linbpq/ARDOP.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
2022-08-28 09:35:46 +01:00
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 ARDOP Virtual TNC
#define _CRT_SECURE_NO_DEPRECATE
#include <stdio.h>
#include <time.h>
#ifdef WIN32
//#include <Psapi.h>
#else
// For serial over i2c support
#ifdef MACBPQ
#define NOI2C
#endif
#ifdef FREEBSD
#define NOI2C
#endif
#ifndef NOI2C
#include "i2c-dev.h"
#endif
#endif
#include "CHeaders.h"
int (WINAPI FAR *GetModuleFileNameExPtr)();
int (WINAPI FAR *EnumProcessesPtr)();
#define SD_RECEIVE 0x00
#define SD_SEND 0x01
#define SD_BOTH 0x02
#define APMaxStreams 10 // First is used for ARDOP, even though ARDOP uses channel 31
#include "bpq32.h"
#include "tncinfo.h"
#define WSA_ACCEPT WM_USER + 1
#define WSA_DATA WM_USER + 2
#define WSA_CONNECT WM_USER + 3
static int Socket_Data(int sock, int error, int eventcode);
int KillTNC(struct TNCINFO * TNC);
int RestartTNC(struct TNCINFO * TNC);
int KillPopups(struct TNCINFO * TNC);
VOID MoveWindows(struct TNCINFO * TNC);
int SendReporttoWL2K(struct TNCINFO * TNC);
char * CheckAppl(struct TNCINFO * TNC, char * Appl);
int DoScanLine(struct TNCINFO * TNC, char * Buff, int Len);
BOOL KillOldTNC(char * Path);
int ARDOPSendData(struct TNCINFO * TNC, char * Buff, int Len);
VOID ARDOPSendCommand(struct TNCINFO * TNC, char * Buff, BOOL Queue);
VOID ARDOPSendPktCommand(struct TNCINFO * TNC, int Stream, char * Buff);
VOID SendToTNC(struct TNCINFO * TNC, int Stream, UCHAR * Encoded, int EncLen);
VOID ARDOPProcessDataPacket(struct TNCINFO * TNC, UCHAR * Type, UCHAR * Data, int Length);
void ARDOPSCSCheckRX(struct TNCINFO * TNC);
VOID ARDOPSCSPoll(struct TNCINFO * TNC);
VOID ARDOPDoTNCReinit(struct TNCINFO * TNC);
int SerialGetTCPMessage(struct TNCINFO * TNC, unsigned char * Buffer, int Len);
int SerialConnecttoTCP(struct TNCINFO * TNC);
int ARDOPWriteCommBlock(struct TNCINFO * TNC);
int ReadCOMBlockEx(HANDLE fd, char * Block, int MaxLength, BOOL * Error);
int Unstuff(UCHAR * MsgIn, UCHAR * MsgOut, int len);
BOOL WriteCommBlock(struct TNCINFO * TNC);
VOID AddVirtualKISSPort(struct TNCINFO * TNC, int Port, char * buf);
int ConfigVirtualKISSPort(struct TNCINFO * TNC, char * Cmd);
void ProcessKISSBytes(struct TNCINFO * TNC, UCHAR * Data, int Len);
void ProcessKISSPacket(struct TNCINFO * TNC, UCHAR * KISSBuffer, int Len);
int ARDOPProcessDEDFrame(struct TNCINFO * TNC, UCHAR * Msg, int framelen);
int ConnecttoARDOP(struct TNCINFO * TNC);
int standardParams(struct TNCINFO * TNC, char * buf);
#ifndef LINBPQ
BOOL CALLBACK EnumARDOPWindowsProc(HWND hwnd, LPARAM lParam);
#endif
static char ClassName[]="ARDOPSTATUS";
static char WindowTitle[] = "ARDOP";
static int RigControlRow = 165;
#define WINMOR
#define NARROWMODE 21
#define WIDEMODE 22
#ifndef LINBPQ
#include <commctrl.h>
#endif
extern int SemHeldByAPI;
static RECT Rect;
static int ProcessLine(char * buf, int Port);
BOOL ARDOPStopPort(struct PORTCONTROL * PORT)
{
// Disable Port - close TCP Sockets or Serial Port
struct TNCINFO * TNC = PORT->TNC;
TNC->CONNECTED = FALSE;
TNC->Alerted = FALSE;
if (TNC->PTTMode)
Rig_PTT(TNC, FALSE); // Make sure PTT is down
if (TNC->Streams[0].Attached)
TNC->Streams[0].ReportDISC = TRUE;
if (TNC->TCPSock)
{
shutdown(TNC->TCPSock, SD_BOTH);
Sleep(100);
closesocket(TNC->TCPSock);
}
if (TNC->TCPDataSock)
{
shutdown(TNC->TCPDataSock, SD_BOTH);
Sleep(100);
closesocket(TNC->TCPDataSock);
}
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
if (TNC->hDevice)
{
CloseCOMPort(TNC->hDevice);
TNC->hDevice = 0;
}
sprintf(PORT->TNC->WEB_COMMSSTATE, "%s", "Port Stopped");
MySetWindowText(PORT->TNC->xIDC_COMMSSTATE, PORT->TNC->WEB_COMMSSTATE);
return TRUE;
}
BOOL ARDOPStartPort(struct PORTCONTROL * PORT)
{
// Restart Port - Open Sockets or Serial Port
struct TNCINFO * TNC = PORT->TNC;
if (TNC->ARDOPCommsMode == 'T')
{
ConnecttoARDOP(TNC);
TNC->lasttime = time(NULL);;
}
sprintf(PORT->TNC->WEB_COMMSSTATE, "%s", "Port Restarted");
MySetWindowText(PORT->TNC->xIDC_COMMSSTATE, PORT->TNC->WEB_COMMSSTATE);
return TRUE;
}
int GenCRC16(unsigned char * Data, unsigned short length)
{
// For CRC-16-CCITT = x^16 + x^12 +x^5 + 1 intPoly = 1021 Init FFFF
// intSeed is the seed value for the shift register and must be in the range 0-&HFFFF
int intRegister = 0xffff; //intSeed
int i,j;
int Bit;
int intPoly = 0x8810; // This implements the CRC polynomial x^16 + x^12 +x^5 + 1
for (j = 0; j < (length); j++)
{
int Mask = 0x80; // Top bit first
for (i = 0; i < 8; i++) // for each bit processing MS bit first
{
Bit = Data[j] & Mask;
Mask >>= 1;
if (intRegister & 0x8000) // Then ' the MSB of the register is set
{
// Shift left, place data bit as LSB, then divide
// Register := shiftRegister left shift 1
// Register := shiftRegister xor polynomial
if (Bit)
intRegister = 0xFFFF & (1 + (intRegister << 1));
else
intRegister = 0xFFFF & (intRegister << 1);
intRegister = intRegister ^ intPoly;
}
else
{
// the MSB is not set
// Register is not divisible by polynomial yet.
// Just shift left and bring current data bit onto LSB of shiftRegister
if (Bit)
intRegister = 0xFFFF & (1 + (intRegister << 1));
else
intRegister = 0xFFFF & (intRegister << 1);
}
}
}
return intRegister;
}
BOOL checkcrc16(unsigned char * Data, unsigned short length)
{
int intRegister = 0xffff; //intSeed
int i,j;
int Bit;
int intPoly = 0x8810; // This implements the CRC polynomial x^16 + x^12 +x^5 + 1
for (j = 0; j < (length - 2); j++) // ' 2 bytes short of data length
{
int Mask = 0x80; // Top bit first
for (i = 0; i < 8; i++) // for each bit processing MS bit first
{
Bit = Data[j] & Mask;
Mask >>= 1;
if (intRegister & 0x8000) // Then ' the MSB of the register is set
{
// Shift left, place data bit as LSB, then divide
// Register := shiftRegister left shift 1
// Register := shiftRegister xor polynomial
if (Bit)
intRegister = 0xFFFF & (1 + (intRegister << 1));
else
intRegister = 0xFFFF & (intRegister << 1);
intRegister = intRegister ^ intPoly;
}
else
{
// the MSB is not set
// Register is not divisible by polynomial yet.
// Just shift left and bring current data bit onto LSB of shiftRegister
if (Bit)
intRegister = 0xFFFF & (1 + (intRegister << 1));
else
intRegister = 0xFFFF & (intRegister << 1);
}
}
}
if (Data[length - 2] == intRegister >> 8)
if (Data[length - 1] == (intRegister & 0xFF))
return TRUE;
return FALSE;
}
// Logging Interface. Used for Log over Serial Mode
BOOL ARDOPOpenLogFiles(struct TNCINFO * TNC)
{
UCHAR FN[MAX_PATH];
time_t T;
struct tm * tm;
T = time(NULL);
tm = gmtime(&T);
strlop(TNC->LogPath, 13);
strlop(TNC->LogPath, 32);
sprintf(FN,"%s/ARDOPDebugLog_%02d%02d_%d.txt", TNC->LogPath, tm->tm_mon + 1, tm->tm_mday, TNC->Port);
TNC->DebugHandle = fopen(FN, "ab");
sprintf(FN,"%s/ARDOPLog_%02d%02d_%d.txt", TNC->LogPath, tm->tm_mon + 1, tm->tm_mday, TNC->Port);
TNC->LogHandle = fopen(FN, "ab");
return (TNC->LogHandle != NULL);
}
VOID WritetoTrace(struct TNCINFO * TNC, char * Msg, int Len);
void SendARDOPorPacketData(struct TNCINFO * TNC, int Stream, UCHAR * Buff, int txlen)
{
struct STREAMINFO * STREAM = &TNC->Streams[Stream];
if (Stream == 0)
{
ARDOPSendData(TNC, Buff, txlen);
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STREAM->bytesTXed += txlen;
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WritetoTrace(TNC, Buff, txlen);
}
else
{
// Packet. Only works over Serial
PMSGWITHLEN buffptr;
UCHAR * buffp;
if (TNC->ARDOPCommsMode == 'T')
return;
buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr == 0) return; // No buffers, so ignore
buffptr->Len = txlen + 1;
buffp = &buffptr->Data[0];
buffp[0] = 0; // CMD/Data Flag on front
memcpy(buffp +1, Buff, txlen);
C_Q_ADD(&STREAM->BPQtoPACTOR_Q, buffptr);
STREAM->FramesQueued++;
if (TNC->Timeout == 0) // if link idle can send now
ARDOPSCSPoll(TNC);
}
}
static int ProcessLine(char * buf, int Port)
{
UCHAR * ptr,* p_cmd;
char * p_ipad = 0;
char * p_port = 0;
char * PktPort = 0;
unsigned short WINMORport = 0;
int BPQport;
int len=510;
struct TNCINFO * TNC;
char errbuf[256];
strcpy(errbuf, buf);
ptr = strtok(buf, " \t\n\r");
if(ptr == NULL) return (TRUE);
if(*ptr =='#') return (TRUE); // comment
if(*ptr ==';') return (TRUE); // comment
// Must start ADDR or SERIAL
ptr = strtok(NULL, " \t\n\r");
BPQport = Port;
p_ipad = ptr;
if (_stricmp(buf, "ADDR") == 0 || _stricmp(buf, "TCPSERIAL") == 0)
{
TNC = TNCInfo[BPQport] = malloc(sizeof(struct TNCINFO));
memset(TNC, 0, sizeof(struct TNCINFO));
if (p_ipad == NULL)
p_ipad = strtok(NULL, " \t\n\r");
if (p_ipad == NULL) return (FALSE);
p_port = strtok(NULL, " \t\n\r");
if (p_port == NULL) return (FALSE);
PktPort = strlop(p_port, '/');
if (PktPort)
TNC->PacketPort = atoi(PktPort);
WINMORport = atoi(p_port);
TNC->destaddr.sin_family = AF_INET;
TNC->destaddr.sin_port = htons(WINMORport);
TNC->Datadestaddr.sin_family = AF_INET;
TNC->Datadestaddr.sin_port = htons(WINMORport+1);
TNC->HostName = malloc(strlen(p_ipad)+1);
if (TNC->HostName == NULL) return TRUE;
strcpy(TNC->HostName,p_ipad);
if (buf[0] == 'A')
TNC->ARDOPCommsMode = 'T'; // TCP
else
TNC->ARDOPCommsMode = 'E'; // TCPSERIAL (ESP01)
}
else if (_stricmp(buf, "SERIAL") == 0)
{
TNC = TNCInfo[BPQport] = malloc(sizeof(struct TNCINFO));
memset(TNC, 0, sizeof(struct TNCINFO));
if (p_ipad == NULL)
p_ipad = strtok(NULL, " \t\n\r");
if (p_ipad == NULL) return (FALSE);
p_port = strtok(NULL, " \t\n\r");
if (p_port == NULL) return (FALSE);
TNC->ARDOPSerialPort = _strdup(p_ipad);
TNC->ARDOPSerialSpeed = atoi(p_port);
TNC->ARDOPCommsMode = 'S';
}
else if (_stricmp(buf, "I2C") == 0)
{
TNC = TNCInfo[BPQport] = malloc(sizeof(struct TNCINFO));
memset(TNC, 0, sizeof(struct TNCINFO));
if (p_ipad == NULL)
p_ipad = strtok(NULL, " \t\n\r");
if (p_ipad == NULL) return (FALSE);
p_port = strtok(NULL, " \t\n\r");
if (p_port == NULL) return (FALSE);
TNC->ARDOPSerialPort = _strdup(p_ipad);
TNC->ARDOPSerialSpeed = atoi(p_port);
TNC->ARDOPCommsMode = 'I';
}
else
return FALSE; // Must start with ADDR
TNC->InitScript = malloc(1000);
TNC->InitScript[0] = 0;
ptr = strtok(NULL, " \t\n\r");
if (ptr)
{
if (_stricmp(ptr, "PTT") == 0)
{
ptr = strtok(NULL, " \t\n\r");
if (ptr)
{
DecodePTTString(TNC, ptr);
ptr = strtok(NULL, " \t\n\r");
}
}
}
if (ptr)
{
if (_memicmp(ptr, "PATH", 4) == 0)
{
p_cmd = strtok(NULL, "\n\r");
if (p_cmd) TNC->ProgramPath = _strdup(p_cmd);
}
}
TNC->MaxConReq = 10; // Default
TNC->OldMode = FALSE; // Default
// Read Initialisation lines
while(TRUE)
{
if (GetLine(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, "CAPTURE", 7) == 0) || (_memicmp(buf, "PLAYBACK", 8) == 0))
{} // Ignore
else
/*
if (_memicmp(buf, "PATH", 4) == 0)
{
char * Context;
p_cmd = strtok_s(&buf[5], "\n\r", &Context);
if (p_cmd) TNC->ProgramPath = _strdup(p_cmd);
}
else
*/
if (_memicmp(buf, "PACKETCHANNELS", 14) == 0) // Packet Channels
TNC->PacketChannels = atoi(&buf[14]);
else
if (_memicmp(buf, "MAXCONREQ", 9) == 0) // Hold Time for Busy Detect
TNC->MaxConReq = atoi(&buf[9]);
else
if (_memicmp(buf, "STARTINROBUST", 13) == 0)
TNC->StartInRobust = TRUE;
else
if (_memicmp(buf, "ROBUST", 6) == 0)
{
if (_memicmp(&buf[7], "TRUE", 4) == 0)
TNC->Robust = TRUE;
strcat (TNC->InitScript, buf);
}
else
if (_memicmp(buf, "LOGDIR ", 7) == 0)
TNC->LogPath = _strdup(&buf[7]);
else
if (_memicmp(buf, "ENABLEPACKET", 12) == 0)
{
if (TNC->PacketChannels == 0)
TNC->PacketChannels = 5;
// AddVirtualKISSPort(TNC, Port, buf);
}
// else if (_memicmp(buf, "PAC ", 4) == 0 && _memicmp(buf, "PAC MODE", 8) != 0)
// {
// PAC MODE goes to TNC, others are parsed locally
//
// ConfigVirtualKISSPort(TNC, buf);
// }
else if (standardParams(TNC, buf) == FALSE)
strcat(TNC->InitScript, buf);
}
return (TRUE);
}
void ARDOPThread(struct TNCINFO * TNC);
VOID ARDOPProcessDataSocketData(int port);
int ConnecttoARDOP();
static VOID ARDOPProcessReceivedData(struct TNCINFO * TNC);
static VOID ARDOPProcessReceivedControl(struct TNCINFO * TNC);
int V4ProcessReceivedData(struct TNCINFO * TNC);
VOID ARDOPReleaseTNC(struct TNCINFO * TNC);
VOID SuspendOtherPorts(struct TNCINFO * ThisTNC);
VOID ReleaseOtherPorts(struct TNCINFO * ThisTNC);
VOID WritetoTrace(struct TNCINFO * TNC, char * Msg, int Len);
static time_t ltime;
static SOCKADDR_IN sinx;
static SOCKADDR_IN rxaddr;
static int addrlen=sizeof(sinx);
unsigned short int compute_crc(unsigned char *buf,int len);
VOID ARDOPSendPktCommand(struct TNCINFO * TNC, int Stream, char * Buff)
{
// Encode and send to TNC. May be TCP or Serial
int EncLen;
UCHAR Encoded[256];
if (Stream == 0)
{
if (Buff[0] == 0) // Terminal Keepalive?
return;
}
else
{
if (Buff[1] == 0) // Terminal Keepalive?
return;
}
if (TNC->PacketSock) // Packet Data over separate TCP Connectoion?
{
// Chan, Cmd/Data, Len-1
int SentLen;
EncLen = sprintf(Encoded, "%c%c%c%s\r", Buff[0], 1, (int)strlen(Buff) -2, &Buff[1]);
SentLen = send(TNC->PacketSock, Encoded, EncLen, 0);
if (SentLen != EncLen)
{
int winerr=WSAGetLastError();
char ErrMsg[80];
sprintf(ErrMsg, "ARDOP Pkt Write Failed for port %d - error code = %d\r\n", TNC->PacketPort, winerr);
WritetoConsole(ErrMsg);
closesocket(TNC->PacketSock);
TNC->PacketSock = 0;
}
return;
}
EncLen = sprintf(Encoded, "%s\r", Buff);
SendToTNC(TNC, Stream, Encoded, EncLen);
return;
}
VOID ARDOPSendCommand(struct TNCINFO * TNC, char * Buff, BOOL Queue)
{
// Encode and send to TNC. May be TCP or Serial
// Command Formst is C:TEXT<CR><CRC>
int i, EncLen;
UCHAR Encoded[260]; // could get 256 byte packet
if (Buff[0] == 0) // Terminal Keepalive?
