linbpq/UZ7HODrv.c

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2022-08-28 09:35:46 +01:00
/*
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Copyright 2001-2022 John Wiseman G8BPQ
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This file is part of LinBPQ/BPQ32.
LinBPQ/BPQ32 is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
LinBPQ/BPQ32 is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with LinBPQ/BPQ32. If not, see http://www.gnu.org/licenses
*/
//
// DLL to provide interface to allow G8BPQ switch to use UZ7HOPE as a Port Driver
//
// Uses BPQ EXTERNAL interface
//
// Interlock and scanning with UZ7HO driver.
// A UZ7HO port can be used in much the same way as any other HF port, so that it only allows one connect at
// a time and takes part in Interlock and Scan Control proessing. But it can also be used as a multisession
// driver so it does need special treatment.
#define _CRT_SECURE_NO_DEPRECATE
#define _CRT_SECURE_NO_DEPRECATE
#include <stdio.h>
#include <time.h>
#include "CHeaders.h"
#include "tncinfo.h"
#include "bpq32.h"
#define VERSION_MAJOR 2
#define VERSION_MINOR 0
#define SD_RECEIVE 0x00
#define SD_SEND 0x01
#define SD_BOTH 0x02
#define TIMESTAMP 352
#define CONTIMEOUT 1200
#define AGWHDDRLEN sizeof(struct AGWHEADER)
extern int (WINAPI FAR *GetModuleFileNameExPtr)();
void ConnecttoUZ7HOThread(void * portptr);
void CreateMHWindow();
int Update_MH_List(struct in_addr ipad, char * call, char proto);
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int ConnecttoUZ7HO(int port);
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static int ProcessReceivedData(int bpqport);
static int ProcessLine(char * buf, int Port);
int KillTNC(struct TNCINFO * TNC);
int RestartTNC(struct TNCINFO * TNC);
VOID ProcessAGWPacket(struct TNCINFO * TNC, UCHAR * Message);
struct TNCINFO * GetSessionKey(char * key, struct TNCINFO * TNC);
static VOID SendData(int Stream, struct TNCINFO * TNC, char * key, char * Msg, int MsgLen);
static VOID DoMonitorHddr(struct TNCINFO * TNC, struct AGWHEADER * RXHeader, UCHAR * Msg);
VOID SendRPBeacon(struct TNCINFO * TNC);
VOID MHPROC(struct PORTCONTROL * PORT, MESSAGE * Buffer);
VOID SuspendOtherPorts(struct TNCINFO * ThisTNC);
VOID ReleaseOtherPorts(struct TNCINFO * ThisTNC);
int DoScanLine(struct TNCINFO * TNC, char * Buff, int Len);
int standardParams(struct TNCINFO * TNC, char * buf);
extern UCHAR BPQDirectory[];
#define MAXUZ7HOPORTS 16
static char ClassName[]="ARDOPSTATUS";
static char WindowTitle[] = "UZ7HO";
static int RigControlRow = 165;
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char FX25Modes[8][8] = {"None", "RxOnly", "RX+TX"};
char IL2PModes[8][10] = {"None", "RxOnly", "RX+TX", "il2pOnly"};
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//LOGFONT LFTTYFONT ;
//HFONT hFont ;
static int UZ7HOChannel[MAXBPQPORTS+1]; // BPQ Port to UZ7HO Port
static int BPQPort[MAXUZ7HOPORTS][MAXBPQPORTS+1]; // UZ7HO Port and Connection to BPQ Port
static void * UZ7HOtoBPQ_Q[MAXBPQPORTS+1]; // Frames for BPQ, indexed by BPQ Port
static void * BPQtoUZ7HO_Q[MAXBPQPORTS+1]; // Frames for UZ7HO. indexed by UZ7HO port. Only used it TCP session is blocked
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int MasterPort[MAXBPQPORTS+1]; // Pointer to first BPQ port for a specific UZ7HO host
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static struct TNCINFO * SlaveTNC[MAXBPQPORTS+1];// TNC Record Slave if present
// Each port may be on a different machine. We only open one connection to each UZ7HO instance
static char * UZ7HOSignon[MAXBPQPORTS+1]; // Pointer to message for secure signin
static unsigned int UZ7HOInst = 0;
static int AttachedProcesses=0;
static HWND hResWnd,hMHWnd;
static BOOL GotMsg;
static HANDLE STDOUT=0;
//SOCKET sock;
static struct sockaddr_in sinx;
static struct sockaddr_in rxaddr;
static struct sockaddr_in destaddr[MAXBPQPORTS+1];
static int addrlen=sizeof(sinx);
//static short UZ7HOPort=0;
static time_t ltime,lasttime[MAXBPQPORTS+1];
static BOOL CONNECTING[MAXBPQPORTS+1];
static BOOL CONNECTED[MAXBPQPORTS+1];
//HANDLE hInstance;
static fd_set readfs;
static fd_set writefs;
static fd_set errorfs;
static struct timeval timeout;
unsigned int reverse(unsigned int val)
{
char x[4];
char y[4];
memcpy(x, &val,4);
y[0] = x[3];
y[1] = x[2];
y[2] = x[1];
y[3] = x[0];
memcpy(&val, y, 4);
return val;
}
#ifndef LINBPQ
static BOOL CALLBACK EnumTNCWindowsProc(HWND hwnd, LPARAM lParam)
{
char wtext[100];
struct TNCINFO * TNC = (struct TNCINFO *)lParam;
UINT ProcessId;
char FN[MAX_PATH] = "";
HANDLE hProc;
if (TNC->ProgramPath == NULL)
return FALSE;
GetWindowText(hwnd,wtext,99);
if (strstr(wtext,"SoundModem"))
{
GetWindowThreadProcessId(hwnd, &ProcessId);
if (TNC->PID == ProcessId)
{
// Our Process
hProc = OpenProcess(PROCESS_TERMINATE | PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE, ProcessId);
if (hProc && GetModuleFileNameExPtr)
{
GetModuleFileNameExPtr(hProc, NULL, FN, MAX_PATH);
// Make sure this is the right copy
CloseHandle(hProc);
if (_stricmp(FN, TNC->ProgramPath))
return TRUE; //Wrong Copy
}
TNC->PID = ProcessId;
sprintf (wtext, "Soundmodem - BPQ %s", TNC->PortRecord->PORTCONTROL.PORTDESCRIPTION);
SetWindowText(hwnd, wtext);
return FALSE;
}
}
return (TRUE);
}
#endif
void RegisterAPPLCalls(struct TNCINFO * TNC, BOOL Unregister)
{
// Register/Deregister Nodecall and all applcalls
struct AGWINFO * AGW;
APPLCALLS * APPL;
char * ApplPtr = APPLS;
int App;
char Appl[10];
char * ptr;
char NodeCall[11];
memcpy(NodeCall, MYNODECALL, 10);
strlop(NodeCall, ' ');
AGW = TNC->AGWInfo;
AGW->TXHeader.Port=0;
AGW->TXHeader.DataLength=0;
if (Unregister)
AGW->TXHeader.DataKind = 'x'; // UnRegister
else
AGW->TXHeader.DataKind = 'X'; // Register
memset(AGW->TXHeader.callfrom, 0, 10);
strcpy(AGW->TXHeader.callfrom, TNC->NodeCall);
send(TNC->TCPSock,(const char FAR *)&AGW->TXHeader,AGWHDDRLEN,0);
memset(AGW->TXHeader.callfrom, 0, 10);
strcpy(AGW->TXHeader.callfrom, NodeCall);
send(TNC->TCPSock,(const char FAR *)&AGW->TXHeader,AGWHDDRLEN,0);
// Add Alias
memcpy(NodeCall, MYALIASTEXT, 10);
strlop(NodeCall, ' ');
memset(AGW->TXHeader.callfrom, 0, 10);
strcpy(AGW->TXHeader.callfrom, NodeCall);
send(TNC->TCPSock,(const char FAR *)&AGW->TXHeader,AGWHDDRLEN,0);
for (App = 0; App < 32; App++)
{
APPL=&APPLCALLTABLE[App];
memcpy(Appl, APPL->APPLCALL_TEXT, 10);
ptr=strchr(Appl, ' ');
if (ptr)
*ptr = 0;
if (Appl[0])
{
memset(AGW->TXHeader.callfrom, 0, 10);
strcpy(AGW->TXHeader.callfrom, Appl);
send(TNC->TCPSock,(const char FAR *)&AGW->TXHeader,AGWHDDRLEN,0);
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memcpy(Appl, APPL->APPLALIAS_TEXT, 10);
ptr=strchr(Appl, ' ');
if (ptr)
*ptr = 0;
if (Appl[0])
{
memset(AGW->TXHeader.callfrom, 0, 10);
strcpy(AGW->TXHeader.callfrom, Appl);
send(TNC->TCPSock,(const char FAR *)&AGW->TXHeader,AGWHDDRLEN,0);
}
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}
}
}
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BOOL UZ7HOStopPort(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;
KillTNC(TNC);
sprintf(PORT->TNC->WEB_COMMSSTATE, "%s", "Port Stopped");
MySetWindowText(PORT->TNC->xIDC_COMMSSTATE, PORT->TNC->WEB_COMMSSTATE);
return TRUE;
}
int ConnecttoUZ7HO(int port);
BOOL UZ7HOStartPort(struct PORTCONTROL * PORT)
{
// Restart Port - Open Sockets or Serial Port
struct TNCINFO * TNC = PORT->TNC;
ConnecttoUZ7HO(TNC->Port);
TNC->lasttime = time(NULL);;
sprintf(PORT->TNC->WEB_COMMSSTATE, "%s", "Port Restarted");
MySetWindowText(PORT->TNC->xIDC_COMMSSTATE, PORT->TNC->WEB_COMMSSTATE);
return TRUE;
}
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VOID UZ7HOSuspendPort(struct TNCINFO * TNC, struct TNCINFO * ThisTNC)
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{
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// We don't want to suspend port if on same TNC
if (MasterPort[TNC->Port] == MasterPort[ThisTNC->Port])
return;
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TNC->PortRecord->PORTCONTROL.PortSuspended = TRUE;
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strcpy(TNC->WEB_TNCSTATE, "Interlocked");
MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE);
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RegisterAPPLCalls(TNC, TRUE);
}
VOID UZ7HOReleasePort(struct TNCINFO * TNC)
{
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TNC->PortRecord->PORTCONTROL.PortSuspended = FALSE;
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strcpy(TNC->WEB_TNCSTATE, "Free");
MySetWindowText(TNC->xIDC_TNCSTATE, TNC->WEB_TNCSTATE);
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RegisterAPPLCalls(TNC, FALSE);
}
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int UZ7HOSetFreq(int port, struct TNCINFO * TNC, struct AGWINFO * AGW, PDATAMESSAGE buff, PMSGWITHLEN buffptr)
