/* Copyright 2001-2022 John Wiseman G8BPQ This file is part of LinBPQ/BPQ32. LinBPQ/BPQ32 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 3 of the License, or (at your option) any later version. LinBPQ/BPQ32 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 LinBPQ/BPQ32. If not, see http://www.gnu.org/licenses */ // // DLL to inteface DED Host Mode TNCs to BPQ32 switch // // Uses BPQ EXTERNAL interface #define _CRT_SECURE_NO_WARNINGS #define _CRT_SECURE_NO_DEPRECATE #include #include #include "time.h" #define MaxStreams 1 #include "CHeaders.h" #include "tncinfo.h" //#include "bpq32.h" static char ClassName[]="TRACKERSTATUS"; static char WindowTitle[] = "SCS Tracker"; static int RigControlRow = 140; #define NARROWMODE 30 #define WIDEMODE 30 // Robust extern UCHAR LogDirectory[]; extern APPLCALLS APPLCALLTABLE[]; extern char LOC[]; static RECT Rect; VOID __cdecl Debugprintf(const char * format, ...); char * strlop(char * buf, char delim); char NodeCall[11]; // Nodecall, Null Terminated BOOL CloseConnection(struct TNCINFO * conn); BOOL TrkWriteCommBlock(struct TNCINFO * TNC); BOOL DestroyTTYInfo(int port); static void DEDCheckRX(struct TNCINFO * TNC); VOID DEDPoll(int Port); VOID StuffAndSend(struct TNCINFO * TNC, UCHAR * Msg, int Len); unsigned short int compute_crc(unsigned char *buf,int len); int Unstuff(UCHAR * MsgIn, UCHAR * MsgOut, int len); VOID TrkProcessDEDFrame(struct TNCINFO * TNC); VOID TrkProcessTermModeResponse(struct TNCINFO * TNC); VOID TrkExitHost(struct TNCINFO * TNC); VOID DoTNCReinit(struct TNCINFO * TNC); VOID DoTermModeTimeout(struct TNCINFO * TNC); VOID DoMonitorHddr(struct TNCINFO * TNC, UCHAR * Msg, int Len, int Type); VOID DoMonitorData(struct TNCINFO * TNC, UCHAR * Msg, int Len); int Switchmode(struct TNCINFO * TNC, int Mode); VOID SwitchToRPacket(struct TNCINFO * TNC, char * Baud); VOID SwitchToNormPacket(struct TNCINFO * TNC, char * Baud); VOID SendRPBeacon(struct TNCINFO * TNC); BOOL APIENTRY Send_AX(PMESSAGE Block, DWORD Len, UCHAR Port); int DoScanLine(struct TNCINFO * TNC, char * Buff, int Len); VOID SuspendOtherPorts(struct TNCINFO * ThisTNC); VOID ReleaseOtherPorts(struct TNCINFO * ThisTNC); VOID WritetoTrace(struct TNCINFO * TNC, char * Msg, int Len); BOOL KAMStartPort(struct PORTCONTROL * PORT); BOOL KAMStopPort(struct PORTCONTROL * PORT); extern VOID TrkTidyClose(struct TNCINFO * TNC, int Stream); extern VOID TrkForcedClose(struct TNCINFO * TNC, int Stream); extern VOID TrkCloseComplete(struct TNCINFO * TNC, int Stream); VOID RPRWriteCOMBlock(struct TNCINFO * TNC, UCHAR * Msg, int Len); void WriteDebugLogLine(int Port, char Dirn, char * Msg, int MsgLen); VOID UpdateMHwithDigis(struct TNCINFO * TNC, UCHAR * Call, char Mode, char Direction); BOOL TrkWriteCommBlock(struct TNCINFO * TNC) { if (TNC->Hardware == H_WINRPR) RPRWriteCOMBlock(TNC, TNC->TXBuffer, TNC->TXLen); else WriteCOMBlock(TNC->hDevice, TNC->TXBuffer, TNC->TXLen); if (TNC->WRITELOG) WriteDebugLogLine(TNC->Port, 'T', TNC->TXBuffer, TNC->TXLen); TNC->Timeout = 20; // 2 secs return TRUE; } VOID TRKSuspendPort(struct TNCINFO * TNC, struct TNCINFO * ThisTNC) { struct STREAMINFO * STREAM = &TNC->Streams[0]; STREAM->CmdSet = STREAM->CmdSave = zalloc(100); sprintf(STREAM->CmdSet, "\1\1\1IDSPTNC"); } VOID TRKReleasePort(struct TNCINFO * TNC) { struct STREAMINFO * STREAM = &TNC->Streams[0]; STREAM->CmdSet = STREAM->CmdSave = zalloc(100); sprintf(STREAM->CmdSet, "\1\1\1I%s", TNC->NodeCall); } static FILE * LogHandle[32] = {0}; time_t LogTime[32] = {0}; static char BaseDir[MAX_PATH]="c:\\"; VOID CloseDebugLogFile(int Port) { fclose(LogHandle[Port]); LogHandle[Port] = NULL; } BOOL OpenDebugLogFile(int Port) { UCHAR FN[MAX_PATH]; time_t T; struct tm * tm; if (LogHandle[Port]) return TRUE; // already open T = LogTime[Port] = time(NULL); tm = gmtime(&T); sprintf(FN,"%s/logs/Port%02dDebugLog_%02d%02d.txt", LogDirectory, Port, tm->tm_mon + 1, tm->tm_mday); LogHandle[Port] = fopen(FN, "ab"); return (LogHandle[Port] != NULL); } void WriteDebugLogLine(int Port, char Dirn, char * Msg, int MsgLen) { if (LogHandle[Port] == NULL) OpenDebugLogFile(Port); if (LogHandle[Port]) { time_t T; struct tm * tm; char hddr[32]; char hex[4]; int len; UCHAR c; char textbit[33] = " "; int i; T = time(NULL); tm = gmtime(&T); len = sprintf(hddr,"%02d:%02d:%02d %c Len %3d ", tm->tm_hour, tm->tm_min, tm->tm_sec, Dirn, MsgLen); fwrite(hddr, 1, len, LogHandle[Port]); // Write up to 32 bytes of Text - replace ctrl with . for (i = 0; i < 33 && i < MsgLen; i++) { c = Msg[i]; if (c < 32) c = '.'; textbit[i] = c; } fwrite(textbit, 1, 32, LogHandle[Port]); // display fiorsy 16 in hex if (MsgLen > 16) MsgLen = 16; while (MsgLen--) { c = *(Msg++); sprintf(hex, " %02X", c); fwrite(hex, 1, 3, LogHandle[Port]); } fwrite("\r\n", 1, 2, LogHandle[Port]); if (T - LogTime[Port] > 30) CloseDebugLogFile(Port); } } static int ProcessLine(char * buf, int Port) { UCHAR * ptr,* p_cmd; char * p_port = 0; int BPQport; int len=510; struct TNCINFO * TNC; char errbuf[256]; BPQport = Port; TNC = TNCInfo[BPQport] = malloc(sizeof(struct TNCINFO)); memset(TNC, 0, sizeof(struct TNCINFO)); TNC->InitScript = malloc(1000); TNC->InitScript[0] = 0; strcpy(TNC->NormSpeed, "300"); // HF Packet strcpy(TNC->RobustSpeed, "R600"); goto ConfigLine; while(TRUE) { if (GetLine(buf) == 0) return TRUE; ConfigLine: strcpy(errbuf, buf); if (memcmp(buf, "****", 4) == 0) return TRUE; ptr = strchr(buf, ';'); if (ptr) { *ptr++ = 13; *ptr = 0; } if (_memicmp(buf, "APPL", 4) == 0) { p_cmd = strtok(&buf[4], " \t\n\r"); if (p_cmd && p_cmd[0] != ';' && p_cmd[0] != '#') TNC->ApplCmd=_strdup(_strupr(p_cmd)); } else // if (_mem`icmp(buf, "PACKETCHANNELS", 14) == 0) // // Packet Channels // TNC->PacketChannels = atoi(&buf[14]); // else if (_memicmp(buf, "SWITCHMODES", 11) == 0) { // Switch between Normal and Robust Packet double Robust = atof(&buf[12]); #pragma warning(push) #pragma warning(disable : 4244) TNC->RobustTime = Robust * 10; #pragma warning(pop) } if (_memicmp(buf, "DEBUGLOG", 8) == 0) // Write Debug Log TNC->WRITELOG = atoi(&buf[9]); else if (_memicmp(buf, "BEACONAFTERSESSION", 18) == 0) // Send Beacon after each session TNC->RPBEACON = TRUE; else if (_memicmp(buf, "USEAPPLCALLS", 12) == 0) TNC->UseAPPLCalls = TRUE; else if (_memicmp(buf, "DEFAULT ROBUST", 14) == 0) TNC->RobustDefault = TRUE; else if (_memicmp(buf, "FORCE ROBUST", 12) == 0) TNC->ForceRobust = TNC->RobustDefault = TRUE; else if (_memicmp(buf, "UPDATEMAP", 9) == 0) TNC->PktUpdateMap = TRUE; else if (_memicmp(buf, "TeensyRPR", 9) == 0) TNC->TeensyRPR = TRUE; else if (_memicmp(buf, "WL2KREPORT", 10) == 0) TNC->WL2K = DecodeWL2KReportLine(buf); else { strcat (TNC->InitScript, buf); // If %B param,and not R300 or R600 extract speed if (_memicmp(buf, "%B", 2) == 0) { ptr = strchr(buf, '\r'); if (ptr) *ptr = 0; if (strchr(buf, 'R') == 0) strcpy(TNC->NormSpeed, &buf[3]); else strcpy(TNC->RobustSpeed, &buf[3]); } } } return (TRUE); } static size_t ExtProc(int fn, int port, PDATAMESSAGE buff) { PMSGWITHLEN buffptr; int txlen = 0; struct TNCINFO * TNC = TNCInfo[port]; int Param; int Stream = 0; struct STREAMINFO * STREAM; int TNCOK; struct ScanEntry * Scan; int NewMode; if (TNC == NULL) return 0; if (TNC->hDevice == 0) { // Clear anything from UI_Q while (TNC->PortRecord->UI_Q) { buffptr = Q_REM(&TNC->PortRecord->UI_Q); ReleaseBuffer(buffptr); } if (fn > 3 && fn < 6) goto ok; // Try to reopen every 30 secs TNC->ReopenTimer++; if (TNC->ReopenTimer < 300) return 0; TNC->ReopenTimer = 0; if (TNC->PortRecord->PORTCONTROL.PortStopped == 0) OpenCOMMPort(TNC, TNC->PortRecord->PORTCONTROL.SerialPortName, TNC->PortRecord->PORTCONTROL.BAUDRATE, TRUE); if (TNC->hDevice == 0) return 0; } ok: switch (fn) { case 7: // 100 mS Timer. // G7TAJ's code to record activity for stats display if ( TNC->BusyFlags && CDBusy ) TNC->PortRecord->PORTCONTROL.ACTIVE += 2; if ( TNC->PTTState ) TNC->PortRecord->PORTCONTROL.SENDING += 2; // See if waiting for connect after changing MYCALL if (TNC->SlowTimer) { TNC->SlowTimer--; if (TNC->SlowTimer == 0) { // Not connected in 45 secs, set back to Port Call Debugprintf("RP No response after changing call - setting MYCALL back to %s", TNC->NodeCall); TRKReleasePort(TNC); } } return 0; case 1: // poll for (Stream = 0; Stream <= MaxStreams; Stream++) { if (TNC->Streams[Stream].ReportDISC) { TNC->Streams[Stream].ReportDISC = FALSE; buff->PORT = Stream; return -1; } } DEDCheckRX(TNC); DEDPoll(port); DEDCheckRX(TNC); for (Stream = 0; Stream <= MaxStreams; Stream++) { if (TNC->Streams[Stream].PACTORtoBPQ_Q !=0) { size_t datalen; buffptr = Q_REM(&TNC->Streams[Stream].PACTORtoBPQ_Q); datalen = buffptr->Len; buff->PORT = Stream; // Compatibility with Kam Driver buff->PID = 0xf0; memcpy(&buff->L2DATA, &buffptr->Data[0], datalen); // Data goes to + 7, but we have an extra byte datalen += sizeof(void *) + 4; PutLengthinBuffer(buff, (int)datalen); ReleaseBuffer(buffptr); return (1); } } return 0; case 2: // send buffptr = GetBuff(); if (buffptr == 0) return (0); // No buffers, so ignore Stream = buff->PORT; if (!TNC->TNCOK) { // Send Error Response buffptr->Len = 22; memcpy(buffptr->Data, "No Connection to TNC\r", 22); C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr); return 0; } txlen = GetLengthfromBuffer(buff) - (sizeof(void *) + 4); buffptr->Len = txlen; memcpy(&buffptr->Data[0], &buff->L2DATA[0], txlen); C_Q_ADD(&TNC->Streams[Stream].BPQtoPACTOR_Q, buffptr); TNC->Streams[Stream].FramesOutstanding++; return (0); case 3: // CHECK IF OK TO SEND. Also used to check if TNC is responding Stream = (int)(size_t)buff; TNCOK = (TNC->HostMode == 1 && TNC->ReinitState != 10); STREAM = &TNC->Streams[Stream]; if (Stream == 0) { if (STREAM->FramesOutstanding > 4) return (1 | TNCOK << 8 | STREAM->Disconnecting << 15); } else { if (STREAM->FramesOutstanding > 3 || TNC->Buffers < 200) return (1 | TNCOK << 8 | STREAM->Disconnecting << 15); } return TNCOK << 8 | STREAM->Disconnecting << 15; // OK, but lock attach if disconnecting case 4: // reinit TrkExitHost(TNC); Sleep(50); CloseCOMPort(TNC->hDevice); TNC->hDevice =(HANDLE)0; TNC->ReopenTimer = 250; TNC->HostMode = FALSE; return (0); case 5: // Close // Ensure in Pactor TrkExitHost(TNC); Sleep(25); CloseCOMPort(TNC->hDevice); return (0); case 6: // Scan Interface Param = (int)(size_t)buff; switch (Param) { case 1: // Request Permission if (TNC->TNCOK) { TNC->WantToChangeFreq = TRUE; TNC->OKToChangeFreq = TRUE; return 0; } return 0; // Don't lock scan if TNC isn't reponding case 2: // Check Permission return TNC->OKToChangeFreq; case 3: // Release Permission TNC->WantToChangeFreq = FALSE; TNC->DontWantToChangeFreq = TRUE; return 0; default: // Change Mode. Param is Address of a struct ScanEntry Scan = (struct ScanEntry *)buff; // If no change, just return NewMode = Scan->RPacketMode | (Scan->HFPacketMode << 8); if (TNC->CurrentMode == NewMode) return 0; TNC->CurrentMode = NewMode; if (Scan->RPacketMode == '1') { SwitchToRPacket(TNC, "R300"); return 0; } if (Scan->RPacketMode == '2') { SwitchToRPacket(TNC, "R600"); return 0; } if (Scan->HFPacketMode == '1') { SwitchToNormPacket(TNC, "300"); return 0; } if (Scan->HFPacketMode == '2') { SwitchToNormPacket(TNC, "1200"); return 0; } if (Scan->HFPacketMode == '3') { SwitchToNormPacket(TNC, "9600"); return 0; } } } return 0; } int TrkWebProc(struct TNCINFO * TNC, char * Buff, BOOL LOCAL) { int Interval = 15; int Len; if (LOCAL) { if (TNC->WEB_CHANGED) Interval = 1; else Interval = 4; } else { if (TNC->WEB_CHANGED) Interval = 4; else Interval = 15; } if (TNC->WEB_CHANGED) { TNC->WEB_CHANGED -= Interval; if (TNC->WEB_CHANGED < 0) TNC->WEB_CHANGED = 0; } Len = sprintf(Buff, "" "SCSTracker Status

SCSTracker Status

", Interval); Len += sprintf(&Buff[Len], ""); Len += sprintf(&Buff[Len], "", TNC->WEB_COMMSSTATE); Len += sprintf(&Buff[Len], "", TNC->WEB_TNCSTATE); Len += sprintf(&Buff[Len], "", TNC->WEB_MODE); Len += sprintf(&Buff[Len], "", TNC->WEB_BUFFERS); Len += sprintf(&Buff[Len], "", TNC->WEB_TRAFFIC); Len += sprintf(&Buff[Len], "
Comms State%s
TNC State%s
Mode%s
Buffers%s
Traffic%s
"); Len += sprintf(&Buff[Len], "", TNC->WebBuffer); Len = DoScanLine(TNC, Buff, Len); return Len; } void * TrackerExtInit(EXTPORTDATA * PortEntry) { char msg[500]; struct TNCINFO * TNC; int port; char * ptr; int Stream = 0; char * TempScript; // // Will be called once for each DED Host TNC Port // The COM port number is in IOBASE // sprintf(msg,"SCSTRK %s", PortEntry->PORTCONTROL.SerialPortName); WritetoConsoleLocal(msg); port=PortEntry->PORTCONTROL.PORTNUMBER; ReadConfigFile(port, ProcessLine); TNC = TNCInfo[port]; if (TNC == NULL) { // Not defined in Config file sprintf(msg," ** Error - no info in BPQ32.cfg for this port\n"); WritetoConsoleLocal(msg); return ExtProc; } TNC->Port = port; TNC->Hardware = H_TRK; // Set up DED addresses for streams for (Stream = 0; Stream <= MaxStreams; Stream++) { TNC->Streams[Stream].DEDStream = Stream + 1; // DED Stream = BPQ Stream + 1 } if (TNC->PacketChannels > MaxStreams) TNC->PacketChannels = MaxStreams; PortEntry->MAXHOSTMODESESSIONS = 1; //TNC->PacketChannels + 1; PortEntry->PERMITGATEWAY = TRUE; // Can change ax.25 call on each stream PortEntry->SCANCAPABILITIES = NONE; // Scan Control 3 stage/conlock TNC->PortRecord = PortEntry; if (PortEntry->PORTCONTROL.PORTCALL[0] == 0) memcpy(TNC->NodeCall, MYNODECALL, 10); else ConvFromAX25(&PortEntry->PORTCONTROL.PORTCALL[0], TNC->NodeCall); PortEntry->PORTCONTROL.PROTOCOL = 10; PortEntry->PORTCONTROL.UICAPABLE = 1; PortEntry->PORTCONTROL.PORTQUALITY = 0; if (PortEntry->PORTCONTROL.PORTPACLEN == 0) PortEntry->PORTCONTROL.PORTPACLEN = 100; if (PortEntry->PORTCONTROL.PORTINTERLOCK && TNC->RXRadio == 0 && TNC->TXRadio == 0) TNC->RXRadio = TNC->TXRadio = PortEntry->PORTCONTROL.PORTINTERLOCK; TNC->SuspendPortProc = TRKSuspendPort; TNC->ReleasePortProc = TRKReleasePort; PortEntry->PORTCONTROL.PORTSTARTCODE = KAMStartPort; PortEntry->PORTCONTROL.PORTSTOPCODE = KAMStopPort; ptr=strchr(TNC->NodeCall, ' '); if (ptr) *(ptr) = 0; // Null Terminate // get NODECALL for RP tests memcpy(NodeCall, MYNODECALL, 10); ptr=strchr(NodeCall, ' '); if (ptr) *(ptr) = 0; // Null Terminate TempScript = malloc(1000); strcpy(TempScript, "M UISC\r"); strcat(TempScript, "F 200\r"); // Sets SABM retry time to about 5 secs strcat(TempScript, "%F 1500\r"); // Tones may be changed but I want this as standard strcat(TempScript, TNC->InitScript); free(TNC->InitScript); TNC->InitScript = TempScript; // Others go on end so they can't be overriden strcat(TNC->InitScript, "Z 0\r"); // No Flow Control strcat(TNC->InitScript, "Y 1\r"); // One Channel strcat(TNC->InitScript, "E 1\r"); // Echo - Restart process needs echo sprintf(msg, "I %s\r", TNC->NodeCall); strcat(TNC->InitScript, msg); strcpy(TNC->Streams[0].MyCall, TNC->NodeCall); // For 1st Connected Test PortEntry->PORTCONTROL.TNC = TNC; if (TNC->WL2K == NULL) if (PortEntry->PORTCONTROL.WL2KInfo.RMSCall[0]) // Alrerady decoded as part of main config section TNC->WL2K = &PortEntry->PORTCONTROL.WL2KInfo; TNC->WebWindowProc = TrkWebProc; TNC->WebWinX = 520; TNC->WebWinY = 500; TNC->WebBuffer = zalloc(5000); TNC->WEB_COMMSSTATE = zalloc(100); TNC->WEB_TNCSTATE = zalloc(100); TNC->WEB_MODE = zalloc(20); TNC->WEB_BUFFERS = zalloc(100); TNC->WEB_TRAFFIC = zalloc(100); #ifndef LINBPQ CreatePactorWindow(TNC, ClassName, WindowTitle, RigControlRow, PacWndProc, 500, 450, TrkForcedClose); CreateWindowEx(0, "STATIC", "Comms State", WS_CHILD | WS_VISIBLE, 10,10,120,24, TNC->hDlg, NULL, hInstance, NULL); TNC->xIDC_COMMSSTATE = CreateWindowEx(0, "STATIC", "", WS_CHILD | WS_VISIBLE, 116,10,386,26, TNC->hDlg, NULL, hInstance, NULL); CreateWindowEx(0, "STATIC", "TNC State", WS_CHILD | WS_VISIBLE, 10,36,106,24, TNC->hDlg, NULL, hInstance, NULL); TNC->xIDC_TNCSTATE = CreateWindowEx(0, "STATIC", "", WS_CHILD | WS_VISIBLE, 116,36,520,24, TNC->hDlg, NULL, hInstance, NULL); CreateWindowEx(0, "STATIC", "Mode", WS_CHILD | WS_VISIBLE, 10,62,80,24, TNC->hDlg, NULL, hInstance, NULL); TNC->xIDC_MODE = CreateWindowEx(0, "STATIC", "", WS_CHILD | WS_VISIBLE, 116,62,200,24, TNC->hDlg, NULL, hInstance, NULL); CreateWindowEx(0, "STATIC", "Buffers", WS_CHILD | WS_VISIBLE, 10,88,80,24, TNC->hDlg, NULL, hInstance, NULL); TNC->xIDC_BUFFERS = CreateWindowEx(0, "STATIC", "0", WS_CHILD | WS_VISIBLE, 116,88,144,24, TNC->hDlg, NULL, hInstance, NULL); CreateWindowEx(0, "STATIC", "Traffic", WS_CHILD | WS_VISIBLE,10,114,80,24, TNC->hDlg, NULL, hInstance, NULL); TNC->xIDC_TRAFFIC = CreateWindowEx(0, "STATIC", "RX 0 TX 0", WS_CHILD | WS_VISIBLE,116,114,374,24 , TNC->hDlg, NULL, hInstance, NULL); TNC->hMonitor= CreateWindowEx(0, "LISTBOX", "", WS_CHILD | WS_VISIBLE | LBS_NOINTEGRALHEIGHT | LBS_DISABLENOSCROLL | WS_HSCROLL | WS_VSCROLL, 0,170,250,300, TNC->hDlg, NULL, hInstance, NULL); TNC->ClientHeight = 450; TNC->ClientWidth = 500; MoveWindows(TNC); #endif if (TNC->RobustDefault) { char Cmd[40]; TNC->Robust = TRUE; sprintf(Cmd, "%%B %s\r", TNC->RobustSpeed); strcat(TNC->InitScript, Cmd); SetWindowText(TNC->xIDC_MODE, "Robust Packet"); strcpy(TNC->WEB_MODE, "Robust Packet"); TNC->WEB_CHANGED = TRUE; } else { char Cmd[40]; sprintf(Cmd, "%%B %s\r", TNC->NormSpeed); strcat(TNC->InitScript, Cmd); SetWindowText(TNC->xIDC_MODE, "HF Packet"); strcpy(TNC->WEB_MODE, "HF Packet"); TNC->WEB_CHANGED = TRUE; } strcpy(TNC->WEB_TNCSTATE, "Idle"); SetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE); OpenCOMMPort(TNC,PortEntry->PORTCONTROL.SerialPortName, PortEntry->PORTCONTROL.BAUDRATE, FALSE); TNC->InitPtr = TNC->InitScript; if (TNC->RIG == &TNC->DummyRig || TNC->RIG == NULL) TNC->SwitchToPactor = TNC->RobustTime; // Don't alternate Modes if using Rig Control WritetoConsoleLocal("\n"); return ExtProc; } static void DEDCheckRX(struct TNCINFO * TNC) { int Length, Len; UCHAR * ptr; UCHAR character; UCHAR * CURSOR; Len = ReadCOMBlock(TNC->hDevice, &TNC->RXBuffer[TNC->RXLen], 500 - TNC->RXLen); if (Len == 0) return; // Nothing doing TNC->RXLen += Len; Length = TNC->RXLen; ptr = TNC->RXBuffer; CURSOR = &TNC->DEDBuffer[TNC->InputLen]; if ((TNC->HostMode == 0 || TNC->ReinitState == 10) && Length > 80) { // Probably Signon Message if (TNC->WRITELOG) WriteDebugLogLine(TNC->Port, 'R', ptr, Length); ptr[Length] = 0; Debugprintf("TRK %s", ptr); TNC->RXLen = 0; return; } if (TNC->HostMode == 0) { // If we are just restarting, and TNC is in host mode, we may get "Invalid Channel" Back if (memcmp(ptr, "\x18\x02INVALID", 9) == 0) { if (TNC->WRITELOG) WriteDebugLogLine(TNC->Port, 'R', ptr, Length); TNC->HostMode = TRUE; TNC->HOSTSTATE = 0; TNC->Timeout = 0; TNC->RXLen = 0; TNC->TermReinitCount = 0; return; } // Command is echoed as * command * if (strstr(ptr, "*") || TNC->ReinitState == 5) // 5 is waiting for reponse to JHOST1 { TrkProcessTermModeResponse(TNC); TNC->RXLen = 0; TNC->HOSTSTATE = 0; return; } } if (TNC->ReinitState == 10) { if (Length == 1 && *(ptr) == '.') // 01 echoed as . { // TNC is in Term Mode if (TNC->WRITELOG) WriteDebugLogLine(TNC->Port, 'R', ptr, Length); TNC->ReinitState = 0; TNC->HostMode = 0; return; } } while (Length--) { character = *(ptr++); if (TNC->HostMode) { // n 0 Success (nothing follows) // n 1 Success (message follows, null terminated) // n 2 Failure (message follows, null terminated) // n 3 Link Status (null terminated) // n 4 Monitor Header (null terminated) // n 5 Monitor Header (null terminated) // n 6 Monitor Information (preceeded by length-1) // n 7 Connect Information (preceeded by length-1) switch(TNC->HOSTSTATE) { case 0: // SETCHANNEL TNC->MSGCHANNEL = character; TNC->HOSTSTATE++; break; case 1: // SETMSGTYPE TNC->MSGTYPE = character; if (character == 0) { // Success, no more info TrkProcessDEDFrame(TNC); TNC->HOSTSTATE = 0; break; } if (character > 0 && character < 6) { // Null Terminated Response) TNC->HOSTSTATE = 5; CURSOR = &TNC->DEDBuffer[0]; break; } if (character > 5 && character < 8) { TNC->HOSTSTATE = 