return;
EncLen = sprintf(Encoded, "%s\r", Buff);
// it is possible for binary data to be dumped into the command
// handler if a session disconnects in middle of transfer
for (i = 0; i < EncLen; i++)
{
if (Encoded[i] > 0x7f)
return;
}
SendToTNC(TNC, 12, Encoded, EncLen); // Use streams 12 aad 13 for Host Mode Schannels 32 and 33
return;
}
VOID SendToTNC(struct TNCINFO * TNC, int Stream, UCHAR * Encoded, int EncLen)
{
int SentLen;
if (TNC->hDevice || (TNC->ARDOPCommsMode == 'E' && TNC->TCPSock))
{
// 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++;
if (TNC->Timeout == 0) // if link idle can send now
ARDOPSCSPoll(TNC);
return;
}
if(TNC->ARDOPCommsMode == 'T' && TNC->TCPSock)
{
SentLen = send(TNC->TCPSock, Encoded, EncLen, 0);
if (SentLen != EncLen)
{
int winerr=WSAGetLastError();
char ErrMsg[80];
sprintf(ErrMsg, "ARDOP Write Failed for port %d - error code = %d\r\n", TNC->Port, winerr);
WritetoConsole(ErrMsg);
closesocket(TNC->TCPSock);
TNC->TCPSock = 0;
TNC->CONNECTED = FALSE;
return;
}
}
}
VOID SendDataToTNC(struct TNCINFO * TNC, int Streem , UCHAR * Encoded, int EncLen)
{
int SentLen;
if (TNC->hDevice || (TNC->ARDOPCommsMode == 'E' && TNC->TCPSock))
{
// Serial mode. Queue to Hostmode driver
int Stream = 13; // use 12 and 13 for scs channels 32 and 33
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++;
if (TNC->Timeout == 0) // if link idle can send now
ARDOPSCSPoll(TNC);
return;
}
if(TNC->TCPDataSock)
{
SentLen = send(TNC->TCPDataSock, Encoded, EncLen, 0);
if (SentLen != EncLen)
{
// WINMOR doesn't seem to recover from a blocked write. For now just reset
// if (bytes == SOCKET_ERROR)
// {
int winerr=WSAGetLastError();
char ErrMsg[80];
sprintf(ErrMsg, "ARDOP Write Failed for port %d - error code = %d\r\n", TNC->Port, winerr);
WritetoConsole(ErrMsg);
// if (winerr != WSAEWOULDBLOCK)
// {
closesocket(TNC->TCPSock);
closesocket(TNC->TCPDataSock);
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
TNC->CONNECTED = FALSE;
return;
}
}
}
int ARDOPSenPktdData(struct TNCINFO * TNC, int Stream, char * Buff, int Len)
{
// Encode and send to TNC. May be TCP or Serial
int EncLen;
UCHAR Msg[400];
UCHAR * Encoded = Msg;
*(Encoded++) = Len >> 8;
*(Encoded++) = Len & 0xff;
memcpy(Encoded, Buff, Len);
EncLen = Len + 2;
SendDataToTNC(TNC, Stream, Msg, EncLen);
return Len;
}
int ARDOPSendData(struct TNCINFO * TNC, char * Buff, int Len)
{
// Encode and send to TNC. May be TCP or Serial
int EncLen;
UCHAR Msg[400];
UCHAR * Encoded = Msg;
*(Encoded++) = Len >> 8;
*(Encoded++) = Len & 0xff;
memcpy(Encoded, Buff, Len);
EncLen = Len + 2;
SendDataToTNC(TNC, 13, Msg, EncLen);
return Len;
}
VOID ARDOPChangeMYC(struct TNCINFO * TNC, char * Call)
{
UCHAR TXMsg[100];
int datalen;
if (strcmp(Call, TNC->CurrentMYC) == 0)
return; // No Change
strcpy(TNC->CurrentMYC, Call);
// ARDOPSendCommand(TNC, "CODEC FALSE");
datalen = sprintf(TXMsg, "MYCALL %s", Call);
ARDOPSendCommand(TNC, TXMsg, TRUE);
// ARDOPSendCommand(TNC, "CODEC TRUE");
// TNC->StartSent = TRUE;
// ARDOPSendCommand(TNC, "MYCALL", TRUE);
}
static size_t ExtProc(int fn, int port, PDATAMESSAGE buff)
{
int datalen;
PMSGWITHLEN buffptr;
// char txbuff[500];
unsigned int bytes,txlen=0;
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->CONNECTED == 0)
{
// clear Q if not connected
while(TNC->BPQtoWINMOR_Q)
{
buffptr = (PMSGWITHLEN)Q_REM(&TNC->BPQtoWINMOR_Q);
if (buffptr)
ReleaseBuffer(buffptr);
}
}
switch (fn)
{
case 7:
// approx 100 mS Timer. May now be needed, as Poll can be called more frequently in some circumstances
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// 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;
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// Check session limit timer
if ((STREAM->Connecting || STREAM->Connected) && !STREAM->Disconnecting)
{
if (TNC->SessionTimeLimit && STREAM->ConnectTime && time(NULL) > (TNC->SessionTimeLimit + STREAM->ConnectTime))
{
ARDOPSendCommand(TNC, "DISCONNECT", TRUE);
STREAM->Disconnecting = TRUE;
}
}
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// Check ATTACH time limit
if (STREAM->Attached)
{
if (STREAM->AttachTime && TNC->AttachTimeLimit && time(NULL) > (TNC->AttachTimeLimit + STREAM->AttachTime))
{
STREAM->ReportDISC = 1;
STREAM->AttachTime = 0;
}
}
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if (TNC->ARDOPCommsMode != 'T') // S I or E
{
ARDOPSCSCheckRX(TNC);
ARDOPSCSPoll(TNC);
}
return 0;
case 1: // poll
// If not using serial interface, Rig Contol Frames are sent as
// ARDOP COmmand Frames. These are hex encoded
if (TNC->ARDOPCommsMode == 'T' && TNC->BPQtoRadio_Q)
{
PMSGWITHLEN buffptr;
buffptr = (PMSGWITHLEN)Q_REM(&TNC->BPQtoRadio_Q);
if (TNC->CONNECTED)
{
int len = (int)buffptr->Len;
UCHAR * ptr = &buffptr->Data[0];
char RigCommand[256] = "RADIOHEX ";
char * ptr2 = &RigCommand[9] ;
int i, j;
if (len < 120)
{
while (len--)
{
i = *(ptr++);
j = i >>4;
j += '0'; // ascii
if (j > '9')
j += 7;
*(ptr2++) = j;
j = i & 0xf;
j += '0'; // ascii
if (j > '9')
j += 7;
*(ptr2++) = j;
}
ARDOPSendCommand(TNC, RigCommand, FALSE);
}
}
ReleaseBuffer(buffptr);
}
while (TNC->PortRecord->UI_Q)
{
int datalen;
char * Buffer;
char FECMsg[512];
char Call[12] = " ";
struct _MESSAGE * buffptr;
int CallLen;
char * ptr = FECMsg;
buffptr = Q_REM(&TNC->PortRecord->UI_Q);
if (TNC->CONNECTED == 0 ||
TNC->Streams[0].Connecting ||
TNC->Streams[0].Connected)
{
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// discard if TNC not connected or session active
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ReleaseBuffer(buffptr);
continue;
}
datalen = buffptr->LENGTH - MSGHDDRLEN;
Buffer = &buffptr->DEST[0]; // Raw Frame
Buffer[datalen] = 0;
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*ptr++ = '^'; // delimit frame with ^
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// Frame has ax.25 format header. Convert to Text
CallLen = ConvFromAX25(Buffer + 7, Call); // Origin
memcpy(ptr, Call, CallLen);
ptr += CallLen;
*ptr++ = '>';
CallLen = ConvFromAX25(Buffer, Call); // Dest
memcpy(ptr, Call, CallLen);
ptr += CallLen;
Buffer += 14; // TO Digis
datalen -= 14;
while ((Buffer[-1] & 1) == 0)
{
*ptr++ = ',';
CallLen = ConvFromAX25(Buffer, Call);
memcpy(ptr, Call, CallLen);
ptr += CallLen;
Buffer += 7; // End of addr
datalen -= 7;
}
*ptr++ = '|'; // delimit calls
if (Buffer[0] == 3) // UI
{
Buffer += 2;
datalen -= 2;
}
memcpy(ptr, Buffer, datalen);
ptr += datalen;
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*ptr++ = '^'; // delimit frame with ^
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ARDOPSendData(TNC, FECMsg, (int)(ptr - FECMsg));
TNC->FECPending = 1;
ReleaseBuffer((UINT *)buffptr);
}
if (TNC->Busy) // Count down to clear
{
if ((TNC->BusyFlags & CDBusy) == 0) // TNC Has reported not busy
{
TNC->Busy--;
if (TNC->Busy == 0)
MySetWindowText(TNC->xIDC_CHANSTATE, "Clear");
strcpy(TNC->WEB_CHANSTATE, "Clear");
}
}
if (TNC->BusyDelay)
{
// Still Busy?
if (InterlockedCheckBusy(TNC) == FALSE)
{
// No, so send
// ARDOPSendCommand(TNC, "LISTEN TRUE", TRUE); // !!!! Temp bug workaround !!!!
ARDOPSendCommand(TNC, TNC->ConnectCmd, TRUE);
TNC->Streams[0].Connecting = TRUE;
memset(TNC->Streams[0].RemoteCall, 0, 10);
memcpy(TNC->Streams[0].RemoteCall, &TNC->ConnectCmd[8], (int)strlen(TNC->ConnectCmd)-10);
sprintf(TNC->WEB_TNCSTATE, "%s Connecting to %s", TNC->Streams[0].MyCall, TNC->Streams[0].RemoteCall);
MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE);
free(TNC->ConnectCmd);
TNC->BusyDelay = 0;
}
else
{
// Wait Longer
TNC->BusyDelay--;
if (TNC->BusyDelay == 0)
{
// Timed out - Send Error Response
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr == 0) return (0); // No buffers, so ignore
buffptr->Len = 39;
memcpy(&buffptr->Data[0], "Sorry, Can't Connect - Channel is busy\r", 39);
C_Q_ADD(&TNC->Streams[0].PACTORtoBPQ_Q, buffptr);
free(TNC->ConnectCmd);
sprintf(TNC->WEB_TNCSTATE, "In Use by %s", TNC->Streams[0].MyCall);
MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE);
}
}
}
if (TNC->HeartBeat++ > 600 || (TNC->Streams[0].Connected && TNC->HeartBeat > 50)) // Every Minute unless connected
{
TNC->HeartBeat = 0;
if (TNC->CONNECTED)
{
// Probe link
if (TNC->Streams[0].Connecting || TNC->Streams[0].Connected)
fn =fn; //ARDOPSendCommand(TNC, "MODE", TRUE);
else
{
// if (time(NULL) - TNC->WinmorRestartCodecTimer > 300) // 5 mins
// {
// ARDOPSendCommand(TNC, "CODEC FALSE", TRUE);
// ARDOPSendCommand(TNC, "CODEC TRUE", TRUE);
// }
// else
ARDOPSendCommand(TNC, "STATE", TRUE);
}
}
}
if (TNC->FECMode)
{
if (TNC->FECIDTimer++ > 6000) // ID every 10 Mins
{
if (!TNC->Busy)
{
TNC->FECIDTimer = 0;
ARDOPSendCommand(TNC, "SENDID", TRUE);
}
}
}
// FECPending can be set if not in FEC Mode (eg beacon)
if (TNC->FECPending) // Check if FEC Send needed
{
if (TNC->Streams[0].BytesOutstanding) //Wait for data to be queued (async data session)
{
if (TNC->Busy == 0 && TNC->GavePermission == 0)
{
TNC->FECPending = 0;
ARDOPSendCommand(TNC,"FECSEND TRUE", TRUE);
}
}
}
if (TNC->DiscPending)
{
TNC->DiscPending--;
if (TNC->DiscPending == 0)
{
// Too long in Disc Pending - Kill and Restart TNC
if (TNC->PID)
KillTNC(TNC);
RestartTNC(TNC);
}
}
if (TNC->TimeSinceLast++ > 800) // Allow 10 secs for Keepalive
{
// Restart TNC
if (TNC->ProgramPath && TNC->CONNECTED && 0)
{
struct tm * tm;
char Time[80];
TNC->Restarts++;
TNC->LastRestart = time(NULL);
tm = gmtime(&TNC->LastRestart);
sprintf_s(Time, sizeof(Time),"%04d/%02d/%02d %02d:%02dZ",
tm->tm_year +1900, tm->tm_mon+1, tm->tm_mday, tm->tm_hour, tm->tm_min);
MySetWindowText(TNC->xIDC_RESTARTTIME, Time);
strcpy(TNC->WEB_RESTARTTIME, Time);
sprintf_s(Time, sizeof(Time),"%d", TNC->Restarts);
MySetWindowText(TNC->xIDC_RESTARTS, Time);
strcpy(TNC->WEB_RESTARTS, Time);
KillTNC(TNC);
RestartTNC(TNC);
TNC->TimeSinceLast = 0;
}
}
for (Stream = 0; Stream <= APMaxStreams; Stream++)
{
STREAM = &TNC->Streams[Stream];
if (STREAM->NeedDisc)
{
STREAM->NeedDisc--;
if (STREAM->NeedDisc == 0)
{
// Send the DISCONNECT
if (Stream == 0)
ARDOPSendCommand(TNC, "DISCONNECT", TRUE);
else
{
char Cmd[32];
sprintf(Cmd, "%cDISCONNECT", Stream);
ARDOPSendPktCommand(TNC, Stream, Cmd);
}
}
}
if (TNC->PortRecord->ATTACHEDSESSIONS[Stream] && STREAM->Attached == 0)
{
// New Attach
int calllen;
char Msg[80];
Debugprintf("ARDOP New Attach Stream %d DEDStream %d", Stream, STREAM->DEDStream);
STREAM->Attached = TRUE;
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STREAM->AttachTime = time(NULL);
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calllen = ConvFromAX25(TNC->PortRecord->ATTACHEDSESSIONS[Stream]->L4USER, TNC->Streams[Stream].MyCall);
TNC->Streams[Stream].MyCall[calllen] = 0;
if (Stream == 0)
{
// If Pactor, stop scanning and take out of listen mode.
// if (Stream == 0)
// STREAM->DEDStream = 31; // Pactor
// Stop Listening, and set MYCALL to user's call
ARDOPSendCommand(TNC, "LISTEN FALSE", TRUE);
ARDOPChangeMYC(TNC, TNC->Streams[0].MyCall);
TNC->SessionTimeLimit = TNC->DefaultSessionTimeLimit; // Reset Limit
// 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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}
else
{
// Packet Connect
}
}
if (STREAM->Attached)
CheckForDetach(TNC, Stream, STREAM, TidyClose, ForcedClose, CloseComplete);
}
if (TNC->CONNECTED == FALSE && TNC->CONNECTING == FALSE)
{
// See if time to reconnect
time(&ltime);
if (ltime - TNC->lasttime > 9 )
{
if (TNC->ARDOPCommsMode == 'T' && TNC->PortRecord->PORTCONTROL.PortStopped == 0)
ConnecttoARDOP(TNC);
TNC->lasttime = ltime;
}
}
// See if any frames for this port
for (Stream = 0; Stream <= APMaxStreams; Stream++)
{
STREAM = &TNC->Streams[Stream];
if (TNC->ARDOPCommsMode == 'T')
{
// For serial mode packets are taken from the queue by ARDOPSCSPoll
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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if (Stream == 0)
{
bytes=ARDOPSendData(TNC, data, txlen);
WritetoTrace(TNC, data, txlen);
}
else
{
if (TNC->PacketSock)
{
// Using Packet over TCP)
// Chan, Cmd/Data, Len-1
UCHAR Encoded[280];
int EncLen;
int SentLen;
EncLen = sprintf(Encoded, "%c%c%c%s\r", Stream, 0, txlen - 1, data);
SentLen = send(TNC->PacketSock, Encoded, EncLen, 0);
if (SentLen != EncLen)
{
int winerr=WSAGetLastError();
char ErrMsg[80];
sprintf(ErrMsg, "ARDOP Pkt Write Failed for port %d - error code = %d\r\n", TNC->PacketPort, winerr);
WritetoConsole(ErrMsg);
closesocket(TNC->PacketSock);
TNC->PacketSock = 0;
}
}
}
ReleaseBuffer(buffptr);
}
}
if (STREAM->PACTORtoBPQ_Q != 0)
{
buffptr = 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->CONNECTED)
{
// 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 ARDOP 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) - (sizeof(void *) + 4);
if (STREAM->Connected)
{
STREAM->PacketsSent++;
if (Stream == 0)
{
bytes=ARDOPSendData(TNC, &buff->L2DATA[0], 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);
}
else
{
// Packet. Only works over Serial
PMSGWITHLEN buffptr;
UCHAR * buffp;
if (TNC->PacketSock)
{
// Using Packet over TCP)
// Chan, Cmd/Data, Len-1
UCHAR Encoded[280];
int EncLen;
int SentLen;
Encoded[0] = Stream;
Encoded[1] = 0; // Data
Encoded[2] = txlen - 1;
memcpy(&Encoded[3], &buff->L2DATA[0], txlen);
EncLen = txlen + 3;
SentLen = send(TNC->PacketSock, Encoded, EncLen, 0);
// We should increment outstanding here as TCP interface can fill buffer
// very quickly
TNC->Streams[Stream].BytesOutstanding += txlen;
if (SentLen != EncLen)
{
int winerr=WSAGetLastError();
char ErrMsg[80];
sprintf(ErrMsg, "ARDOP Pkt Write Failed for port %d - error code = %d\r\n", TNC->PacketPort, winerr);
WritetoConsole(ErrMsg);
closesocket(TNC->PacketSock);
TNC->PacketSock = 0;
}
return 0;
}
if (TNC->ARDOPCommsMode == 'T')
return 0;
buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr == 0) return 0; // No buffers, so ignore
buffptr->Len = txlen + 1;
buffp = &buffptr->Data[0];
buffp[0] = 0; // CMD/Data Flag on front
memcpy(buffp + 1, &buff->L2DATA[0], txlen);
C_Q_ADD(&TNC->Streams[Stream].BPQtoPACTOR_Q, buffptr);
STREAM->FramesQueued++;
if (TNC->Timeout == 0) // if link idle can send now
ARDOPSCSPoll(TNC);
return 0;
}
}
else
{
if (_memicmp(&buff->L2DATA[0], "D\r", 2) == 0 || _memicmp(&buff->L2DATA[0], "BYE\r", 4) == 0)
{
STREAM->ReportDISC = TRUE; // Tell Node
return 0;
}
if (TNC->FECMode)
{
char Buffer[300];
int len;
// Send FEC Data
buff->L2DATA[txlen] = 0;
len = sprintf(Buffer, "%-9s: %s", TNC->Streams[0].MyCall, &buff->L2DATA[0]);
ARDOPSendData(TNC, Buffer, len);
TNC->FECPending = 1;
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[8], "PAC ", 4) == 0 && _memicmp(&buff[8], "PAC MODE", 8) != 0)
// {
// PAC MODE goes to TNC, others are parsed locally
// buff[7 + txlen] = 0;
// ConfigVirtualKISSPort(TNC, &buff[8]);
// 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;
}
if (_memicmp(&buff->L2DATA[0], "MAXCONREQ", 9) == 0)
{
if (buff->L2DATA[9] != 13)
{
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
// Limit connects
int tries = atoi(&buff->L2DATA[10]);
if (tries > 10) tries = 10;
TNC->MaxConReq = tries;
if (buffptr)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} OK\r");
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
}
return 0;
}
}
if (_memicmp(&buff->L2DATA[0], "SessionTimeLimit", 16) == 0)
{
if (buff->L2DATA[16] != 13)
{
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
TNC->SessionTimeLimit = atoi(&buff->L2DATA[16]) * 60;
if (buffptr)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} OK\r");
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
}
return 0;
}
}
if (_memicmp(&buff->L2DATA[0], "ARQBW ", 6) == 0)
TNC->WinmorCurrentMode = 0; // So scanner will set next value
if (_memicmp(&buff->L2DATA[0], "CODEC TRUE", 9) == 0)
TNC->StartSent = TRUE;
if (_memicmp(&buff->L2DATA[0], "D\r", 2) == 0)
{
STREAM->ReportDISC = TRUE; // Tell Node
return 0;
}
if (_memicmp(&buff->L2DATA[0], "FEC\r", 4) == 0 || _memicmp(&buff->L2DATA[0], "FEC ", 4) == 0)
{
TNC->FECMode = TRUE;
TNC->FECIDTimer = 0;
// ARDOPSendCommand(TNC,"FECRCV TRUE");
return 0;
}
if (_memicmp(&buff->L2DATA[0], "PING ", 5) == 0)
{
if (InterlockedCheckBusy(TNC))
{
// Channel Busy. Unless override set, reject
if (TNC->OverrideBusy == 0)
{
// Reject
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} Ping blocked by Busy\r");
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
}
return 0;
}
}
TNC->OverrideBusy = FALSE;
}
// 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;
if (Stream == 0)
{
sprintf(Connect, "ARQCALL %s %d", &buff->L2DATA[2], TNC->MaxConReq);
ARDOPChangeMYC(TNC, TNC->Streams[0].MyCall);
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hookL4SessionAttempt(STREAM, &buff->L2DATA[2], TNC->Streams[0].MyCall);
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// 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;
// ARDOPSendCommand(TNC, "LISTEN TRUE", TRUE); // !!!! Temp bug workaround !!!!