{
int txlen = GetLengthfromBuffer(buff) - (MSGHDDRLEN + 1);
// May be read or set frequency
if (txlen == 5)
{
// Read Freq
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buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Modem Frequency %d\r", AGW->CenterFreq);
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return 1;
}
AGW->CenterFreq = atoi(&buff->L2DATA[5]);
if (AGW->CenterFreq == 0)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Invalid Modem Freqency\r");
return 1;
}
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if (TNCInfo[MasterPort[port]]->AGWInfo->isQTSM >= 3)
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{
// QtSM so can send Set Freq Command
char Buffer[32] = "";
int MsgLen = 32;
memcpy(Buffer, &AGW->CenterFreq, 4);
AGW->TXHeader.Port = UZ7HOChannel[port];
AGW->TXHeader.DataKind = 'g';
memset(AGW->TXHeader.callfrom, 0, 10);
memset(AGW->TXHeader.callto, 0, 10);
#ifdef __BIG_ENDIAN__
AGW->TXHeader.DataLength = reverse(MsgLen);
#else
AGW->TXHeader.DataLength = MsgLen;
#endif
send(TNCInfo[MasterPort[port]]->TCPSock, (char *)&AGW->TXHeader, AGWHDDRLEN, 0);
send(TNCInfo[MasterPort[port]]->TCPSock, Buffer, MsgLen, 0);
}
#ifdef WIN32
else if (AGW->hFreq)
{
//Using real UZ7HO on Windows
char Freq[16];
sprintf(Freq, "%d", AGW->CenterFreq - 1);
SendMessage(AGW->hFreq, WM_SETTEXT, 0, (LPARAM)Freq);
SendMessage(AGW->hSpin, WM_LBUTTONDOWN, 1, 1);
SendMessage(AGW->hSpin, WM_LBUTTONUP, 0, 1);
}
#endif
else
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Sorry Setting UZ7HO params not supported on this system\r");
return 1;
}
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Modem Freq Set Ok\r");
return 1;
}
int UZ7HOSetModem(int port, struct TNCINFO * TNC, struct AGWINFO * AGW, PDATAMESSAGE buff, PMSGWITHLEN buffptr )
{
int txlen = GetLengthfromBuffer(buff) - (MSGHDDRLEN + 1);
if (txlen == 6)
{
// Read Modem
if (AGW->ModemName[0])
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Modem %s\r", AGW->ModemName);
else
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Modem Number %d\r", AGW->Modem);
return 1;
}
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else if (TNCInfo[MasterPort[port]]->AGWInfo->isQTSM >= 3)
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{
// Can send modem name to QTSM
char Buffer[32] = "";
int MsgLen = 32;
strlop(buff->L2DATA, '\r');
strlop(buff->L2DATA, '\n');
if (strlen(&buff->L2DATA[6]) > 20)
buff->L2DATA[26] = 0;
strcpy(&Buffer[4], &buff->L2DATA[6]);
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Buffer[27] = 1; // Modem can set modem flags
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AGW->TXHeader.Port = UZ7HOChannel[port];
AGW->TXHeader.DataKind = 'g';
memset(AGW->TXHeader.callfrom, 0, 10);
memset(AGW->TXHeader.callto, 0, 10);
#ifdef __BIG_ENDIAN__
AGW->TXHeader.DataLength = reverse(MsgLen);
#else
AGW->TXHeader.DataLength = MsgLen;
#endif
send(TNCInfo[MasterPort[port]]->TCPSock, (char *)&AGW->TXHeader, AGWHDDRLEN, 0);
send(TNCInfo[MasterPort[port]]->TCPSock, Buffer, MsgLen, 0);
}
#ifdef WIN32
else if (AGW->cbinfo.cbSize)
{
// Real QTSM on Windows
AGW->Modem = atoi(&buff->L2DATA[6]);
if (AGW->cbinfo.cbSize && AGW->cbinfo.hwndCombo)
{
// Set it
LRESULT ret = SendMessage(AGW->cbinfo.hwndCombo, CB_SETCURSEL, AGW->Modem, 0);
int pos = 13 * AGW->Modem + 7;
ret = SendMessage(AGW->cbinfo.hwndCombo, WM_LBUTTONDOWN, 1, 1);
ret = SendMessage(AGW->cbinfo.hwndCombo, WM_LBUTTONUP, 0, 1);
ret = SendMessage(AGW->cbinfo.hwndList, WM_LBUTTONDOWN, 1, pos << 16);
ret = SendMessage(AGW->cbinfo.hwndList, WM_LBUTTONUP, 0, pos << 16);
ret = 0;
}
}
#endif
else
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Sorry Setting UZ7HO params not supported this system\r");
return 1;
}
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Modem Set Ok\r");
return 1;
}
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int UZ7HOSetFlags(int port, struct TNCINFO * TNC, struct AGWINFO * AGW, PDATAMESSAGE buff, PMSGWITHLEN buffptr)
{
int txlen = GetLengthfromBuffer(buff) - (MSGHDDRLEN + 1);
char Buffer[32] = "";
int MsgLen = 32;
char * ptr, * context;
int i;
if (TNCInfo[MasterPort[port]]->AGWInfo->isQTSM != 7)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Sorry Setting UZ7HO flags not supported on this modem\r");
return 1;
}
// May be read or set flags
if (txlen == 6)
{
// Read Flags
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} fx25 %s il2p %s %s\r",
FX25Modes[TNC->AGWInfo->fx25Flags], IL2PModes[TNC->AGWInfo->il2pFlags], TNC->AGWInfo->il2pcrc?"CRC":"");
return 1;
}
ptr = strtok_s(&buff->L2DATA[6], " ,\r", &context);
while (ptr && ptr[0])
{
if (_stricmp(ptr, "fx25") == 0)
{
ptr = strtok_s(NULL, " ,\r", &context);
i = 4;
if (ptr && ptr[0])
{
for (i = 0; i < 4; i++)
{
if (_stricmp(FX25Modes[i], ptr) == 0)
{
TNC->AGWInfo->fx25Flags = i;
break;
}
}
}
if (i == 4)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Failed - fx25 flags invalid\r");
return 1;
}
}
else if (_stricmp(ptr, "il2p") == 0)
{
ptr = strtok_s(NULL, " ,\r", &context);
i = 4;
if (ptr && ptr[0])
{
for (i = 0; i < 4; i++)
{
if (_stricmp(IL2PModes[i], ptr) == 0)
{
TNC->AGWInfo->il2pFlags = i;
break;
}
}
}
if (i == 4)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Failed - il2p flags invalid\r");
return 1;
}
}
else if (_stricmp(ptr, "crc") == 0)
TNC->AGWInfo->il2pcrc = 1;
else if (_stricmp(ptr, "nocrc") == 0)
TNC->AGWInfo->il2pcrc = 0;
else
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Failed - invalid flag %s\r", ptr);
return 1;
}
ptr = strtok_s(NULL, " ,\r", &context);
}
Buffer[27] = 2; // Set Flags
Buffer[28] = TNC->AGWInfo->fx25Flags;
Buffer[29] = TNC->AGWInfo->il2pFlags;
Buffer[30] = TNC->AGWInfo->il2pcrc;
AGW->TXHeader.Port = UZ7HOChannel[port];
AGW->TXHeader.DataKind = 'g';
memset(AGW->TXHeader.callfrom, 0, 10);
memset(AGW->TXHeader.callto, 0, 10);
#ifdef __BIG_ENDIAN__
AGW->TXHeader.DataLength = reverse(MsgLen);
#else
AGW->TXHeader.DataLength = MsgLen;
#endif
send(TNCInfo[MasterPort[port]]->TCPSock, (char *)&AGW->TXHeader, AGWHDDRLEN, 0);
send(TNCInfo[MasterPort[port]]->TCPSock, Buffer, MsgLen, 0);
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Set Modem Flags command sent Ok\r");
return 1;
}
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static size_t ExtProc(int fn, int port, PDATAMESSAGE buff)
{
PMSGWITHLEN buffptr;
char txbuff[500];
unsigned int bytes,txlen=0;
struct TNCINFO * TNC = TNCInfo[port];
struct AGWINFO * AGW;
int Stream = 0;
struct STREAMINFO * STREAM;
int TNCOK;
if (TNC == NULL)
return 0; // Port not defined
AGW = TNC->AGWInfo;
// Look for attach on any call
for (Stream = 0; Stream <= TNC->AGWInfo->MaxSessions; Stream++)
{
STREAM = &TNC->Streams[Stream];
if (TNC->PortRecord->ATTACHEDSESSIONS[Stream] && TNC->Streams[Stream].Attached == 0)
{
char Cmd[80];
// New Attach
int calllen;
STREAM->Attached = TRUE;
TNC->PortRecord->ATTACHEDSESSIONS[Stream]->L4USER[6] |= 0x60; // Ensure P or T aren't used on ax.25
calllen = ConvFromAX25(TNC->PortRecord->ATTACHEDSESSIONS[Stream]->L4USER, STREAM->MyCall);
STREAM->MyCall[calllen] = 0;
STREAM->FramesOutstanding = 0;
// Stop Scanning
sprintf(Cmd, "%d SCANSTOP", TNC->Port);
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Rig_Command( (TRANSPORTENTRY *) -1, Cmd);
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SuspendOtherPorts(TNC); // Prevent connects on other ports in same scan gruop
}
}
switch (fn)
{
case 1: // poll
if (MasterPort[port] == port)
{
// Only on first port using a host
time(&ltime);
if (TNC->CONNECTED == FALSE && TNC->CONNECTING == FALSE)
{
// See if time to reconnect
if (ltime - lasttime[port] > 9)
{
ConnecttoUZ7HO(port);
lasttime[port] = ltime;
}
}
else
{
// See if time to refresh registrations
if (TNC->CONNECTED)
{
if (ltime - AGW->LastParamTime > 60)
{
AGW->LastParamTime = ltime;
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if (TNC->PortRecord->PORTCONTROL.PortSuspended == FALSE)
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RegisterAPPLCalls(TNC, FALSE);
}
}
}
FD_ZERO(&readfs);
if (TNC->CONNECTED) FD_SET(TNC->TCPSock, &readfs);
FD_ZERO(&writefs);
if (TNC->CONNECTING) FD_SET(TNC->TCPSock, &writefs); // Need notification of Connect
if (TNC->BPQtoWINMOR_Q) FD_SET(TNC->TCPSock, &writefs); // Need notification of busy clearing
FD_ZERO(&errorfs);
if (TNC->CONNECTING || TNC->CONNECTED) FD_SET(TNC->TCPSock, &errorfs);
timeout.tv_sec = 0;
timeout.tv_usec = 0;
if (select((int)TNC->TCPSock + 1, &readfs, &writefs, &errorfs, &timeout) > 0)
{
// See what happened
if (FD_ISSET(TNC->TCPSock, &readfs))
{
// data available
ProcessReceivedData(port);
}
if (FD_ISSET(TNC->TCPSock, &writefs))
{
if (BPQtoUZ7HO_Q[port] == 0)
{
APPLCALLS * APPL;
