/* 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 */ // // Interface to allow G8BPQ switch to use Serial TNC in character mode #define _CRT_SECURE_NO_DEPRECATE #include #include #ifndef WIN32 #ifndef MACBPQ #ifndef FREEBSD #include #include #endif #endif #endif #include "CHeaders.h" extern int (WINAPI FAR *GetModuleFileNameExPtr)(); extern int (WINAPI FAR *EnumProcessesPtr)(); #include "bpq32.h" #include "tncinfo.h" static int Socket_Data(int sock, int error, int eventcode); VOID MoveWindows(struct TNCINFO * TNC); static VOID SendToTNC(struct TNCINFO * TNC, int Stream, UCHAR * Encoded, int EncLen); int ReadCOMBlockEx(HANDLE fd, char * Block, int MaxLength, BOOL * Error); BOOL SerialWriteCommBlock(struct TNCINFO * TNC); void SerialCheckRX(struct TNCINFO * TNC); int SerialSendData(struct TNCINFO * TNC, UCHAR * data, int txlen); int SerialSendCommand(struct TNCINFO * TNC, UCHAR * data); int DoScanLine(struct TNCINFO * TNC, char * Buff, int Len); VOID SendInitScript(struct TNCINFO * TNC); int SerialGetLine(char * buf); int ProcessEscape(UCHAR * TXMsg); BOOL KAMStartPort(struct PORTCONTROL * PORT); BOOL KAMStopPort(struct PORTCONTROL * PORT); static char ClassName[]="SERIALSTATUS"; static char WindowTitle[] = "SERIAL"; static int RigControlRow = 165; #ifndef LINBPQ #include #endif extern int SemHeldByAPI; static RECT Rect; static int ProcessLine(char * buf, int Port); VOID WritetoTrace(struct TNCINFO * TNC, char * Msg, int Len); static int ProcessLine(char * buf, int Port) { UCHAR * ptr; int len=510; struct TNCINFO * TNC = TNCInfo[Port]; char errbuf[256]; // Read Initialisation lines while(TRUE) { if (SerialGetLine(buf) == 0) return TRUE; strcpy(errbuf, buf); if (memcmp(buf, "****", 4) == 0) return TRUE; ptr = strchr(buf, ';'); if (ptr) { *ptr++ = 13; *ptr = 0; } if (_memicmp(buf, "LOGDIR ", 7) == 0) TNC->LogPath = _strdup(&buf[7]); else if (_memicmp(buf, "DRAGON", 6) == 0) TNC->Dragon = TRUE; else strcat (TNC->InitScript, buf); } return (TRUE); } char * Config; static char * ptr1, * ptr2; int SerialGetLine(char * buf) { loop: if (ptr2 == NULL) return 0; memcpy(buf, ptr1, ptr2 - ptr1 + 2); buf[ptr2 - ptr1 + 2] = 0; ptr1 = ptr2 + 2; ptr2 = strchr(ptr1, 13); if (buf[0] < 0x20) goto loop; if (buf[0] == '#') goto loop; if (buf[0] == ';') goto loop; if (buf[strlen(buf)-1] < 0x20) buf[strlen(buf)-1] = 0; if (buf[strlen(buf)-1] < 0x20) buf[strlen(buf)-1] = 0; buf[strlen(buf)] = 13; return 1; } BOOL SerialReadConfigFile(int Port, int ProcLine()) { char buf[256],errbuf[256]; Config = PortConfig[Port]; if (Config) { // Using config from bpq32.cfg if (strlen(Config) == 0) { return TRUE; } ptr1 = Config; ptr2 = strchr(ptr1, 13); if (!ProcLine(buf, Port)) { WritetoConsoleLocal("\n"); WritetoConsoleLocal("Bad config record "); WritetoConsoleLocal(errbuf); } } else { sprintf(buf," ** Error - No Configuration info in bpq32.cfg"); WritetoConsoleLocal(buf); } return (TRUE); } VOID SuspendOtherPorts(struct TNCINFO * ThisTNC); VOID ReleaseOtherPorts(struct TNCINFO * ThisTNC); VOID WritetoTrace(struct TNCINFO * TNC, char * Msg, int Len); static time_t ltime; static VOID SendToTNC(struct TNCINFO * TNC, int Stream, UCHAR * Encoded, int EncLen) { if (TNC->hDevice) { // Serial mode. Queue to Hostmode driver PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff(); if (buffptr == 0) return; // No buffers, so ignore buffptr->Len = EncLen; memcpy(&buffptr->Data[0], Encoded, EncLen); C_Q_ADD(&TNC->Streams[Stream].BPQtoPACTOR_Q, buffptr); TNC->Streams[Stream].FramesQueued++; return; } } VOID SerialChangeMYC(struct TNCINFO * TNC, char * Call) { UCHAR TXMsg[100]; int datalen; if (strcmp(Call, TNC->CurrentMYC) == 0) return; // No Change strcpy(TNC->CurrentMYC, Call); datalen = sprintf(TXMsg, "MYCALL %s\r", Call); SerialSendCommand(TNC, TXMsg); } static size_t ExtProc(int fn, int port, PDATAMESSAGE buff) { int datalen; PMSGWITHLEN buffptr; // char txbuff[500]; unsigned int bytes,txlen = 0; UCHAR * TXMsg; size_t Param; int Stream = 0; HKEY hKey=0; struct TNCINFO * TNC = TNCInfo[port]; struct STREAMINFO * STREAM = &TNC->Streams[0]; struct ScanEntry * Scan; if (TNC == NULL) return 0; // Port not defined if (TNC->hDevice == 0) { // Clear anything from UI_Q while (TNC->PortRecord->UI_Q) { buffptr = Q_REM(&TNC->PortRecord->UI_Q); ReleaseBuffer(buffptr); } // Try to reopen every 30 secs if (fn > 3 && fn < 7) goto ok; 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; #ifndef WIN32 #ifndef MACBPQ #ifndef FREEBSD if (TNC->Dragon) { struct serial_struct sstruct; // Need to set custom baud rate if (ioctl(TNC->hDevice, TIOCGSERIAL, &sstruct) < 0) { Debugprintf("Error: Dragon could not get comm ioctl\n"); } else { // set custom divisor to get 829440 baud sstruct.custom_divisor = 29; sstruct.flags |= ASYNC_SPD_CUST; // set serial_struct if (ioctl(TNC->hDevice, TIOCSSERIAL, &sstruct) < 0) Debugprintf("Error: Dragon could not set custom comm baud divisor\n"); else Debugprintf("Dragon custom baud rate set\n"); } } #endif #endif #endif SendInitScript(TNC); } ok: switch (fn) { case 7: // 100 mS Timer. May now be needed, as Poll can be called more frequently in some circumstances SerialCheckRX(TNC); return 0; case 1: // poll while (TNC->PortRecord->UI_Q) { char FECMsg[512]; char Call[12] = " "; struct _MESSAGE * buffptr; char * ptr = FECMsg; buffptr = Q_REM(&TNC->PortRecord->UI_Q); ReleaseBuffer(buffptr); continue; } if (TNC->DiscPending) { TNC->DiscPending--; if (TNC->DiscPending == 0) { // Too long in Disc Pending - Kill and Restart TNC } } for (Stream = 0; Stream <= 2; Stream++) { STREAM = &TNC->Streams[Stream]; if (STREAM->NeedDisc) { STREAM->NeedDisc--; if (STREAM->NeedDisc == 0) { // Send the DISCONNECT SerialSendCommand(TNC, "DISCONNECT\r"); } } if (TNC->PortRecord->ATTACHEDSESSIONS[Stream] && STREAM->Attached == 0) { // New Attach int calllen; char Msg[80]; Debugprintf("Serial New Attach Stream %d", Stream); STREAM->Attached = TRUE; calllen = ConvFromAX25(TNC->PortRecord->ATTACHEDSESSIONS[Stream]->L4USER, TNC->Streams[Stream].MyCall); TNC->Streams[Stream].MyCall[calllen] = 0; SerialChangeMYC(TNC, TNC->Streams[0].MyCall); // Stop other ports in same group SuspendOtherPorts(TNC); //sprintf(TNC->WEB_TNCSTATE, "In Use by %s", TNC->Streams[0].MyCall); //MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE); // Stop Scanning sprintf(Msg, "%d SCANSTOP", TNC->Port); Rig_Command( (TRANSPORTENTRY *) -1, Msg); } if (STREAM->Attached) CheckForDetach(TNC, Stream, STREAM, TidyClose, ForcedClose, CloseComplete); } // See if any frames for this port for (Stream = 0; Stream <= 2; Stream++) { STREAM = &TNC->Streams[Stream]; if (STREAM->BPQtoPACTOR_Q) { PMSGWITHLEN buffptr = (PMSGWITHLEN)Q_REM(&STREAM->BPQtoPACTOR_Q); UCHAR * data = &buffptr->Data[0]; STREAM->FramesQueued--; txlen = (int)buffptr->Len; STREAM->BytesTXed += txlen; bytes=SerialSendData(TNC, data, txlen); WritetoTrace(TNC, data, txlen); } if (STREAM->PACTORtoBPQ_Q != 0) { buffptr = (PMSGWITHLEN)Q_REM(&STREAM->PACTORtoBPQ_Q); datalen = (int)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, datalen); ReleaseBuffer(buffptr); return (1); } if (STREAM->ReportDISC) // May need a delay so treat as a counter { STREAM->ReportDISC--; if (STREAM->ReportDISC == 0) { buff->PORT = Stream; // STREAM->Connected = 0; // STREAM->Attached = 0; return -1; } } } return (0); case 2: // send Stream = buff->PORT; if (!TNC->hDevice) { // Send Error Response PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff(); if (buffptr == 0) return (0); // No buffers, so ignore buffptr->Len = sprintf(&buffptr->Data[0], "No Connection to TNC\r"); C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr); return 0; // Don't try if not connected } STREAM = &TNC->Streams[Stream]; if (TNC->SwallowSignon) { TNC->SwallowSignon = FALSE; // Discard *** connected return 0; } txlen = GetLengthfromBuffer(buff) - (MSGHDDRLEN + 1); // 1 as no PID TXMsg = &buff->L2DATA[0]; TXMsg[txlen] = 0; // for now just send, but allow sending control // characters with \\ or ^ escape // if (STREAM->Connected) { STREAM->PacketsSent++; if (strstr(TXMsg, "\\\\") || strchr(TXMsg, '^')) { txlen = ProcessEscape(TXMsg); if (txlen == 0) // Must be \\D { STREAM->ReportDISC = TRUE; // Tell Node return 0; } } bytes=SerialSendData(TNC, TXMsg, txlen); TNC->Streams[Stream].BytesOutstanding += bytes; // So flow control works - will be updated by BUFFER response STREAM->BytesTXed += bytes; // WritetoTrace(TNC, &buff->L2DATA[0], txlen); return 1; } /* if (_memicmp(&buff->L2DATA[0], "D\r", 2) == 0 || _memicmp(&buff->L2DATA[0], "BYE\r", 4) == 0) { STREAM->ReportDISC = TRUE; // Tell Node return 0; } // See if Local command (eg RADIO) if (_memicmp(&buff->L2DATA[0], "RADIO ", 6) == 0) { sprintf(&buff->L2DATA[0], "%d %s", TNC->Port, &buff->L2DATA[6]); if (Rig_Command(TNC->PortRecord->ATTACHEDSESSIONS[0]->L4CROSSLINK, &buff->L2DATA[0])) { } else { PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff(); if (buffptr == 0) return 1; // No buffers, so ignore buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "%s", &buff->L2DATA[0]); C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr); } return 1; } if (_memicmp(&buff->L2DATA[0], "OVERRIDEBUSY", 12) == 0) { PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff(); TNC->OverrideBusy = TRUE; if (buffptr) { buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} OK\r"); C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr); } return 0; } // See if a Connect Command. If so, start codec and set Connecting if (toupper(buff->L2DATA[0]) == 'C' && buff->L2DATA[1] == ' ' && txlen > 2) // Connect { char Connect[80]; char * ptr = strchr(&buff->L2DATA[2], 13); if (ptr) *ptr = 0; _strupr(&buff->L2DATA[2]); if (strlen(&buff->L2DATA[2]) > 9) buff->L2DATA[11] = 0; txlen = sprintf(Connect, "C %s\r", &buff->L2DATA[2]); SerialChangeMYC(TNC, TNC->Streams[0].MyCall); // See if Busy if (InterlockedCheckBusy(TNC)) { // Channel Busy. Unless override set, wait if (TNC->OverrideBusy == 0) { // Save Command, and wait up to 10 secs sprintf(TNC->WEB_TNCSTATE, "Waiting for clear channel"); MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE); TNC->ConnectCmd = _strdup(Connect); TNC->BusyDelay = TNC->BusyWait * 10; // BusyWait secs return 0; } } TNC->OverrideBusy = FALSE; memset(TNC->Streams[0].RemoteCall, 0, 10); strcpy(TNC->Streams[0].RemoteCall, &buff->L2DATA[2]); sprintf(TNC->WEB_TNCSTATE, "%s Connecting to %s", STREAM->MyCall, STREAM->RemoteCall); SerialSendCommand(TNC, Connect); MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE); STREAM->Connecting = TRUE; return 0; } // Normal data. Send to TNC SerialSendData(TNC, TXMsg, txlen); return 0; */ case 3: // CHECK IF OK TO SEND (And check TNC Status) Stream = (int)(size_t)buff; // I think we should check buffer space for all comms modes { int Queued; int Outstanding = TNC->Streams[Stream].BytesOutstanding; if (Stream == 0) Queued = TNC->Streams[13].FramesQueued; // ARDOP Native Mode Send Queue else Queued = TNC->Streams[Stream].FramesQueued; Outstanding = Queued = 0; if (TNC->Mode == 'O') // OFDM version has more buffer space { if (Queued > 4 || Outstanding > 8500) return (1 | (TNC->HostMode | TNC->CONNECTED) << 8 | STREAM->Disconnecting << 15); } else { if (Queued > 4 || Outstanding > 2000) return (1 | (TNC->HostMode | TNC->CONNECTED) << 8 | STREAM->Disconnecting << 15); } } if (TNC->Streams[Stream].Attached == 0) return (TNC->hDevice != 0) << 8 | 1; return ((TNC->hDevice != 0) << 8 | TNC->Streams[Stream].Disconnecting << 15); // OK case 4: // reinit7 return 0; case 5: // Close return 0; case 6: // Scan Stop Interface Param = (size_t)buff; if (Param == 2) // Check Permission (Shouldn't happen) { Debugprintf("Scan Check Permission called on ARDOP"); return 1; // OK to change } if (Param == 1) // Request Permission { if (TNC->ARDOPCommsMode == 'T') // TCP Mode { if (!TNC->CONNECTED) return 0; // No connection so no interlock } else { // Serial Modes if (!TNC->HostMode) return 0; // No connection so no interlock } if (TNC->ConnectPending == 0 && TNC->PTTState == 0) { SerialSendCommand(TNC, "CONOK OFF"); TNC->GavePermission = TRUE; return 0; // OK to Change } if (TNC->ConnectPending) TNC->ConnectPending--; // Time out if set too long return TRUE; } if (Param == 3) // Release Permission { if (TNC->GavePermission) { TNC->GavePermission = FALSE; if (TNC->ARDOPCurrentMode[0] != 'S') // Skip SerialSendCommand(TNC, "CONOK ON"); } return 0; } // Param is Address of a struct ScanEntry Scan = (struct ScanEntry *)buff; return 0; } return 0; } VOID SerialReleaseTNC(struct TNCINFO * TNC) { // Set mycall back to Node or Port Call, and Start Scanner UCHAR TXMsg[1000]; SerialChangeMYC(TNC, TNC->NodeCall); // Start Scanner sprintf(TXMsg, "%d SCANSTART 15", TNC->Port); Rig_Command( (TRANSPORTENTRY *) -1, TXMsg); ReleaseOtherPorts(TNC); } VOID SerialSuspendPort(struct TNCINFO * TNC, struct TNCINFO * ThisTNC) { SerialSendCommand(TNC, "CONOK OFF\r"); } VOID SerialReleasePort(struct TNCINFO * TNC) { SerialSendCommand(TNC, "CONOK ON\r"); } VOID * SerialExtInit(EXTPORTDATA * PortEntry) { int port; char Msg[255]; char * ptr; struct TNCINFO * TNC; char * TempScript; sprintf(Msg,"Serial