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);
ARDOPSendCommand(TNC, Connect, TRUE);
MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE);
}
else
{
// Packet Connect
sprintf(Connect, "%cPKTCALL %s %s", Stream, &buff->L2DATA[2], STREAM->MyCall);
ARDOPSendPktCommand(TNC, Stream, Connect);
}
STREAM->Connecting = TRUE;
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STREAM->ConnectTime = time(NULL);
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return 0;
}
buff->L2DATA[txlen - 1] = 0; // Remove CR
ARDOPSendCommand(TNC, &buff->L2DATA[0], TRUE);
}
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
//if (!(TNC->ARDOPCommsMode == 'T'))
//{
// // if serial mode must check buffer space
{
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;
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 (TNC->Mode == '3') // ARDOP3 has a bit more buffer space
{
if (Queued > 4 || Outstanding > 5000)
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->CONNECTED << 8 | 1;
return (TNC->CONNECTED << 8 | TNC->Streams[Stream].Disconnecting << 15); // OK
case 4: // reinit7
return 0;
case 5: // Close
if (TNC->CONNECTED)
{
if (TNC->WeStartedTNC)
{
GetSemaphore(&Semaphore, 52);
ARDOPSendCommand(TNC, "CLOSE", FALSE);
FreeSemaphore(&Semaphore);
Sleep(100);
}
}
if (TNC->TCPSock)
{
shutdown(TNC->TCPSock, SD_BOTH);
Sleep(100);
closesocket(TNC->TCPSock);
}
if (TNC->TCPDataSock)
{
shutdown(TNC->TCPDataSock, SD_BOTH);
Sleep(100);
closesocket(TNC->TCPDataSock);
}
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
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)
{
ARDOPSendCommand(TNC, "LISTEN FALSE", TRUE);
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
ARDOPSendCommand(TNC, "LISTEN TRUE", TRUE);
}
return 0;
}
// Param is Address of a struct ScanEntry
Scan = (struct ScanEntry *)buff;
if (Scan->ARDOPMode[0] == 0)
{
// Not specified, so no change from previous
return 0;
}
if (strcmp(Scan->ARDOPMode, TNC->ARDOPCurrentMode) != 0)
{
// Mode changed
char CMD[32];
if (TNC->ARDOPCurrentMode[0] == 'S') // Skip
ARDOPSendCommand(TNC, "LISTEN TRUE", TRUE);
// Debugprintf("ARDOPMODE %s", Scan->ARDOPMode);
memcpy(TNC->ARDOPCurrentMode, Scan->ARDOPMode, 6);
if (Scan->ARDOPMode[0] == 'S') // SKIP - Dont Allow Connects
{
if (TNC->ARDOPCurrentMode[0] != 'S')
{
ARDOPSendCommand(TNC, "LISTEN FALSE", TRUE);
TNC->ARDOPCurrentMode[0] = 'S';
}
TNC->WL2KMode = 0;
return 0;
}
if (strchr(Scan->ARDOPMode, 'F'))
sprintf(CMD, "ARQBW %sORCED", Scan->ARDOPMode);
else if (strchr(Scan->ARDOPMode, 'M'))
sprintf(CMD, "ARQBW %sAX", Scan->ARDOPMode);
else
sprintf(CMD, "ARQBW %s", Scan->ARDOPMode); // ARDOPOFDM doesn't use MAX/FORCED
ARDOPSendCommand(TNC, CMD, TRUE);
return 0;
}
return 0;
}
return 0;
}
VOID ARDOPReleaseTNC(struct TNCINFO * TNC)
{
// Set mycall back to Node or Port Call, and Start Scanner
UCHAR TXMsg[1000];
ARDOPChangeMYC(TNC, TNC->NodeCall);
strcpy(TNC->WEB_TNCSTATE, "Free");
MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE);
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ARDOPSendCommand(TNC, "LISTEN TRUE", TRUE);
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// Start Scanner
if (TNC->DefaultRadioCmd)
{
sprintf(TXMsg, "%d %s", TNC->Port, TNC->DefaultRadioCmd);
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Rig_Command( (TRANSPORTENTRY *) -1, TXMsg);
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}
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 ARDOPSuspendPort(struct TNCINFO * TNC, struct TNCINFO * ThisTNC)
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{
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TNC->PortRecord->PORTCONTROL.PortSuspended = TRUE;
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ARDOPSendCommand(TNC, "LISTEN FALSE", TRUE);
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strcpy(TNC->WEB_TNCSTATE, "Interlocked");
MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE);
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}
VOID ARDOPReleasePort(struct TNCINFO * TNC)
{
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TNC->PortRecord->PORTCONTROL.PortSuspended = FALSE;
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ARDOPSendCommand(TNC, "LISTEN TRUE", TRUE);
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strcpy(TNC->WEB_TNCSTATE, "Free");
MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE);
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}
extern char WebProcTemplate[];
extern char sliderBit[];
static int WebProc(struct TNCINFO * TNC, char * Buff, BOOL LOCAL)
{
int Len = sprintf(Buff, WebProcTemplate, TNC->Port, TNC->Port, "ARDOP Status", "ARDOP Status");
if (TNC->TXFreq)
Len += sprintf(&Buff[Len], sliderBit, TNC->TXOffset, TNC->TXOffset);
Len += sprintf(&Buff[Len], "<table style=\"text-align: left; width: 500px; font-family: monospace; align=center \" border=1 cellpadding=2 cellspacing=2>");
Len += sprintf(&Buff[Len], "<tr><td width=110px>Comms State</td><td>%s</td></tr>", TNC->WEB_COMMSSTATE);
Len += sprintf(&Buff[Len], "<tr><td>TNC State</td><td>%s</td></tr>", TNC->WEB_TNCSTATE);
Len += sprintf(&Buff[Len], "<tr><td>Mode</td><td>%s</td></tr>", TNC->WEB_MODE);
Len += sprintf(&Buff[Len], "<tr><td>Channel State</td><td>%s &nbsp; %s</td></tr>", TNC->WEB_CHANSTATE, TNC->WEB_LEVELS);
Len += sprintf(&Buff[Len], "<tr><td>Proto State</td><td>%s</td></tr>", TNC->WEB_PROTOSTATE);
Len += sprintf(&Buff[Len], "<tr><td>Traffic</td><td>%s</td></tr>", TNC->WEB_TRAFFIC);
// Len += sprintf(&Buff[Len], "<tr><td>TNC Restarts</td><td></td></tr>", TNC->WEB_RESTARTS);
Len += sprintf(&Buff[Len], "</table>");
Len += sprintf(&Buff[Len], "<textarea rows=10 style=\"width:500px; height:250px;\" id=textarea >%s</textarea>", TNC->WebBuffer);
Len = DoScanLine(TNC, Buff, Len);
return Len;
}
VOID * ARDOPExtInit(EXTPORTDATA * PortEntry)
{
int i, port;
char Msg[255];
char * ptr;
APPLCALLS * APPL;
struct TNCINFO * TNC;
char Aux[100] = "MYAUX ";
char Appl[11];
char * TempScript;
int Stream;
//
// Will be called once for each WINMOR port
//
// The Socket to connect to is in IOBASE
//
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");
WritetoConsole(Msg);
return ExtProc;
}
TNC->Port = port;
if (TNC->LogPath)
ARDOPOpenLogFiles(TNC);
TNC->ARDOPBuffer = malloc(8192);
TNC->ARDOPDataBuffer = malloc(16384);
TNC->ARDOPAPRS = zalloc(512);
TNC->ARDOPAPRSLen = 0;
if (TNC->ProgramPath)
TNC->WeStartedTNC = RestartTNC(TNC);
TNC->Hardware = H_ARDOP;
if (TNC->BusyWait == 0)
TNC->BusyWait = 10;
if (TNC->BusyHold == 0)
TNC->BusyHold = 1;
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;
for (Stream = 1; Stream <= APMaxStreams; Stream++)
{
TNC->Streams[Stream].DEDStream = Stream;
}
if (TNC->PacketChannels > APMaxStreams)
TNC->PacketChannels = APMaxStreams;
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 = ARDOPSuspendPort;
TNC->ReleasePortProc = ARDOPReleasePort;
PortEntry->PORTCONTROL.PORTSTARTCODE = ARDOPStartPort;
PortEntry->PORTCONTROL.PORTSTOPCODE = ARDOPStopPort;
TNC->ModemCentre = 1500; // ARDOP is always 1500 Offset
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 = malloc(1000);
strcpy(TempScript, "INITIALIZE\r");
strcat(TempScript, "VERSION\r");
strcat(TempScript, "CWID False\r");
strcat(TempScript, "PROTOCOLMODE ARQ\r");
strcat(TempScript, "ARQTIMEOUT 90\r");
// strcat(TempScript, "ROBUST False\r");
strcat(TempScript, TNC->InitScript);
free(TNC->InitScript);
TNC->InitScript = TempScript;
// Set MYCALL
// strcat(TNC->InitScript,"FECRCV True\r");
// strcat(TNC->InitScript,"AUTOBREAK True\r");
sprintf(Msg, "MYCALL %s\r", TNC->NodeCall);
strcat(TNC->InitScript, Msg);
// strcat(TNC->InitScript,"PROCESSID\r");
// strcat(TNC->InitScript,"CODEC TRUE\r");
// strcat(TNC->InitScript,"LISTEN TRUE\r");
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++ = ',';
*ptr = 0;
}
strcat(Aux, Appl);
}
}
if (strlen(Aux) > 8)
{
Aux[strlen(Aux) - 1] = '\r';
strcat(TNC->InitScript, Aux);
}
strcpy(TNC->CurrentMYC, TNC->NodeCall);
if (TNC->WL2K == NULL)
if (PortEntry->PORTCONTROL.WL2KInfo.RMSCall[0]) // Alrerady decoded
TNC->WL2K = &PortEntry->PORTCONTROL.WL2KInfo;
if (TNC->destaddr.sin_family == 0)
{
// not defined in config file, so use localhost and port from IOBASE
TNC->destaddr.sin_family = AF_INET;
TNC->destaddr.sin_port = htons(PortEntry->PORTCONTROL.IOBASE);
TNC->Datadestaddr.sin_family = AF_INET;
TNC->Datadestaddr.sin_port = htons(PortEntry->PORTCONTROL.IOBASE+1);
TNC->HostName=malloc(10);
if (TNC->HostName != NULL)
strcpy(TNC->HostName,"127.0.0.1");
}
PortEntry->PORTCONTROL.TNC = TNC;
TNC->WebWindowProc = WebProc;
TNC->WebWinX = 520;
TNC->WebWinY = 500;
TNC->WebBuffer = zalloc(5000);
TNC->WEB_COMMSSTATE = zalloc(100);
TNC->WEB_TNCSTATE = zalloc(100);
TNC->WEB_CHANSTATE = zalloc(100);
TNC->WEB_BUFFERS = zalloc(100);
TNC->WEB_PROTOSTATE = zalloc(100);
TNC->WEB_RESTARTTIME = zalloc(100);
TNC->WEB_RESTARTS = zalloc(100);
TNC->WEB_MODE = zalloc(20);
TNC->WEB_TRAFFIC = zalloc(100);
TNC->WEB_LEVELS =zalloc(32);
#ifndef LINBPQ
CreatePactorWindow(TNC, ClassName, WindowTitle, RigControlRow, PacWndProc, 500, 450, ForcedClose);
CreateWindowEx(0, "STATIC", "Comms State", WS_CHILD | WS_VISIBLE, 10,6,120,20, TNC->hDlg, NULL, hInstance, NULL);
TNC->xIDC_COMMSSTATE = CreateWindowEx(0, "STATIC", "", WS_CHILD | WS_VISIBLE, 120,6,386,20, TNC->hDlg, NULL, hInstance, NULL);
CreateWindowEx(0, "STATIC", "TNC State", WS_CHILD | WS_VISIBLE, 10,28,106,20, TNC->hDlg, NULL, hInstance, NULL);
TNC->xIDC_TNCSTATE = CreateWindowEx(0, "STATIC", "", WS_CHILD | WS_VISIBLE, 120,28,520,20, TNC->hDlg, NULL, hInstance, NULL);
CreateWindowEx(0, "STATIC", "Mode", WS_CHILD | WS_VISIBLE, 10,50,80,20, TNC->hDlg, NULL, hInstance, NULL);
TNC->xIDC_MODE = CreateWindowEx(0, "STATIC", "", WS_CHILD | WS_VISIBLE, 120,50,200,20, TNC->hDlg, NULL, hInstance, NULL);
CreateWindowEx(0, "STATIC", "Channel State", WS_CHILD | WS_VISIBLE, 10,72,110,20, TNC->hDlg, NULL, hInstance, NULL);
TNC->xIDC_CHANSTATE = CreateWindowEx(0, "STATIC", "", WS_CHILD | WS_VISIBLE, 120,72,82,20, TNC->hDlg, NULL, hInstance, NULL);
TNC->xIDC_LEVELS = CreateWindowEx(0, "STATIC", "", WS_CHILD | WS_VISIBLE, 200,72,200,20, TNC->hDlg, NULL, hInstance, NULL);
CreateWindowEx(0, "STATIC", "Proto State", WS_CHILD | WS_VISIBLE,10,94,80,20, TNC->hDlg, NULL, hInstance, NULL);
TNC->xIDC_PROTOSTATE = CreateWindowEx(0, "STATIC", "", WS_CHILD | WS_VISIBLE,120,94,374,20 , TNC->hDlg, NULL, hInstance, NULL);
CreateWindowEx(0, "STATIC", "Traffic", WS_CHILD | WS_VISIBLE,10,116,80,20, TNC->hDlg, NULL, hInstance, NULL);
TNC->xIDC_TRAFFIC = CreateWindowEx(0, "STATIC", "0 0 0 0", WS_CHILD | WS_VISIBLE,120,116,374,20 , TNC->hDlg, NULL, hInstance, NULL);
CreateWindowEx(0, "STATIC", "TNC Restarts", WS_CHILD | WS_VISIBLE,10,138,100,20, TNC->hDlg, NULL, hInstance, NULL);
TNC->xIDC_RESTARTS = CreateWindowEx(0, "STATIC", "0", WS_CHILD | WS_VISIBLE,120,138,40,20 , TNC->hDlg, NULL, hInstance, NULL);
CreateWindowEx(0, "STATIC", "Last Restart", WS_CHILD | WS_VISIBLE,140,138,100,20, TNC->hDlg, NULL, hInstance, NULL);
TNC->xIDC_RESTARTTIME = CreateWindowEx(0, "STATIC", "Never", WS_CHILD | WS_VISIBLE,250,138,200,20, 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;
TNC->hMenu = CreatePopupMenu();
AppendMenu(TNC->hMenu, MF_STRING, WINMOR_KILL, "Kill ARDOP TNC");
AppendMenu(TNC->hMenu, MF_STRING, WINMOR_RESTART, "Kill and Restart ARDOP TNC");
AppendMenu(TNC->hMenu, MF_STRING, WINMOR_RESTARTAFTERFAILURE, "Restart TNC after failed Connection");
AppendMenu(TNC->hMenu, MF_STRING, ARDOP_ABORT, "Abort Current Session");
CheckMenuItem(TNC->hMenu, WINMOR_RESTARTAFTERFAILURE, (TNC->RestartAfterFailure) ? MF_CHECKED : MF_UNCHECKED);
MoveWindows(TNC);
#endif
if (TNC->ARDOPCommsMode == 'T')
{
Consoleprintf("ARDOP Host %s %d", TNC->HostName, htons(TNC->destaddr.sin_port));
ConnecttoARDOP(TNC);
}
else if (TNC->ARDOPCommsMode == 'E')
{
Consoleprintf("ARDOP TCPSerial %s:%d", TNC->HostName, htons(TNC->destaddr.sin_port));
SerialConnecttoTCP(TNC);
}
else if (TNC->ARDOPCommsMode == 'S')
{
TNC->PortRecord->PORTCONTROL.SerialPortName = _strdup(TNC->ARDOPSerialPort); // for common routines
Consoleprintf("ARDOP Serial %s", TNC->ARDOPSerialPort);
OpenCOMMPort(TNC, TNC->ARDOPSerialPort, TNC->ARDOPSerialSpeed, FALSE);
}
else if (TNC->ARDOPCommsMode == 'I')
{
#ifdef WIN32
sprintf(Msg,"ARDOP I2C is not supported on WIN32 systems\n");
WritetoConsoleLocal(Msg);
#else
#ifdef NOI2C
sprintf(Msg,"I2C is not supported on this systems\n");
WritetoConsoleLocal(Msg);
#else
char i2cname[30];
int fd;
int retval;
if (strlen(TNC->ARDOPSerialPort) < 3)
{
sprintf(i2cname, "/dev/i2c-%s", TNC->ARDOPSerialPort);
TNC->ARDOPSerialPort = _strdup(i2cname);
}
else
strcpy(i2cname, TNC->ARDOPSerialPort);
TNC->PortRecord->PORTCONTROL.SerialPortName = _strdup(i2cname); // for common routines
Consoleprintf("ARDOP I2C Bus %s Addr %d ", i2cname, TNC->ARDOPSerialSpeed);
// Open and configure the i2c interface
fd = TNC->hDevice = open(i2cname, O_RDWR);
if (fd < 0)
printf("Cannot find i2c bus %s \n", i2cname);
else
{
retval = ioctl(TNC->hDevice, I2C_SLAVE, TNC->ARDOPSerialSpeed);
if(retval == -1)
printf("Cannot open i2c device %x\n", TNC->ARDOPSerialSpeed);
ioctl(TNC->hDevice, I2C_TIMEOUT, 10); //100 mS
}
#endif
#endif
}
time(&TNC->lasttime); // Get initial time value
return ExtProc;
}
VOID TNCLost(struct TNCINFO * TNC)
{
int Stream = 0;
struct STREAMINFO * STREAM;
if (TNC->TCPSock)
closesocket(TNC->TCPSock);
if (TNC->TCPDataSock)
closesocket(TNC->TCPDataSock);
if (TNC->PacketSock)
closesocket(TNC->PacketSock);
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
TNC->PacketSock = 0;
TNC->CONNECTED = FALSE;
for (Stream = 0; Stream <= APMaxStreams; Stream++)
{
STREAM = &TNC->Streams[Stream];
STREAM->BytesOutstanding = 0;
if (Stream == 0)
{
sprintf(TNC->WEB_TRAFFIC, "Sent %d RXed %d Queued %d",
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STREAM->bytesTXed - STREAM->BytesOutstanding, STREAM->bytesRXed, STREAM->BytesOutstanding);
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MySetWindowText(TNC->xIDC_TRAFFIC, TNC->WEB_TRAFFIC);
}
if (STREAM->Attached)
{
STREAM->Connected = FALSE;
STREAM->Connecting = FALSE;
STREAM->ReportDISC = TRUE;
}
}
}
int ConnecttoARDOP(struct TNCINFO * TNC)
{
_beginthread(ARDOPThread, 0, (void *)TNC);
return 0;
}
VOID ARDOPThread(struct TNCINFO * TNC)
{
// Opens sockets and looks for data on control and data sockets.
// Socket may be TCP/IP or Serial
char Msg[255];
int err, i, ret;
u_long param=1;
BOOL bcopt=TRUE;
struct hostent * HostEnt;
fd_set readfs;
fd_set errorfs;
struct timeval timeout;
char * ptr1, * ptr2;
PMSGWITHLEN buffptr;
char Cmd[64];
if (TNC->HostName == NULL)
return;
TNC->BusyFlags = 0;
TNC->CONNECTING = TRUE;
Sleep(3000); // Allow init to complete
#ifdef WIN32
if (strcmp(TNC->HostName, "127.0.0.1") == 0)
{
// can only check if running on local host
TNC->PID = GetListeningPortsPID(TNC->destaddr.sin_port);
if (TNC->PID == 0)
{
TNC->CONNECTING = FALSE;
return; // Not listening so no point trying to connect
}
// Get the File Name in case we want to restart it.
if (TNC->ProgramPath == NULL)
{
if (GetModuleFileNameExPtr)
{
HANDLE hProc;
char ExeName[256] = "";
hProc = OpenProcess(PROCESS_QUERY_INFORMATION |PROCESS_VM_READ, FALSE, TNC->PID);
if (hProc)
{
GetModuleFileNameExPtr(hProc, 0, ExeName, 255);
CloseHandle(hProc);
TNC->ProgramPath = _strdup(ExeName);
}
}
}
}
#endif
// // If we started the TNC make sure it is still running.
