.ServerName, sizeof(p.ServerName), s->ClientOption->Hostname); p.Err = s->Err; p.CurrentRetryCount = s->CurrentRetryCount + 1; p.RetryLimit = s->ClientOption->NumRetry; p.RetryIntervalSec = retry_interval; p.CancelEvent = s->HaltEvent; s->Halt = false; p.HideWindow = s->Win32HideConnectWindow; if (CncConnectErrorDlg(s, &p) == false) { // Abort break; } s->Win32HideConnectWindow = p.HideWindow; } else { // Simple wait Wait(s->HaltEvent, s->RetryInterval); } #endif // OS_WIN32 } else { #ifdef OS_WIN32 // Wait for re-entry the password UI_PASSWORD_DLG p; Zero(&p, sizeof(p)); if (s->Client_NoSavePassword == false) { p.ShowNoSavePassword = true; } p.NoSavePassword = no_save_password; p.CancelEvent = s->HaltEvent; if (s->Err == ERR_PROXY_AUTH_FAILED) { p.ProxyServer = true; } if (p.ProxyServer) { StrCpy(p.Username, sizeof(p.Username), s->ClientOption->ProxyUsername); StrCpy(p.Password, sizeof(p.Password), s->ClientOption->ProxyPassword); StrCpy(p.ServerName, sizeof(p.ServerName), s->ClientOption->ProxyName); } else { bool empty = false; StrCpy(p.Username, sizeof(p.Username), s->ClientAuth->Username); if (s->ClientAuth->AuthType == AUTHTYPE_RADIUS) { if (StrLen(s->ClientAuth->PlainPassword) == 0) { empty = true; } } else if (s->ClientAuth->AuthType == AUTHTYPE_PASSWORD) { if (IsZero(s->ClientAuth->HashedPassword, sizeof(s->ClientAuth->HashedPassword))) { empty = true; } } StrCpy(p.Password, sizeof(p.Password), empty ? "" : HIDDEN_PASSWORD); StrCpy(p.ServerName, sizeof(p.ServerName), s->ClientOption->Hostname); } p.RetryIntervalSec = s->RetryInterval / 1000; p.Type = s->ClientAuth->AuthType; // Display the password re-entry dialog if (CncPasswordDlg(s, &p) == false) { // Abort the connection break; } else { // Overwrite the user name if (p.ProxyServer) { // User name of the proxy StrCpy(s->ClientOption->ProxyUsername, sizeof(s->ClientOption->ProxyUsername), p.Username); } else { // The user name for connecting to the server StrCpy(s->ClientAuth->Username, sizeof(s->ClientAuth->Username), p.Username); s->ClientAuth->AuthType = p.Type; } if (StrCmp(p.Password, HIDDEN_PASSWORD) != 0) { // Password is re-entered if (p.ProxyServer) { // Password for the proxy server StrCpy(s->ClientOption->ProxyPassword, sizeof(s->ClientOption->ProxyPassword), p.Password); } else { if (s->ClientAuth->AuthType == CLIENT_AUTHTYPE_PLAIN_PASSWORD) { // Plaintext password authentication StrCpy(s->ClientAuth->PlainPassword, sizeof(s->ClientAuth->PlainPassword), p.Password); } else { // Encrypted password authentication HashPassword(s->ClientAuth->HashedPassword, s->ClientAuth->Username, p.Password); } } } no_save_password = p.NoSavePassword; if (s->Account != NULL && s->Cedar->Client != NULL) { s->Cedar->Client->DontSavePassword = no_save_password; if (p.NoSavePassword == false) { // Update the account database of the client if (p.ProxyServer == false) { // Update the Server connection information ACCOUNT *a = s->Account; Lock(a->lock); { CiFreeClientAuth(a->ClientAuth); a->ClientAuth = CopyClientAuth(s->ClientAuth); } Unlock(a->lock); CiSaveConfigurationFile(s->Cedar->Client); } else { // Update the proxy connection information ACCOUNT *a = s->Account; Lock(a->lock); { Copy(a->ClientOption, s->ClientOption, sizeof(CLIENT_OPTION)); } Unlock(a->lock); CiSaveConfigurationFile(s->Cedar->Client); } } } } #endif // OS_WIN32 } SKIP: // Increase the number of retries if (s->ConnectSucceed == false) { s->CurrentRetryCount++; } if (s->ForceStopFlag) { break; } } Debug("Session Halt.