char * ApplPtr = APPLS;
int App;
char Appl[10];
char * ptr;
char NodeCall[11];
memcpy(NodeCall, MYNODECALL, 10);
strlop(NodeCall, ' ');
// Connect success
TNC->CONNECTED = TRUE;
TNC->CONNECTING = FALSE;
sprintf(TNC->WEB_COMMSSTATE, "Connected to TNC");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
// If required, send signon
if (UZ7HOSignon[port])
send(TNC->TCPSock, UZ7HOSignon[port], 546, 0);
// Request Raw Frames
AGW->TXHeader.Port = 0;
AGW->TXHeader.DataKind = 'k'; // Raw Frames
AGW->TXHeader.DataLength = 0;
send(TNC->TCPSock, (const char FAR *)&AGW->TXHeader, AGWHDDRLEN, 0);
AGW->TXHeader.DataKind = 'm'; // Monitor Frames
send(TNC->TCPSock, (const char FAR *)&AGW->TXHeader, AGWHDDRLEN, 0);
AGW->TXHeader.DataKind = 'R'; // Version
send(TNC->TCPSock, (const char FAR *)&AGW->TXHeader, AGWHDDRLEN, 0);
AGW->TXHeader.DataKind = 'g'; // Port Capabilities
send(TNC->TCPSock, (const char FAR *)&AGW->TXHeader, AGWHDDRLEN, 0);
// Register all applcalls
AGW->TXHeader.DataKind = 'X'; // Register
memset(AGW->TXHeader.callfrom, 0, 10);
strcpy(AGW->TXHeader.callfrom, TNC->NodeCall);
send(TNC->TCPSock, (const char FAR *)&AGW->TXHeader, AGWHDDRLEN, 0);
memset(AGW->TXHeader.callfrom, 0, 10);
strcpy(AGW->TXHeader.callfrom, NodeCall);
send(TNC->TCPSock, (const char FAR *)&AGW->TXHeader, AGWHDDRLEN, 0);
for (App = 0; App < 32; App++)
{
APPL = &APPLCALLTABLE[App];
memcpy(Appl, APPL->APPLCALL_TEXT, 10);
ptr = strchr(Appl, ' ');
if (ptr)
*ptr = 0;
if (Appl[0])
{
memset(AGW->TXHeader.callfrom, 0, 10);
strcpy(AGW->TXHeader.callfrom, Appl);
send(TNC->TCPSock, (const char FAR *)&AGW->TXHeader, AGWHDDRLEN, 0);
}
}
#ifndef LINBPQ
EnumWindows(EnumTNCWindowsProc, (LPARAM)TNC);
#endif
}
else
{
// Write block has cleared. Send rest of packet
buffptr = Q_REM(&BPQtoUZ7HO_Q[port]);
txlen = (int)buffptr->Len;
memcpy(txbuff, buffptr->Data, txlen);
bytes = send(TNC->TCPSock, (const char FAR *)&txbuff, txlen, 0);
ReleaseBuffer(buffptr);
}
}
if (FD_ISSET(TNC->TCPSock, &errorfs))
{
// if connecting, then failed, if connected then has just disconnected
// if (CONNECTED[port])
// if (!CONNECTING[port])
// {
// i=sprintf(ErrMsg, "UZ7HO Connection lost for BPQ Port %d\r\n", port);
// WritetoConsole(ErrMsg);
// }
CONNECTING[port] = FALSE;
CONNECTED[port] = FALSE;
}
}
}
// See if any frames for this port
for (Stream = 0; Stream <= TNC->AGWInfo->MaxSessions; Stream++)
{
STREAM = &TNC->Streams[Stream];
// Have to time out connects, as TNC doesn't report failure
if (STREAM->Connecting)
{
STREAM->Connecting--;
if (STREAM->Connecting == 0)
{
// Report Connect Failed, and drop back to command mode
buffptr = GetBuff();
if (buffptr)
{
buffptr->Len = sprintf(buffptr->Data, "UZ7HO} Failure with %s\r", STREAM->RemoteCall);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
}
STREAM->Connected = FALSE; // Back to Command Mode
STREAM->DiscWhenAllSent = 10;
// Send Disc to TNC
TidyClose(TNC, Stream);
}
}
if (STREAM->Attached)
CheckForDetach(TNC, Stream, STREAM, TidyClose, ForcedClose, CloseComplete);
if (STREAM->ReportDISC)
{
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hookL4SessionDeleted(TNC, STREAM);
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STREAM->ReportDISC = FALSE;
buff->PORT = Stream;
return -1;
}
// if Busy, send buffer status poll
if (STREAM->Connected && STREAM->FramesOutstanding)
{
struct AGWINFO * AGW = TNC->AGWInfo;
AGW->PollDelay++;
if (AGW->PollDelay > 10)
{
char * Key = &STREAM->AGWKey[0];
AGW->PollDelay = 0;
AGW->TXHeader.Port = Key[0] - '1';
AGW->TXHeader.DataKind = 'Y';
strcpy(AGW->TXHeader.callfrom, &Key[11]);
strcpy(AGW->TXHeader.callto, &Key[1]);
AGW->TXHeader.DataLength = 0;
send(TNCInfo[MasterPort[port]]->TCPSock, (char *)&AGW->TXHeader, AGWHDDRLEN, 0);
}
}
if (STREAM->PACTORtoBPQ_Q == 0)
{
if (STREAM->DiscWhenAllSent)
{
STREAM->DiscWhenAllSent--;
if (STREAM->DiscWhenAllSent == 0)
STREAM->ReportDISC = TRUE; // Dont want to leave session attached. Causes too much confusion
}
}
else
{
int datalen;
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 (TNC->PortRecord->UI_Q)
{
struct AGWINFO * AGW = TNC->AGWInfo;
int MsgLen;
struct _MESSAGE * buffptr;
char * Buffer;
SOCKET Sock;
buffptr = Q_REM(&TNC->PortRecord->UI_Q);
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if (TNC->PortRecord->PORTCONTROL.PortSuspended == TRUE) // Interlock Disabled Port
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{
ReleaseBuffer((UINT *)buffptr);
return (0);
}
Sock = TNCInfo[MasterPort[port]]->TCPSock;
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MsgLen = buffptr->LENGTH - (MSGHDDRLEN - 1); // Need extra Null
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buffptr->LENGTH = 0; // Need a NULL on front
Buffer = &buffptr->DEST[0]; // Raw Frame
Buffer--; // Need to send an extra byte on front
AGW->TXHeader.Port = UZ7HOChannel[port];
AGW->TXHeader.DataKind = 'K';
memset(AGW->TXHeader.callfrom, 0, 10);
memset(AGW->TXHeader.callto, 0, 10);
#ifdef __BIG_ENDIAN__
AGW->TXHeader.DataLength = reverse(MsgLen);
#else
AGW->TXHeader.DataLength = MsgLen;
#endif
send(Sock, (char *)&AGW->TXHeader, AGWHDDRLEN, 0);
send(Sock, Buffer, MsgLen, 0);
ReleaseBuffer((UINT *)buffptr);
}
return (0);
case 2: // send
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if (TNC->PortRecord->PORTCONTROL.PortSuspended == TRUE) // Interlock Disabled Port
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return 0;
if (!TNCInfo[MasterPort[port]]->CONNECTED) return 0; // Don't try if not connected to TNC
Stream = buff->PORT;
STREAM = &TNC->Streams[Stream];
AGW = TNC->AGWInfo;
txlen = GetLengthfromBuffer(buff) - (MSGHDDRLEN + 1); // 1 as no PID
if (STREAM->Connected)
{
SendData(Stream, TNC, &STREAM->AGWKey[0], &buff->L2DATA[0], txlen);
STREAM->FramesOutstanding++;
}
else
{
if (_memicmp(&buff->L2DATA[0], "D\r", 2) == 0)
{
TidyClose(TNC, buff->PORT);
STREAM->ReportDISC = TRUE; // Tell Node
return 0;
}
if (STREAM->Connecting)
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(&STREAM->PACTORtoBPQ_Q, buffptr);
}
return 1;
}
if (_memicmp(&buff->L2DATA[0], "INUSE?", 6) == 0)
{
// Return Error if in use, OK if not
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
int s = 0;
while (s <= TNC->AGWInfo->MaxSessions)
{
if (s != Stream)
{
if (TNC->PortRecord->ATTACHEDSESSIONS[s])
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Error - In use\r");
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
return 1; // Busy
}
}
s++;
}
if (buffptr)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Ok - Not in use\r");
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
}
return 1;
}
if (_memicmp(&buff->L2DATA[0], "VERSION", 7) == 0)
{
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0], "UZ7HO} Version %d.%d.%d.%d\r",
AGW->Version[0], AGW->Version[1], AGW->Version[2], AGW->Version[3]);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
return 1;
}
if (_memicmp(&buff->L2DATA[0], "FREQ", 4) == 0)
{
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr)
{
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UZ7HOSetFreq(port, TNC, AGW, buff, buffptr);
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C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
}
return 1;
}
if (_memicmp(&buff->L2DATA[0], "MODEM", 5) == 0)
{
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr)
{
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UZ7HOSetModem(port, TNC, AGW, buff, buffptr);
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C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
}
return 1;
}
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if (_memicmp(&buff->L2DATA[0], "FLAGS", 5) == 0)
{
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr)
{
UZ7HOSetFlags(port, TNC, AGW, buff, buffptr);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
}
return 1;
}
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// See if a Connect Command.
if (toupper(buff->L2DATA[0]) == 'C' && buff->L2DATA[1] == ' ' && txlen > 2) // Connect
{
struct AGWINFO * AGW = TNC->AGWInfo;
char ViaList[82] = "";
int Digis = 0;
char * viaptr;
char * ptr;
char * context;
int S;
struct STREAMINFO * TSTREAM;
char Key[21];
int sent = 0;
buff->L2DATA[txlen] = 0;
_strupr(&buff->L2DATA[0]);
memset(STREAM->RemoteCall, 0, 10);
// See if any digis - accept V VIA or nothing, seps space or comma
ptr = strtok_s(&buff->L2DATA[2], " ,\r", &context);
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if (ptr == 0)
{
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0],
"UZ7HO} Error - Call missing from C command\r", STREAM->MyCall, STREAM->RemoteCall);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
}
STREAM->DiscWhenAllSent = 10;
return 0;
}
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if (*ptr == '!')