// if (!IsProcess(TNC->PID))
// {
// RestartTNC(TNC);
// Sleep(3000);
// }
TNC->destaddr.sin_addr.s_addr = inet_addr(TNC->HostName);
TNC->Datadestaddr.sin_addr.s_addr = inet_addr(TNC->HostName);
if (TNC->destaddr.sin_addr.s_addr == INADDR_NONE)
{
// Resolve name to address
HostEnt = gethostbyname (TNC->HostName);
if (!HostEnt)
{
TNC->CONNECTING = FALSE;
return; // Resolve failed
}
memcpy(&TNC->destaddr.sin_addr.s_addr,HostEnt->h_addr,4);
memcpy(&TNC->Datadestaddr.sin_addr.s_addr,HostEnt->h_addr,4);
}
if (TNC->TCPSock)
{
Debugprintf("ARDOP Closing Sock %d", TNC->TCPSock);
closesocket(TNC->TCPSock);
}
if (TNC->TCPDataSock)
{
Debugprintf("ARDOP Closing Sock %d", TNC->TCPDataSock);
closesocket(TNC->TCPDataSock);
}
if (TNC->PacketSock)
{
Debugprintf("ARDOP Closing Sock %d", TNC->PacketSock);
closesocket(TNC->PacketSock);
}
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
TNC->PacketSock = 0;
TNC->TCPSock=socket(AF_INET,SOCK_STREAM,0);
if (TNC->TCPSock == INVALID_SOCKET)
{
i=sprintf(Msg, "Socket Failed for ARDOP socket - error code = %d\r\n", WSAGetLastError());
WritetoConsole(Msg);
TNC->CONNECTING = FALSE;
return;
}
TNC->TCPDataSock=socket(AF_INET,SOCK_STREAM,0);
if (TNC->TCPDataSock == INVALID_SOCKET)
{
i=sprintf(Msg, "Socket Failed for ARDOP Data socket - error code = %d\r\n", WSAGetLastError());
WritetoConsole(Msg);
TNC->CONNECTING = FALSE;
closesocket(TNC->TCPSock);
TNC->TCPSock = 0;
return;
}
setsockopt(TNC->TCPSock, SOL_SOCKET, SO_REUSEADDR, (const char FAR *)&bcopt, 4);
setsockopt(TNC->TCPDataSock, SOL_SOCKET, SO_REUSEADDR, (const char FAR *)&bcopt, 4);
// setsockopt(TNC->TCPDataSock, IPPROTO_TCP, TCP_NODELAY, (const char FAR *)&bcopt, 4);
sinx.sin_family = AF_INET;
sinx.sin_addr.s_addr = INADDR_ANY;
sinx.sin_port = 0;
if (connect(TNC->TCPSock,(LPSOCKADDR) &TNC->destaddr,sizeof(TNC->destaddr)) == 0)
{
//
// Connected successful
//
}
else
{
if (TNC->Alerted == FALSE)
{
sprintf(Msg, "Connect Failed for ARDOP socket - error code = %d Port %d\n",
WSAGetLastError(), htons(TNC->destaddr.sin_port));
WritetoConsole(Msg);
sprintf(TNC->WEB_COMMSSTATE, "Connection to TNC failed");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
TNC->Alerted = TRUE;
}
closesocket(TNC->TCPSock);
closesocket(TNC->TCPDataSock);
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
TNC->CONNECTING = FALSE;
return;
}
// Connect Data Port
if (connect(TNC->TCPDataSock,(LPSOCKADDR) &TNC->Datadestaddr,sizeof(TNC->Datadestaddr)) == 0)
{
//
// Connected successful
//
}
else
{
if (TNC->Alerted == FALSE)
{
err=WSAGetLastError();
i=sprintf(Msg, "Connect Failed for ARDOP Data socket - error code = %d\r\n", err);
WritetoConsole(Msg);
sprintf(TNC->WEB_COMMSSTATE, "Connection to TNC failed");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
TNC->Alerted = TRUE;
}
closesocket(TNC->TCPSock);
closesocket(TNC->TCPDataSock);
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
TNC->CONNECTING = FALSE;
return;
}
if (TNC->PacketPort)
{
struct sockaddr_in destaddr;
TNC->PacketSock = socket(AF_INET,SOCK_STREAM,0);
if (TNC->PacketSock == INVALID_SOCKET)
{
i=sprintf(Msg, "Socket Failed for ARDOP Packet socket - error code = %d\r\n", WSAGetLastError());
WritetoConsole(Msg);
TNC->PacketSock = 0;
}
else
{
setsockopt(TNC->PacketSock, SOL_SOCKET, SO_REUSEADDR, (const char FAR *)&bcopt, 4);
// setsockopt(TNC->PacketSock, IPPROTO_TCP, TCP_NODELAY, (const char FAR *)&bcopt, 4);
destaddr.sin_addr.s_addr = inet_addr(TNC->HostName);
destaddr.sin_family = AF_INET;
destaddr.sin_port = htons(TNC->PacketPort);
if (connect(TNC->PacketSock,(LPSOCKADDR) &destaddr, sizeof(destaddr)) == 0)
{
// Connected successful
}
else
{
if (TNC->Alerted == FALSE)
{
err=WSAGetLastError();
i=sprintf(Msg, "Connect Failed for ARDOP Packet socket - error code = %d\r\n", err);
WritetoConsole(Msg);
TNC->Alerted = TRUE;
}
closesocket(TNC->PacketSock);
TNC->PacketSock = 0;
}
}
}
#ifndef LINBPQ
// FreeSemaphore(&Semaphore);
EnumWindows(EnumARDOPWindowsProc, (LPARAM)TNC);
// GetSemaphore(&Semaphore, 52);
#endif
Sleep(1000);
TNC->LastFreq = 0; // so V4 display will be updated
TNC->CONNECTING = FALSE;
TNC->CONNECTED = TRUE;
TNC->BusyFlags = 0;
TNC->InputLen = 0;
// Send INIT script
// ARDOP needs each command in a separate send
ptr1 = &TNC->InitScript[0];
// We should wait for first RDY. Cheat by queueing a null command
GetSemaphore(&Semaphore, 52);
while(TNC->BPQtoWINMOR_Q)
{
buffptr = (PMSGWITHLEN)Q_REM(&TNC->BPQtoWINMOR_Q);
if (buffptr)
ReleaseBuffer(buffptr);
}
buffptr = (PMSGWITHLEN)GetBuff();
buffptr->Len = 0;
C_Q_ADD(&TNC->BPQtoWINMOR_Q, buffptr);
while (ptr1 && ptr1[0])
{
ptr2 = strchr(ptr1, 13);
if (ptr2)
*(ptr2) = 0;
// if Date or Time command add current time
if (_memicmp(ptr1, "DATETIME", 4) == 0)
{
time_t T;
struct tm * tm;
T = time(NULL);
tm = gmtime(&T);
sprintf(Cmd, "DATETIME %02d %02d %02d %02d %02d %02d",
tm->tm_mday, tm->tm_mon + 1, tm->tm_year - 100,
tm->tm_hour, tm->tm_min, tm->tm_sec);
ptr1 = Cmd;
}
ARDOPSendCommand(TNC, ptr1, TRUE);
if (ptr2)
*(ptr2++) = 13; // Put CR back for next time
ptr1 = ptr2;
}
TNC->Alerted = TRUE;
sprintf(TNC->WEB_COMMSSTATE, "Connected to ARDOP TNC");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
FreeSemaphore(&Semaphore);
sprintf(Msg, "Connected to ARDOP TNC Port %d\r\n", TNC->Port);
WritetoConsole(Msg);
while (TNC->CONNECTED)
{
FD_ZERO(&readfs);
FD_ZERO(&errorfs);
FD_SET(TNC->TCPSock,&readfs);
FD_SET(TNC->TCPSock,&errorfs);
if (TNC->CONNECTED) FD_SET(TNC->TCPDataSock,&readfs);
// FD_ZERO(&writefs);
// if (TNC->BPQtoWINMOR_Q) FD_SET(TNC->TCPDataSock,&writefs); // Need notification of busy clearing
if (TNC->PacketSock)
{
FD_SET(TNC->PacketSock,&errorfs);
FD_SET(TNC->PacketSock,&readfs);
}
// FD_ZERO(&writefs);
// if (TNC->BPQtoWINMOR_Q) FD_SET(TNC->TCPDataSock,&writefs); // Need notification of busy clearing
if (TNC->CONNECTING || TNC->CONNECTED) FD_SET(TNC->TCPDataSock,&errorfs);
timeout.tv_sec = 600;
timeout.tv_usec = 0; // We should get messages more frequently that this
if (TNC->PacketSock)
ret = select((int)TNC->PacketSock + 1, &readfs, NULL, &errorfs, &timeout);
else
ret = select((int)TNC->TCPDataSock + 1, &readfs, NULL, &errorfs, &timeout);
if (ret == SOCKET_ERROR)
{
Debugprintf("ARDOP Select failed %d ", WSAGetLastError());
goto Lost;
}
if (ret > 0)
{
// See what happened
if (FD_ISSET(TNC->TCPSock, &readfs))
{
GetSemaphore(&Semaphore, 52);
ARDOPProcessReceivedControl(TNC);
FreeSemaphore(&Semaphore);
}
if (FD_ISSET(TNC->TCPDataSock, &readfs))
{
GetSemaphore(&Semaphore, 52);
ARDOPProcessReceivedData(TNC);
FreeSemaphore(&Semaphore);
}
if (FD_ISSET(TNC->PacketSock, &readfs))
{
int InputLen, Used;
UCHAR Buffer[4096];
InputLen = recv(TNC->PacketSock, Buffer, 4096, 0);
if (InputLen == 0 || InputLen == SOCKET_ERROR)
{
sprintf(Msg, "ARDOP Connection lost for Port %d\r\n", TNC->Port);
WritetoConsole(Msg);
sprintf(TNC->WEB_COMMSSTATE, "Connection to TNC lost");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
TNC->CONNECTED = FALSE;
TNC->Alerted = FALSE;
if (TNC->PTTMode)
Rig_PTT(TNC, FALSE); // Make sure PTT is down
TNCLost(TNC);
return;
}
// Could be more than one frame in buffer
while (InputLen > 0)
{
GetSemaphore(&Semaphore, 52);
Used = ARDOPProcessDEDFrame(TNC, Buffer, InputLen);
FreeSemaphore(&Semaphore);
if (Used == 0)
break; // need to check
InputLen -= Used;
if (InputLen > 0)
memmove(Buffer, &Buffer[Used], InputLen);
}
}
if (FD_ISSET(TNC->TCPSock, &errorfs))
{
Lost:
sprintf(Msg, "ARDOP Connection lost for Port %d\r\n", TNC->Port);
WritetoConsole(Msg);
sprintf(TNC->WEB_COMMSSTATE, "Connection to TNC lost");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
TNC->CONNECTED = FALSE;
TNC->Alerted = FALSE;
if (TNC->PTTMode)
Rig_PTT(TNC, FALSE); // Make sure PTT is down
if (TNC->Streams[0].Attached)
TNC->Streams[0].ReportDISC = TRUE;
closesocket(TNC->TCPSock);
closesocket(TNC->TCPDataSock);
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
return;
}
if (FD_ISSET(TNC->TCPDataSock, &errorfs))
{
sprintf(Msg, "ARDOP Connection lost for Port %d\r\n", TNC->Port);
WritetoConsole(Msg);
sprintf(TNC->WEB_COMMSSTATE, "Connection to TNC lost");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
TNC->CONNECTED = FALSE;
TNC->Alerted = FALSE;
if (TNC->PTTMode)
Rig_PTT(TNC, FALSE); // Make sure PTT is down
if (TNC->Streams[0].Attached)
TNC->Streams[0].ReportDISC = TRUE;
closesocket(TNC->TCPSock);
closesocket(TNC->TCPDataSock);
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
return;
}
if (FD_ISSET(TNC->PacketSock, &errorfs))
{
sprintf(Msg, "ARDOP Packet Connection lost for Port %d\r\n", TNC->Port);
WritetoConsole(Msg);
TNC->Alerted = FALSE;
if (TNC->PTTMode)
Rig_PTT(TNC, FALSE); // Make sure PTT is down
if (TNC->Streams[0].Attached)
TNC->Streams[0].ReportDISC = TRUE;
closesocket(TNC->TCPSock);
closesocket(TNC->TCPDataSock);
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
return;
}
continue;
}
else
{
// 60 secs without data. Shouldn't happen
sprintf(Msg, "ARDOP No Data Timeout Port %d\r\n", TNC->Port);
WritetoConsole(Msg);
// sprintf(TNC->WEB_COMMSSTATE, "Connection to TNC lost");
// GetSemaphore(&Semaphore, 52);
// MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
// FreeSemaphore(&Semaphore);
TNC->CONNECTED = FALSE;
TNC->Alerted = FALSE;
if (TNC->PTTMode)
Rig_PTT(TNC, FALSE); // Make sure PTT is down
if (TNC->Streams[0].Attached)
TNC->Streams[0].ReportDISC = TRUE;
GetSemaphore(&Semaphore, 52);
ARDOPSendCommand(TNC, "CODEC FALSE", FALSE);
FreeSemaphore(&Semaphore);
shutdown(TNC->TCPSock, SD_BOTH);
shutdown(TNC->TCPDataSock, SD_BOTH);
Sleep(100);
closesocket(TNC->TCPSock);
closesocket(TNC->TCPDataSock);
TNC->TCPSock = 0;
TNC->TCPDataSock = 0;
if (TNC->PID && TNC->WeStartedTNC)
{
// KillTNC(TNC);
}
return;
}
}
sprintf(Msg, "ARDOP Thread Terminated Port %d\r\n", TNC->Port);
WritetoConsole(Msg);
}
#ifndef LINBPQ
BOOL CALLBACK EnumARDOPWindowsProc(HWND hwnd, LPARAM lParam)
{
char wtext[100];
struct TNCINFO * TNC = (struct TNCINFO *)lParam;
UINT ProcessId;
GetWindowText(hwnd,wtext,99);
if (memcmp(wtext,"ARDOP_Win ", 10) == 0)
{
GetWindowThreadProcessId(hwnd, &ProcessId);
if (TNC->PID == ProcessId)
{
// Our Process
sprintf (wtext, "ARDOP Virtual TNC - BPQ %s", TNC->PortRecord->PORTCONTROL.PORTDESCRIPTION);
SetWindowText(hwnd, wtext);
return FALSE;
}
}
return (TRUE);
}
#endif
VOID ARDOPProcessResponse(struct TNCINFO * TNC, UCHAR * Buffer, int MsgLen)
{
PMSGWITHLEN buffptr;
struct STREAMINFO * STREAM = &TNC->Streams[0];
Buffer[MsgLen - 1] = 0; // Remove CR
if (_memicmp(Buffer, "RDY", 3) == 0)
return; // RDY not used now
if (_memicmp(Buffer, "RADIOHEX ", 9) == 0)
{
// Parameter is block to send to radio, in hex
char c;
int val;
char * ptr1 = &Buffer[9];
UCHAR * ptr2 = Buffer;
PMSGWITHLEN buffptr;
int Len;
// if not configured to use PTC Rig Control, Ignore
if (TNC->RIG->PORT == NULL || TNC->RIG->PORT->PTC == NULL)
return;
buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr == NULL)
return;
while (c = *(ptr1++))
{
val = c - 0x30;
if (val > 15) val -= 7;
val <<= 4;
c = *(ptr1++) - 0x30;
if (c > 15) c -= 7;
val |= c;
*(ptr2++) = val;
}
*(ptr2) = 0;
Len = (int)(ptr2 - Buffer);
buffptr->Len = Len;
memcpy(&buffptr->Data[0], Buffer, Len);
C_Q_ADD(&TNC->RadiotoBPQ_Q, buffptr);
// WriteCOMBlock(hRIGDevice, ptrParams, ptr2 - ptrParams);
return;
}
if (_memicmp(Buffer, "INPUTPEAKS", 10) == 0)
{
sscanf(&Buffer[10], "%i %i", &TNC->InputLevelMin, &TNC->InputLevelMax);
sprintf(TNC->WEB_LEVELS, "Input peaks %s", &Buffer[10]);
MySetWindowText(TNC->xIDC_LEVELS, TNC->WEB_LEVELS);
return; // Response shouldn't go to user
}
if (_memicmp(Buffer, "LISTEN NOW", 10) == 0)
return; // Response shouldn't go to user
if (_memicmp(Buffer, "ARQCALL ", 7) == 0)
return; // Response shouldn't go to user
if (_memicmp(Buffer, "FAULT failure to Restart Sound card", 20) == 0)
{
Debugprintf(Buffer);
// Force a restart
ARDOPSendCommand(TNC, "CODEC FALSE", TRUE);
ARDOPSendCommand(TNC, "CODEC TRUE", TRUE);
}
else
{
TNC->TimeSinceLast = 0;
}
if (_memicmp(Buffer, "STATE ", 6) == 0)
{
if (_memicmp(&Buffer[6], "OFFLINE", 7) == 0)
{
// Force a restart
ARDOPSendCommand(TNC, "CODEC FALSE", TRUE);
ARDOPSendCommand(TNC, "CODEC TRUE", TRUE);
}
return;
}
if (_memicmp(Buffer, "PTT T", 5) == 0)
{
TNC->Busy = TNC->BusyHold * 10; // BusyHold delay
TNC->PTTState = TRUE;
if (TNC->PTTMode)
Rig_PTT(TNC, TRUE);
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TNC->PTTonTime = GetTickCount();
// Cancel Busy timer (stats include ptt on time in port active
if (TNC->BusyonTime)
{
TNC->BusyActivemS += (GetTickCount() - TNC->BusyonTime);
TNC->BusyonTime = 0;
}
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return;
}
if (_memicmp(Buffer, "PTT F", 5) == 0)
{
TNC->PTTState = FALSE;
if (TNC->PTTMode)
Rig_PTT(TNC, FALSE);
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if (TNC->PTTonTime)
{
TNC->PTTActivemS += (GetTickCount() - TNC->PTTonTime);
TNC->PTTonTime = 0;
}
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return;
}
if (_memicmp(Buffer, "BUSY TRUE", 9) == 0)
{
TNC->BusyFlags |= CDBusy;
TNC->Busy = TNC->BusyHold * 10; // BusyHold delay
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TNC->BusyonTime = GetTickCount();
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MySetWindowText(TNC->xIDC_CHANSTATE, "Busy");
strcpy(TNC->WEB_CHANSTATE, "Busy");
TNC->WinmorRestartCodecTimer = time(NULL);
return;
}
if (_memicmp(Buffer, "BUSY FALSE", 10) == 0)
{
TNC->BusyFlags &= ~CDBusy;
if (TNC->Busy)
strcpy(TNC->WEB_CHANSTATE, "BusyHold");
else
strcpy(TNC->WEB_CHANSTATE, "Clear");
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if (TNC->BusyonTime)
{
TNC->BusyActivemS += (GetTickCount() - TNC->BusyonTime);
TNC->BusyonTime = 0;
}
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MySetWindowText(TNC->xIDC_CHANSTATE, TNC->WEB_CHANSTATE);
TNC->WinmorRestartCodecTimer = time(NULL);
return;
}
if (_memicmp(Buffer, "TARGET", 6) == 0)
{
TNC->ConnectPending = 6; // This comes before Pending
Debugprintf(Buffer);
WritetoTrace(TNC, Buffer, MsgLen - 1);
memcpy(TNC->TargetCall, &Buffer[7], 10);
return;
}
if (_memicmp(Buffer, "OFFSET", 6) == 0)
{
// WritetoTrace(TNC, Buffer, MsgLen - 5);
return;
}
if (_memicmp(Buffer, "BUFFER", 6) == 0)
{
sscanf(&Buffer[7], "%d", &STREAM->BytesOutstanding);
if (STREAM->BytesOutstanding == 0)
{
// all sent
if (STREAM->Disconnecting) // Disconnect when all sent
{
if (STREAM->NeedDisc == 0)
STREAM->NeedDisc = 1;
}
}
else
{
// 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;
}
}
sprintf(TNC->WEB_TRAFFIC, "Sent %d RXed %d Queued %d",
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STREAM->bytesTXed - STREAM->BytesOutstanding, STREAM->bytesRXed, STREAM->BytesOutstanding);
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MySetWindowText(TNC->xIDC_TRAFFIC, TNC->WEB_TRAFFIC);
return;
}
if (_memicmp(Buffer, "CONNECTED ", 10) == 0)
{
char Call[11];
char * ptr;
APPLCALLS * APPL;
char * ApplPtr = APPLS;
int App;
char Appl[10];
struct WL2KInfo * WL2K = TNC->WL2K;
int Speed = 0;
Debugprintf(Buffer);
WritetoTrace(TNC, Buffer, MsgLen - 1);
STREAM->ConnectTime = time(NULL);
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STREAM->bytesRXed = STREAM->bytesTXed = STREAM->PacketsSent = 0;
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memcpy(Call, &Buffer[10], 10);
ptr = strchr(Call, ' ');
if (ptr) *ptr = 0;
// Get Speed
ptr = strchr(&Buffer[10], ' ');
if (ptr)
{
Speed = atoi(ptr);
if (Speed == 200)
TNC->WL2KMode = 40;
else if (Speed == 500)
TNC->WL2KMode = 41;
else if (Speed == 1000)
TNC->WL2KMode = 42;
else if (Speed == 2000)
TNC->WL2KMode = 43;
}
TNC->HadConnect = TRUE;
if (TNC->PortRecord->ATTACHEDSESSIONS[0] == 0)
{
TRANSPORTENTRY * SESS;
// Incoming Connect
TNC->SessionTimeLimit = TNC->DefaultSessionTimeLimit; // Reset Limit
// Stop other ports in same group
SuspendOtherPorts(TNC);
ProcessIncommingConnectEx(TNC, Call, 0, TRUE, TRUE);
SESS = TNC->PortRecord->ATTACHEDSESSIONS[0];
SESS->Mode = TNC->WL2KMode;
TNC->ConnectPending = FALSE;
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->TargetCall, TNC->RIG->Valchar);
SESS->Frequency = (int)(atof(TNC->RIG->Valchar) * 1000000.0) + 1500; // Convert to Centre Freq
}
else
{
sprintf(TNC->WEB_TNCSTATE, "%s Connected to %s Inbound", TNC->Streams[0].RemoteCall, TNC->TargetCall);
if (WL2K)
{
SESS->Frequency = WL2K->Freq;
}
}
if (WL2K)
strcpy(SESS->RMSCall, WL2K->RMSCall);
MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE);