2; // Get Length break; } // Invalid Debugprintf("TRK - Invalid MsgType %d %x %x %x", character, *(ptr), *(ptr+1), *(ptr+2)); break; case 2: // Get Length TNC->MSGCOUNT = character; TNC->MSGCOUNT++; // Param is len - 1 TNC->MSGLENGTH = TNC->MSGCOUNT; CURSOR = &TNC->DEDBuffer[0]; TNC->HOSTSTATE = 3; // Get Data break; case 5: // Collecting Null Terminated Response *(CURSOR++) = character; if (character) continue; // MORE TO COME TrkProcessDEDFrame(TNC); TNC->HOSTSTATE = 0; TNC->InputLen = 0; break; default: // RECEIVING Counted Response *(CURSOR++) = character; TNC->MSGCOUNT--; if (TNC->MSGCOUNT) continue; // MORE TO COME TNC->InputLen = (int)(CURSOR - TNC->DEDBuffer); TrkProcessDEDFrame(TNC); TNC->HOSTSTATE = 0; TNC->InputLen = 0; } } } // End of Input - Save buffer position TNC->InputLen = (int)(CURSOR - TNC->DEDBuffer); TNC->RXLen = 0; } VOID DEDPoll(int Port) { struct TNCINFO * TNC = TNCInfo[Port]; UCHAR * Poll = TNC->TXBuffer; char Status[80]; int Stream = 0; int nn; struct STREAMINFO * STREAM; for (Stream = 0; Stream <= MaxStreams; Stream++) { if (TNC->PortRecord->ATTACHEDSESSIONS[Stream] && TNC->Streams[Stream].Attached == 0) { // New Attach int calllen = 0; TNC->CurrentMode = 0; // Mode may be changed manually TNC->Streams[Stream].Attached = TRUE; TNC->PortRecord->ATTACHEDSESSIONS[Stream]->L4USER[6] |= 0x60; // Ensure P or T aren't used on ax.25 calllen = ConvFromAX25(TNC->PortRecord->ATTACHEDSESSIONS[Stream]->L4USER, TNC->Streams[Stream].MyCall); TNC->Streams[Stream].MyCall[calllen] = 0; // Set call to null to stop inbound connects (We only support one stream) TNC->Streams[Stream].CmdSet = TNC->Streams[Stream].CmdSave = zalloc(100); sprintf(TNC->Streams[Stream].CmdSet, "\1\1\1IDSPTNC"); if (Stream == 0) { sprintf(TNC->WEB_TNCSTATE, "In Use by %s", TNC->Streams[0].MyCall); SetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE); TNC->WEB_CHANGED = TRUE; // Stop Scanner TNC->SwitchToPactor = 0; // Cancel any RP to Pactor switch sprintf(Status, "%d SCANSTOP", TNC->Port); Rig_Command( (TRANSPORTENTRY *) -1, Status); SuspendOtherPorts(TNC); // Prevent connects on other ports in same scan gruop } } } if (TNC->Timeout) { TNC->Timeout--; if (TNC->Timeout) // Still waiting return; // Can't use retries, as we have no way of detecting lost chars. Have to re-init on timeout if (TNC->HostMode == 0 || TNC->ReinitState == 10) // 10 is Recovery Mode { TNC->TermReinitCount++; if (TNC->TermReinitCount == 10) goto reinit; DoTermModeTimeout(TNC); return; } // Timed out in host mode - Clear any connection and reinit the TNC Debugprintf("DEDHOST - Link to TNC Lost Port %d", TNC->Port); reinit: TNC->TNCOK = FALSE; sprintf(TNC->WEB_COMMSSTATE, "%s Open but TNC not responding", TNC->PortRecord->PORTCONTROL.SerialPortName); SetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE); TNC->WEB_CHANGED = TRUE; TNC->HostMode = 0; TNC->ReinitState = 0; TNC->TermReinitCount = 0; CloseCOMPort(TNC->hDevice); OpenCOMMPort(TNC, TNC->PortRecord->PORTCONTROL.SerialPortName, TNC->PortRecord->PORTCONTROL.BAUDRATE, TRUE); TNC->InitPtr = TNC->InitScript; TNC->HOSTSTATE = 0; for (Stream = 0; Stream <= MaxStreams; Stream++) { if (TNC->PortRecord->ATTACHEDSESSIONS[Stream]) // Connected { TNC->Streams[Stream].Connected = FALSE; // Back to Command Mode TNC->Streams[Stream].ReportDISC = TRUE; // Tell Node } } // Clear anything from UI_Q while (TNC->PortRecord->UI_Q) { UINT * buffptr = Q_REM(&TNC->PortRecord->UI_Q); ReleaseBuffer(buffptr); } } if (TNC->SwitchToPactor) { TNC->SwitchToPactor--; if (TNC->SwitchToPactor == 0) { TNC->SwitchToPactor = TNC->RobustTime; if (TNC->Robust) SwitchToNormPacket(TNC, ""); else SwitchToRPacket(TNC, TNC->RobustSpeed); } } for (Stream = 0; Stream <= MaxStreams; Stream++) { STREAM = &TNC->Streams[Stream]; if (STREAM->Attached) CheckForDetach(TNC, Stream, STREAM, TrkTidyClose, TrkForcedClose, TrkCloseComplete); if (STREAM->NeedDisc) { STREAM->NeedDisc--; if (STREAM->NeedDisc == 0) STREAM->ReportDISC = TRUE; } if (TNC->Timeout) return; // We've sent something } // if we have just restarted or TNC appears to be in terminal mode, run Initialisation Sequence if (!TNC->HostMode) { DoTNCReinit(TNC); return; } if (TNC->InitPtr) { char * start, * end; int len; start = TNC->InitPtr; if (*(start) == 0) // End of Script { TNC->InitPtr = NULL; Debugprintf("TRK - Init Complete Port %d", TNC->Port); } else { end = strchr(start, 13); len = (int)(++end - start) - 1; // exclude cr TNC->InitPtr = end; Poll[0] = 0; // Channel Poll[1] = 1; // Command Poll[2] = len - 1; memcpy(&Poll[3], start, len); StuffAndSend(TNC, Poll, len + 3); return; } } if (TNC->NeedPACTOR) { TNC->NeedPACTOR--; if (TNC->NeedPACTOR == 0) { TNC->Streams[0].CmdSet = TNC->Streams[0].CmdSave = zalloc(100); sprintf(TNC->Streams[0].CmdSet, "\1\1\1%%B %s%c\1\1\1I%s", (TNC->RobustDefault) ? TNC->RobustSpeed : TNC->NormSpeed, 0, TNC->NodeCall); strcpy(TNC->Streams[0].MyCall, TNC->NodeCall); } } for (Stream = 0; Stream <= MaxStreams; Stream++) { if (TNC->Streams[Stream].CmdSet) { char * start, * end; int len; start = TNC->Streams[Stream].CmdSet; if (*(start + 2) == 0) // End of Script { free(TNC->Streams[Stream].CmdSave); TNC->Streams[Stream].CmdSet = NULL; } else { end = strchr(start + 3, 0); len = (int)(++end - start) - 1; // exclude cr TNC->Streams[Stream].CmdSet = end; // Debugprintf("TRK Cmdset %s", start + 3); memcpy(&Poll[0], start, len); Poll[2] = len - 4; StuffAndSend(TNC, Poll, len); return; } } } for (nn = 0; nn <= MaxStreams; nn++) { Stream = TNC->LastStream++; if (TNC->LastStream > MaxStreams) TNC->LastStream = 0; if (TNC->TNCOK && TNC->Streams[Stream].BPQtoPACTOR_Q) { int datalen; PMSGWITHLEN buffptr; char * Buffer; buffptr = Q_REM(&TNC->Streams[Stream].BPQtoPACTOR_Q); datalen = (int)buffptr->Len; Buffer = (char *)buffptr->Data; // Data portion of frame Poll[0] = TNC->Streams[Stream].DEDStream; // Channel if (TNC->Streams[Stream].Connected) { if (TNC->SwallowSignon && Stream == 0) { TNC->SwallowSignon = FALSE; if (strstr(Buffer, "Connected")) // Discard *** connected { ReleaseBuffer(buffptr); return; } } Poll[1] = 0; // Data TNC->Streams[Stream].BytesTXed += datalen; Poll[2] = datalen - 1; memcpy(&Poll[3], Buffer, datalen); WritetoTrace(TNC, Buffer, datalen); ReleaseBuffer(buffptr); StuffAndSend(TNC, Poll, datalen + 3); TNC->Streams[Stream].InternalCmd = TNC->Streams[Stream].Connected; if (STREAM->Disconnecting && TNC->Streams[Stream].BPQtoPACTOR_Q == 0) TrkTidyClose(TNC, 0); // Make sure Node Keepalive doesn't kill session. { TRANSPORTENTRY * SESS = TNC->PortRecord->ATTACHEDSESSIONS[0]; if (SESS) { SESS->L4KILLTIMER = 0; SESS = SESS->L4CROSSLINK; if (SESS) SESS->L4KILLTIMER = 0; } } ShowTraffic(TNC); return; } // Command. Do some sanity checking and look for things to process locally Poll[1] = 1; // Command datalen--; // Exclude CR if (datalen == 0) // Null Command { ReleaseBuffer(buffptr); return; } Buffer[datalen] = 0; // Null Terminate _strupr(Buffer); if (_memicmp(Buffer, "D", 1) == 0) { TNC->Streams[Stream].ReportDISC = TRUE; // Tell Node ReleaseBuffer(buffptr); return; } if (memcmp(Buffer, "RADIO ", 6) == 0) { sprintf(&Buffer[40], "%d %s", TNC->Port, &Buffer[6]); if (Rig_Command(TNC->PortRecord->ATTACHEDSESSIONS[0]->L4CROSSLINK, &Buffer[40])) { ReleaseBuffer(buffptr); } else { buffptr->Len = sprintf(buffptr->Data, "%s", &Buffer[40]); C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr); } return; } if ((Stream == 0) && memcmp(Buffer, "RPACKET", 7) == 0) { TNC->Robust = TRUE; buffptr->Len = sprintf(buffptr->Data, "TRK} OK\r"); C_Q_ADD(&TNC->Streams[0].PACTORtoBPQ_Q, buffptr); SetWindowText(TNC->xIDC_MODE, "Robust Packet"); strcpy(TNC->WEB_MODE, "Robust Packet"); TNC->WEB_CHANGED = TRUE; return; } if ((Stream == 0) && memcmp(Buffer, "HFPACKET", 8) == 0) { if (TNC->ForceRobust) { buffptr->Len = sprintf(buffptr->Data, "TRK} HF Packet Disabled\r"); C_Q_ADD(&TNC->Streams[0].PACTORtoBPQ_Q, buffptr); return; } if (strlen(Buffer) > 10) { // Speed follows HFPACKET Buffer += 9; Buffer = strtok(Buffer, " \r"); if (strlen(Buffer) < 6) strcpy(TNC->NormSpeed, Buffer); } buffptr->Len = sprintf(buffptr->Data, "TRK} OK\r"); C_Q_ADD(&TNC->Streams[0].PACTORtoBPQ_Q, buffptr); TNC->Robust = FALSE; SetWindowText(TNC->xIDC_MODE, "HF Packet"); strcpy(TNC->WEB_MODE, "HF Packet"); TNC->WEB_CHANGED = TRUE; return; } if (Buffer[0] == 'C' && datalen > 2) // Connect { if (*(++Buffer) == ' ') Buffer++; // Space isn't needed memcpy(TNC->Streams[Stream].RemoteCall, Buffer, 9); TNC->Streams[Stream].Connecting = TRUE; if (Stream == 0) { // Send MYCall, Mode Command followed by connect TNC->Streams[0].CmdSet = TNC->Streams[0].CmdSave = zalloc(100); sprintf(TNC->Streams[0].CmdSet, "\1\1\1%%B %s%c\1\1\1I%s%c\1\1\1C%s", (TNC->Robust) ? TNC->RobustSpeed : TNC->NormSpeed, 0, TNC->Streams[0].MyCall,0, Buffer); ReleaseBuffer(buffptr); sprintf(TNC->WEB_TNCSTATE, "%s Connecting to %s", TNC->Streams[Stream].MyCall, TNC->Streams[Stream].RemoteCall); SetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE); TNC->WEB_CHANGED = TRUE; TNC->Streams[0].InternalCmd = FALSE; return; } } Poll[2] = datalen - 1; memcpy(&Poll[3], buffptr->Data, datalen); ReleaseBuffer(buffptr); StuffAndSend(TNC, Poll, datalen + 3); TNC->Streams[Stream].InternalCmd = TNC->Streams[Stream].Connected; return; } } if (TNC->TNCOK && TNC->PortRecord->UI_Q) { int datalen; char * Buffer; char CCMD[80] = "C"; char Call[12] = " "; struct _MESSAGE * buffptr; buffptr = Q_REM(&TNC->PortRecord->UI_Q); datalen = buffptr->LENGTH - MSGHDDRLEN; Buffer = &buffptr->DEST[0]; // Raw Frame Buffer[datalen] = 0; // Buffer has an ax.25 header, which we need to pick out and set as channel 0 Connect address // before sending the beacon ConvFromAX25(Buffer, &Call[1]); // Dest strlop(&Call[1], ' '); strcat(CCMD, Call); Buffer += 14; // Skip Origin datalen -= 7; while ((Buffer[-1] & 1) == 0) { ConvFromAX25(Buffer, &Call[1]); strlop(&Call[1], ' '); strcat(CCMD, Call); Buffer += 7; // End of addr datalen -= 7; } if (Buffer[0] == 3) // UI { Buffer += 2; datalen -= 2; Poll[0] = 0; // UI Channel Poll[1] = 1; // CMD Poll[2] = (int)strlen(CCMD) - 1; strcpy(&Poll[3], CCMD); StuffAndSend(TNC, Poll, Poll[2] + 4); TNC->Streams[0].CmdSet = TNC->Streams[0].CmdSave = zalloc(400); sprintf(TNC->Streams[0].CmdSet, "%c%c%c%s", 0, 0, 1, Buffer); } ReleaseBuffer((UINT *)buffptr); return; } // if frames outstanding, issue a poll (but not too often) TNC->IntCmdDelay++; if (TNC->IntCmdDelay == 5 && TNC->Streams[0].FramesOutstanding) { Poll[0] = TNC->Streams[0].DEDStream; Poll[1] = 0x1; // Command TNC->InternalCmd = TRUE; Poll[2] = 1; // Len-1 Poll[3] = '@'; Poll[4] = 'B'; // Buffers StuffAndSend(TNC, Poll, 5); return; } if (TNC->IntCmdDelay > 10) { TNC->IntCmdDelay = 0; if (TNC->Streams[0].FramesOutstanding) { Poll[0] = TNC->Streams[0].DEDStream; Poll[1] = 0x1; // Command TNC->InternalCmd = TRUE; Poll[2] = 0; // Len-1 Poll[3] = 'L'; // Status StuffAndSend(TNC, Poll, 4); return; } } // Need to poll channels 0 and 1 in turn TNC->StreamtoPoll++; if (TNC->StreamtoPoll > 1) TNC->StreamtoPoll = 0; Poll[0] = TNC->StreamtoPoll; // Channel Poll[1] = 0x1; // Command Poll[2] = 0; // Len-1 Poll[3] = 'G'; // Poll StuffAndSend(TNC, Poll, 4); TNC->InternalCmd = FALSE; return; } VOID DoTNCReinit(struct TNCINFO * TNC) { UCHAR * Poll = TNC->TXBuffer; if (TNC->ReinitState == 0) { // Just Starting - Send a TNC Mode Command to see if in Terminal or Host Mode TNC->TNCOK = FALSE; sprintf(TNC->WEB_COMMSSTATE, "%s Initialising TNC", TNC->PortRecord->PORTCONTROL.SerialPortName); SetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE); TNC->WEB_CHANGED = TRUE; memcpy(&TNC->TXBuffer[0], "\x18\x1b\r", 2); TNC->TXLen = 2; if (TrkWriteCommBlock(TNC) == FALSE) { CloseCOMPort(TNC->hDevice); OpenCOMMPort(TNC, TNC->PortRecord->PORTCONTROL.SerialPortName, TNC->PortRecord->PORTCONTROL.BAUDRATE, TRUE); } return; } if (TNC->ReinitState == 1) // Forcing back to Term TNC->ReinitState = 0; if (TNC->ReinitState == 2) // In Term State, Sending Initialisation Commands { // Put into Host Mode memcpy(Poll, "\x18\x1bJHOST1\r", 9); TNC->TXLen = 9; TrkWriteCommBlock(TNC); TNC->ReinitState = 5; return; } if (TNC->ReinitState == 5) TNC->ReinitState = 0; } VOID DoTermModeTimeout(struct TNCINFO * TNC) { UCHAR * Poll = TNC->TXBuffer; if (TNC->ReinitState == 0) { //Checking if in Terminal Mode - Try to set back to Term Mode TNC->ReinitState = 1; TrkExitHost(TNC); return; } if (TNC->ReinitState == 1) { // No Response to trying to enter term mode - do error recovery Debugprintf("TRK - Starting Resync Port %d", TNC->Port); TNC->ReinitState = 10; TNC->ReinitCount = 256; TNC->HostMode = TRUE; // Must be in Host Mode if we need recovery Poll[0] = 1; TNC->TXLen = 1; TrkWriteCommBlock(TNC); TNC->Timeout = 10; // 2 secs return; } if (TNC->ReinitState == 10) { // Continue error recovery TNC->ReinitCount--; if (TNC->ReinitCount) { Poll[0] = 1; TNC->TXLen = 1; TrkWriteCommBlock(TNC); TNC->Timeout = 3; // 0.3 secs return; } // Try Again Debugprintf("TRK Continuing recovery Port %d", TNC->Port); TNC->ReinitState = 0; // Close and re-open TNC TrkExitHost(TNC); Sleep(50); CloseCOMPort(TNC->hDevice); TNC->hDevice =(HANDLE)0; TNC->ReopenTimer = 290; TNC->HostMode = FALSE; TNC->TermReinitCount = 0; return; } if (TNC->ReinitState == 3) { // Entering