TNC %s\n", PortEntry->PORTCONTROL.SerialPortName); WritetoConsole(Msg); port=PortEntry->PORTCONTROL.PORTNUMBER; if (TNCInfo[port]) // If restarting, free old config free(TNCInfo[port]); TNC = TNCInfo[port] = malloc(sizeof(struct TNCINFO)); memset(TNC, 0, sizeof(struct TNCINFO)); TNC->InitScript = malloc(1000); TNC->InitScript[0] = 0; if (PortConfig[port]) // May not have config SerialReadConfigFile(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"); WritetoConsole(Msg); return ExtProc; } TNC->Port = port; TNC->Hardware = H_SERIAL; TNC->PortRecord = PortEntry; if (PortEntry->PORTCONTROL.PORTCALL[0] == 0) memcpy(TNC->NodeCall, MYNODECALL, 10); else ConvFromAX25(&PortEntry->PORTCONTROL.PORTCALL[0], TNC->NodeCall); if (PortEntry->PORTCONTROL.PORTINTERLOCK && TNC->RXRadio == 0 && TNC->TXRadio == 0) TNC->RXRadio = TNC->TXRadio = PortEntry->PORTCONTROL.PORTINTERLOCK; PortEntry->PORTCONTROL.PROTOCOL = 10; PortEntry->PORTCONTROL.PORTQUALITY = 0; if (TNC->PacketChannels > 1) TNC->PacketChannels = 1; PortEntry->MAXHOSTMODESESSIONS = TNC->PacketChannels + 1; PortEntry->SCANCAPABILITIES = SIMPLE; // Scan Control - pending connect only PortEntry->PERMITGATEWAY = TRUE; // Can change ax.25 call on each stream PortEntry->PORTCONTROL.UICAPABLE = TRUE; if (PortEntry->PORTCONTROL.PORTPACLEN == 0) PortEntry->PORTCONTROL.PORTPACLEN = 236; TNC->SuspendPortProc = SerialSuspendPort; TNC->ReleasePortProc = SerialReleasePort; PortEntry->PORTCONTROL.PORTSTARTCODE = KAMStartPort; PortEntry->PORTCONTROL.PORTSTOPCODE = KAMStopPort; ptr=strchr(TNC->NodeCall, ' '); if (ptr) *(ptr) = 0; // Null Terminate // Set Essential Params and MYCALL // Put overridable ones on front, essential ones on end TempScript = zalloc(1000); // cant think of any yet if (TNC->InitScript) { strcat(TempScript, TNC->InitScript); free(TNC->InitScript); } TNC->InitScript = TempScript; // Set MYCALL sprintf(Msg, "MYCALL %s\r", TNC->NodeCall); strcat(TNC->InitScript, Msg); strcpy(TNC->CurrentMYC, TNC->NodeCall); if (TNC->WL2K == NULL) if (PortEntry->PORTCONTROL.WL2KInfo.RMSCall[0]) // Alrerady decoded TNC->WL2K = &PortEntry->PORTCONTROL.WL2KInfo; OpenCOMMPort(TNC, PortEntry->PORTCONTROL.SerialPortName, PortEntry->PORTCONTROL.BAUDRATE, FALSE); #ifndef WIN32 #ifndef MACBPQ #ifndef FREEBSD if (TNC->Dragon) { struct serial_struct sstruct; // Need to set custom baud rate if (ioctl(TNC->hDevice, TIOCGSERIAL, &sstruct) < 0) { printf("Error: Dragon could not get comm ioctl\n"); } else { // set custom divisor to get 829440 baud sstruct.custom_divisor = 29; sstruct.flags |= ASYNC_SPD_CUST; // set serial_struct if (ioctl(TNC->hDevice, TIOCSSERIAL, &sstruct) < 0) Debugprintf("Error: Dragon could not set custom comm baud divisor\n"); else Debugprintf("Dragon custom baud rate set\n"); } } #endif #endif #endif SendInitScript(TNC); time(&TNC->lasttime); // Get initial time value return ExtProc; } VOID TidyClose(struct TNCINFO * TNC, int Stream) { // If all acked, send disc if (TNC->Streams[Stream].BytesOutstanding == 0) SerialSendCommand(TNC, "DISCONNECT\r"); } VOID ForcedClose(struct TNCINFO * TNC, int Stream) { SerialSendCommand(TNC, "DISCONNECT\r"); } VOID CloseComplete(struct TNCINFO * TNC, int Stream) { if (Stream == 0) { SerialReleaseTNC(TNC); } } VOID SerialAbort(struct TNCINFO * TNC) { SerialSendCommand(TNC, "ABORT\r"); } // Host Mode Stuff (we reuse some routines in SCSPactor) VOID SerialDoTermModeTimeout(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; return; } if (TNC->ReinitState == 1) { // Forcing back to Term Mode TNC->ReinitState = 0; return; } if (TNC->ReinitState == 3) { return; } } VOID SendInitScript(struct TNCINFO * TNC) { UCHAR * Poll = TNC->TXBuffer; char * ptr1, * ptr2; int len; // Send INIT script ptr1 = &TNC->InitScript[0]; while (ptr1 && ptr1[0]) { ptr2 = strchr(ptr1, 13); if (ptr2 == 0) { TNC->ReinitState = 3; break; } len = (int)(ptr2 - ptr1) + 1; memcpy(Poll, ptr1, len); TNC->TXLen = len; SerialWriteCommBlock(TNC); Sleep(50); if (ptr2) *(ptr2++) = 13; // Put CR back for next time ptr1 = ptr2; } } VOID SerialProcessTNCMessage(struct TNCINFO * TNC) { PMSGWITHLEN buffptr; struct STREAMINFO * STREAM = &TNC->Streams[0]; buffptr = GetBuff(); if (buffptr == 0) { return; // No buffers, so ignore } buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "%s", TNC->RXBuffer); C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr); } void SerialCheckRX(struct TNCINFO * TNC) { int Length, Len = 0; if (TNC->RXLen == 250) TNC->RXLen = 0; if (TNC->hDevice) Len = ReadCOMBlock(TNC->hDevice, &TNC->RXBuffer[TNC->RXLen], 250 - TNC->RXLen); if (Len == 0) return; TNC->RXLen += Len; Length = TNC->RXLen; TNC->RXBuffer[TNC->RXLen] = 0; // if (TNC->Streams[Stream].RXBuffer[TNC->Streams[Stream].RXLen-2] != ':') if (strlen(TNC->RXBuffer) < TNC->RXLen) TNC->RXLen = 0; // Also need timeout for incomplete lines // if ((strchr(TNC->RXBuffer, 10) == 0) && (strchr(TNC->RXBuffer, 13) == 0)) // return; // Wait for rest of frame // OpenLogFile(TNC->Port); // WriteLogLine(TNC->Port, TNC->RXBuffer, (int)strlen(TNC->RXBuffer)); // CloseLogFile(TNC->Port); TNC->RXLen = 0; // Ready for next frame SerialProcessTNCMessage(TNC); return; } int SerialWriteCommBlock(struct TNCINFO * TNC) { if (TNC->hDevice) return WriteCOMBlock(TNC->hDevice, TNC->TXBuffer, TNC->TXLen); return 0; } int SerialSendData(struct TNCINFO * TNC, UCHAR * data, int txlen) { if (TNC->hDevice) return WriteCOMBlock(TNC->hDevice, data, txlen); return 0; } int SerialSendCommand(struct TNCINFO * TNC, UCHAR * data) { if (TNC->hDevice) return WriteCOMBlock(TNC->hDevice, data, (int)strlen(data)); return 0; } int ProcessEscape(UCHAR * TXMsg) { UCHAR * Orig = TXMsg; UCHAR * ptr1 = TXMsg; UCHAR * ptr2 = strstr(TXMsg, "\\\\"); UCHAR * ptr3 = strchr(TXMsg, '^'); BOOL HexEscape = FALSE; int NewLen; // Now using ^C for ctrl/c, etc // Still use \\d // ^^ for ^, \\\ for \\ while (ptr2) { UCHAR Next; ptr1 = ptr2; // over stuff before escape ptr2 += 2; // over \\ Next = *ptr2; if (Next == '\\') { ptr1 = ptr2; // put \\ in message memmove(ptr2, ptr2 + 1, strlen(ptr2)); } else if (Next == 'd' || Next == 'D') return 0; ptr2 = strstr(ptr2, "\\\\"); } // now look for ^ ptr1 = Orig; ptr2 = strchr(Orig, '^'); while (ptr2) { UCHAR Next; ptr1 = ptr2; // over stuff before escape ptr2 ++; // over ^ Next = *ptr2; if (Next != '^') { Next &= 0x1F; // Mask to control char HexEscape = TRUE; } *ptr1 = Next; memmove(ptr2, ptr2 + 1, strlen(ptr2)); ptr2 = strchr(ptr2, '^'); } NewLen = (int)strlen(Orig); if (HexEscape) { // remove trailing CR NewLen --; Orig[NewLen] = 0; } return NewLen; }