// Check for ExcludeList
if (ExcludeList[0])
{
if (CheckExcludeList(SESS->L4USER) == FALSE)
{
char Status[64];
TidyClose(TNC, 0);
sprintf(Status, "%d SCANSTART 15", TNC->Port);
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Rig_Command( (TRANSPORTENTRY *) -1, Status);
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Debugprintf("ARDOP Call from %s rejected", Call);
return;
}
}
// IF WE HAVE A PERMITTED CALLS LIST, SEE IF HE IS IN IT
if (TNC->PortRecord->PORTCONTROL.PERMITTEDCALLS)
{
UCHAR * ptr = TNC->PortRecord->PORTCONTROL.PERMITTEDCALLS;
while (TRUE)
{
if (memcmp(SESS->L4USER, ptr, 6) == 0) // Ignore SSID
break;
ptr += 7;
if ((*ptr) == 0) // Not in list
{
char Status[64];
TidyClose(TNC, 0);
sprintf(Status, "%d SCANSTART 15", TNC->Port);
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Rig_Command( (TRANSPORTENTRY *) -1, Status);
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Debugprintf("ARDOP Call from %s not in ValidCalls - rejected", Call);
return;
}
}
}
// See which application the connect is for
for (App = 0; App < 32; App++)
{
APPL=&APPLCALLTABLE[App];
memcpy(Appl, APPL->APPLCALL_TEXT, 10);
ptr=strchr(Appl, ' ');
if (ptr)
*ptr = 0;
if (_stricmp(TNC->TargetCall, Appl) == 0)
break;
}
if (App < 32)
{
char AppName[13];
memcpy(AppName, &ApplPtr[App * sizeof(CMDX)], 12);
AppName[12] = 0;
if (TNC->SendTandRtoRelay && memcmp(AppName, "RMS ", 4) == 0
&& (strstr(Call, "-T" ) || strstr(Call, "-R")))
strcpy(AppName, "RELAY ");
// Make sure app is available
if (CheckAppl(TNC, AppName))
{
MsgLen = sprintf(Buffer, "%s\r", AppName);
buffptr = GetBuff();
if (buffptr == 0)
{
return; // No buffers, so ignore
}
buffptr->Len = MsgLen;
memcpy(&buffptr->Data[0], Buffer, MsgLen);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
TNC->SwallowSignon = TRUE;
// Save Appl Call in case needed for
}
else
{
char Msg[] = "Application not available\r\n";
// Send a Message, then a disconenct
// Send CTEXT First
if (TNC->Streams[0].BPQtoPACTOR_Q) //Used for CTEXT
{
PMSGWITHLEN buffptr = (PMSGWITHLEN)Q_REM(&TNC->Streams[0].BPQtoPACTOR_Q);
UCHAR * data = &buffptr->Data[0];
int txlen = (int)(buffptr->Len);
SendARDOPorPacketData(TNC, 0, data, txlen);
}
SendARDOPorPacketData(TNC, 0, Msg, (int)strlen(Msg));
STREAM->NeedDisc = 100; // 10 secs
}
}
2024-11-05 21:03:15 +00:00
strcpy(STREAM->MyCall, TNC->TargetCall);
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return;
}
else
{
// Connect Complete
char Reply[80];
int ReplyLen;
buffptr = GetBuff();
if (buffptr == 0)
{
return; // No buffers, so ignore
}
ReplyLen = sprintf(Reply, "*** Connected to %s\r", Call);
buffptr->Len = ReplyLen;
memcpy(&buffptr->Data[0], Reply, ReplyLen);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
TNC->Streams[0].Connecting = FALSE;
TNC->Streams[0].Connected = TRUE; // Subsequent data to data channel
if (TNC->RIG && TNC->RIG->Valchar[0])
sprintf(TNC->WEB_TNCSTATE, "%s Connected to %s Outbound Freq %s", TNC->Streams[0].MyCall, TNC->Streams[0].RemoteCall, TNC->RIG->Valchar);
else
sprintf(TNC->WEB_TNCSTATE, "%s Connected to %s Outbound", TNC->Streams[0].MyCall, TNC->Streams[0].RemoteCall);
MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE);
UpdateMH(TNC, Call, '+', 'O');
return;
}
}
if (_memicmp(Buffer, "DISCONNECTED", 12) == 0
|| _memicmp(Buffer, "STATUS CONNECT TO", 17) == 0
|| _memicmp(Buffer, "STATUS ARQ TIMEOUT FROM PROTOCOL STATE", 24) == 0
// || _memicmp(Buffer, "NEWSTATE DISC", 13) == 0
|| _memicmp(Buffer, "ABORT", 5) == 0)
{
TNC->ConnectPending = FALSE; // Cancel Scan Lock
if (TNC->FECMode)
return;
if (TNC->StartSent)
{
TNC->StartSent = FALSE; // Disconnect reported following start codec
return;
}
if (TNC->Streams[0].Connecting)
{
// Report Connect Failed, and drop back to command mode
TNC->Streams[0].Connecting = FALSE;
buffptr = GetBuff();
if (buffptr == 0)
{
return; // No buffers, so ignore
}
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "*** Failure with %s\r", TNC->Streams[0].RemoteCall);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
if (TNC->RestartAfterFailure)
{
if (TNC->PID)
KillTNC(TNC);
RestartTNC(TNC);
}
return;
}
WritetoTrace(TNC, Buffer, MsgLen - 1);
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// Release Session
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if (TNC->Streams[0].Connected)
{
// Create a traffic record
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hookL4SessionDeleted(TNC, STREAM);
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}
TNC->Streams[0].Connecting = FALSE;
TNC->Streams[0].Connected = FALSE; // Back to Command Mode
TNC->Streams[0].ReportDISC = TRUE; // Tell Node
if (TNC->Streams[0].Disconnecting) //
ARDOPReleaseTNC(TNC);
TNC->Streams[0].Disconnecting = FALSE;
return;
}
if (_memicmp(Buffer, "MODE", 4) == 0)
{
strcpy(TNC->WEB_MODE, &Buffer[5]);
MySetWindowText(TNC->xIDC_MODE, &Buffer[5]);
return;
}
if (_memicmp(Buffer, "STATUS ", 7) == 0)
{
return;
}
if (_memicmp(Buffer, "RADIOMODELS", 11) == 0)
return;
if (_memicmp(&Buffer[0], "PENDING", 7) == 0) // Save Pending state for scan control
{
TNC->ConnectPending = 6; // Time out after 6 Scanintervals
return;
}
// REJECTEDBW and REJECTEDBUSY are sent to both calling and called
if (_memicmp(&Buffer[0], "REJECTEDBUSY", 12) == 0)
{
TNC->ConnectPending = FALSE;
if (TNC->Streams[0].Connecting)
{
// Report Connect Failed, and drop back to command mode
TNC->Streams[0].Connecting = FALSE;
buffptr = GetBuff();
if (buffptr == 0)
{
return; // No buffers, so ignore
}
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} Connection to %s Rejected - Channel Busy\r", TNC->Streams[0].RemoteCall);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
return;
}
}
if (_memicmp(&Buffer[0], "REJECTEDBW", 10) == 0)
{
TNC->ConnectPending = FALSE;
if (TNC->Streams[0].Connecting)
{
// Report Connect Failed, and drop back to command mode
TNC->Streams[0].Connecting = FALSE;
buffptr = GetBuff();
if (buffptr == 0)
{
return; // No buffers, so ignore
}
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} Connection to %s Rejected - Incompatible Bandwidth\r", TNC->Streams[0].RemoteCall);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
return;
}
}
if (_memicmp(&Buffer[0], "CANCELPENDING", 13) == 0
|| _memicmp(&Buffer[0], "REJECTEDB", 9) == 0) //REJECTEDBUSY or REJECTEDBW
{
TNC->ConnectPending = FALSE;
return;
}
if (_memicmp(Buffer, "FAULT", 5) == 0)
{
Debugprintf(Buffer);
WritetoTrace(TNC, Buffer, MsgLen - 1);
// return;
}
if (_memicmp(Buffer, "NEWSTATE", 8) == 0)
{
TNC->WinmorRestartCodecTimer = time(NULL);
MySetWindowText(TNC->xIDC_PROTOSTATE, &Buffer[9]);
strcpy(TNC->WEB_PROTOSTATE, &Buffer[9]);
if (_memicmp(&Buffer[9], "DISC", 4) == 0)
{
TNC->DiscPending = FALSE;
TNC->ConnectPending = FALSE;
return;
}
if (strcmp(&Buffer[9], "ISS") == 0) // Save Pending state for scan control
TNC->TXRXState = 'S';
else if (strcmp(&Buffer[9], "IRS") == 0)
TNC->TXRXState = 'R';
return;
}
if ((_memicmp(Buffer, "FAULT Not from state FEC", 24) == 0) || (_memicmp(Buffer, "FAULT Blocked by Busy Lock", 24) == 0))
{
if (TNC->FECMode)
{
Sleep(1000);
// if (TNC->FEC1600)
// ARDOPSendCommand(TNC,"FECSEND 1600");
// else
// ARDOPSendCommand(TNC,"FECSEND 500");
return;
}
}
if (_memicmp(Buffer, "PLAYBACKDEVICES", 15) == 0)
{
TNC->PlaybackDevices = _strdup(&Buffer[16]);
}
// Others should be responses to commands
if (_memicmp(Buffer, "BLOCKED", 6) == 0)
{
WritetoTrace(TNC, Buffer, MsgLen - 1);
return;
}
if (_memicmp(Buffer, "OVER", 4) == 0)
{
WritetoTrace(TNC, Buffer, MsgLen - 1);
return;
}
if (_memicmp(Buffer, "PING ", 5) == 0)
{
char Call[32];
// Make sure not Echoed PING
// c:ping gm8bpq-1 5
// c:PING GM8BPQ>GM8BPQ-1 15 98
if (strchr(Buffer, '>') == 0) // Echoed
return;
WritetoTrace(TNC, Buffer, MsgLen - 1);
// Release scanlock after another interval (to allow time for response to be sent)
// ?? use cancelpending TNC->ConnectPending = 1;
memcpy(Call, &Buffer[5], 20);
strlop(Call, '>');
UpdateMH(TNC, Call, '!', 'I');
return;
}
if (_memicmp(Buffer, "VERSION ", 8) == 0)
{
// If contains "OFDM" or "ARDOP3" increase data session busy level
if (strstr(&Buffer[8], "OFDM"))
TNC->Mode = 'O';
else if (strstr(&Buffer[8], "TNC_3"))
TNC->Mode = '3';
else
TNC->Mode = 0;
}
if (_memicmp(Buffer, "PINGACK ", 8) == 0)
{
WritetoTrace(TNC, Buffer, MsgLen - 1);
2023-01-25 10:12:51 +00:00
// Drop through to return to user
2022-08-28 09:35:46 +01:00
}
if (_memicmp(Buffer, "CQ ", 3) == 0 && MsgLen > 10)
{
char Call[32];
char * Loc;
WritetoTrace(TNC, Buffer, MsgLen - 1);
// Update MH
{
memcpy(Call, &Buffer[3], 32);
Loc = strlop(Call, ' ');
strlop(Loc, ']');
UpdateMHEx(TNC, Call, '!', 'I', &Loc[1], TRUE);
}
// Drop through to go to user if attached but not connected
}
// Return others to user (if attached but not connected)
if (TNC->Streams[0].Attached == 0)
return;
if (TNC->Streams[0].Connected || TNC->Streams[0].Connecting)
return;
if (MsgLen > 200)
MsgLen = 200;
buffptr = GetBuff();
if (buffptr == 0)
{
return; // No buffers, so ignore
}
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} %s\r", Buffer);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
}
static VOID ARDOPProcessReceivedData(struct TNCINFO * TNC)
{
int InputLen, MsgLen;
// May get several messages per packet
// May get message split over packets
// Data has a length field
// ARQ|FEC|ERR|, 2 byte count (Hex 0001 <20> FFFF), binary data<74>
// New standard doesnt have d:
if (TNC->DataInputLen > 16000) // Shouldnt have packets longer than this
TNC->DataInputLen=0;
// OFDM can return large packets (up to 10160)
// in serial mode, data has been put in input buffer by comms code
if (TNC->ARDOPCommsMode == 'T')
{
InputLen=recv(TNC->TCPDataSock, &TNC->ARDOPDataBuffer[TNC->DataInputLen], 16384 - TNC->DataInputLen, 0);
if (InputLen == 0 || InputLen == SOCKET_ERROR)
{
TNCLost(TNC);
return;
}
TNC->DataInputLen += InputLen;
}
loop:
if (TNC->OldMode)
goto OldRX;
else
{ // No D:
// Data = check we have it all
int DataLen = (TNC->ARDOPDataBuffer[0] << 8) + TNC->ARDOPDataBuffer[1]; // HI First
UCHAR DataType[4];
UCHAR * Data;
if (TNC->DataInputLen < DataLen + 2)
return; // Wait for more
MsgLen = DataLen + 2; // Len
memcpy(DataType, &TNC->ARDOPDataBuffer[2] , 3);
DataType[3] = 0;
Data = &TNC->ARDOPDataBuffer[5];
DataLen -= 3;
ARDOPProcessDataPacket(TNC, DataType, Data, DataLen);
// See if anything else in buffer
TNC->DataInputLen -= MsgLen;
if (TNC->DataInputLen == 0)
return;
memmove(TNC->ARDOPDataBuffer, &TNC->ARDOPDataBuffer[MsgLen], TNC->DataInputLen);
goto loop;
}
OldRX:
if (TNC->DataInputLen < 8)
return; // Wait for more to arrive (?? timeout??)
if (TNC->ARDOPDataBuffer[1] = ':') // At least message looks reasonable
{
if (TNC->ARDOPDataBuffer[0] == 'd')
{
// Data = check we have it all
int DataLen = (TNC->ARDOPDataBuffer[2] << 8) + TNC->ARDOPDataBuffer[3]; // HI First
// unsigned short CRC;
UCHAR DataType[4];
UCHAR * Data;
if (TNC->DataInputLen < DataLen + 4)
return; // Wait for more
MsgLen = DataLen + 4; // d: Len CRC
memcpy(DataType, &TNC->ARDOPDataBuffer[4] , 3);
DataType[3] = 0;
Data = &TNC->ARDOPDataBuffer[7];
DataLen -= 3;
ARDOPProcessDataPacket(TNC, DataType, Data, DataLen);
// See if anything else in buffer
TNC->DataInputLen -= MsgLen;
if (TNC->DataInputLen == 0)
return;
memmove(TNC->ARDOPDataBuffer, &TNC->ARDOPDataBuffer[MsgLen], TNC->DataInputLen);
goto loop;
}
else
// Duff - clear input buffer
TNC->DataInputLen = 0;
}
return;
}
static VOID ARDOPProcessReceivedControl(struct TNCINFO * TNC)
{
int InputLen, MsgLen;
char * ptr, * ptr2;
char Buffer[4096];
// May get several messages per packet
// May get message split over packets
// Commands end with CR.
if (TNC->InputLen > 8000) // Shouldnt have packets longer than this
TNC->InputLen=0;
// in serial mode, data has been put in input buffer by comms code
if (TNC->ARDOPCommsMode == 'T')
{
// I don't think it likely we will get packets this long, but be aware...
InputLen=recv(TNC->TCPSock, &TNC->ARDOPBuffer[TNC->InputLen], 8192 - TNC->InputLen, 0);
if (InputLen == 0 || InputLen == SOCKET_ERROR)
{
TNCLost(TNC);
return;
}
TNC->InputLen += InputLen;
}
loop:
ptr = memchr(TNC->ARDOPBuffer, '\r', TNC->InputLen);
if (ptr == 0) // CR in buffer
return; // Wait for it
ptr2 = &TNC->ARDOPBuffer[TNC->InputLen];
if ((ptr2 - ptr) == 1) // CR (no CRC in new version)
{
// Usual Case - single meg in buffer
ARDOPProcessResponse(TNC, TNC->ARDOPBuffer, TNC->InputLen);
TNC->InputLen=0;
return;
}
else
{
// buffer contains more that 1 message
MsgLen = TNC->InputLen - (int)(ptr2-ptr) + 1; // Include CR
memcpy(Buffer, TNC->ARDOPBuffer, MsgLen);
ARDOPProcessResponse(TNC, Buffer, MsgLen);
if (TNC->InputLen < MsgLen)
{
TNC->InputLen = 0;
return;
}
memmove(TNC->ARDOPBuffer, ptr + 1, TNC->InputLen-MsgLen);
TNC->InputLen -= MsgLen;
goto loop;
}
return;
}
VOID ARDOPProcessDataPacket(struct TNCINFO * TNC, UCHAR * Type, UCHAR * Data, int Length)
{
// Info on Data Socket - just packetize and send on
struct STREAMINFO * STREAM = &TNC->Streams[0];
int PacLen = 236;
PMSGWITHLEN buffptr;
TNC->TimeSinceLast = 0;
if (strcmp(Type, "IDF") == 0)
{
// Place ID frames in Monitor Window and MH
char Call[20];
char * Loc;
// GM8BPQ-2:[IO68VL]
//ID:GM8BPQ-2 IO68VL :
// GM8BPQ-2:[IO68VL]
//ID:GM8BPQ-2 [IO68vl]:
//ID:HB9AVK JN47HG :
// TX BPQ IDF GM8BPQ-2:[IO68VL]
// RX Rick IDF ID:GM8BPQ-2 [IO68vl]:
// TX Rick IDF GM8BPQ-2:[IO68VL]
// RX BPQ IDF ID:GM8BPQ-2 IO68VL :
//ID:GM8BPQ-2 [IO68vl] :
Data[Length] = 0;
WritetoTrace(TNC, Data, Length);
Debugprintf("ARDOP IDF %s", Data);
// Loos like transmitted ID doesnt have ID:
if (memcmp(Data, "ID:", 3) == 0) // These seem to be received ID's
{
memcpy(Call, &Data[3], 20);
Loc = strlop(Call, ' ');
strlop(Loc, ']');
UpdateMHEx(TNC, Call, '!', 'I', &Loc[1], TRUE);
}
return;
}
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STREAM->bytesRXed += Length;
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Data[Length] = 0;
sprintf(TNC->WEB_TRAFFIC, "Sent %d RXed %d Queued %d",
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STREAM->bytesTXed - STREAM->BytesOutstanding, STREAM->bytesRXed, STREAM->BytesOutstanding);
2022-08-28 09:35:46 +01:00
MySetWindowText(TNC->xIDC_TRAFFIC, TNC->WEB_TRAFFIC);
if (TNC->FECMode)
{
Length = (int)strlen(Data);
if (Data[Length - 1] == 10)
Data[Length - 1] = 13;
}
if (strcmp(Type, "FEC") == 0)
{
// May be an APRS Message
// These are delimired with ^ characters
// As they are likely to be split across
// FEC blocks they need to be recombined
char * ptr = Data;
char * ptr1;
char * ptr2;
char c;
int Len = Length;
2024-10-11 15:37:11 +01:00
char Call[10] = "";
2022-08-28 09:35:46 +01:00
Debugprintf(Data);
if (*ptr == '^' || TNC->ARDOPAPRSLen)
{
// New Packet or continuation
while (Len--)
{
c = *(ptr++);
if (c == '^')
{
// may be start or end
Debugprintf("Start/end of beacon Len = %d", TNC->ARDOPAPRSLen);
if (TNC->ARDOPAPRSLen == 0)
continue; // Start
// Validate and Process Block
Debugprintf("beacon %s", TNC->ARDOPAPRS);
ptr1 = TNC->ARDOPAPRS;
ptr2 = strchr(ptr1, '>');
if (ptr2 && (ptr2 - ptr1) < 10)
{
// Could be APRS
// if ((memcmp(ptr2 + 1, "AP", 2) == 0) || (memcmp(ptr2 + 1, "BE", 2) == 0))
if (1) // People using other dests
{
int APLen;
// assume it is
char * ptr3 = strchr(ptr2, '|');
struct _MESSAGE * buffptr;
if (ptr3 == 0)
{
TNC->ARDOPAPRSLen = 0;
Debugprintf("no |");
continue;
}
buffptr = GetBuff();
*(ptr3++) = 0; // Terminate TO call
APLen = TNC->ARDOPAPRSLen - (int)(ptr3 - ptr1);
TNC->ARDOPAPRSLen = 0;
Debugprintf("Good APRS %d Left", Len);
// Convert to ax.25 format
if (buffptr == 0)
continue; // No buffers, so ignore
buffptr->PORT = TNC->Port;
ConvToAX25(ptr1, buffptr->ORIGIN);
ConvToAX25(ptr2 + 1, buffptr->DEST);
buffptr->ORIGIN[6] |= 1; // Set end of address
buffptr->CTL = 3;
buffptr->PID = 0xF0;
memcpy(buffptr->L2DATA, ptr3, APLen);
buffptr->LENGTH = 16 + MSGHDDRLEN + APLen;
time(&buffptr->Timestamp);
2024-10-11 15:37:11 +01:00
memcpy(Call,ptr1, 9);
strlop(Call, '>');
UpdateMH(TNC, Call, '!', 'I');
2022-08-28 09:35:46 +01:00
BPQTRACE((MESSAGE *)buffptr, TRUE);
2024-10-11 15:37:11 +01:00
2024-11-05 21:03:15 +00:00
ReleaseBuffer(buffptr);
2022-08-28 09:35:46 +01:00
}
else
{
Debugprintf("Not APRS");
TNC->ARDOPAPRSLen = 0; // in case not aprs
}
}
else
{
Debugprintf("cant be APRS");
TNC->ARDOPAPRSLen = 0; // in case not aprs
}
continue;
}
// Normal Char
TNC->ARDOPAPRS[TNC->ARDOPAPRSLen++] = c;
if (TNC->ARDOPAPRSLen == 512)
TNC->ARDOPAPRSLen = 0;
}
// End of packet.