Host Mode // Assume ok TNC->HostMode = TRUE; TNC->IntCmdDelay = 10; TNC->TermReinitCount = 0; return; } } //#include "Mmsystem.h" VOID TrkExitHost(struct TNCINFO * TNC) { UCHAR * Poll = TNC->TXBuffer; // Try to exit Host Mode TNC->TXBuffer[0] = 1; TNC->TXBuffer[1] = 1; TNC->TXBuffer[2] = 1; if (!TNC->TeensyRPR) // %R puts TNC into Program Mode. { memcpy(&TNC->TXBuffer[3], "%R", 2); StuffAndSend(TNC, Poll, 5); } return; } VOID StuffAndSend(struct TNCINFO * TNC, UCHAR * Msg, int Len) { TNC->TXLen = Len; TrkWriteCommBlock(TNC); } VOID TrkProcessTermModeResponse(struct TNCINFO * TNC) { UCHAR * Poll = TNC->TXBuffer; if (TNC->WRITELOG) WriteDebugLogLine(TNC->Port, 'R', TNC->RXBuffer, TNC->RXLen); if (TNC->ReinitState == 0) { // Testing if in Term Mode. It is, so can now send Init Commands TNC->InitPtr = TNC->InitScript; TNC->ReinitState = 2; } if (TNC->ReinitState == 1) { // trying to set term mode // If already in Term Mode, TNC echos command, with control chars replaced with '.' if (memcmp(TNC->RXBuffer, "....%R", 6) == 0) { // In term mode, Need to put into Host Mode TNC->ReinitState = 2; DoTNCReinit(TNC); return; } } if (TNC->ReinitState == 2) { // Sending Init Commands DoTNCReinit(TNC); // Send Next Command return; } if (TNC->ReinitState == 5) // Waiting for response to JHOST1 { if (TNC->RXBuffer[TNC->RXLen-1] == 10 || TNC->RXBuffer[TNC->RXLen-1] == 13) // NewLine { TNC->HostMode = TRUE; TNC->Timeout = 0; TNC->TermReinitCount = 0; } return; } } VOID TrkProcessDEDFrame(struct TNCINFO * TNC) { PMSGWITHLEN buffptr; char * Buffer; // Data portion of frame char Status[80]; UINT Stream = 0; UCHAR * Msg = TNC->DEDBuffer; int framelen = TNC->InputLen; if (TNC->WRITELOG) WriteDebugLogLine(TNC->Port, 'R', Msg, framelen); if (TNC->ReinitState == 10) { // Recovering from Sync Failure // Any Response indicates we are in host mode, and back in sync TNC->HostMode = TRUE; TNC->Timeout = 0; TNC->ReinitState = 0; TNC->RXLen = 0; TNC->HOSTSTATE = 0; TNC->TermReinitCount = 0; Debugprintf("TRK - Resync Complete"); return; } // Any valid frame is an ACK TNC->Timeout = 0; if (TNC->TNCOK == FALSE) { // Just come up TNC->TNCOK = TRUE; sprintf(TNC->WEB_COMMSSTATE, "%s TNC link OK", TNC->PortRecord->PORTCONTROL.SerialPortName); SetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE); TNC->WEB_CHANGED = TRUE; } if (TNC->InitPtr) // Response to Init Script return; if (TNC->MSGCHANNEL > 26) return; Stream = TNC->MSGCHANNEL - 1; // See if Poll Reply or Data if (TNC->MSGTYPE == 0) { // Success - Nothing Follows if (Stream < 32) if (TNC->Streams[Stream].CmdSet) return; // Response to Command Set or Init Script if ((TNC->TXBuffer[1] & 1) == 0) // Data return; // If the response to a Command, then we should convert to a text "Ok" for forward scripts, etc if (TNC->TXBuffer[3] == 'G') // Poll return; if (TNC->TXBuffer[3] == 'C') // Connect - reply we need is async return; if (TNC->TXBuffer[3] == 'L') // Shouldnt happen! return; if (TNC->TXBuffer[3] == 'J') // JHOST { if (TNC->TXBuffer[8] == '0') // JHOST0 { TNC->Timeout = 1; // return; } } if (TNC->MSGCHANNEL == 0) // Unproto Channel return; buffptr = GetBuff(); if (buffptr == NULL) return; // No buffers, so ignore buffptr->Len = sprintf(buffptr->Data, "TRK} Ok\r"); C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr); return; } if (TNC->MSGTYPE > 0 && TNC->MSGTYPE < 6) { // Success with message - null terminated char * ptr; int len; Buffer = Msg; ptr = strchr(Buffer, 0); if (ptr == 0) return; *(ptr++) = 13; *(ptr) = 0; len = (int)(ptr - Buffer); if (len > 256) return; // See if we need to process locally (Response to our command, Incoming Call, Disconencted, etc if (TNC->MSGTYPE < 3) // 1 or 2 - Success or Fail { // See if a response to internal command if (TNC->InternalCmd) { // Process it char LastCmd = TNC->TXBuffer[3]; if (LastCmd == 'L') // Status { int s1, s2, s3, s4, s5, s6, num; num = sscanf(Buffer, "%d %d %d %d %d %d", &s1, &s2, &s3, &s4, &s5, &s6); TNC->Streams[Stream].FramesOutstanding = s3; return; } if (LastCmd == '@') // @ Commands { if (TNC->TXBuffer[4]== 'B') // Buffer Status { TNC->Buffers = atoi(Buffer); SetWindowText(TNC->xIDC_BUFFERS, Buffer); strcpy(TNC->WEB_BUFFERS, Buffer); return; } } if (LastCmd == '%') // % Commands { if (TNC->TXBuffer[4]== 'T') // TX count Status { sprintf(TNC->WEB_TRAFFIC, "RX %d TX %d ACKED %s", TNC->Streams[Stream].BytesRXed, TNC->Streams[Stream].BytesTXed, Buffer); SetWindowText(TNC->xIDC_TRAFFIC, TNC->WEB_TRAFFIC); TNC->WEB_CHANGED = TRUE; return; } if (TNC->TXBuffer[4] == 'W') // Scan Control { if (Msg[4] == '1') // Ok to Change TNC->OKToChangeFreq = 1; else TNC->OKToChangeFreq = -1; } } return; } // Not Internal Command, so send to user if (TNC->Streams[Stream].CmdSet || TNC->InitPtr) return; // Response to Command Set or Init Script if ((TNC->TXBuffer[1] & 1) == 0) // Data { // Should we look for "CHANNEL NOT CONNECTED" here (or somewhere!) return; } // If the response to a Command, then we should convert to a text "Ok" for forward scripts, etc if (TNC->TXBuffer[3] == 'G') // Poll return; if (TNC->TXBuffer[3] == 'C') // Connect - reply we need is async return; if (TNC->TXBuffer[3] == 'L') // Shouldnt happen! return; if (TNC->TXBuffer[3] == 'J') // JHOST { if (TNC->TXBuffer[8] == '0') // JHOST0 { TNC->Timeout = 1; // return; } } if (TNC->MSGCHANNEL == 0) // Unproto Channel return; buffptr = GetBuff(); if (buffptr == NULL) return; // No buffers, so ignore buffptr->Len = sprintf(buffptr->Data, "TRK} %s", Buffer); C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr); return; } if (TNC->MSGTYPE == 3) // Status { struct STREAMINFO * STREAM = &TNC->Streams[Stream]; if (strstr(Buffer, "DISCONNECTED") || strstr(Buffer, "LINK FAILURE") || strstr(Buffer, "BUSY")) { if ((STREAM->Connecting | STREAM->Connected) == 0) return; if (STREAM->Connecting && STREAM->Disconnecting == FALSE) { // Connect Failed buffptr = GetBuff(); if (buffptr == 0) return; // No buffers, so ignore if (strstr(Buffer, "BUSY")) buffptr->Len = sprintf(buffptr->Data, "*** Busy from %s\r", TNC->Streams[Stream].RemoteCall); else buffptr->Len = sprintf(buffptr->Data, "*** Failure with %s\r", TNC->Streams[Stream].RemoteCall); C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr); STREAM->Connecting = FALSE; STREAM->Connected = FALSE; // In case! STREAM->FramesOutstanding = 0; if (Stream == 0) { sprintf(TNC->WEB_TNCSTATE, "In Use by %s", STREAM->MyCall); SetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE); TNC->WEB_CHANGED = TRUE; } if (TNC->RPBEACON) SendRPBeacon(TNC); return; } // Must Have been connected or disconnecting - Release Session STREAM->Connecting = FALSE; STREAM->Connected = FALSE; // Back to Command Mode STREAM->FramesOutstanding = 0; if (STREAM->Disconnecting == FALSE) STREAM->ReportDISC = TRUE; // Tell Node STREAM->Disconnecting = FALSE; if (TNC->RPBEACON) SendRPBeacon(TNC); return; } if (strstr(Buffer, "CONNECTED")) { char * Call = strstr(Buffer, " to "); char * ptr; char MHCall[30]; Call += 4; if (Call[1] == ':') Call +=2; ptr = strchr(Call, ' '); if (ptr) *ptr = 0; ptr = strchr(Call, 13); if (ptr) *ptr = 0; STREAM->Connected = TRUE; // Subsequent data to data channel STREAM->Connecting = FALSE; STREAM->ConnectTime = time(NULL); STREAM->BytesRXed = STREAM->BytesTXed = 0; if (TNC->SlowTimer) Debugprintf("RP Incoming call to APPLCALL completed"); TNC->SlowTimer = 0; // Cancel Reset MYCALL timer // Stop Scanner if (Stream == 0) { TNC->SwitchToPactor = 0; // Cancel any RP to Pactor switch sprintf(Status, "%d SCANSTOP", TNC->Port); Rig_Command( (TRANSPORTENTRY *) -1, Status); memcpy(MHCall, Call, 9); MHCall[9] = 0; } if (TNC->PortRecord->ATTACHEDSESSIONS[Stream] == 0) { // Incoming Connect APPLCALLS * APPL; char * ApplPtr = APPLS; int App; char Appl[10]; char DestCall[10]; TRANSPORTENTRY * SESS; struct WL2KInfo * WL2K = TNC->WL2K; struct PORTCONTROL * PORT = &TNC->PortRecord->PORTCONTROL; int Totallen = 0; if (Stream == 0) { char Save = TNC->RIG->CurrentBandWidth; TNC->RIG->CurrentBandWidth = 'R'; UpdateMH(TNC, MHCall, '+', 'I'); TNC->RIG->CurrentBandWidth = Save; } ProcessIncommingConnect(TNC, Call, Stream, FALSE); // if Port CTEXT defined, use it if (PORT->CTEXT) { Totallen = strlen(PORT->CTEXT); ptr = PORT->CTEXT; } else if (HFCTEXTLEN > 0) { Totallen = HFCTEXTLEN; ptr = HFCTEXT; } else if (FULL_CTEXT) { Totallen = CTEXTLEN; ptr = CTEXTMSG; } while (Totallen) { int sendLen = TNC->PortRecord->ATTACHEDSESSIONS[Stream]->SESSPACLEN; if (sendLen == 0) sendLen = 80; if (Totallen < sendLen) sendLen = Totallen; buffptr = (PMSGWITHLEN)GetBuff(); if (buffptr) { buffptr->Len = sendLen; memcpy(&buffptr->Data[0], ptr, sendLen); C_Q_ADD(&TNC->Streams[Stream].BPQtoPACTOR_Q, buffptr); } Totallen -= sendLen; ptr += sendLen; } SESS = TNC->PortRecord->ATTACHEDSESSIONS[Stream]; if (TNC->RIG && TNC->RIG != &TNC->DummyRig && strcmp(TNC->RIG->RigName, "PTT")) { sprintf(TNC->WEB_TNCSTATE, "%s Connected to %s Inbound Freq %s", TNC->Streams[0].RemoteCall, TNC->Streams[0].MyCall, TNC->RIG->Valchar); SESS->Frequency = (int)(atof(TNC->RIG->Valchar) * 1000000.0); // Convert to Centre Freq if (SESS->Frequency == 0) { // try to get from WL2K record if (WL2K) SESS->Frequency = WL2K->Freq; } } else { sprintf(TNC->WEB_TNCSTATE, "%s Connected to %s Inbound", TNC->Streams[0].RemoteCall, TNC->Streams[0].MyCall); if (WL2K) { SESS->Frequency = WL2K->Freq; SESS->Mode = WL2K->mode; } } if (WL2K) { strcpy(SESS->RMSCall, WL2K->RMSCall); SESS->Mode = WL2K->mode; } if (Stream == 0) { SetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE); TNC->WEB_CHANGED = TRUE; // If an autoconnect APPL is defined, send it // See which application the connect is for strcpy(DestCall, STREAM->MyCall); if (TNC->UseAPPLCalls && strcmp(DestCall, TNC->NodeCall) != 0) // Not Connect to Node Call { if (strcmp(DestCall, NodeCall) == 0) // Call to NodeCall (when not PortCall) { goto DontUseAPPLCmd; } for (App = 0; App < 32; App++) { APPL=&APPLCALLTABLE[App]; memcpy(Appl, APPL->APPLCALL_TEXT, 10); ptr=strchr(Appl, ' '); if (ptr) *ptr = 0; if (_stricmp(DestCall, Appl) == 0) break; } if (App < 32) { char AppName[13]; memcpy(AppName, &ApplPtr[App * sizeof(CMDX)], 12); AppName[12] = 0; // Make sure app is available if (CheckAppl(TNC, AppName)) { int MsgLen = sprintf(Buffer, "%s\r", AppName); buffptr = GetBuff(); if (buffptr == 0) return; // No buffers, so ignore buffptr->Len = MsgLen; memcpy(buffptr->Data, Buffer, MsgLen); C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr); TNC->SwallowSignon = TRUE; } else { char Msg[] = "Application not available\r\n"; // Send a Message, then a disconenct buffptr = GetBuff(); if (buffptr == 0) return; // No buffers, so ignore buffptr->Len = strlen(Msg); memcpy(buffptr->Data, Msg, strlen(Msg)); C_Q_ADD(&STREAM->BPQtoPACTOR_Q, buffptr); STREAM->NeedDisc = 100; // 10 secs } return; } // Not to a known appl - drop through to Node } // if (TNC->UseAPPLCalls) // goto DontUseAPPLCmd; if (TNC->ApplCmd) { buffptr = GetBuff(); if (buffptr == 0) return; // No buffers, so ignore buffptr->Len = sprintf(buffptr->Data, "%s\r", TNC->ApplCmd); C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr); TNC->SwallowSignon = TRUE; return; } } // End of Stream 0 or RP or Drop through from not APPL Connect DontUseAPPLCmd: return; } else { // Connect Complete buffptr = GetBuff(); if (buffptr == 0) return; // No buffers, so ignore buffptr->Len = sprintf(buffptr->Data, "*** Connected to %s\r", Call);; C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr); if (Stream == 0) { if (TNC->RIG) sprintf(TNC->WEB_TNCSTATE, "%s Connected to %s Outbound Freq %s", STREAM->MyCall, STREAM->RemoteCall, TNC->RIG->Valchar); else sprintf(TNC->WEB_TNCSTATE, "%s Connected to %s Outbound", STREAM->MyCall, STREAM->RemoteCall); SetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE); TNC->WEB_CHANGED = TRUE; if (STREAM->DEDStream == 30) // Robust Mode { char Save = TNC->RIG->CurrentBandWidth; TNC->RIG->CurrentBandWidth = 'R'; UpdateMH(TNC, Call, '+', 'O'); TNC->RIG->CurrentBandWidth = Save; } else { UpdateMH(TNC, Call, '+', 'O'); } } return; } } return; } if (TNC->MSGTYPE == 4 || TNC->MSGTYPE == 5) { // 4 Is header only - Null Terminated // 5 Is header with data following - Null Terminated struct STREAMINFO * STREAM = &TNC->Streams[0]; // RP Stream // Monitor if (TNC->UseAPPLCalls && strstr(&Msg[4], "SABM") && STREAM->Attached == FALSE) { // See if a call to Nodecall or one of our APPLCALLS - if so, stop scan and switch MYCALL char DestCall[10] = "NOCALL "; char * ptr1 = strstr(&Msg[7], "to "); int i; APPLCALLS * APPL; char Appl[11]; char Status[80]; if (ptr1) memcpy(DestCall, &ptr1[3], 10); ptr1 = strchr(DestCall, ' '); if (ptr1) *(ptr1) = 0; // Null Terminate Debugprintf("RP SABM Received for %s" , DestCall); if (strcmp(TNC->NodeCall, DestCall) != 0 && TNC->SlowTimer == 0) { // Not Calling NodeCall/Portcall if (strcmp(NodeCall, DestCall) == 0) goto SetThisCall; // See if to one of our ApplCalls for (i = 0; i < 32; i++) { APPL=&APPLCALLTABLE[i]; if (APPL->APPLCALL_TEXT[0] > ' ') { char * ptr; memcpy(Appl, APPL->APPLCALL_TEXT, 10); ptr=strchr(Appl, ' '); if (ptr) *ptr = 0; if (strcmp(Appl, DestCall) == 0) { SetThisCall: TNC->SlowTimer = 450; // Allow 45 seconds for connect to complete Debugprintf("RP SABM is for NODECALL or