ptr++;
strcpy(STREAM->RemoteCall, ptr);
Key[0] = UZ7HOChannel[port] + '1';
memset(&Key[1], 0, 20);
strcpy(&Key[11], STREAM->MyCall);
strcpy(&Key[1], ptr);
// Make sure we don't already have a session for this station
S = 0;
while (S <= AGW->MaxSessions)
{
TSTREAM = &TNC->Streams[S];
if (memcmp(TSTREAM->AGWKey, Key, 21) == 0)
{
// Found it;
PMSGWITHLEN buffptr = (PMSGWITHLEN)GetBuff();
if (buffptr)
{
buffptr->Len = sprintf((UCHAR *)&buffptr->Data[0],
"UZ7HO} Sorry - Session between %s and %s already Exists\r", STREAM->MyCall, STREAM->RemoteCall);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
}
STREAM->DiscWhenAllSent = 10;
return 0;
}
S++;
}
// Not Found
memcpy(&STREAM->AGWKey[0], &Key[0], 21);
AGW->TXHeader.Port = UZ7HOChannel[port];
AGW->TXHeader.DataKind = 'C';
memcpy(AGW->TXHeader.callfrom, &STREAM->AGWKey[11], 10);
memcpy(AGW->TXHeader.callto, &STREAM->AGWKey[1], 10);
AGW->TXHeader.DataLength = 0;
ptr = strtok_s(NULL, " ,\r", &context);
if (ptr)
{
// we have digis
viaptr = &ViaList[1];
if (strcmp(ptr, "V") == 0 || strcmp(ptr, "VIA") == 0)
ptr = strtok_s(NULL, " ,\r", &context);
while (ptr)
{
strcpy(viaptr, ptr);
Digis++;
viaptr += 10;
ptr = strtok_s(NULL, " ,\r", &context);
}
#ifdef __BIG_ENDIAN__
AGW->TXHeader.DataLength = reverse(Digis * 10 + 1);
#else
AGW->TXHeader.DataLength = Digis * 10 + 1;
#endif
AGW->TXHeader.DataKind = 'v';
ViaList[0] = Digis;
}
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hookL4SessionAttempt(STREAM,&STREAM->AGWKey[1], &STREAM->AGWKey[11]);
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sent = send(TNCInfo[MasterPort[port]]->TCPSock, (char *)&AGW->TXHeader, AGWHDDRLEN, 0);
if (Digis)
send(TNCInfo[MasterPort[port]]->TCPSock, ViaList, Digis * 10 + 1, 0);
STREAM->Connecting = TNC->AGWInfo->ConnTimeOut; // It doesn't report failure
// sprintf(Status, "%s Connecting to %s", TNC->Streams[0].MyCall, TNC->Streams[0].RemoteCall);
// SetDlgItemText(TNC->hDlg, IDC_TNCSTATE, Status);
}
}
return (0);
case 3:
Stream = (int)(size_t)buff;
TNCOK = TNCInfo[MasterPort[port]]->CONNECTED;
STREAM = &TNC->Streams[Stream];
if (STREAM->FramesOutstanding > 8)
return (1 | TNCOK << 8 | STREAM->Disconnecting << 15);
return TNCOK << 8 | STREAM->Disconnecting << 15; // OK, but lock attach if disconnecting
break;
case 4: // reinit
shutdown(TNC->TCPSock, SD_BOTH);
Sleep(100);
closesocket(TNC->TCPSock);
TNC->CONNECTED = FALSE;
TNC->Alerted = FALSE;
sprintf(TNC->WEB_COMMSSTATE, "Disconnected from TNC");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
if (TNC->WeStartedTNC)
{
KillTNC(TNC);
RestartTNC(TNC);
}
return (0);
case 5: // Close
shutdown(TNC->TCPSock, SD_BOTH);
Sleep(100);
closesocket(TNC->TCPSock);
if (TNC->WeStartedTNC)
{
KillTNC(TNC);
}
return 0;
}
return 0;
}
extern char sliderBit[];
extern char WebProcTemplate[];
static int WebProc(struct TNCINFO * TNC, char * Buff, BOOL LOCAL)
{
/*
int Len = sprintf(Buff, "<html><meta http-equiv=expires content=0><meta http-equiv=refresh content=15>"
"<script type=\"text/javascript\">\r\n"
"function ScrollOutput()\r\n"
"{var textarea = document.getElementById('textarea');"
"textarea.scrollTop = textarea.scrollHeight;}"
"myInt = setInterval('Refresh()', 15000 );\n"
"function Refresh( )\n"
"{location.reload()}\n"
"</script>"
"</head><title>UZ7HO Status</title></head><body id=Text onload=\"ScrollOutput()\">"
"<h2><form method=post target=\"POPUPW\" onsubmit=\"POPUPW = window.open('about:blank','POPUPW',"
"'width=440,height=150');\" action=ARDOPAbort?%d>UZ7HO Status"
"<input name=Save value=\"Abort Session\" type=submit style=\"position: absolute; right: 10;top:10;\"></form></h2>",
TNC->Port);
*/
int Len = sprintf(Buff, WebProcTemplate, TNC->Port, TNC->Port, "UZ7HO Status", "UZ7HO 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>Modem</td><td>%s</td></tr>", TNC->WEB_MODE);
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 * UZ7HOExtInit(EXTPORTDATA * PortEntry)
{
int i, port;
char Msg[255];
struct TNCINFO * TNC;
char * ptr;
//
// Will be called once for each UZ7HO port to be mapped to a BPQ Port
// The UZ7HO port number is in CHANNEL - A=0, B=1 etc
//
// 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;
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;
TNC->SuspendPortProc = UZ7HOSuspendPort;
TNC->ReleasePortProc = UZ7HOReleasePort;
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PortEntry->PORTCONTROL.PORTSTARTCODE = UZ7HOStartPort;
PortEntry->PORTCONTROL.PORTSTOPCODE = UZ7HOStopPort;
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PortEntry->PORTCONTROL.PROTOCOL = 10;
PortEntry->PORTCONTROL.UICAPABLE = 1;
PortEntry->PORTCONTROL.PORTQUALITY = 0;
PortEntry->PERMITGATEWAY = TRUE; // Can change ax.25 call on each stream
PortEntry->SCANCAPABILITIES = NONE; // Scan Control - pending connect only
if (PortEntry->PORTCONTROL.PORTPACLEN == 0)
PortEntry->PORTCONTROL.PORTPACLEN = 64;
ptr=strchr(TNC->NodeCall, ' ');
if (ptr) *(ptr) = 0; // Null Terminate
TNC->Hardware = H_UZ7HO;
UZ7HOChannel[port] = PortEntry->PORTCONTROL.CHANNELNUM-65;
PortEntry->MAXHOSTMODESESSIONS = TNC->AGWInfo->MaxSessions;
i=sprintf(Msg,"UZ7HO Host %s Port %d Chan %c\n",
TNC->HostName, TNC->TCPPort, PortEntry->PORTCONTROL.CHANNELNUM);
WritetoConsole(Msg);
// See if we already have a port for this host
MasterPort[port] = port;
for (i = 1; i < port; i++)
{
if (i == port) continue;
if (TNCInfo[i] && TNCInfo[i]->TCPPort == TNC->TCPPort &&
_stricmp(TNCInfo[i]->HostName, TNC->HostName) == 0)
{
MasterPort[port] = i;
SlaveTNC[i] = TNC;
break;
}
}
BPQPort[PortEntry->PORTCONTROL.CHANNELNUM-65][MasterPort[port]] = port;
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(50);
TNC->WEB_TRAFFIC = zalloc(100);
TNC->WEB_LEVELS = zalloc(32);
#ifndef LINBPQ
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CreatePactorWindow(TNC, ClassName, WindowTitle, RigControlRow, PacWndProc, 520, 450, ForcedClose);
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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", "Modem", WS_CHILD | WS_VISIBLE, 10,50,106,20, TNC->hDlg, NULL, hInstance, NULL);
TNC->xIDC_MODE = CreateWindowEx(0, "STATIC", "", WS_CHILD | WS_VISIBLE, 120,50,520,20, 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;
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TNC->ClientWidth = 520;
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TNC->hMenu = CreatePopupMenu();
MoveWindows(TNC);
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#endif
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if (MasterPort[port] == port)
{
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// First port for this TNC - start TNC if configured and connect
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#ifndef LINBPQ
if (EnumWindows(EnumTNCWindowsProc, (LPARAM)TNC))
if (TNC->ProgramPath)
TNC->WeStartedTNC = RestartTNC(TNC);
#else
if (TNC->ProgramPath)
TNC->WeStartedTNC = RestartTNC(TNC);
#endif
ConnecttoUZ7HO(port);
}
else
{
// Slave Port
sprintf(TNC->WEB_COMMSSTATE, "Slave to Port %d", MasterPort[port] );
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
}
time(&lasttime[port]); // Get initial time value
return ExtProc;
}
/*
# Config file for BPQtoUZ7HO
#
# For each UZ7HO port defined in BPQCFG.TXT, Add a line here
# Format is BPQ Port, Host/IP Address, Port
#
# Any unspecified Ports will use 127.0.0.1 and port for BPQCFG.TXT IOADDR field
#
1 127.0.0.1 8000
2 127.0.0.1 8001
*/
static int ProcessLine(char * buf, int Port)
{
UCHAR * ptr,* p_cmd;
char * p_ipad = 0;
char * p_port = 0;
unsigned short WINMORport = 0;
int BPQport;
int len=510;
struct TNCINFO * TNC = TNCInfo[Port];
struct AGWINFO * AGW;
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
if (_stricmp(buf, "ADDR"))
return FALSE; // Must start with ADDR
ptr = strtok(NULL, " \t\n\r");
BPQport = Port;
p_ipad = ptr;
TNC = TNCInfo[BPQport] = zalloc(sizeof(struct TNCINFO));
AGW = TNC->AGWInfo = zalloc(sizeof(struct AGWINFO)); // AGW Sream Mode Specific Data
AGW->MaxSessions = 10;
AGW->ConnTimeOut = CONTIMEOUT;
TNC->InitScript = malloc(1000);
TNC->InitScript[0] = 0;
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->TCPPort = atoi(p_port);
if (TNC->TCPPort == 0)
TNC->TCPPort = 8000;
TNC->destaddr.sin_family = AF_INET;
TNC->destaddr.sin_port = htons(TNC->TCPPort);
TNC->HostName = malloc(strlen(p_ipad)+1);
if (TNC->HostName == NULL) return TRUE;
strcpy(TNC->HostName,p_ipad);
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 &&_memicmp(ptr, "PATH", 4) == 0)
{
p_cmd = strtok(NULL, "\n\r");
if (p_cmd) TNC->ProgramPath = _strdup(p_cmd);
}
}
// 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, "MAXSESSIONS", 11) == 0)
{
AGW->MaxSessions = atoi(&buf[12]);
if (AGW->MaxSessions > 26 ) AGW->MaxSessions = 26;
}
if (_memicmp(buf, "CONTIMEOUT", 10) == 0)