Debugprintf("End of Packet Len %d", TNC->ARDOPAPRSLen);
}
// FEC but not APRS. Discard if connected
if (TNC->Streams[0].Connected)
return;
}
WritetoTrace(TNC, Data, Length);
// We can get messages of form ARQ [ConReq2000M: GM8BPQ-2 > OE3FQU]
// Noe (V2) [ConReq2500 > G8XXX]
// when not connected.
if (TNC->Streams[0].Connected == FALSE)
{
if (strcmp(Type, "ARQ") == 0)
{
if (Data[1] == '[')
{
// Log to MH
char Call[20];
char * ptr;
// Add a Newline for monitoring
Data[Length++] = 13;
Data[Length] = 0;
ptr = strchr(Data, ':');
if (ptr)
{
memcpy(Call, &ptr[2], 20);
strlop(Call, ' ');
UpdateMH(TNC, Call, '!', 'I');
}
}
}
}
if (TNC->Streams[0].Attached == 0)
return;
// May need to fragment
while (Length)
{
int Fraglen = Length;
if (Length > PACLEN)
Fraglen = PACLEN;
Length -= Fraglen;
buffptr = GetBuff();
if (buffptr == 0)
return; // No buffers, so ignore
memcpy(&buffptr->Data[0], Data, Fraglen);
Data += Fraglen;
buffptr->Len = Fraglen;
C_Q_ADD(&TNC->Streams[0].PACTORtoBPQ_Q, buffptr);
}
return;
}
/*
INT_PTR CALLBACK ConfigDialogProc(HWND hDlg, UINT message, WPARAM wParam, LPARAM lParam)
{
int Cmd = LOWORD(wParam);
switch (message)
{
case WM_INITDIALOG:
{
struct TNCINFO * TNC = (struct TNCINFO * )lParam;
char * ptr1, *ptr2;
int ptr3 = 0;
char Line[1000];
int len;
ptr1 = TNC->CaptureDevices;
if (!ptr1)
return 0; // No Devices
while (ptr2 = strchr(ptr1, ','))
{
len = ptr2 - ptr1;
memcpy(&Line[ptr3], ptr1, len);
ptr3 += len;
Line[ptr3++] = '\r';
Line[ptr3++] = '\n';
ptr1 = ++ptr2;
}
Line[ptr3] = 0;
strcat(Line, ptr1);
SetDlgItemText(hDlg, IDC_CAPTURE, Line);
ptr3 = 0;
ptr1 = TNC->PlaybackDevices;
if (!ptr1)
return 0; // No Devices
while (ptr2 = strchr(ptr1, ','))
{
len = ptr2 - ptr1;
memcpy(&Line[ptr3], ptr1, len);
ptr3 += len;
Line[ptr3++] = '\r';
Line[ptr3++] = '\n';
ptr1 = ++ptr2;
}
Line[ptr3] = 0;
strcat(Line, ptr1);
SetDlgItemText(hDlg, IDC_PLAYBACK, Line);
SendDlgItemMessage(hDlg, IDC_PLAYBACK, EM_SETSEL, -1, 0);
// KillTNC(TNC);
return TRUE;
}
case WM_SIZING:
{
return TRUE;
}
case WM_ACTIVATE:
// SendDlgItemMessage(hDlg, IDC_MESSAGE, EM_SETSEL, -1, 0);
break;
case WM_COMMAND:
if (Cmd == IDCANCEL)
{
EndDialog(hDlg, LOWORD(wParam));
return (INT_PTR)TRUE;
}
return (INT_PTR)TRUE;
break;
}
return (INT_PTR)FALSE;
}
*/
VOID TidyClose(struct TNCINFO * TNC, int Stream)
{
// If all acked, send disc
if (TNC->Streams[Stream].BytesOutstanding == 0)
{
if (Stream == 0)
ARDOPSendCommand(TNC, "DISCONNECT", TRUE);
else
{
char Cmd[32];
sprintf(Cmd, "%cDISCONNECT", 1);
ARDOPSendPktCommand(TNC, Stream, Cmd);
}
}
}
VOID ForcedClose(struct TNCINFO * TNC, int Stream)
{
if (Stream == 0)
ARDOPSendCommand(TNC, "ABORT", TRUE);
else
{
char Cmd[32];
sprintf(Cmd, "%cDISCONNECT", Stream);
ARDOPSendPktCommand(TNC, Stream, Cmd);
}
}
VOID CloseComplete(struct TNCINFO * TNC, int Stream)
{
if (Stream == 0)
{
ARDOPReleaseTNC(TNC);
if (TNC->FECMode)
{
TNC->FECMode = FALSE;
ARDOPSendCommand(TNC, "SENDID", TRUE);
}
}
}
VOID ARDOPAbort(struct TNCINFO * TNC)
{
ARDOPSendCommand(TNC, "ABORT", TRUE);
}
// Host Mode Stuff (we reuse some routines in SCSPactor)
VOID ARDOPCRCStuffAndSend(struct TNCINFO * TNC, UCHAR * Msg, int Len)
{
unsigned short int crc;
UCHAR StuffedMsg[500];
int i, j;
Msg[3] |= TNC->Toggle;
// Debugprintf("ARDOP TX Toggle %x", TNC->Toggle);
crc = compute_crc(&Msg[2], Len-2);
crc ^= 0xffff;
Msg[Len++] = (crc&0xff);
Msg[Len++] = (crc>>8);
for (i = j = 2; i < Len; i++)
{
StuffedMsg[j++] = Msg[i];
if (Msg[i] == 170)
{
StuffedMsg[j++] = 0;
}
}
if (j != i)
{
Len = j;
memcpy(Msg, StuffedMsg, j);
}
TNC->TXLen = Len;
Msg[0] = 170;
Msg[1] = 170;
ARDOPWriteCommBlock(TNC);
TNC->Retries = 5;
}
VOID ARDOPExitHost(struct TNCINFO * TNC)
{
UCHAR * Poll = TNC->TXBuffer;
// Try to exit Host Mode
TNC->TXBuffer[2] = 31;
TNC->TXBuffer[3] = 0x41;
TNC->TXBuffer[4] = 0x5;
memcpy(&TNC->TXBuffer[5], "JHOST0", 6);
ARDOPCRCStuffAndSend(TNC, Poll, 11);
return;
}
VOID ARDOPDoTermModeTimeout(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;
ARDOPExitHost(TNC);
TNC->Retries = 1;
return;
}
if (TNC->ReinitState == 1)
{
// Forcing back to Term Mode
TNC->ReinitState = 0;
ARDOPDoTNCReinit(TNC); // See if worked
return;
}
if (TNC->ReinitState == 3)
{
// Entering Host Mode
// Assume ok
TNC->HostMode = TRUE;
TNC->IntCmdDelay = 10;
return;
}
}
VOID ARDOPDoTNCReinit(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
Poll[0] = 13;
Poll[1] = 0x1B;
TNC->TXLen = 2;
// Debugprintf("Sending CR ESC, Mode %c", TNC->ARDOPCommsMode);
if (TNC->ARDOPCommsMode == 'E')
{
if (TNC->TCPCONNECTED)
{
int SentLen = send(TNC->TCPSock, TNC->TXBuffer, TNC->TXLen, 0);
if (SentLen != TNC->TXLen)
{
// ARDOP doesn't seem to recover from a blocked write. For now just reset
int winerr=WSAGetLastError();
char ErrMsg[80];
sprintf(ErrMsg, "ARDOP Write Failed for port %d - error code = %d\r\n", TNC->Port, winerr);
WritetoConsole(ErrMsg);
closesocket(TNC->TCPSock);
TNC->TCPSock = 0;
TNC->TCPCONNECTED = FALSE;
}
}
TNC->TNCOK = FALSE;
sprintf(TNC->WEB_COMMSSTATE,"%s Initialising TNC", TNC->ARDOPSerialPort);
SetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
TNC->Timeout = 20; // 2 secs
TNC->Retries = 1;
return;
}
if (TNC->hDevice == 0) // Dont try to init if device not open
{
if (TNC->PortRecord->PORTCONTROL.PortStopped == 0)
OpenCOMMPort(TNC, TNC->ARDOPSerialPort, TNC->ARDOPSerialSpeed, TRUE);
TNC->Timeout = 100; // 10 secs
TNC->Retries = 1;
return;
}
TNC->TNCOK = FALSE;
sprintf(TNC->WEB_COMMSSTATE,"%s Initialising TNC", TNC->ARDOPSerialPort);
SetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
if (ARDOPWriteCommBlock(TNC) == FALSE)
{
if (TNC->hDevice)
{
Debugprintf("ARDOPWriteCommBlock Failed Mode %c", TNC->ARDOPCommsMode);
CloseCOMPort(TNC->hDevice);
}
if (TNC->ARDOPCommsMode == 'S')
{
OpenCOMMPort(TNC, TNC->ARDOPSerialPort, TNC->ARDOPSerialSpeed, TRUE);
}
else
{
#ifdef WIN32
#else
#ifdef NOI2C
#else
char i2cname[30];
int fd;
int retval;
// Open and configure the i2c interface
if (strlen(TNC->ARDOPSerialPort) < 3)
sprintf(i2cname, "/dev/i2c-%s", TNC->ARDOPSerialPort);
else
strcpy(i2cname, TNC->ARDOPSerialPort);
fd = TNC->hDevice = open(i2cname, O_RDWR);
if (fd < 0)
printf("Cannot find i2c bus %s\n", i2cname);
else
{
retval = ioctl(fd, I2C_SLAVE, TNC->ARDOPSerialSpeed);
if(retval == -1)
printf("Cannot open i2c device %x\n", TNC->ARDOPSerialSpeed);
ioctl(fd, I2C_TIMEOUT, 10);
}
#endif
#endif
}
}
TNC->Retries = 1;
}
if (TNC->ReinitState == 1) // Forcing back to Term
TNC->ReinitState = 0;
if (TNC->ReinitState == 2) // In Term State, Sending Initialisation Commands
{
2022-12-09 11:05:49 +00:00
Debugprintf("DOTNCReinit %d Complete - Entering Hostmode", TNC->Port);
2022-08-28 09:35:46 +01:00
TNC->TXBuffer[2] = 0;
TNC->Toggle = 0;
memcpy(Poll, "JHOST4\r", 7);
TNC->TXLen = 7;
ARDOPWriteCommBlock(TNC);
// Timeout will enter host mode
TNC->Timeout = 1;
TNC->Retries = 1;
TNC->Toggle = 0;
TNC->ReinitState = 3; // Set toggle force bit
TNC->OKToChangeFreq = 1; // In case failed whilst waiting for permission
TNC->CONNECTED = TRUE;
return;
}
}
VOID ARDOPProcessTermModeResponse(struct TNCINFO * TNC)
{
UCHAR * Poll = TNC->TXBuffer;
char * ptr1, * ptr2;
int len;
if (TNC->ReinitState == 0)
{
// Testing if in Term Mode. It is, so can now send Init Commands
TNC->InitPtr = TNC->InitScript;
TNC->ReinitState = 2;
// Send ARDOP to make sure TNC is in a known state
strcpy(Poll, "ARDOP\r");
// OpenLogFile(TNC->Port);
// WriteLogLine(TNC->Port, Poll, 7);
// CloseLogFile(TNC->Port);
TNC->TXLen = 6;
ARDOPWriteCommBlock(TNC);
TNC->Timeout = 60; // 6 secs
return;
}
if (TNC->ReinitState == 2)
{
// Sending Init Commands
// Send INIT script
ptr1 = &TNC->InitScript[0];
/* GetSemaphore(&Semaphore, 52);
while(TNC->BPQtoWINMOR_Q)
{
void ** buffptr = Q_REM(&TNC->BPQtoWINMOR_Q);
if (buffptr)
ReleaseBuffer(buffptr);
}
FreeSemaphore(&Semaphore, 52);
*/
while (ptr1 && ptr1[0])
{
ptr2 = strchr(ptr1, 13);
if (ptr2 == 0)
break;
len = (int)(ptr2 - ptr1) + 1;
memcpy(Poll, ptr1, len);
// if Date or Time command add current time
if (_memicmp(ptr1, "DATETIME", 4) == 0)
{
time_t T;
struct tm * tm;
T = time(NULL);
tm = gmtime(&T);
len = sprintf(Poll, "DATETIME %02d %02d %02d %02d %02d %02d\r",
tm->tm_mday, tm->tm_mon + 1, tm->tm_year - 100,
tm->tm_hour, tm->tm_min, tm->tm_sec);
}
// if RADIOPTTON ? or RADIOPTTOFF ? replace ?
// with correct string
if (_memicmp(ptr1, "RADIOPTTOFF ?", 13) == 0)
{
int Len = TNC->RIG->PTTOffLen;
UCHAR * Cmd = TNC->RIG->PTTOff;
char Hex[256];
char * hexptr = Hex;
int i, j;
while(Len--)
{
i = *(Cmd++);
j = i >>4;
j += '0'; // ascii
if (j > '9')
j += 7;
*(hexptr++) = j;
j = i & 0xf;
j += '0'; // ascii
if (j > '9')
j += 7;
*(hexptr++) = j;
}
*(hexptr++) = 0;
len = sprintf(Poll, "RADIOPTTOFF %s\r", Hex);
}
if (_memicmp(ptr1, "RADIOPTTON ?", 12) == 0)
{
int Len = TNC->RIG->PTTOnLen;
UCHAR * Cmd = TNC->RIG->PTTOn;
char Hex[256];
char * hexptr = Hex;
int i, j;
while(Len--)
{
i = *(Cmd++);
j = i >>4;
j += '0'; // ascii
if (j > '9')
j += 7;
*(hexptr++) = j;
j = i & 0xf;
j += '0'; // ascii
if (j > '9')
j += 7;
*(hexptr++) = j;
}
*(hexptr++) = 0;
len = sprintf(Poll, "RADIOPTTON %s\r", Hex);
}
TNC->TXLen = len;
ARDOPWriteCommBlock(TNC);
Sleep(50);
TNC->Timeout = 60; // 6 secs
if (ptr2)
*(ptr2++) = 13; // Put CR back for next time
ptr1 = ptr2;
}
// All Sent - enter Host Mode
ARDOPDoTNCReinit(TNC); // Send Next Command
return;
}
}
int ARDOPProcessDEDFrame(struct TNCINFO * TNC, UCHAR * Msg, int framelen)
{
PMSGWITHLEN buffptr;
UCHAR * Buffer; // Data portion of frame
unsigned int Stream = 0, RealStream;
if (Msg[0] == 255 && Msg[1] == 255)
{
goto tcpHostFrame;
}
if (TNC->HostMode == 0)
return framelen;
// Check toggle
// Debugprintf("ARDOP RX Toggle = %x MSG[3] = %x", TNC->Toggle, Msg[3]);
if (TNC->Toggle != (Msg[3] & 0x80))
{
Debugprintf("ARDOP PTC Seq Error");
return framelen; // should check if retrying
}
// Any valid frame is an ACK
TNC->Toggle ^= 0x80; // update toggle
TNC->Timeout = 0;
Msg[3] &= 0x7f; // remove toggle
if (TNC->TNCOK == FALSE)
{
// Just come up
TNC->TNCOK = TRUE;
sprintf(TNC->WEB_COMMSSTATE,"%s TNC link OK", TNC->ARDOPSerialPort);
SetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
}
tcpHostFrame:
Stream = RealStream = Msg[2];
// See if Poll Reply or Data
if (Msg[3] == 1 && Stream > 0 && Stream <= APMaxStreams)
{
// Ardop Packet Data. Probably Buffer Status
int Len = (int)strlen(&Msg[4]);
if (memcmp(&Msg[4], "Queued ", 7) == 0)
{
int Count = atoi(&Msg[11]);
TNC->Streams[Stream].BytesOutstanding = Count;
}
return Len + 5;
}
if (Stream == 32) // Native Mode Command Response
{
if (Msg[3] == 1) // Null terminated response
{
int Len = (int)strlen(&Msg[4]) + 1;
ARDOPProcessResponse(TNC, &Msg[4], Len);
return Len + 5;
}
if (Msg[3] == 0) // Success, no response
return 5;
if (Msg[3] == 7) // Status Reports
{
int Len = Msg[4] + 1;
// may have more than one message in buffer,
// so pass to unpack
memcpy(&TNC->ARDOPBuffer[TNC->InputLen],&Msg[5], Len);
TNC->InputLen += Len;
ARDOPProcessReceivedControl(TNC);
return Len + 5;
}
return 0;
}
if (Stream == 33) // Native Mode Data
{
// May be connected, FEC or ID
if (Msg[3] == 1) // Null terminated response
return 0;
if (Msg[3] == 0) // Success, no response
return 0;
if (Msg[3] == 7) // Data
{
int Len = Msg[4] + 1;
// may have more than one message in buffer,
// so pass to unpack
memcpy(&TNC->ARDOPDataBuffer[TNC->DataInputLen],&Msg[5], Len);
TNC->DataInputLen += Len;
ARDOPProcessReceivedData(TNC);
return 0;
}
return 0;
}
if (Stream == 34) // Native Mode Log
{
int Len = Msg[4] + 1;
char timebuf[32];
char Line[256];
char * ptr, * ptr2;
#ifdef WIN32
SYSTEMTIME st;
#else
struct timespec tp;
int hh;
int mm;
int ss;
#endif
if (TNC->LogHandle == 0 && TNC->DebugHandle == 0)
return 0;
#ifdef WIN32
GetSystemTime(&st);
sprintf(timebuf, "%02d:%02d:%02d.%03d ",
st.wHour, st.wMinute, st.wSecond, st.wMilliseconds);
#else
clock_gettime(CLOCK_REALTIME, &tp);
ss = tp.tv_sec % 86400; // Secs int day
hh = ss / 3600;
mm = (ss - (hh * 3600)) / 60;
ss = ss % 60;
sprintf(timebuf, "%02d:%02d:%02d.%03d ",
hh, mm, ss, (int)tp.tv_nsec/1000000);
#endif
// Messages may be blocked with top bit of first byte set
ptr = &Msg[5];
ptr2 = Line;
while(Len--)
{
int c = (*ptr++);
if (c & 0x80)
{
// New Message
c &= 0x7f;
*ptr2 = 0;
fputs(Line, TNC->DebugHandle); // rest of last line
if (TNC->LastLogType < '7')
fputs(Line, TNC->LogHandle);
TNC->LastLogType = c;
// Timestamp new message and add type
fputs(timebuf, TNC->DebugHandle);
fputc(c, TNC->DebugHandle);
fputc(' ', TNC->DebugHandle);
if (TNC->LastLogType < '7')
{
fputs(timebuf, TNC->LogHandle);
fputc(c, TNC->LogHandle);
fputc(' ', TNC->LogHandle);
}
ptr2 = Line;
}
else
*(ptr2++) = c;
}
*ptr2 = 0;
fputs(Line, TNC->DebugHandle); // rest of last line
fflush(TNC->DebugHandle);
if (TNC->LastLogType < '7')
{
fputs(Line, TNC->LogHandle);
fflush(TNC->LogHandle);
}
return 0;
}
if (Msg[3] == 4 || Msg[3] == 5)
{
MESSAGE Monframe;
// Packet Monitor Data.
// DED Host uses 4 and 5 as Null Terminated ascii encoded header
// and 6 byte count format info.