one of our APPLCalls - setting MYCALL to %s and pausing scan", DestCall); sprintf(Status, "%d SCANSTART 60", TNC->Port); // Pause scan for 60 secs Rig_Command( (TRANSPORTENTRY *) -1, Status); if ((TNC->RIG == &TNC->DummyRig || TNC->RIG == NULL) && TNC->RobustTime) TNC->SwitchToPactor = 600; // Don't change modes for 60 secs strcpy(STREAM->MyCall, DestCall); STREAM->CmdSet = STREAM->CmdSave = zalloc(100); sprintf(STREAM->CmdSet, "\1\1\1I%s", DestCall); break; } } } } } DoMonitorHddr(TNC, Msg, framelen, TNC->MSGTYPE); return; } // 1, 2, 4, 5 - pass to Appl if (TNC->MSGCHANNEL == 0) // Unproto Channel return; buffptr = GetBuff(); if (buffptr == NULL) return; // No buffers, so ignore buffptr->Len = sprintf(buffptr->Data,"TRK} %s", &Msg[4]); C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr); return; } if (TNC->MSGTYPE == 6) { // Monitor Data With length) DoMonitorData(TNC, Msg, framelen); return; } if (TNC->MSGTYPE == 7) { //char StatusMsg[60]; //int Status, ISS, Offset; // Connected Data buffptr = GetBuff(); if (buffptr == NULL) return; // No buffers, so ignore buffptr->Len = framelen; // Length TNC->Streams[Stream].BytesRXed += (int)buffptr->Len; memcpy(buffptr->Data, Msg, buffptr->Len); WritetoTrace(TNC, Msg, (int)buffptr->Len); C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr); ShowTraffic(TNC); return; } } static MESSAGE Monframe[32]; // I frames come in two parts. static MESSAGE * AdjMsg[32]; // Adjusted for digis VOID DoMonitorHddr(struct TNCINFO * TNC, UCHAR * Msg, int Len, int Type) { // Convert to ax.25 form and pass to monitor // Only update MH on UI, SABM, UA UCHAR * ptr, * starptr; char * context; int Port = TNC->Port; char * MHCall = Monframe[Port].ORIGIN; Monframe[Port].LENGTH = MSGHDDRLEN + 16; // Control Frame Monframe[Port].PORT = TNC->Port; AdjMsg[Port] = &Monframe[Port]; // Adjusted fir digis ptr = strstr(Msg, "fm "); ConvToAX25(&ptr[3], Monframe[Port].ORIGIN); // memcpy(MHCall, &ptr[3], 11); // strlop(MHCall, ' '); ptr = strstr(ptr, "to "); ConvToAX25(&ptr[3], Monframe[Port].DEST); ptr = strstr(ptr, "via "); if (ptr) { // We have digis char Save[100]; char * fiddle; memcpy(Save, &ptr[4], 60); ptr = strtok_s(Save, " ", &context); DigiLoop: fiddle = (char *)AdjMsg[Port]; fiddle += 7; AdjMsg[Port] = (MESSAGE *)fiddle; Monframe[Port].LENGTH += 7; starptr = strchr(ptr, '*'); if (starptr) *(starptr) = 0; ConvToAX25(ptr, AdjMsg[Port]->ORIGIN); if (starptr) AdjMsg[Port]->ORIGIN[6] |= 0x80; // Set end of address ptr = strtok_s(NULL, " ", &context); if (memcmp(ptr, "ctl", 3)) goto DigiLoop; } AdjMsg[Port]->ORIGIN[6] |= 1; // Set end of address ptr = strstr(Msg, "ctl "); if (memcmp(&ptr[4], "SABM", 4) == 0) { AdjMsg[Port]->CTL = 0x2f; if (TNC->Robust) UpdateMHwithDigis(TNC, MHCall, '.', 0); else UpdateMHwithDigis(TNC, MHCall, ' ', 0); } else if (memcmp(&ptr[4], "DISC", 4) == 0) AdjMsg[Port]->CTL = 0x43; else if (memcmp(&ptr[4], "UA", 2) == 0) { AdjMsg[Port]->CTL = 0x63; if (TNC->Robust) UpdateMHwithDigis(TNC, MHCall, '.', 0); else UpdateMHwithDigis(TNC, MHCall, ' ', 0); } else if (memcmp(&ptr[4], "DM", 2) == 0) AdjMsg[Port]->CTL = 0x0f; else if (memcmp(&ptr[4], "UI", 2) == 0) { AdjMsg[Port]->CTL = 0x03; if (TNC->Robust) UpdateMHwithDigis(TNC, MHCall, '.', 0); else UpdateMHwithDigis(TNC, MHCall, ' ', 0); } else if (memcmp(&ptr[4], "RR", 2) == 0) AdjMsg[Port]->CTL = 0x1 | (ptr[6] << 5); else if (memcmp(&ptr[4], "RNR", 3) == 0) AdjMsg[Port]->CTL = 0x5 | (ptr[7] << 5); else if (memcmp(&ptr[4], "REJ", 3) == 0) AdjMsg[Port]->CTL = 0x9 | (ptr[7] << 5); else if (memcmp(&ptr[4], "FRMR", 4) == 0) AdjMsg[Port]->CTL = 0x87; else if (ptr[4] == 'I') { AdjMsg[Port]->CTL = (ptr[5] << 5) | (ptr[6] & 7) << 1 ; } if (strchr(&ptr[4], '+')) { AdjMsg[Port]->CTL |= 0x10; Monframe[Port].DEST[6] |= 0x80; // SET COMMAND } if (strchr(&ptr[4], '-')) { AdjMsg[Port]->CTL |= 0x10; Monframe[Port].ORIGIN[6] |= 0x80; // SET COMMAND } if (Type == 5) // More to come { ptr = strstr(ptr, "pid "); sscanf(&ptr[3], "%x", (UINT *)&AdjMsg[Port]->PID); return; } time(&Monframe[Port].Timestamp); BPQTRACE((MESSAGE *)&Monframe[Port], TRUE); } VOID DoMonitorData(struct TNCINFO * TNC, UCHAR * Msg, int Len) { int Port = TNC->Port; // // Second part of I or UI if (AdjMsg[Port]) { memcpy(AdjMsg[Port]->L2DATA, Msg, Len); Monframe[Port].LENGTH += Len; time(&Monframe[Port].Timestamp); BPQTRACE((MESSAGE *)&Monframe[Port], TRUE); } return; } //1:fm G8BPQ to KD6PGI-1 ctl I11^ pid F0 //fm KD6PGI-1 to G8BPQ ctl DISC+ VOID TrkTidyClose(struct TNCINFO * TNC, int Stream) { // Queue it as we may have just sent data TNC->Streams[Stream].CmdSet = TNC->Streams[Stream].CmdSave = zalloc(100); sprintf(TNC->Streams[Stream].CmdSet, "\1\1\1D"); } VOID TrkForcedClose(struct TNCINFO * TNC, int Stream) { TrkTidyClose(TNC, Stream); // I don't think Hostmode has a DD } VOID TrkCloseComplete(struct TNCINFO * TNC, int Stream) { char Status[80]; TNC->NeedPACTOR = 20; // Delay a bit for UA to be sent before changing mode and call sprintf(Status, "%d SCANSTART 15", TNC->Port); strcpy(TNC->WEB_TNCSTATE, "Idle"); SetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE); TNC->WEB_CHANGED = TRUE; Rig_Command( (TRANSPORTENTRY *) -1, Status); if (TNC->RIG == &TNC->DummyRig) // Not using Rig control TNC->SwitchToPactor = TNC->RobustTime; ReleaseOtherPorts(TNC); } VOID SwitchToRPacket(struct TNCINFO * TNC, char * Baud) { if (TNC->Robust == FALSE) { TNC->Streams[0].CmdSet = TNC->Streams[0].CmdSave = zalloc(100); sprintf(TNC->Streams[0].CmdSet, "\1\1\1%%B %s", Baud); TNC->Robust = TRUE; SetWindowText(TNC->xIDC_MODE, "Robust Packet"); strcpy(TNC->WEB_MODE, "Robust Packet"); TNC->WEB_CHANGED = TRUE; } } VOID SwitchToNormPacket(struct TNCINFO * TNC, char * Baud) { if (TNC->ForceRobust) return; TNC->Streams[0].CmdSet = TNC->Streams[0].CmdSave = zalloc(100); if (Baud[0] == 0) sprintf(TNC->Streams[0].CmdSet, "\1\1\1%%B %s", TNC->NormSpeed); else sprintf(TNC->Streams[0].CmdSet, "\1\1\1%%B %s", Baud); TNC->Robust = FALSE; SetWindowText(TNC->xIDC_MODE, "HF Packet"); strcpy(TNC->WEB_MODE, "HF Packet"); TNC->WEB_CHANGED = TRUE; } VOID SendRPBeacon(struct TNCINFO * TNC) { MESSAGE AXMSG; PMESSAGE AXPTR = &AXMSG; char BEACONMSG[80]; int DataLen = sprintf(BEACONMSG, "QRA %s %s", TNC->NodeCall, LOC); // Block includes the Msg Header (7 bytes), Len Does not! ConvToAX25("BEACON", AXPTR->DEST); ConvToAX25(TNC->NodeCall, AXPTR->ORIGIN); AXPTR->DEST[6] &= 0x7e; // Clear End of Call AXPTR->DEST[6] |= 0x80; // set Command Bit AXPTR->ORIGIN[6] |= 1; // Set End of Call AXPTR->CTL = 3; //UI AXPTR->PID = 0xf0; memcpy(AXPTR->L2DATA, BEACONMSG, DataLen); Send_AX(&AXMSG, DataLen + 16, TNC->Port); return; }