linbpq/SerialPort.c

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2022-08-28 09:35:46 +01:00
/*
2022-11-14 14:02:28 +00:00
Copyright 2001-2022 John Wiseman G8BPQ
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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 <stdio.h>
#include <time.h>
#ifndef WIN32
#ifndef MACBPQ
#ifndef FREEBSD
#include <sys/ioctl.h>
#include <linux/serial.h>
#endif
#endif
#endif
#include "CHeaders.h"
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extern int (WINAPI FAR *GetModuleFileNameExPtr)();
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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 <commctrl.h>
#endif
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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);
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Rig_Command( (TRANSPORTENTRY *) -1, Msg);
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}
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;
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STREAM->bytesTXed += txlen;
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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
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buffptr->Len = sprintf(&buffptr->Data[0], "No Connection to TNC\r");
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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
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STREAM->bytesTXed += bytes;
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// 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]);
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if (Rig_Command(TNC->PortRecord->ATTACHEDSESSIONS[0]->L4CROSSLINK, &buff->L2DATA[0]))
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{
}
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);
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Rig_Command( (TRANSPORTENTRY *) -1, TXMsg);
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ReleaseOtherPorts(TNC);
}
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VOID SerialSuspendPort(struct TNCINFO * TNC, struct TNCINFO * ThisTNC)
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{
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;
}