// In ARDOP Native mode I pass both header and data
// in byte count raw format, as there is no point
// in ascii coding then converting back to pass to
// monitor code
// The First byte is TX/RX Flag
int Len = Msg[4]; // Would be +1 but first is Flag
memset(&Monframe, 0, sizeof(Monframe));
memcpy(Monframe.DEST, &Msg[6], Len);
Monframe.LENGTH = Len + MSGHDDRLEN;
Monframe.PORT = TNC->Port | Msg[5]; // or in TX Flag
time(&Monframe.Timestamp);
if (Msg[3] == 5) // More to come
{
// Save the header till the data arrives
if (TNC->Monframe)
free(TNC->Monframe);
TNC->Monframe = malloc(sizeof(MESSAGE));
if (TNC->Monframe)
memcpy(TNC->Monframe, &Monframe, sizeof(MESSAGE));
return Len + 6;
}
BPQTRACE((MESSAGE *)&Monframe, TRUE);
return Len + 6;
}
if (Msg[3] == 6)
{
// Second part of I or UI
int Len = Msg[4] + 1;
MESSAGE Monframe;
UCHAR * ptr = (UCHAR *)&Monframe;
memset(&Monframe, 0, sizeof(Monframe));
if (TNC->Monframe)
{
memcpy(&Monframe, TNC->Monframe, TNC->Monframe->LENGTH);
memcpy(&ptr[TNC->Monframe->LENGTH], &Msg[5], Len);
Monframe.LENGTH += Len;
time(&Monframe.Timestamp);
BPQTRACE((MESSAGE *)&Monframe, TRUE);
free(TNC->Monframe);
TNC->Monframe = NULL;
}
return Len + 6;
}
if (Msg[3] == 0)
{
// Success - Nothing Follows
if (Stream < 32)
if (TNC->Streams[Stream].CmdSet)
return 4; // Response to Command Set
if ((TNC->TXBuffer[3] & 1) == 0) // Data
return 4;
if (Stream > 0 && Stream <= APMaxStreams)
{
// Packet Response
return 4;
}
// If the response to a Command, then we should convert to a text OK" for forward scripts, etc
if (TNC->TXBuffer[5] == 'G') // Poll
return 4;
if (TNC->TXBuffer[5] == 'C') // Connect - reply we need is async
return 4;
if (TNC->TXBuffer[5] == 'L') // Shouldnt happen!
return 4;
if (TNC->TXBuffer[5] == '#') // Shouldnt happen!
return 4;
if (TNC->TXBuffer[5] == '%' && TNC->TXBuffer[6] == 'W') // Scan Control - Response to W1
if (TNC->InternalCmd)
return 4; // Just Ignore
if (TNC->TXBuffer[5] == 'J') // JHOST
{
if (TNC->TXBuffer[10] == '0') // JHOST0
{
TNC->Timeout = 1; //
return 4;
}
}
if (TNC->Streams[Stream].Connected)
return 4;
buffptr = GetBuff();
if (buffptr == NULL) return 4; // No buffers, so ignore
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0],"ARDOP} Ok\r");
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
// C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
return 4;
}
if (Msg[3] > 0 && Msg[3] < 6)
{
// Success with message - null terminated
UCHAR * ptr;
int len;
if (Msg[2] == 0xff) // General Poll Response
{
UCHAR * Poll = TNC->TXBuffer;
UCHAR Chan = Msg[4] - 1;
if (Chan == 255) // Nothing doing
return 0;
if (Msg[5] != 0)
{
// More than one to poll - save the list of channels to poll
strcpy(TNC->NexttoPoll, &Msg[5]);
}
// Poll the channel that had data
Poll[2] = Chan; // Channel
Poll[3] = 0x1; // Command
if (Chan == 254) // Status - Send Extended Status (G3)
{
Poll[4] = 1; // Len-1
Poll[5] = 'G'; // Extended Status Poll
Poll[6] = '3';
}
else
{
Poll[4] = 0; // Len-1
Poll[5] = 'G'; // Poll
}
ARDOPCRCStuffAndSend(TNC, Poll, Poll[4] + 6);
TNC->InternalCmd = FALSE;
return 0;
}
Buffer = &Msg[4];
ptr = strchr(Buffer, 0);
if (ptr == 0)
return 0;
*(ptr++) = 13;
*(ptr) = 0;
len = (int)(ptr - Buffer);
if (len > 256)
return 0;
if (Stream > 0 && Stream <= APMaxStreams)
{
// Packet Mode Response. Could be command response or status.
struct STREAMINFO * STREAM = &TNC->Streams[Stream];
PMSGWITHLEN buffptr;
if (strstr(Buffer, "Incoming"))
{
// incoming call. Check which application it is for
char Call[11];
char TargetCall[11] = "";
char * ptr;
APPLCALLS * APPL;
char * ApplPtr = APPLS;
int App;
char Appl[10];
TRANSPORTENTRY * SESS;
Buffer[len-1] = 0;
WritetoTrace(TNC, Buffer, len);
STREAM->ConnectTime = time(NULL);
2024-11-05 21:03:15 +00:00
STREAM->bytesRXed = STREAM->bytesTXed = STREAM->PacketsSent = 0;
2022-08-28 09:35:46 +01:00
memcpy(Call, &Buffer[19], 10);
ptr = strchr(Call, ' ');
if (ptr) *ptr = 0;
ptr = strstr(&Buffer[19], " to ");
if (ptr)
{
memcpy(TargetCall, ptr + 4, 10);
ptr = strchr(TargetCall, 13);
if (ptr)
*ptr = 0;
}
ProcessIncommingConnectEx(TNC, Call, Stream, TRUE, FALSE);
SESS = TNC->PortRecord->ATTACHEDSESSIONS[Stream];
// Check for ExcludeList
if (ExcludeList[0])
{
if (CheckExcludeList(SESS->L4USER) == FALSE)
{
TidyClose(TNC, 0);
Debugprintf("ARDOP Packet Call from %s rejected", Call);
return 0;
}
}
// IF WE HAVE A PERMITTED CALLS LIST, SEE IF HE IS IN IT
if (TNC->PortRecord->PORTCONTROL.PERMITTEDCALLS)
{
UCHAR * ptr = TNC->PortRecord->PORTCONTROL.PERMITTEDCALLS;
while (TRUE)
{
if (memcmp(SESS->L4USER, ptr, 6) == 0) // Ignore SSID
break;
ptr += 7;
if ((*ptr) == 0) // Not in list
{
TidyClose(TNC, 0);
Debugprintf("ARDOP Packet Call from %s not in ValidCalls - rejected", Call);
return 0;
}
}
}
// See which application the connect is for
for (App = 0; App < 32; App++)
{
APPL=&APPLCALLTABLE[App];
memcpy(Appl, APPL->APPLCALL_TEXT, 10);
ptr=strchr(Appl, ' ');
if (ptr)
*ptr = 0;
if (_stricmp(TargetCall, 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))
{
char ApplCmd[80];
int Len = sprintf(ApplCmd, "%s\r", AppName);
buffptr = GetBuff();
if (buffptr == 0)
{
return len + 5; // No buffers, so ignore
}
buffptr->Len = Len;
memcpy(&buffptr->Data[0], ApplCmd, Len);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
TNC->SwallowSignon = TRUE;
// Save Appl Call in case needed for
}
else
{
char Msg[] = "Application not available\r\n";
// Send a Message, then a disconenct
// Send CTEXT First
if (STREAM->BPQtoPACTOR_Q) //Used for CTEXT
{
PMSGWITHLEN buffptr = Q_REM(&STREAM->BPQtoPACTOR_Q);
UCHAR * data = &buffptr->Data[0];
int txlen = (int)buffptr->Len;
SendARDOPorPacketData(TNC, Stream, data, txlen);
ReleaseBuffer(buffptr);
}
SendARDOPorPacketData(TNC, Stream, Msg, (int)strlen(Msg));
STREAM->NeedDisc = 100; // 10 secs
}
}
STREAM->Connected = TRUE;
return len + 5;
}
// Send to host
buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr == 0)
return len + 5; // No buffers, so ignore
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "%s", Buffer);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
// Unless Connected response close session
STREAM->Connecting = FALSE;
if (strstr(Buffer, "Connected"))
STREAM->Connected = TRUE;
else
if (strstr(Buffer, "Failure with"))
STREAM->ReportDISC = 10; // Gives time for failure message to display
else
if (strstr(Buffer, "Busy from"))
STREAM->ReportDISC = 10; // Gives time for failure message to display
else
if (strstr(Buffer, "Disconnected from"))
{
if (STREAM->Disconnecting) // We requested disconnect
{
STREAM->Connecting = FALSE;
STREAM->Connected = FALSE; // Back to Command Mode
STREAM->Disconnecting = FALSE;
}
else
{
STREAM->Connected = 0;
STREAM->ReportDISC = 10;
}
}
else
STREAM->NeedDisc = 10;
return len + 5;
}
// See if we need to process locally (Response to our command, Incoming Call, Disconencted, etc
if (Msg[3] < 3) // 1 or 2 - Success or Fail
{
return 0;
}
if (Msg[3] == 3) // Status
{
struct STREAMINFO * STREAM = &TNC->Streams[Stream];
return 0;
}
// 1, 2, 4, 5 - pass to Appl
return 0;
}
if (Msg[3] == 6)
{
return 0;
}
if (Msg[3] == 7) // Data
{
if (Stream > 0 && Stream <= APMaxStreams)
{
// Packet Response
int len = Msg[4] + 1;
if (TNC->Streams[Stream].Connected == 0)
return len + 5;
buffptr = GetBuff();
if (buffptr == NULL) return 0; // No buffers, so ignore
buffptr->Len = len;
memcpy((UCHAR *)&buffptr->Data[0], &Msg[5], buffptr->Len);
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
return len + 5;
}
if (Stream == 32) // Command string
{
int Len = Msg[4] + 1;
ARDOPProcessResponse(TNC, &Msg[5], Len);
return 0;
}
if (Msg[2] == 0xfe) // Status Poll Response
{
return 0;
}
if (Msg[2] == 248) // Log Message
{
// Monitor Data - Length format
// first 4 bytes contain a 32 bits long timestamp.
// That timestamp holds the number of seconds that elapsed since date 01.01.2000 at 00:00:00.
// The MS byte is sent first. The timestamp can be corrected to the usual C timestamp (seconds
//since 01.01.1970, 00:00:00) simply by adding 946684800 (seconds) to it.
// Teminated with LF
int datalen = Msg[4] + 1;
time_t timestamp = (Msg[5] << 24) + (Msg[6] << 16)
+ (Msg[7] << 8) + Msg[8] + 946684800;
char c;
char timebuf[32] = "HH:MM:SS.MMM";
struct tm * tm;
if (TNC->LogHandle == 0 || TNC->DebugHandle == 0)
return 0;
tm = gmtime(&timestamp);
sprintf(timebuf, "%02d:%02d:%02d. ",
tm->tm_hour, tm->tm_min, tm->tm_sec);
// ARDOP Messages have a millisec time in first 3 bytes
// and a log type in 4th
c = Msg[12]; // Type
memcpy(&timebuf[9], &Msg[9], 3); // copy millisecs
fputs(timebuf, TNC->DebugHandle);
fputc(c, TNC->DebugHandle);
fputc(' ', TNC->DebugHandle);
fwrite(&Msg[13], 1, datalen - 8, TNC->DebugHandle);
fflush(TNC->DebugHandle);
if (c < '7')
{
// All types below debug go to log file
fputs(timebuf, TNC->LogHandle);
fputc(c, TNC->LogHandle);
fputc(' ', TNC->LogHandle);
fwrite(&Msg[13], 1, datalen - 8, TNC->LogHandle);
fflush(TNC->LogHandle);
}
return 0;
}
if (Msg[2] == 253) // Rig Port Response
{
// Queue for Rig Control Driver
int datalen = Msg[4] + 1;
PMSGWITHLEN buffptr;
// if not configured to use PTC Rig Control, Ignore
if (TNC->RIG->PORT == NULL || TNC->RIG->PORT->PTC == NULL)
return 0;
buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr)
{
buffptr->Len = datalen;
memcpy(&buffptr->Data[0], &Msg[5], datalen);
C_Q_ADD(&TNC->RadiotoBPQ_Q, buffptr);
}
return 0;
}
if (Msg[2] == 250) // KISS
{
// Pass to KISS Code
int datalen = Msg[4] + 1;
void ** buffptr = NULL;
ProcessKISSBytes(TNC, &Msg[5], datalen);
return datalen + 5;
}
return 0;
}
return 0;
}
void ARDOPSCSCheckRX(struct TNCINFO * TNC)
{
int Length, Len = 0;
unsigned short crc;
char UnstuffBuffer[500];
if (TNC->RXLen == 500)
TNC->RXLen = 0;
if (TNC->ARDOPCommsMode == 'I')
{
unsigned char Buffer[33];
BOOL Error;
int gotThisTime = 0, i2clen;
// i2c mode always returns as much as requested or error
// First two bytes of block are length
// if (TNC->hDevice < 0)
// return;
while ((TNC->RXLen + Len) < 460)
{
i2clen = ReadCOMBlockEx(TNC->hDevice, Buffer, 33, &Error);
if (i2clen < 33 || i2clen == 5)
return;
if (Error)
{
Debugprintf("ARDOP i2c returned %d bytes Error %d", i2clen, Error);
return;
}
gotThisTime = Buffer[0];
if (gotThisTime == 0)
{
if (Len)
break; // Something to process
return; // No More
}
// if (gotThisTime != 7)
// Debugprintf("ARDOP i2c Len %d RXL %d %x %x %x %x %x %x %x %x %x %x %x %x",
// gotThisTime, TNC->RXLen + Len,
// Buffer[0], Buffer[1], Buffer[2], Buffer[3],
// Buffer[4], Buffer[5], Buffer[6], Buffer[7],
// Buffer[8], Buffer[9], Buffer[10], Buffer[11]);
memcpy(&TNC->RXBuffer[TNC->RXLen + Len], &Buffer[1], gotThisTime);
Len += gotThisTime;
if (Buffer[0] < 32)
break; // no more
}
}
else if (TNC->ARDOPCommsMode =='E') //Serial over TCP
Len = SerialGetTCPMessage(TNC, &TNC->RXBuffer[TNC->RXLen], 500 - TNC->RXLen);
else
if (TNC->hDevice)
Len = ReadCOMBlock(TNC->hDevice, &TNC->RXBuffer[TNC->RXLen], 500 - TNC->RXLen);
if (Len == 0)
return;
TNC->RXLen += Len;
Length = TNC->RXLen;
// DED mode doesn't have an end of frame delimiter. We need to know if we have a full frame
// Fortunately this is a polled protocol, so we only get one frame at a time
// If first char != 170, then probably a Terminal Mode Frame. Wait for CR on end
// If first char is 170, we could check rhe length field, but that could be corrupt, as
// we haen't checked CRC. All I can think of is to check the CRC and if it is ok, assume frame is
// complete. If CRC is duff, we will eventually time out and get a retry. The retry code
// can clear the RC buffer
if (TNC->RXBuffer[0] != 170)
{
// Char Mode Frame I think we need to see cmd: on end
// If we think we are in host mode, then to could be noise - just discard.
if (TNC->HostMode)
{
TNC->RXLen = 0; // Ready for next frame
return;
}
TNC->RXBuffer[TNC->RXLen] = 0;
// if (TNC->Streams[Stream].RXBuffer[TNC->Streams[Stream].RXLen-2] != ':')
if (strlen(TNC->RXBuffer) < TNC->RXLen)
TNC->RXLen = 0;
if ((strstr(TNC->RXBuffer, "cmd: ") == 0) && (strstr(TNC->RXBuffer, "pac: ") == 0))
return; // Wait for rest of frame
// Complete Char Mode Frame
// OpenLogFile(TNC->Port);
// WriteLogLine(TNC->Port, TNC->RXBuffer, (int)strlen(TNC->RXBuffer));
// CloseLogFile(TNC->Port);
TNC->RXLen = 0; // Ready for next frame
if (TNC->HostMode == 0)
{
// We think TNC is in Terminal Mode
ARDOPProcessTermModeResponse(TNC);
return;
}
// We thought it was in Host Mode, but are wrong.
TNC->HostMode = FALSE;
return;
}
if (TNC->HostMode == FALSE)
{
TNC->RXLen = 0; // clear input and wait for char mode response
return;
}
// Receiving a Host Mode frame
if (Length < 6) // Minimum Frame Sise
return;
if (TNC->RXBuffer[2] == 170)
{
// Retransmit Request
TNC->RXLen = 0;
return; // Ignore for now
}
// Can't unstuff into same buffer - fails if partial msg received, and we unstuff twice
Length = Unstuff(&TNC->RXBuffer[2], &UnstuffBuffer[2], Length - 2);
if (Length == -1)
{
// Unstuff returned an errors (170 not followed by 0)
TNC->RXLen = 0;
return; // Ignore for now
}
crc = compute_crc(&UnstuffBuffer[2], Length);
if (crc == 0xf0b8) // Good CRC
{
TNC->RXLen = 0; // Ready for next frame
UnstuffBuffer[0] = 0; // Make sure not seen as TCP Frame
ARDOPProcessDEDFrame(TNC, UnstuffBuffer, Length);
// If there are more channels to poll (more than 1 entry in general poll response,
// and link is not active, poll the next one
if (TNC->Timeout == 0)
{
UCHAR * Poll = TNC->TXBuffer;
if (TNC->NexttoPoll[0])
{
UCHAR Chan = TNC->NexttoPoll[0] - 1;
memmove(&TNC->NexttoPoll[0], &TNC->NexttoPoll[1], 19);
Poll[2] = Chan; // Channel
Poll[3] = 0x1; // Command
if (Chan == 254) // Status - Send Extended Status (G3)
{
Poll[4] = 1; // Len-1
Poll[5] = 'G'; // Extended Status Poll
Poll[6] = '3';
}
else
{
Poll[4] = 0; // Len-1
Poll[5] = 'G'; // Poll
}
ARDOPCRCStuffAndSend(TNC, Poll, Poll[4] + 6);
TNC->InternalCmd = FALSE;
return;
}
else
{
// if last message wasn't a general poll, send one now
if (TNC->PollSent)
return;
TNC->PollSent = TRUE;
// Use General Poll (255)
Poll[2] = 255 ; // Channel
Poll[3] = 0x1; // Command
Poll[4] = 0; // Len-1
Poll[5] = 'G'; // Poll
ARDOPCRCStuffAndSend(TNC, Poll, 6);
TNC->InternalCmd = FALSE;
}
}
return;
}
// Bad CRC - assume incomplete frame, and wait for rest. If it was a full bad frame, timeout and retry will recover link.
return;
}
VOID ARDOPSCSPoll(struct TNCINFO * TNC)
{
UCHAR * Poll = TNC->TXBuffer;
int Stream = 0;
if (TNC->Timeout)
{
TNC->Timeout--;
if (TNC->Timeout) // Still waiting
return;
TNC->Retries--;
if(TNC->Retries >= 0)
{
if (TNC->HostMode)
Debugprintf("ARDOP Timeout - Retransmit PTC Block");
ARDOPWriteCommBlock(TNC); // Retransmit Block
return;
}
// Retried out.
if (TNC->HostMode == 0)
{
ARDOPDoTermModeTimeout(TNC);
return;
}
// Retried out in host mode - Clear any connection and reinit the TNC
Debugprintf("ARDOP - Link to TNC Lost");
TNC->TNCOK = FALSE;
sprintf(TNC->WEB_COMMSSTATE,"%s Open but TNC not responding", TNC->PortRecord->PORTCONTROL.SerialPortName);
SetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
// Clear anything from UI_Q
while (TNC->PortRecord->UI_Q)
{
void ** buffptr = Q_REM(&TNC->PortRecord->UI_Q);
ReleaseBuffer(buffptr);
}
TNC->HostMode = 0;
TNC->ReinitState = 0;
TNC->CONNECTED = FALSE;
// Disconenct any attached sessions
for (Stream = 0; Stream <= APMaxStreams; Stream++)
{
if (TNC->PortRecord->ATTACHEDSESSIONS[Stream]) // Connected
{
TNC->Streams[Stream].Connected = FALSE; // Back to Command Mode
TNC->Streams[Stream].ReportDISC = TRUE; // Tell Node
}
}
}
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)
{
ARDOPDoTNCReinit(TNC);
return;
}
TNC->PollSent = FALSE;
if (TNC->TNCOK && TNC->BPQtoRadio_Q)
{
int datalen;
PMSGWITHLEN buffptr;
buffptr = (PMSGWITHLEN)Q_REM(&TNC->BPQtoRadio_Q);
datalen = (int)buffptr->Len;
Poll[2] = 253; // Radio Channel
Poll[3] = 0; // Data?