\n"); s->ClientStatus = CLIENT_STATUS_IDLE; // Regard as that the session is ended here if (s->Account != NULL) { s->Account->ClientSession = NULL; ReleaseSession(s); } Notify(s, CLIENT_NOTIFY_ACCOUNT_CHANGED); ReleaseSession(s); if (num_active_sessions_incremented) { CiDecrementNumActiveSessions(); } } // Create an RPC session SESSION *NewRpcSession(CEDAR *cedar, CLIENT_OPTION *option) { return NewRpcSessionEx(cedar, option, NULL, NULL); } SESSION *NewRpcSessionEx(CEDAR *cedar, CLIENT_OPTION *option, UINT *err, char *client_str) { return NewRpcSessionEx2(cedar, option, err, client_str, NULL); } SESSION *NewRpcSessionEx2(CEDAR *cedar, CLIENT_OPTION *option, UINT *err, char *client_str, void *hWnd) { SESSION *s; CONNECTION *c; SOCK *sock; // Validate arguments if (cedar == NULL || option == NULL) { return NULL; } s = ZeroMalloc(sizeof(SESSION)); s->LoggingRecordCount = NewCounter(); s->lock = NewLock(); s->ref = NewRef(); s->Cedar = cedar; s->ServerMode = false; s->Name = CopyStr("CLIENT_RPC_SESSION"); s->CreatedTime = s->LastCommTime = Tick64(); s->Traffic = NewTraffic(); s->HaltEvent = NewEvent(); s->TrafficLock = NewLock(); s->Cancel1 = NewCancel(); // Copy the client connection options s->ClientOption = Malloc(sizeof(CLIENT_OPTION)); Copy(s->ClientOption, option, sizeof(CLIENT_OPTION)); s->MaxConnection = option->MaxConnection; s->UseEncrypt = option->UseEncrypt; s->UseCompress = option->UseCompress; // Create a connection c = s->Connection = NewClientConnectionEx(s, client_str, cedar->Version, cedar->Build); c->hWndForUI = hWnd; // Connect to the server sock = ClientConnectToServer(c); if (sock == NULL) { // Connection failure if (err != NULL) { *err = c->Err; } ReleaseSession(s); return NULL; } // Send a signature if (ClientUploadSignature(sock) == false) { // Failure if (err != NULL) { *err = c->Err; } ReleaseSession(s); return NULL; } // Receive a Hello packet if (ClientDownloadHello(c, sock) == false) { // Failure if (err != NULL) { *err = c->Err; } ReleaseSession(s); return NULL; } return s; } // Create a client session SESSION *NewClientSessionEx(CEDAR *cedar, CLIENT_OPTION *option, CLIENT_AUTH *auth, PACKET_ADAPTER *pa, ACCOUNT *account) { SESSION *s; THREAD *t; // Validate arguments if (cedar == NULL || option == NULL || auth == NULL || pa == NULL || (auth->AuthType == CLIENT_AUTHTYPE_SECURE && auth->SecureSignProc == NULL)) { return NULL; } // Initialize the SESSION object s = ZeroMalloc(sizeof(SESSION)); s->LoggingRecordCount = NewCounter(); s->lock = NewLock(); s->ref = NewRef(); s->Cedar = cedar; s->ServerMode = false; s->Name = CopyStr("CLIENT_SESSION"); s->CreatedTime = s->LastCommTime = Tick64(); s->Traffic = NewTraffic(); s->HaltEvent = NewEvent(); s->PacketAdapter = pa; s->TrafficLock = NewLock(); s->OldTraffic = NewTraffic(); s->Cancel1 = NewCancel(); s->CancelList = NewCancelList(); // Copy the client connection options s->ClientOption = Malloc(sizeof(CLIENT_OPTION)); Copy(s->ClientOption, option, sizeof(CLIENT_OPTION)); if (GetGlobalServerFlag(GSF_DISABLE_SESSION_RECONNECT)) { s->ClientOption->DisableQoS = true; s->ClientOption->MaxConnection = 1; s->ClientOption->HalfConnection = false; } s->MaxConnection = option->MaxConnection; s->UseEncrypt = option->UseEncrypt; s->UseCompress = option->UseCompress; // Set the retry interval s->RetryInterval = MAKESURE(option->RetryInterval, 0, 4000000) * 1000; s->RetryInterval = MAKESURE(s->RetryInterval, MIN_RETRY_INTERVAL, MAX_RETRY_INTERVAL); // Interval for additional connection creation is at least 1 second s->ClientOption->AdditionalConnectionInterval = MAX(s->ClientOption->AdditionalConnectionInterval, 1); // Hold whether the virtual LAN card is used in client mode s->ClientModeAndUseVLan = (StrLen(s->ClientOption->DeviceName) == 0) ? false : true; if (s->ClientOption->NoRoutingTracking) { s->ClientModeAndUseVLan = false; } if (pa->Id == PACKET_ADAPTER_ID_VLAN_WIN32) { s->IsVPNClientAndVLAN_Win32 = true; } if (StrLen(option->DeviceName) == 0) { // NAT mode s->ClientModeAndUseVLan = false; s->VirtualHost = true; } if (OS_IS_WINDOWS_9X(GetOsInfo()->OsType)) { // Prohibit the half-duplex mode in the case of Win9x s->ClientOption->HalfConnection = false; } // Copy the client authentication data s->ClientAuth = Malloc(sizeof(CLIENT_AUTH)); Copy(s->ClientAuth, auth, sizeof(CLIENT_AUTH)); // Clone the certificate and the private key if (s->ClientAuth->ClientX != NULL) { s->ClientAuth->ClientX = CloneX(s->ClientAuth->ClientX); } if (s->ClientAuth->ClientK != NULL) { s->ClientAuth->ClientK = CloneK(s->ClientAuth->ClientK); } if (StrCmpi(s->ClientOption->DeviceName, LINK_DEVICE_NAME) == 0) { // Link client mode s->LinkModeClient = true; s->Link = (LINK *)s->PacketAdapter->Param; } if (StrCmpi(s->ClientOption->DeviceName, SNAT_DEVICE_NAME) == 0) { // SecureNAT mode s->SecureNATMode = true; } if (StrCmpi(s->ClientOption->DeviceName, BRIDGE_DEVICE_NAME) == 0) { // Bridge mode s->BridgeMode = true; } if (s->VirtualHost) { VH *v = (VH *)s->PacketAdapter->Param; // Add the session object to VH v->Session = s; AddRef(s->ref); } s->Account = account; if (s->ClientAuth->AuthType == CLIENT_AUTHTYPE_SECURE) { // Do not retry in the case of a smart card authentication s->ClientOption->NumRetry = 0; } // Create a client thread t = NewThread(ClientThread, (void *)s); WaitThreadInit(t); ReleaseThread(t); return s; } SESSION *NewClientSession(CEDAR *cedar, CLIENT_OPTION *option, CLIENT_AUTH *auth, PACKET_ADAPTER *pa) { return NewClientSessionEx(cedar, option, auth, pa, NULL); } // Get the session from the session key SESSION *GetSessionFromKey(CEDAR *cedar, UCHAR *session_key) { HUB *h; UINT i, j; // Validate arguments if (cedar == NULL || session_key == NULL) { return NULL; } LockList(cedar->HubList); { for (i = 0;i < LIST_NUM(cedar->HubList);i++) { h = LIST_DATA(cedar->HubList, i); LockList(h->SessionList); { for (j = 0;j < LIST_NUM(h->SessionList);j++) { SESSION *s = LIST_DATA(h->SessionList, j); Lock(s->lock); { if (Cmp(s->SessionKey, session_key, SHA1_SIZE) == 0) { // Session found AddRef(s->ref); // Unlock Unlock(s->lock); UnlockList(h->SessionList); UnlockList(cedar->HubList); return s; } } Unlock(s->lock); } } UnlockList(h->SessionList); } } UnlockList(cedar->HubList); return NULL; } // Create a new session key void NewSessionKey(CEDAR *cedar, UCHAR *session_key, UINT *session_key_32) { // Validate arguments if (cedar == NULL || session_key == NULL || session_key_32 == NULL) { return; } Rand(session_key, SHA1_SIZE); *session_key_32 = Rand32(); } bool if_init(SESSION *s); CANCEL *if_getcancel(SESSION *s); UINT if_getnext(SESSION *s, void **data); bool if_putpacket(SESSION *s, void *data, UINT size); void if_free(SESSION *s); // Create a server session SESSION *NewServerSession(CEDAR *cedar, CONNECTION *c, HUB *h, char *username, POLICY *policy) { return NewServerSessionEx(cedar, c, h, username, policy, false, NULL); } SESSION *NewServerSessionEx(CEDAR *cedar, CONNECTION *c, HUB *h, char *username, POLICY *policy, bool inproc_mode, UCHAR *ipc_mac_address) { SESSION *s; char name[MAX_SIZE]; char hub_name_upper[MAX_SIZE]; char user_name_upper[MAX_USERNAME_LEN + 1]; // Validate arguments if (cedar == NULL || c == NULL || h == NULL || username == NULL || policy == NULL) { return NULL; } // Initialize the SESSION object s = ZeroMalloc(sizeof(SESSION)); s->LoggingRecordCount = NewCounter(); s->lock = NewLock(); s->ref = NewRef(); s->Cedar = cedar; s->ServerMode = true; s->CreatedTime = s->LastCommTime = Tick64(); s->Traffic = NewTraffic(); s->HaltEvent = NewEvent(); s->Cancel1 = NewCancel(); s->CancelList = NewCancelList(); s->Thread = c->Thread; s->TrafficLock = NewLock(); s->OldTraffic = NewTraffic(); s->QoS = GetServerCapsBool(cedar->Server, "b_support_qos"); AddRef(s->Thread->ref); s->Hub = h; s->ClientStatus = CLIENT_STATUS_ESTABLISHED; // Delayed packet list s->DelayedPacketList = NewList(NULL); // Packet adapter for the HUB s->PacketAdapter = GetHubPacketAdapter(); s->Connection = c; AddRef(c->ref); // Determine the new session name StrCpy(hub_name_upper, sizeof(hub_name_upper), h->Name); StrUpper(hub_name_upper); StrCpy(user_name_upper, sizeof(user_name_upper), username); StrUpper(user_name_upper); if ((StrCmpi(username, ADMINISTRATOR_USERNAME) != 0) && (StrCmpi(username, BRIDGE_USER_NAME) != 0) || (cedar->Server == NULL || cedar->Server->ServerType == SERVER_TYPE_STANDALONE)) { if (IsEmptyStr(c->InProcPrefix)) { Format(name, sizeof(name), "SID-%s-%u", user_name_upper, Inc(h->SessionCounter)); } else { Format(name, sizeof(name), "SID-%s-[%s]-%u", user_name_upper, c->InProcPrefix, Inc(h->SessionCounter)); } if (h->IsVgsHub || h->IsVgsSuperRelayHub) { UCHAR rand[5]; char