AGW->ConnTimeOut = atoi(&buf[11]) * 10;
else
if (_memicmp(buf, "UPDATEMAP", 9) == 0)
TNC->PktUpdateMap = TRUE;
else
if (_memicmp(buf, "BEACONAFTERSESSION", 18) == 0) // Send Beacon after each session
TNC->RPBEACON = TRUE;
else
if (_memicmp(buf, "WINDOW", 6) == 0)
TNC->Window = atoi(&buf[7]);
else
if (_memicmp(buf, "DEFAULTMODEM", 12) == 0)
TNC->AGWInfo->Modem = atoi(&buf[13]);
else
if (_memicmp(buf, "MODEMCENTER", 11) == 0 || _memicmp(buf, "MODEMCENTRE", 11) == 0)
TNC->AGWInfo->CenterFreq = atoi(&buf[12]);
else
if (standardParams(TNC, buf) == FALSE)
strcat(TNC->InitScript, buf);
}
return (TRUE);
}
#ifndef LINBPQ
typedef struct hINFO
{
HWND Freq1;
HWND Freq2;
HWND Spin1;
HWND Spin2;
COMBOBOXINFO cinfo1;
COMBOBOXINFO cinfo2;
};
BOOL CALLBACK EnumChildProc(HWND handle, LPARAM lParam)
{
char classname[100];
struct hINFO * hInfo = (struct hINFO *)lParam;
// We collect the handles for the two modem and freq boxs here and set into correct TNC record later
GetClassName(handle, classname, 99);
if (strcmp(classname, "TComboBox") == 0)
{
// Get the Combo Box Info
if (hInfo->cinfo1.cbSize == 0)
{
hInfo->cinfo1.cbSize = sizeof(COMBOBOXINFO);
GetComboBoxInfo(handle, &hInfo->cinfo1);
}
else
{
hInfo->cinfo2.cbSize = sizeof(COMBOBOXINFO);
GetComboBoxInfo(handle, &hInfo->cinfo2);
}
}
if (strcmp(classname, "TSpinEdit") == 0)
{
if (hInfo->Freq1 == 0)
hInfo->Freq1 = handle;
else
hInfo->Freq2 = handle;
}
if (strcmp(classname, "TSpinButton") == 0)
{
if (hInfo->Spin1 == 0)
hInfo->Spin1 = handle;
else
hInfo->Spin2 = handle;
}
return TRUE;
}
BOOL CALLBACK uz_enum_windows_callback(HWND handle, LPARAM lParam)
{
char wtext[100];
struct TNCINFO * TNC = (struct TNCINFO *)lParam;
struct AGWINFO * AGW = TNC->AGWInfo;
char Freq[16];
UINT ProcessId;
GetWindowText(handle, wtext, 99);
GetWindowThreadProcessId(handle, &ProcessId);
if (TNC->PID == ProcessId)
{
if (strstr(wtext,"SoundModem "))
{
// Our Process
// Enumerate Child Windows
struct hINFO hInfo;
memset(&hInfo, 0, sizeof(hInfo));
EnumChildWindows(handle, EnumChildProc, (LPARAM)&hInfo);
// Set handles
if (TNC->PortRecord->PORTCONTROL.CHANNELNUM == 'A')
{
AGW->hFreq = hInfo.Freq1;
AGW->hSpin = hInfo.Spin1;
memcpy(&AGW->cbinfo, &hInfo.cinfo1, sizeof(COMBOBOXINFO));
}
else
{
AGW->hFreq = hInfo.Freq2;
AGW->hSpin = hInfo.Spin2;
memcpy(&AGW->cbinfo, &hInfo.cinfo2, sizeof(COMBOBOXINFO));
}
if (AGW->CenterFreq && AGW->hFreq)
{
// Set it
sprintf(Freq, "%d", AGW->CenterFreq - 1);
SendMessage(AGW->hFreq, WM_SETTEXT, 0, (LPARAM)Freq);
SendMessage(AGW->hSpin, WM_LBUTTONDOWN, 0, 1);
SendMessage(AGW->hSpin, WM_LBUTTONUP, 0, 1);
}
// Set slave port
TNC = SlaveTNC[TNC->Port];
if (TNC)
{
AGW = TNC->AGWInfo;
if (TNC->PortRecord->PORTCONTROL.CHANNELNUM == 'A')
{
AGW->hFreq = hInfo.Freq1;
AGW->hSpin = hInfo.Spin1;
memcpy(&AGW->cbinfo, &hInfo.cinfo1, sizeof(COMBOBOXINFO));
}
else
{
AGW->hFreq = hInfo.Freq2;
AGW->hSpin = hInfo.Spin2;
memcpy(&AGW->cbinfo, &hInfo.cinfo2, sizeof(COMBOBOXINFO));
}
if (AGW->CenterFreq && AGW->hFreq)
{
// Set it
sprintf(Freq, "%d", AGW->CenterFreq - 1);
SendMessage(AGW->hFreq, WM_SETTEXT, 0, (LPARAM)Freq);
SendMessage(AGW->hSpin, WM_LBUTTONDOWN, 0, 1);
SendMessage(AGW->hSpin, WM_LBUTTONUP, 0, 1);
}
}
return FALSE;
}
}
return (TRUE);
}
#endif
int ConnecttoUZ7HO(int port)
{
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if (TNCInfo[port]->CONNECTING || TNCInfo[port]->PortRecord->PORTCONTROL.PortStopped)
return 0;
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_beginthread(ConnecttoUZ7HOThread, 0, (void *)(size_t)port);
return 0;
}
VOID ConnecttoUZ7HOThread(void * portptr)
{
int port = (int)(size_t)portptr;
char Msg[255];
int err,i;
u_long param=1;
BOOL bcopt=TRUE;
struct hostent * HostEnt;
struct TNCINFO * TNC = TNCInfo[port];
struct AGWINFO * AGW = TNC->AGWInfo;
Sleep(3000); // Allow init to complete
TNC->AGWInfo->isQTSM = 0;
#ifndef LINBPQ
AGW->hFreq = AGW->hSpin = 0;
AGW->cbinfo.cbSize = 0;
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)
return;
// goto TNCNotRunning;
// 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);
}
}
}
// Get Window Handles so we can change centre freq and modem
EnumWindows(uz_enum_windows_callback, (LPARAM)TNC);
}
#endif
TNC->destaddr.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) 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("UZ7HO 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 UZ7HO socket - error code = %d\n", WSAGetLastError());
WritetoConsole(Msg);
return;
}
sinx.sin_family = AF_INET;
sinx.sin_addr.s_addr = INADDR_ANY;
sinx.sin_port = 0;
TNC->CONNECTING = TRUE;
if (connect(TNC->TCPSock,(struct sockaddr *) &TNC->destaddr,sizeof(TNC->destaddr)) == 0)
{
//
// Connect successful
//
TNC->CONNECTED = TRUE;
sprintf(TNC->WEB_COMMSSTATE, "Connected to TNC");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
ioctl(TNC->TCPSock, FIONBIO, &param);
}
else
{
if (TNC->Alerted == FALSE)
{
err=WSAGetLastError();
sprintf(Msg, "Connect Failed for UZ7HO socket - error code = %d Port %d\n",
err, 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;
}
TNC->CONNECTING = FALSE;
closesocket(TNC->TCPSock);
TNC->TCPSock = 0;
return;
}
TNC->LastFreq = 0; // so V4 display will be updated
RegisterAPPLCalls(TNC, FALSE); // Register Calls
return;
}
static int ProcessReceivedData(int port)
{
unsigned int bytes;
int datalen,i;
char ErrMsg[255];
char Message[1000];
struct TNCINFO * TNC = TNCInfo[port];
struct AGWINFO * AGW = TNC->AGWInfo;
struct TNCINFO * SaveTNC;
// Need to extract messages from byte stream
// Use MSG_PEEK to ensure whole message is available
bytes = recv(TNC->TCPSock, (char *) &AGW->RXHeader, AGWHDDRLEN, MSG_PEEK);
if (bytes == SOCKET_ERROR)
{
// i=sprintf(ErrMsg, "Read Failed for UZ7HO socket - error code = %d\r\n", WSAGetLastError());
// WritetoConsole(ErrMsg);
closesocket(TNC->TCPSock);
TNC->TCPSock = 0;
TNC->CONNECTED = FALSE;
TNC->Alerted = FALSE;
sprintf(TNC->WEB_COMMSSTATE, "Disconnected from TNC");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
return (0);
}
if (bytes == 0)
{
// zero bytes means connection closed
i=sprintf(ErrMsg, "UZ7HO Connection closed for BPQ Port %d\n", port);
WritetoConsole(ErrMsg);
TNC->CONNECTED = FALSE;
TNC->Alerted = FALSE;
sprintf(TNC->WEB_COMMSSTATE, "Disconnected from TNC");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
closesocket(TNC->TCPSock);
TNC->TCPSock = 0;
return (0);
}
// Have some data
if (bytes == AGWHDDRLEN)
{
// Have a header - see if we have any associated data
datalen = AGW->RXHeader.DataLength;
#ifdef __BIG_ENDIAN__
datalen = reverse(datalen);
#endif
if (datalen < 0 || datalen > 500)
{
// corrupt - reset connection
shutdown(TNC->TCPSock, SD_BOTH);
Sleep(100);
closesocket(TNC->TCPSock);
TNC->CONNECTED = FALSE;
TNC->Alerted = FALSE;
sprintf(TNC->WEB_COMMSSTATE, "Disconnected from TNC");
MySetWindowText(TNC->xIDC_COMMSSTATE, TNC->WEB_COMMSSTATE);
return 0;
}
if (datalen > 0)
{
// Need data - See if enough there
bytes = recv(TNC->TCPSock, (char *)&Message, AGWHDDRLEN + datalen, MSG_PEEK);
}
if (bytes == AGWHDDRLEN + datalen)
{
bytes = recv(TNC->TCPSock, (char *)&AGW->RXHeader, AGWHDDRLEN,0);
if (datalen > 0)
{
bytes = recv(TNC->TCPSock,(char *)&Message, datalen,0);
}
// Have header, and data if needed
SaveTNC = TNC;
ProcessAGWPacket(TNC, Message); // Data may be for another port
TNC = SaveTNC;
return (0);
}
// Have header, but not sufficient data
return (0);
}
// Dont have at least header bytes
return (0);
}
/*
VOID ConnecttoMODEMThread(port);
int ConnecttoMODEM(int port)
{
_beginthread(ConnecttoMODEMThread,0,port);
return 0;
}
VOID ConnecttoMODEMThread(port)
{
char Msg[255];
int err,i;
u_long param=1;
BOOL bcopt=TRUE;
struct hostent * HostEnt;
struct TNCINFO * TNC = TNCInfo[port];
Sleep(5000); // Allow init to complete
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) 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);
}
closesocket(TNC->TCPSock);
closesocket(TNC->TCPDataSock);
TNC->TCPSock=socket(AF_INET,SOCK_STREAM,0);
TNC->TCPDataSock=socket(AF_INET,SOCK_STREAM,0);
if (TNC->TCPSock == INVALID_SOCKET || TNC->TCPDataSock == INVALID_SOCKET)
{
i=sprintf(Msg, "Socket Failed for UZ7HO socket - error code = %d\n", WSAGetLastError());
WritetoConsole(Msg);
return;
}
setsockopt (TNC->TCPDataSock, SOL_SOCKET, SO_REUSEADDR, (const char FAR *)&bcopt, 4);
sinx.sin_family = AF_INET;
sinx.sin_addr.s_addr = INADDR_ANY;
sinx.sin_port = 0;
if (bind(TNC->TCPSock, (LPSOCKADDR) &sinx, addrlen) != 0 )
{
//
// Bind Failed
//
i=sprintf(Msg, "Bind Failed for UZ7HO socket - error code = %d\n", WSAGetLastError());
WritetoConsole(Msg);
return;
}
TNC->CONNECTING = TRUE;
if (connect(TNC->TCPSock,(LPSOCKADDR) &TNC->destaddr,sizeof(TNC->destaddr)) == 0)
{
//
// Connected successful
//
TNC->CONNECTED=TRUE;