Poll[4] = datalen - 1;
memcpy(&Poll[5], &buffptr->Data[0], datalen);
ReleaseBuffer(buffptr);
ARDOPCRCStuffAndSend(TNC, Poll, datalen + 5);
return;
}
for (Stream = 0; Stream < 14; Stream++) // Priority to commands
{
if (TNC->TNCOK && TNC->Streams[Stream].BPQtoPACTOR_Q)
{
int datalen;
PMSGWITHLEN buffptr;
char * Buffer;
buffptr=Q_REM(&TNC->Streams[Stream].BPQtoPACTOR_Q);
TNC->Streams[Stream].FramesQueued--;
datalen = (int)buffptr->Len;
Buffer = &buffptr->Data[0]; // Data portion of frame
Poll[3]= 0;
if (Stream > 11)
Poll[2] = Stream + 20; // 12 and 13 to Channels 32 and 33
else
if (Stream == 0)
Poll[2] = 33;
else
{
// Packet Frame
Poll[2] = Stream;
Poll[3] = Buffer[0]; // First Byte is CMD/Data FLag
datalen--;
Buffer++;
}
Poll[4] = datalen - 1;
memcpy(&Poll[5], Buffer, datalen);
ReleaseBuffer(buffptr);
ARDOPCRCStuffAndSend(TNC, Poll, datalen + 5);
return;
}
}
//0x04421CB0 aa aa 21 00 07 00 06 48 65 6c 6c 6f 0d c8 3e 38 42 50 51 2d 32 20 35 0d 4a 8a 4d 38 42 50 51 <20><>!....Hello.<2E>>8BPQ-2 5.J<>M8BPQ
//0x04421CCF 2d 31 30 2c 47 4d 38 42 50 51 2d 35 2c 47 4d 38 42 50 51 2c 47 4d 38 42 50 51 2d 31 35 0d 00 -10,GM8BPQ-5,GM8BPQ,GM8BPQ-15..
//0x04421CEE 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ...............................
if (TNC->TNCOK && TNC->KISSTX_Q)
{
int datalen;
PMSGWITHLEN buffptr;
buffptr = (PMSGWITHLEN)Q_REM(&TNC->KISSTX_Q);
datalen = (int)buffptr->Len;
Poll[2] = 250; // KISS Channel
Poll[3] = 0; // Data
Poll[4] = datalen - 1;
memcpy(&Poll[5], &buffptr->Data[0], datalen);
ReleaseBuffer(buffptr);
ARDOPCRCStuffAndSend(TNC, Poll, datalen + 5);
return;
}
TNC->PollSent = TRUE;
// Use General Poll (255)
Poll[2] = 255 ; // Channel
Poll[3] = 0x1; // Command
if (TNC->ReinitState == 3)
{
TNC->ReinitState = 0;
Poll[3] = 0x41;
}
Poll[4] = 0; // Len-1
Poll[5] = 'G'; // Poll
ARDOPCRCStuffAndSend(TNC, Poll, 6);
TNC->InternalCmd = FALSE;
return;
}
// ARDOP Serial over TCP Routines
// Probably only for Teensy with ESP01. Runs SCS Emulator over a TCP Link
VOID SerialConnecttoTCPThread(struct TNCINFO * TNC);
int SerialConnecttoTCP(struct TNCINFO * TNC)
{
_beginthread(SerialConnecttoTCPThread, 0, (void *)TNC);
return 0;
}
VOID SerialConnecttoTCPThread(struct TNCINFO * TNC)
{
char Msg[255];
int i;
u_long param = 1;
BOOL bcopt=TRUE;
struct hostent * HostEnt;
SOCKADDR_IN sinx;
int addrlen=sizeof(sinx);
if (TNC->HostName == NULL)
return;
Sleep(5000); // Allow init to complete
while(1)
{
if (TNC->TCPCONNECTED)
{
Sleep(57000);
continue;
}
TNC->BusyFlags = 0;
TNC->CONNECTING = TRUE;
TNC->destaddr.sin_addr.s_addr = inet_addr(TNC->HostName);
TNC->Datadestaddr.sin_addr.s_addr = inet_addr(TNC->HostName);
if (TNC->destaddr.sin_addr.s_addr == INADDR_NONE)
{
// Resolve name to address
HostEnt = gethostbyname (TNC->HostName);
if (!HostEnt)
{
TNC->CONNECTING = FALSE;
Sleep (57000);
return; // Resolve failed
}
memcpy(&TNC->destaddr.sin_addr.s_addr,HostEnt->h_addr,4);
memcpy(&TNC->Datadestaddr.sin_addr.s_addr,HostEnt->h_addr,4);
}
if (TNC->TCPSock)
{
Debugprintf("ARDOP Closing Sock %d", TNC->TCPSock);
closesocket(TNC->TCPSock);
}
TNC->TCPSock = 0;
TNC->TCPSock = socket(AF_INET,SOCK_STREAM,0);
if (TNC->TCPSock == INVALID_SOCKET)
{
i=sprintf(Msg, "Socket Failed for ARDOP socket - error code = %d\r\n", WSAGetLastError());
WritetoConsole(Msg);
TNC->CONNECTING = FALSE;
return;
}
setsockopt(TNC->TCPSock, SOL_SOCKET, SO_REUSEADDR, (const char FAR *)&bcopt, 4);
// setsockopt(TNC->TCPDataSock, IPPROTO_TCP, TCP_NODELAY, (const char FAR *)&bcopt, 4);
sinx.sin_family = AF_INET;
sinx.sin_addr.s_addr = INADDR_ANY;
sinx.sin_port = 0;
if (connect(TNC->TCPSock,(LPSOCKADDR) &TNC->destaddr,sizeof(TNC->destaddr)) == 0)
{
//
// Connected successful
TNC->TCPCONNECTED = TRUE;
ioctl(TNC->TCPSock, FIONBIO, &param);
Debugprintf("ARDOP TCPSerial connected, Socket %d", TNC->TCPSock);
}
else
{
if (TNC->Alerted == FALSE)
{
sprintf(Msg, "Connect Failed for ARDOP socket - error code = %d Port %d\n",
WSAGetLastError(), htons(TNC->destaddr.sin_port));
WritetoConsole(Msg);
sprintf(TNC->WEB_COMMSSTATE, "Connection to TNC failed");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
TNC->Alerted = TRUE;
}
closesocket(TNC->TCPSock);
TNC->TCPSock = 0;
TNC->CONNECTING = FALSE;
Sleep (57000); // 1 Mins
}
}
}
int SerialGetTCPMessage(struct TNCINFO * TNC, unsigned char * Buffer, int Len)
{
int index=0;
ULONG param = 1;
if (TNC->TCPCONNECTED)
{
int InputLen;
// Poll TCP COnnection for data
// May have several messages per packet, or message split over packets
InputLen = recv(TNC->TCPSock, Buffer, Len, 0);
if (InputLen < 0)
{
int err = WSAGetLastError();
if (err == 10035 || err == 11)
{
InputLen = 0;
return 0;
}
Debugprintf("ARDOP Serial TCP RX Error %d received for socket %d", err, TNC->TCPSock);
TNC->TCPCONNECTED = 0;
closesocket(TNC->TCPSock);
TNC->TCPSock = 0;
return 0;
}
if (InputLen > 0)
return InputLen;
else
{
Debugprintf("ARDOP Serial TCP Close received for socket %d", TNC->TCPSock);
TNC->TCPCONNECTED = 0;
closesocket(TNC->TCPSock);
TNC->TCPSock = 0;
return 0;
}
}
return 0;
}
int ARDOPWriteCommBlock(struct TNCINFO * TNC)
{
if (TNC->ARDOPCommsMode == 'E')
{
if (TNC->TCPCONNECTED)
{
int SentLen = send(TNC->TCPSock, TNC->TXBuffer, TNC->TXLen, 0);
if (SentLen != TNC->TXLen)
{
// ARDOP doesn't seem to recover from a blocked write. For now just reset
int winerr=WSAGetLastError();
char ErrMsg[80];
sprintf(ErrMsg, "ARDOP Write Failed for port %d - error code = %d\r\n", TNC->Port, winerr);
WritetoConsole(ErrMsg);
closesocket(TNC->TCPSock);
TNC->TCPSock = 0;
TNC->TCPCONNECTED = FALSE;
}
}
TNC->Timeout = 20; // 2 secs
return 1;
}
if (TNC->hDevice)
return (WriteCommBlock(TNC));
else
{
TNC->Timeout = 20; // 2 secs
return 0;
}
}
// Teensy Combined ARDOP/AX.25 Support
#define FEND 0xC0 // KISS CONTROL CODES
#define FESC 0xDB
#define TFEND 0xDC
#define TFESC 0xDD
/*
VOID ARAXINIT(struct PORTCONTROL * PORT)
{
char Msg[80] = "";
memcpy(Msg, PORT->PORTDESCRIPTION, 30);
sprintf(Msg, "%s\n", Msg);
WritetoConsoleLocal(Msg);
}
VOID ARAXTX(struct PORTCONTROL * PORT, PMESSAGE Buffer)
{
// KISS Encode and Queue to Host Mode KISS Queue
UINT * TXMsg = NULL; // KISS Message to queue to Hostmode KISS Queue
UCHAR * TXPtr;
int TXLen = 0;
struct _LINKTABLE * ACKWORD = Buffer->Linkptr;
struct _MESSAGE * Message = (struct _MESSAGE *)Buffer;
UCHAR c;
char * ptr1;
int Len;
struct TNCINFO * TNC = PORT->TNC;
if (TNC && TNC->CONNECTED) // Have a Host Session
TXMsg = GetBuff(); // KISS Message to queue to Hostmode KISS Queue
if (TXMsg == NULL) // No Session or No buffers
{
// Reset any ACKMODE Timer and release buffer C_Q_ADD(&TRACE_Q, Buffer);
struct _LINKTABLE * LINK = Buffer->Linkptr;
if (LINK)
{
if (LINK->L2TIMER)
LINK->L2TIMER = LINK->L2TIME;
Buffer->Linkptr = 0; // CLEAR FLAG FROM BUFFER
}
C_Q_ADD(&TRACE_Q, Buffer);
return;
}
TXPtr = (UCHAR *)&TXMsg[2];
ptr1 = &Message->DEST[0];
Len = Message->LENGTH - 7;
*(TXPtr++) = FEND;
if (ACKWORD) // Frame Needs ACK
{
*TXPtr++ = 0x0c; // ACK OPCODE
ACKWORD -= (UINT)LINKS; // Con only send 16 bits, so use offset into LINKS
*TXPtr++ = ACKWORD & 0xff;
*TXPtr++ = (ACKWORD >> 8) &0xff;
// have to reset flag so trace doesnt clear it
Buffer->Linkptr = 0;
TXLen = 4;struct _LINKTABLE *
}
else
{
*TXPtr++ = 0;
TXLen = 2;
}
while (Len--)
{
c = *(ptr1++);
switch (c)
{
case FEND:
(*TXPtr++) = FESC;
(*TXPtr++) = TFEND;
TXLen += 2;
break;
case FESC:
(*TXPtr++) = FESC;
(*TXPtr++) = TFESC;
TXLen += 2;
break;
default:
(*TXPtr++) = c;
TXLen++;
}
if (TXLen > 250)
{
// Queue frame to KISS Channel and get another buffer
// can take up to 256, but sometimes add 2 at a time
TXMsg[1] = (int)(TXPtr - (UCHAR *)&TXMsg[2]);
}
}
(*TXPtr++) = FEND;
TXLen++;
TXMsg[1] = TXLen;
C_Q_ADD(&TNC->KISSTX_Q, TXMsg);
// Pass buffer to trace routines
C_Q_ADD(&TRACE_Q, Buffer);
}
VOID ARAXRX()
{
}
VOID ARAXTIMER()
{
}
VOID ARAXCLOSE()
{
}
BOOL ARAXTXCHECK()
{
return 0;
}
#define DATABYTES 400000 // WAS 320000
extern UCHAR * NEXTFREEDATA; // ADDRESS OF NEXT FREE BYTE in shared memory
extern UCHAR DATAAREA[DATABYTES];
VOID AddVirtualKISSPort(struct TNCINFO * TNC, int ARDOPPort, char * buf)
{
// Adds a Virtual KISS port for simultaneous ARDOP and Packet on Teensy TNC
// or ARDOP_PTC ovet a single host mode port.
// Not needed if using TCP interface as that uses KISS over TCP
struct PORTCONTROL * PORTVEC=PORTTABLE;
struct PORTCONTROL * PORT;
int pl = sizeof(struct PORTCONTROL);
int mh = MHENTRIES * sizeof(MHSTRUC);
int space = (int)(&DATAAREA[DATABYTES] - NEXTFREEDATA);
char Msg[64];
unsigned char * ptr3;
unsigned int3;
int newPortNumber = 0;
if (TNC->ARDOPCommsMode == 'T') // TCP
return;
if (buf[12] == '=')
newPortNumber = atoi(&buf[13]);
if (space < (pl + mh))
{
WritetoConsoleLocal("Insufficient space to add ARDOP/Packet Port\n");
return;
}
while (PORTVEC->PORTPOINTER)
{
PORTVEC=PORTVEC->PORTPOINTER;
}
// PORTVEC is now last port in chain
ptr3 = NEXTFREEDATA;
PORT = (struct PORTCONTROL *)ptr3;
ptr3 += sizeof (struct PORTCONTROL);
// Round to word boundary (for ARM5 etc)
int3 = (int)ptr3;
int3 += 3;
int3 &= 0xfffffffc;
ptr3 = (UCHAR *)int3;
PORTVEC->PORTPOINTER = PORT; // Chain to previous last port
if (newPortNumber == 0)
newPortNumber = 32;;
if (GetPortTableEntryFromPortNum(newPortNumber))
{
// Number in use
// If user specified search up, if default search down
if (newPortNumber == 32)
while(newPortNumber && GetPortTableEntryFromPortNum(newPortNumber)) // Try next lower
newPortNumber--;
else
while(newPortNumber < 32 && GetPortTableEntryFromPortNum(newPortNumber)) // Try next highest
newPortNumber++;
}
if (newPortNumber == 0 || newPortNumber > 32)
{
WritetoConsoleLocal("No free Port Number to add ARDOP/Packet Port\n");
return;
}
NUMBEROFPORTS++;
PORT->PORTNUMBER = newPortNumber;
PORT->PortSlot = PORTVEC->PortSlot + 1;
sprintf(Msg, "Packet Port for ARDOP Port %d ", ARDOPPort);
memcpy(PORT->PORTDESCRIPTION, Msg, 30);
PORT->TNC = TNC;
TNC->VirtualPORT = PORT; // Link TNC and PORT both ways
PORT->PORTINITCODE = ARAXINIT;
PORT->PORTTIMERCODE = ARAXTIMER;
PORT->PORTRXROUTINE = ARAXRX;
PORT->PORTTXROUTINE = ARAXTX;
PORT->PORTCLOSECODE = ARAXCLOSE;
PORT->PORTTXCHECKCODE = ARAXTXCHECK;
// Default L2 Params
PORT->PORTN2 = 5;
PORT->PORTT1 = 5000/333; // FRACK 5 secs
// As we use IPoll we can set RESPTIME very long and FRACK short
PORT->PORTT2 = 20000/333; // RESPTIME
PORT->PORTPACLEN = 128;
PORT->PORTWINDOW = 1;
// ADD MH AREA IF NEEDED
NEEDMH = 1; // Include MH in Command List
PORT->PORTMHEARD = (PMHSTRUC)ptr3;
ptr3 += MHENTRIES * sizeof(MHSTRUC);
// Round to word boundary (for ARM5 etc)
int3 = (int)ptr3;
int3 += 3;
int3 &= 0xfffffffc;
ptr3 = (UCHAR *)int3;
NEXTFREEDATA = ptr3;
return;
}
int ConfigVirtualKISSPort(struct TNCINFO * TNC, char * Cmd)
{
struct PORTCONTROL * PORT = TNC->VirtualPORT;
void ** buffptr = GetBuff();
char * Context;
char * Param;
char * Command;
int Value;
int Stream = 0;
if (buffptr == NULL)
return 0;
if (PORT == NULL)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} Packet Mode nor Enabled\r");
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
return 0;
}
_strupr(Cmd);
Command = strtok_s(&Cmd[4], " \n\r", &Context);
Param = strtok_s(NULL, " \n\r", &Context);
if (Param)
Value = atoi(Param);
if (strcmp(Command, "PACLEN") == 0)
{
if (Param == NULL)
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} PAC %s %d\r", Command, PORT->PORTPACLEN);
else
{
if (Value > 0 && Value <= 256)
PORT->PORTPACLEN = Value;
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} PAC %s now %d\r", Command, PORT->PORTPACLEN);
}
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
return 0;
}
else if (strcmp(Command, "RETRIES") == 0)
{
if (Param == NULL)
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} PAC %s %d\r", Command, PORT->PORTN2);
else
{
if (Value > 0 && Value <= 16)
PORT->PORTN2 = Value;
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} PAC %s now %d\r", Command, PORT->PORTN2);
}
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
return 0;
}
else if (strcmp(Command, "WINDOW") == 0 || strcmp(Command, "MAXFRAME") == 0)
{
if (Param == NULL)
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} PAC %s %d\r", Command, PORT->PORTWINDOW);
else
{
if (Value > 0 && Value <= 7)
PORT->PORTWINDOW = Value;
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} PAC %s now %d\r", Command, PORT->PORTWINDOW);
}
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
return 0;
}
else if (strcmp(Command, "FRACK") == 0)
{
if (Param == NULL)
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} PAC %s %d mS\r", Command, PORT->PORTT1 * 333);
else
{
if (Value > 0 && Value <= 20000)
PORT->PORTT1 = Value / 333;
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} PAC %s now %d mS\r", Command, PORT->PORTT1 * 333);
}
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
return 0;
}
else if (strcmp(Command, "RESPTIME") == 0)
{
if (Param == NULL)
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} PAC %s %d mS\r", Command, PORT->PORTT2 * 333);
else
{
if (Value > 0 && Value <= 20000)
PORT->PORTT2 = Value / 333;
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} PAC %s now %d mS\r", Command, PORT->PORTT2 * 333);
}
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
return 0;
}
else
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "ARDOP} Invalid Command %s\r", Cmd);
C_Q_ADD(&TNC->Streams[Stream].PACTORtoBPQ_Q, buffptr);
return 0;
}
*/
void ProcessKISSBytes(struct TNCINFO * TNC, UCHAR * Data, int Len)
{
// Kiss data received from TNC but not necessarrily a full packet
// and could be multiple packets
// The TNC record is for the ARDOP Port, but we need to queue data
// to the linked Virtual Packet Port
struct PORTCONTROL * PORT = TNC->VirtualPORT;
UCHAR * KISSBuffer = TNC->KISSBuffer;
UCHAR c;
UCHAR * inptr = Data;
int outptr = TNC->KISSInputLen;
if (PORT == NULL)
return;
while(Len--)
{
c = *(inptr++);
if (TNC->ESCFLAG)
{
//
// FESC received - next should be TFESC or TFEND
TNC->ESCFLAG = FALSE;
if (c == TFESC)
c = FESC;
if (c == TFEND)
c = FEND;
}
else
{
switch (c)
{
case FEND:
//
// Either start of message or message complete
//
if (outptr == 0)
{
// Start of Message. If polling, extend timeout
continue;
}
ProcessKISSPacket(TNC, KISSBuffer, outptr);
outptr = 0;
return;
case FESC:
TNC->ESCFLAG = TRUE;
continue;
}
}
//
// Ok, a normal char
//
KISSBuffer[outptr++] = c;
}
if (outptr > 510)
outptr = 0; // Protect Buffer
TNC->KISSInputLen = outptr;
return;
}
void ProcessKISSPacket(struct TNCINFO * TNC, UCHAR * KISSBuffer, int Len)
{
if (KISSBuffer[0] == 0x0c) // ACK Frame
{
// ACK FRAME - reset link timer
struct _LINKTABLE * LINK;
UINT ACKWORD = KISSBuffer[1] | KISSBuffer[2] << 8;
LINK = LINKS + ACKWORD;
if (LINK->L2TIMER)
LINK->L2TIMER = LINK->L2TIME;
return;
}
if (KISSBuffer[0] == 0) // Data Frame
{
PDATAMESSAGE Buffer = (PDATAMESSAGE)GetBuff();
if (Buffer)
{
memcpy(&Buffer->PID, &KISSBuffer[1], --Len);
Len += sizeof(void *) + 3;
PutLengthinBuffer(Buffer, Len);
C_Q_ADD(&TNC->VirtualPORT->PORTRX_Q, (UINT *)Buffer);
}
}
}