tmp[32]; Rand(rand, sizeof(rand)); BinToStr(tmp, sizeof(tmp), rand, sizeof(rand)); StrCat(name, sizeof(name), "-"); StrCat(name, sizeof(name), tmp); } } else { UCHAR rand[SHA1_SIZE]; char tmp[MAX_SIZE]; Rand(rand, sizeof(rand)); BinToStr(tmp, sizeof(tmp), rand, 3); if (StrCmpi(username, BRIDGE_USER_NAME) != 0) { Format(name, sizeof(name), "SID-%s-%s", user_name_upper, tmp); } else { char pc_name[MAX_SIZE]; TOKEN_LIST *t; GetMachineName(tmp, sizeof(tmp)); t = ParseToken(tmp, "."); if (t->NumTokens >= 1) { StrCpy(pc_name, sizeof(pc_name), t->Token[0]); } else { StrCpy(pc_name, sizeof(pc_name), "pc"); } FreeToken(t); StrUpper(pc_name); Format(name, sizeof(name), "SID-%s-%s-%u", user_name_upper, pc_name, Inc(h->SessionCounter)); } } s->Name = CopyStr(name); s->Policy = policy; s->InProcMode = inproc_mode; // Add a SESSION to the HUB AddSession(h, s); // Create a key NewSessionKey(cedar, s->SessionKey, &s->SessionKey32); // Generate a MAC address for IPC if (s->InProcMode) { if (ipc_mac_address != NULL) { Copy(s->IpcMacAddress, ipc_mac_address, 6); } else { char tmp[MAX_SIZE]; char machine[MAX_SIZE]; UCHAR hash[SHA1_SIZE]; GetMachineName(machine, sizeof(machine)); Format(tmp, sizeof(tmp), "%s@%s@%u", machine, h->Name, s->UniqueId); StrUpper(tmp); Trim(tmp); Sha0(hash, tmp, StrLen(tmp)); s->IpcMacAddress[0] = 0xCA; s->IpcMacAddress[1] = hash[1]; s->IpcMacAddress[2] = hash[2]; s->IpcMacAddress[3] = hash[3]; s->IpcMacAddress[4] = hash[4]; s->IpcMacAddress[5] = hash[5]; MacToStr(tmp, sizeof(tmp), s->IpcMacAddress); Debug("MAC Address for IPC: %s\n", tmp); } } return s; } // Check whether the specified MAC address is IPC address bool IsIpcMacAddress(UCHAR *mac) { // Validate arguments if (mac == NULL) { return false; } if (mac[0] == 0xCA) { return true; } return false; } // Display the status on the client void PrintStatus(SESSION *s, wchar_t *str) { // Validate arguments if (s == NULL || str == NULL || s->Account == NULL || s->Cedar->Client == NULL || s->Account->StatusPrinter == NULL) { return; } // Inform the status to the callback function s->Account->StatusPrinter(s, str); } // Create a cancellation list LIST *NewCancelList() { return NewList(NULL); } // Add a Cancel to the cancellation list void AddCancelList(LIST *o, CANCEL *c) { UINT i; // Validate arguments if (o == NULL || c == NULL) { return; } for (i = 0;i < LIST_NUM(o);i++) { CANCEL *t = LIST_DATA(o, i); if (t == c) { return; } } AddRef(c->ref); Add(o, c); } // Issue all cancellations in the cancellation list void CancelList(LIST *o) { UINT i; // Validate arguments if (o == NULL) { return; } for (i = 0;i < LIST_NUM(o);i++) { CANCEL *c = LIST_DATA(o, i); Cancel(c); ReleaseCancel(c); } DeleteAll(o); } // Release the cancellation list void ReleaseCancelList(LIST *o) { UINT i; // Validate arguments if (o == NULL) { return; } for (i = 0;i < LIST_NUM(o);i++) { CANCEL *c = LIST_DATA(o, i); ReleaseCancel(c); } ReleaseList(o); } // Notify to the client void Notify(SESSION *s, UINT code) { // Validate arguments if (s == NULL || s->Account == NULL || s->Cedar->Client == NULL) { return; } CiNotify(s->Cedar->Client); }