SetDlgItemText(TNC->hDlg, IDC_COMMSSTATE, "Connected to UZ7HO TNC");
}
else
{
if (TNC->Alerted == FALSE)
{
err=WSAGetLastError();
i=sprintf(Msg, "Connect Failed for UZ7HO socket - error code = %d\n", err);
WritetoConsole(Msg);
SetDlgItemText(TNC->hDlg, IDC_COMMSSTATE, "Connection to TNC failed");
TNC->Alerted = TRUE;
}
TNC->CONNECTING = FALSE;
return;
}
TNC->LastFreq = 0; // so V4 display will be updated
return;
}
*/
/*
UZ7HO C GM8BPQ GM8BPQ-2 *** CONNECTED To Station GM8BPQ-0
UZ7HO D GM8BPQ GM8BPQ-2 asasasas
M8BPQ
New Disconnect Port 7 Q 0
UZ7HO d GM8BPQ GM8BPQ-2 *** DISCONNECTED From Station GM8BPQ-0
New Disconnect Port 7 Q 0
*/
extern VOID PROCESSUZ7HONODEMESSAGE();
VOID ProcessAGWPacket(struct TNCINFO * TNC, UCHAR * Message)
{
PMSGWITHLEN buffptr;
MESSAGE Monframe;
struct HDDRWITHDIGIS MonDigis;
struct AGWINFO * AGW = TNC->AGWInfo;
struct AGWHEADER * RXHeader = &AGW->RXHeader;
char Key[21];
int Stream;
struct STREAMINFO * STREAM;
UCHAR AGWPort;
UCHAR MHCall[10] = "";
int n;
unsigned char c;
unsigned char * ptr;
int Totallen = 0;
struct PORTCONTROL * PORT = &TNC->PortRecord->PORTCONTROL;
#ifdef __BIG_ENDIAN__
RXHeader->DataLength = reverse(RXHeader->DataLength);
#endif
switch (RXHeader->DataKind)
{
case 'D': // Appl Data
TNC = GetSessionKey(Key, TNC);
if (TNC == NULL)
return;
// Find our Session
Stream = 0;
while (Stream <= AGW->MaxSessions)
{
STREAM = &TNC->Streams[Stream];
if (memcmp(STREAM->AGWKey, Key, 21) == 0)
{
// Found it;
buffptr = GetBuff();
if (buffptr == 0) return; // No buffers, so ignore
buffptr->Len = RXHeader->DataLength;
memcpy(buffptr->Data, Message, RXHeader->DataLength);
2024-11-05 21:03:15 +00:00
STREAM->bytesRXed += RXHeader->DataLength;
2022-08-28 09:35:46 +01:00
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
return;
}
Stream++;
}
// Not Found
return;
case 'd': // Disconnected
TNC = GetSessionKey(Key, TNC);
if (TNC == NULL)
return;
// Find our Session
Stream = 0;
while (Stream <= AGW->MaxSessions)
{
STREAM = &TNC->Streams[Stream];
if (memcmp(STREAM->AGWKey, Key, 21) == 0)
{
// Found it;
if (STREAM->DiscWhenAllSent)
return; // Already notified
if (STREAM->Connecting)
{
// Report Connect Failed, and drop back to command mode
STREAM->Connecting = FALSE;
buffptr = GetBuff();
if (buffptr == 0) return; // No buffers, so ignore
buffptr->Len = sprintf(buffptr->Data, "UZ7HO} Failure with %s\r", STREAM->RemoteCall);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
STREAM->DiscWhenAllSent = 10;
if (TNC->RPBEACON)
SendRPBeacon(TNC);
return;
}
// Release Session
STREAM->Connecting = FALSE;
STREAM->Connected = FALSE; // Back to Command Mode
STREAM->ReportDISC = TRUE; // Tell Node
// if (STREAM->Disconnecting) //
// ReleaseTNC(TNC);
2024-11-05 21:03:15 +00:00
2022-08-28 09:35:46 +01:00
STREAM->Disconnecting = FALSE;
STREAM->DiscWhenAllSent = 10;
STREAM->FramesOutstanding = 0;
if (TNC->RPBEACON)
SendRPBeacon(TNC);
return;
}
Stream++;
}
return;
case 'C':
// Connect. Can be Incoming or Outgoing
// "*** CONNECTED To Station [CALLSIGN]" When the other station starts the connection
// "*** CONNECTED With [CALLSIGN]" When we started the connection
// Create Session Key from port and callsign pair
TNC = GetSessionKey(Key, TNC);
if (TNC == NULL)
return;
2023-01-25 10:12:51 +00:00
PORT = &TNC->PortRecord->PORTCONTROL;
2022-08-28 09:35:46 +01:00
if (strstr(Message, " To Station"))
{
char noStreams[] = "No free sessions - disconnecting\r";
// Incoming. Look for a free Stream
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Stream = 0;
2022-08-28 09:35:46 +01:00
2023-01-25 10:12:51 +00:00
while(Stream < AGW->MaxSessions)
2022-08-28 09:35:46 +01:00
{
if (TNC->PortRecord->ATTACHEDSESSIONS[Stream] == 0)
goto GotStream;
Stream++;
}
// No free streams - send message then Disconnect
// Do we need to swap From and To? - yes
memcpy(RXHeader->callfrom, &Key[11], 10);
memcpy(RXHeader->callto, &Key[1], 10);
#ifdef __BIG_ENDIAN__
AGW->RXHeader.DataLength = reverse(strlen(noStreams));
#else
AGW->RXHeader.DataLength = (int)strlen(noStreams);
#endif
RXHeader->DataKind = 'D';
AGW->RXHeader.PID = 0xf0;
send(TNCInfo[MasterPort[TNC->Port]]->TCPSock, (char *)&AGW->RXHeader, AGWHDDRLEN, 0);
send(TNCInfo[MasterPort[TNC->Port]]->TCPSock, noStreams, (int)strlen(noStreams), 0);
Sleep(500);
RXHeader->DataKind = 'd';
RXHeader->DataLength = 0;
send(TNCInfo[MasterPort[TNC->Port]]->TCPSock, (char *)&AGW->RXHeader, AGWHDDRLEN, 0);
return;
GotStream:
STREAM = &TNC->Streams[Stream];
memcpy(STREAM->AGWKey, Key, 21);
STREAM->Connected = TRUE;
STREAM->ConnectTime = time(NULL);
2024-11-05 21:03:15 +00:00
STREAM->bytesRXed = STREAM->bytesTXed = 0;
2022-08-28 09:35:46 +01:00
SuspendOtherPorts(TNC);
strcpy(TNC->TargetCall, RXHeader->callto);
ProcessIncommingConnect(TNC, RXHeader->callfrom, Stream, FALSE);
// if Port CTEXT defined, use it
if (PORT->CTEXT)
{
Totallen = strlen(PORT->CTEXT);
ptr = PORT->CTEXT;
}
else if (HFCTEXTLEN > 0)
{
Totallen = HFCTEXTLEN;
ptr = HFCTEXT;
}
else if (FULL_CTEXT)
{
Totallen = CTEXTLEN;
ptr = CTEXTMSG;
}
while (Totallen)
{
int sendLen = TNC->PortRecord->ATTACHEDSESSIONS[Stream]->SESSPACLEN;
if (sendLen == 0)
sendLen = 80;
if (Totallen < sendLen)
sendLen = Totallen;
SendData(Stream, TNC, &STREAM->AGWKey[0], ptr, sendLen);
Totallen -= sendLen;
ptr += sendLen;
}
/*
if (HFCTEXTLEN)
{
if (HFCTEXTLEN > 1)
SendData(Stream, TNC, &STREAM->AGWKey[0], HFCTEXT, HFCTEXTLEN);
}
else
{
if (FULL_CTEXT)
{
int Len = CTEXTLEN, CTPaclen = 50;
int Next = 0;
while (Len > CTPaclen) // CTEXT Paclen
{
SendData(Stream, TNC, &STREAM->AGWKey[0], &CTEXTMSG[Next], CTPaclen);
Next += CTPaclen;
Len -= CTPaclen;
}
SendData(Stream, TNC, &STREAM->AGWKey[0], &CTEXTMSG[Next], Len);
}
}
*/
if (strcmp(RXHeader->callto, TNC->NodeCall) != 0) // Not Connect to Node Call
{
APPLCALLS * APPL;
char * ApplPtr = APPLS;
int App;
char Appl[10];
char * ptr;
char Buffer[80]; // Data portion of frame
for (App = 0; App < 32; App++)
{
APPL=&APPLCALLTABLE[App];
memcpy(Appl, APPL->APPLCALL_TEXT, 10);
ptr=strchr(Appl, ' ');
if (ptr)
*ptr = 0;
if (_stricmp(RXHeader->callto, Appl) == 0)
break;
2023-06-21 08:21:04 +01:00
memcpy(Appl, APPL->APPLALIAS_TEXT, 10);
ptr=strchr(Appl, ' ');
if (ptr)
*ptr = 0;
if (_stricmp(RXHeader->callto, Appl) == 0)
break;
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}
2024-11-05 21:03:15 +00:00
strcpy(STREAM->MyCall, TNC->TargetCall);
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if (App < 32)
{
char AppName[13];
2024-12-16 17:54:16 +00:00
memcpy(AppName, &ApplPtr[App * sizeof(struct CMDX)], 12);
2022-08-28 09:35:46 +01:00
AppName[12] = 0;
// Make sure app is available
if (CheckAppl(TNC, AppName))
{
int MsgLen = sprintf(Buffer, "%s\r", AppName);
buffptr = GetBuff();
if (buffptr == 0) return; // No buffers, so ignore
buffptr->Len = MsgLen;
memcpy(buffptr->Data, Buffer, MsgLen);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
TNC->SwallowSignon = TRUE;
}
else
{
char Msg[] = "Application not available\r\n";
// Send a Message, then a disconenct
SendData(Stream, TNC, Key, Msg, (int)strlen(Msg));
STREAM->DiscWhenAllSent = 100; // 10 secs
}
return;
}
}
2024-11-05 21:03:15 +00:00
strcpy(STREAM->MyCall, TNC->TargetCall);
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// Not to a known appl - drop through to Node
return;
}
else
{
// Connect Complete
// Find our Session
Stream = 0;
while (Stream <= AGW->MaxSessions)
{
STREAM = &TNC->Streams[Stream];
if (memcmp(STREAM->AGWKey, Key, 21) == 0)
{
// Found it;
STREAM->Connected = TRUE;
STREAM->Connecting = FALSE;
STREAM->ConnectTime = time(NULL);
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STREAM->bytesRXed = STREAM->bytesTXed = 0;
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buffptr = GetBuff();
if (buffptr == 0) return; // No buffers, so ignore
buffptr->Len = sprintf(buffptr->Data, "*** Connected to %s\r", RXHeader->callfrom);
C_Q_ADD(&STREAM->PACTORtoBPQ_Q, buffptr);
UpdateMH(TNC, RXHeader->callfrom, '+', 'O');
return;
}
Stream++;
}
// Not Found
return;
}
case 'T': // Trasmitted Dats
DoMonitorHddr(TNC, RXHeader, Message);
return;
case 'S': // Monitored Supervisory
// Check for SABM
if (strstr(Message, "<SABM") == 0 && strstr(Message, "<UA") == 0)
return;
// Drop through
case 'U':
AGWPort = Message[1];
if (AGWPort < ' ' || AGWPort > '8')
return;
AGWPort = BPQPort[AGWPort - '1'][TNC->Port];
TNC = TNCInfo[AGWPort];
if (TNC == NULL)
return;
strlop(Message, '<');
// if (strchr(Message, '*'))
// UpdateMH(TNC, RXHeader->callfrom, '*', 0);
// else
// UpdateMH(TNC, RXHeader->callfrom, ' ', 0);
return;
case 'K': // raw data
memset(&Monframe, 0, sizeof(Monframe));
memset(&MonDigis, 0, sizeof(MonDigis));
Monframe.PORT = BPQPort[RXHeader->Port][TNC->Port];
if (Monframe.PORT == 0) // Unused UZ7HO port?
return;
// Get real port
TNC = TNCInfo[Monframe.PORT];
if (TNC == 0)
return;
Monframe.LENGTH = RXHeader->DataLength + (MSGHDDRLEN - 1);
memcpy(&Monframe.DEST[0], &Message[1], RXHeader->DataLength);
// Check address - may have Single bit correction activated and non-x.25 filter off
ptr = &Monframe.ORIGIN[0];
n = 6;
while(n--)
{
// Try a bit harder to detect corruption
c = *(ptr++);
if (c & 1)
return; // bottom bit set
c = c >> 1;
if (!isalnum(c) && !(c == '#') && !(c == ' '))
return;
}
/* // if NETROM is enabled, and it is a NODES broadcast, process it
if (TNC->PortRecord->PORTCONTROL.PORTQUALITY)
{
int i;
char * fiddle;
if (Message[15] == 3 && Message[16] == 0xcf && Message[17] == 255)
i = 0;
_asm
{
pushad
mov al, Monframe.PORT
lea edi, Monframe
call PROCESSUZ7HONODEMESSAGE
popad
}
}
*/
// Pass to Monitor
time(&Monframe.Timestamp);
MHCall[ConvFromAX25(&Monframe.ORIGIN[0], MHCall)] = 0;
// I think we need to check if UI and if so report to nodemap
// should skip digis and report last digi but for now keep it simple
// if there are digis process them
if (Monframe.ORIGIN[6] & 1) // No digis
{
if (Monframe.CTL == 3)
UpdateMHEx(TNC, MHCall, ' ', 0, NULL, TRUE);
else
UpdateMHEx(TNC, MHCall, ' ', 0, NULL, FALSE);
BPQTRACE((MESSAGE *)&Monframe, TRUE);
}
else
{
UCHAR * ptr1 = Monframe.DEST;
UCHAR * ptr2 = MonDigis.DEST;
int Rest = Monframe.LENGTH - (MSGHDDRLEN - 1);
MonDigis.PORT = Monframe.PORT;
MonDigis.LENGTH = Monframe.LENGTH;
MonDigis.Timestamp = Monframe.Timestamp;
while ((ptr1[6] & 1) == 0) // till end of address
{
memcpy(ptr2, ptr1, 7);
ptr2 += 7;
ptr1 += 7;
Rest -= 7;
}
memcpy(ptr2, ptr1, 7); // Copy Last
ptr2 += 7;
ptr1 += 7;
Rest -= 7;
// Now copy CTL PID and Data
2022-10-03 15:55:07 +01:00
if (Rest < 0 || Rest > 256)
return;
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memcpy(ptr2, ptr1, Rest);
BPQTRACE((MESSAGE *)&MonDigis, TRUE);
if (TNC->PortRecord->PORTCONTROL.PORTMHEARD)
MHPROC((struct PORTCONTROL *)TNC->PortRecord, (MESSAGE *)&MonDigis);
// if (ptr1[0] == 3)
// UpdateMHEx(TNC, MHCall, ' ', 0, NULL, TRUE);
// else
// UpdateMHEx(TNC, MHCall, ' ', 0, NULL, FALSE);
}
return;
case 'I':
break;
case 'R':
{
// Version
int v1, v2;
memcpy(&v1, Message, 4);
memcpy(&v2, &Message[4], 4);
if (v1 == 2019 && v2 == 'B')
TNC->AGWInfo->isQTSM |= 1;
break;
}
case 'g':
// Capabilities - along with Version used to indicate QtSoundModem
// with ability to set and read Modem type and frequency/
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if ((Message[2] == 24 && Message[3] == 3 && Message[4] == 100) || TNC->AGWInfo->isQTSM)
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{
// Set flag on any other ports on same TNC (all ports with this as master port)
int p;
int This = TNC->Port;
if (RXHeader->DataLength == 12)
{
// First reply - request Modem Freq and Name
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for (p = This; p < MAXBPQPORTS; p++)
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{
if (MasterPort[p] == This)
{
TNC = TNCInfo[p];
if (TNC)
{
char Buffer[32] = "";
int MsgLen = 32;
SOCKET sock = TNCInfo[MasterPort[This]]->TCPSock;
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Buffer[27] = 1; // Modem can set modem flags
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TNC->AGWInfo->isQTSM |= 2;
AGW->TXHeader.Port = UZ7HOChannel[p];
AGW->TXHeader.DataKind = 'g';
memset(AGW->TXHeader.callfrom, 0, 10);
memset(AGW->TXHeader.callto, 0, 10);
#ifdef __BIG_ENDIAN__
AGW->TXHeader.DataLength = reverse(MsgLen);
#else
AGW->TXHeader.DataLength = MsgLen;
#endif
send(sock, (char *)&AGW->TXHeader, AGWHDDRLEN, 0);
send(sock, Buffer, MsgLen, 0);
}
}
}
return;
}
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if (RXHeader->DataLength == 44 || RXHeader->DataLength == 48)
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{
// Modem Freq and Type Report from QtSM
int p = BPQPort[RXHeader->Port][TNC->Port]; // Get subchannel port
TNC = TNCInfo[p];
if (p == 0 || TNC == NULL)
return;
memcpy(&TNC->AGWInfo->CenterFreq, &Message[12], 4);
memcpy(&TNC->AGWInfo->ModemName, &Message[16], 20);
memcpy(&TNC->AGWInfo->Version, &Message[38], 4);
2023-10-31 22:42:23 +00:00
if (RXHeader->DataLength == 48)
{
// includes modem flags
TNC->AGWInfo->isQTSM |= 4; // can send flags
TNC->AGWInfo->fx25Flags = (Message[45] & 3);
TNC->AGWInfo->il2pFlags = (Message[46] & 3);
TNC->AGWInfo->il2pcrc = Message[47];
sprintf(TNC->WEB_MODE, "%s/%d Hz FX %s IL2P %s %s", TNC->AGWInfo->ModemName, TNC->AGWInfo->CenterFreq,
FX25Modes[TNC->AGWInfo->fx25Flags], IL2PModes[TNC->AGWInfo->il2pFlags], TNC->AGWInfo->il2pcrc?"CRC":"");
}
else
sprintf(TNC->WEB_MODE, "%s/%d Hz ", TNC->AGWInfo->ModemName, TNC->AGWInfo->CenterFreq);
2022-08-28 09:35:46 +01:00
SetWindowText(TNC->xIDC_MODE, TNC->WEB_MODE);
}
}
break;
case 'X':
break;
case 'x':
break;
case 'Y': // Session Queue
AGWPort = RXHeader->Port;
Key[0] = AGWPort + '1';
memset(&Key[1], 0, 20);
strcpy(&Key[11], RXHeader->callfrom); // Wrong way round for GetSessionKey
strcpy(&Key[1], RXHeader->callto);
// Need to get BPQ Port from AGW Port
if (AGWPort > 8)
return;
AGWPort = BPQPort[AGWPort][TNC->Port];
TNC = TNCInfo[AGWPort];
if (TNC == NULL)
return;
// Debugprintf("UZ7HO Port %d %d %c %s %s %d", TNC->Port, RXHeader->Port,
// RXHeader->DataKind, RXHeader->callfrom, RXHeader->callto, Message[0]);
Stream = 0;
while (Stream <= AGW->MaxSessions)
{
STREAM = &TNC->Streams[Stream];
if (memcmp(STREAM->AGWKey, Key, 21) == 0)
{
// Found it;
memcpy(&STREAM->FramesOutstanding, Message, 4);
if (STREAM->FramesOutstanding == 0) // All Acked
if (STREAM->Disconnecting && STREAM->BPQtoPACTOR_Q == 0)
TidyClose(TNC, 0);
return;
}
Stream++;
}
// Not Found
return;
default:
Debugprintf("UZ7HO Port %d %c %s %s %s %d", TNC->Port, RXHeader->DataKind, RXHeader->callfrom, RXHeader->callto, Message, Message[0]);
return;
}
}
struct TNCINFO * GetSessionKey(char * key, struct TNCINFO * TNC)
{
struct AGWINFO * AGW = TNC->AGWInfo;
struct AGWHEADER * RXHeader = &AGW->RXHeader;
int AGWPort;
// Create Session Key from port and callsign pair
AGWPort = RXHeader->Port;
key[0] = AGWPort + '1';
memset(&key[1], 0, 20);
strcpy(&key[1], RXHeader->callfrom);
strcpy(&key[11], RXHeader->callto);
// Need to get BPQ Port from AGW Port
if (AGWPort > 8)
return 0;
AGWPort = BPQPort[AGWPort][TNC->Port];
if (AGWPort == 0)
return 0;
TNC = TNCInfo[AGWPort];
return TNC;
}
/*
Port field is the port where we want the data to tx
DataKind field =MAKELONG('D',0); The ASCII value of letter D
CallFrom is our call
CallTo is the call of the other station
DataLen is the length of the data that follow
*/
VOID SendData(int Stream, struct TNCINFO * TNC, char * Key, char * Msg, int MsgLen)
{
struct AGWINFO * AGW = TNC->AGWInfo;
SOCKET sock = TNCInfo[MasterPort[TNC->Port]]->TCPSock;
int Paclen = 0;
AGW->TXHeader.Port = Key[0] - '1';
AGW->TXHeader.DataKind='D';
memcpy(AGW->TXHeader.callfrom, &Key[11], 10);
memcpy(AGW->TXHeader.callto, &Key[1], 10);
2024-11-05 21:03:15 +00:00
TNC->Streams[Stream].bytesTXed += MsgLen;
2022-08-28 09:35:46 +01:00
// If Length is greater than Paclen we should fragment
if (TNC->PortRecord->ATTACHEDSESSIONS[Stream])
Paclen = TNC->PortRecord->ATTACHEDSESSIONS[Stream]->SESSPACLEN;
if (Paclen == 0)
Paclen = 80;
if (MsgLen > Paclen)
{
// Fragment it.
// Is it best to send Paclen packets then short or equal length?
// I think equal length;
int Fragments = (MsgLen + Paclen - 1) / Paclen;
int Fraglen = MsgLen / Fragments;
if ((MsgLen & 1)) // Odd
Fraglen ++;
while (MsgLen > Fraglen)
{
#ifdef __BIG_ENDIAN__
AGW->TXHeader.DataLength = reverse(MsgLen);
#else
AGW->TXHeader.DataLength = Fraglen;
#endif
AGW->TXHeader.PID = 0xf0;
send(sock, (char *)&AGW->TXHeader, AGWHDDRLEN, 0);
send(sock, Msg, Fraglen, 0);
Msg += Fraglen;
MsgLen -= Fraglen;
}
// Drop through to send last bit
}
#ifdef __BIG_ENDIAN__
AGW->TXHeader.DataLength = reverse(MsgLen);
#else
AGW->TXHeader.DataLength = MsgLen;
#endif
AGW->TXHeader.PID = 0xf0;
send(sock, (char *)&AGW->TXHeader, AGWHDDRLEN, 0);
send(sock, Msg, MsgLen, 0);
}
VOID TidyClose(struct TNCINFO * TNC, int Stream)
{
char * Key = &TNC->Streams[Stream].AGWKey[0];
struct AGWINFO * AGW = TNC->AGWInfo;
AGW->TXHeader.Port = Key[0] - '1';
AGW->TXHeader.DataKind='d';
strcpy(AGW->TXHeader.callfrom, &Key[11]);
strcpy(AGW->TXHeader.callto, &Key[1]);
AGW->TXHeader.DataLength = 0;
send(TNCInfo[MasterPort[TNC->Port]]->TCPSock, (char *)&AGW->TXHeader, AGWHDDRLEN, 0);
}
VOID ForcedClose(struct TNCINFO * TNC, int Stream)
{
TidyClose(TNC, Stream); // I don't think Hostmode has a DD
}
VOID CloseComplete(struct TNCINFO * TNC, int Stream)
{
char Status[80];
int s;
// Clear Session Key
memset(TNC->Streams[Stream].AGWKey, 0, 21);
// if all streams are free, start scanner
s = 0;
while(s <= TNC->AGWInfo->MaxSessions)
{
if (s != Stream)
{
if (TNC->PortRecord->ATTACHEDSESSIONS[s])
return; // Busy
}
s++;
}
ReleaseOtherPorts(TNC);
sprintf(Status, "%d SCANSTART 15", TNC->Port);
2023-05-16 16:40:12 +01:00
Rig_Command( (TRANSPORTENTRY *) -1, Status);
2022-08-28 09:35:46 +01:00
}
static MESSAGE Monframe; // I frames come in two parts.
MESSAGE * AdjMsg; // Adjusted fir digis
static VOID DoMonitorHddr(struct TNCINFO * TNC, struct AGWHEADER * RXHeader, UCHAR * Msg)
{
// Convert to ax.25 form and pass to monitor
// Only update MH on UI, SABM, UA
UCHAR * ptr, * starptr, * CPPtr, * nrptr, * nsptr;
char * context;
char MHCall[11];
int ILen;
char * temp;
Msg[RXHeader->DataLength] = 0;
Monframe.LENGTH = MSGHDDRLEN + 16; // Control Frame
Monframe.PORT = BPQPort[RXHeader->Port][TNC->Port];
if (RXHeader->DataKind == 'T') // Transmitted
Monframe.PORT += 128;
/*
UZ7HO T GM8BPQ-2 G8XXX 1:Fm GM8BPQ-2 To G8XXX <SABM P>[12:08:42]
UZ7HO d G8XXX GM8BPQ-2 *** DISCONNECTED From Station G8XXX-0
UZ7HO T GM8BPQ-2 G8XXX 1:Fm GM8BPQ-2 To G8XXX <DISC P>[12:08:48]
UZ7HO T GM8BPQ-2 APRS 1:Fm GM8BPQ-2 To APRS Via WIDE2-2 <UI F pid=F0 Len=28 >[12:08:54]
=5828.54N/00612.69W- {BPQ32}
*/
AdjMsg = &Monframe; // Adjusted for digis
ptr = strstr(Msg, "Fm ");
2023-07-29 07:23:11 +01:00
if (ptr == 0) return;
2022-08-28 09:35:46 +01:00
ConvToAX25(&ptr[3], Monframe.ORIGIN);
memcpy(MHCall, &ptr[3], 11);
strlop(MHCall, ' ');
ptr = strstr(ptr, "To ");
2023-07-29 07:23:11 +01:00
if (ptr == 0) return;
2022-08-28 09:35:46 +01:00
ConvToAX25(&ptr[3], Monframe.DEST);
ptr = strstr(ptr, "Via ");
if (ptr)
{
// We have digis
char Save[100];
memcpy(Save, &ptr[4], 60);
ptr = strtok_s(Save, ", ", &context);
2023-07-29 07:23:11 +01:00
if (ptr == 0) return;
2022-08-28 09:35:46 +01:00
DigiLoop:
temp = (char *)AdjMsg;
temp += 7;
AdjMsg = (MESSAGE *)temp;
Monframe.LENGTH += 7;
starptr = strchr(ptr, '*');
if (starptr)
*(starptr) = 0;
ConvToAX25(ptr, AdjMsg->ORIGIN);
if (starptr)
AdjMsg->ORIGIN[6] |= 0x80; // Set end of address
ptr = strtok_s(NULL, ", ", &context);
2023-07-29 07:23:11 +01:00
if (ptr == 0) return;
2022-08-28 09:35:46 +01:00
if (ptr[0] != '<')
goto DigiLoop;
}
AdjMsg->ORIGIN[6] |= 1; // Set end of address
ptr = strstr(Msg, "<");
if (memcmp(&ptr[1], "SABM", 4) == 0)
{
AdjMsg->CTL = 0x2f;
// UpdateMH(TNC, MHCall, ' ', 0);
}
else
if (memcmp(&ptr[1], "DISC", 4) == 0)
AdjMsg->CTL = 0x43;
else
if (memcmp(&ptr[1], "UA", 2) == 0)
{
AdjMsg->CTL = 0x63;
// UpdateMH(TNC, MHCall, ' ', 0);
}
else
if (memcmp(&ptr[1], "DM", 2) == 0)
AdjMsg->CTL = 0x0f;
else
if (memcmp(&ptr[1], "UI", 2) == 0)
{
AdjMsg->CTL = 0x03;
if (RXHeader->DataKind != 'T')
{
// only report RX
if (strstr(Msg, "To BEACON "))
{
// Update MH with Received Beacons
char * ptr1 = strchr(Msg, ']');
if (ptr1)
{
ptr1 += 2; // Skip ] and cr
if (memcmp(ptr1, "QRA ", 4) == 0)
{
char Call[10], Loc[10] = "";
sscanf(&ptr1[4], "%s %s", &Call[0], &Loc[0]);
UpdateMHEx(TNC, MHCall, ' ', 0, Loc, TRUE);
}
}
else
UpdateMH(TNC, MHCall, ' ', 0);
}
}
}
else
if (memcmp(&ptr[1], "RR", 2) == 0)
{
nrptr = strchr(&ptr[3], '>');
2023-07-29 07:23:11 +01:00
if (nrptr == 0) return;
2022-08-28 09:35:46 +01:00
AdjMsg->CTL = 0x1 | (nrptr[-2] << 5);
}
else
if (memcmp(&ptr[1], "RNR", 3) == 0)
{
nrptr = strchr(&ptr[4], '>');
2023-07-29 07:23:11 +01:00
if (nrptr == 0) return;
2022-08-28 09:35:46 +01:00
AdjMsg->CTL = 0x5 | (nrptr[-2] << 5);
}
else
if (memcmp(&ptr[1], "REJ", 3) == 0)
{
nrptr = strchr(&ptr[4], '>');
2023-07-29 07:23:11 +01:00
if (nrptr == 0) return;
2022-08-28 09:35:46 +01:00
AdjMsg->CTL = 0x9 | (nrptr[-2] << 5);
}
else
if (memcmp(&ptr[1], "FRMR", 4) == 0)
AdjMsg->CTL = 0x87;
else
if (ptr[1] == 'I')
{
nsptr = strchr(&ptr[3], 'S');
AdjMsg->CTL = (nsptr[-2] << 5) | (nsptr[1] & 7) << 1 ;
}
CPPtr = strchr(ptr, ' ');
if (CPPtr == NULL)
return;
if (strchr(&CPPtr[1], 'P'))
{
if (AdjMsg->CTL != 3)
AdjMsg->CTL |= 0x10;
// Monframe.DEST[6] |= 0x80; // SET COMMAND
}
if (strchr(&CPPtr[1], 'F'))
{
if (AdjMsg->CTL != 3)
AdjMsg->CTL |= 0x10;
// Monframe.ORIGIN[6] |= 0x80; // SET P/F bit
}
if ((AdjMsg->CTL & 1) == 0 || AdjMsg->CTL == 3) // I or UI
{
ptr = strstr(ptr, "pid");
2023-07-29 07:23:11 +01:00
if (ptr == 0) return;
2022-08-28 09:35:46 +01:00
sscanf(&ptr[4], "%x", (unsigned int *)&AdjMsg->PID);
ptr = strstr(ptr, "Len");
2023-07-29 07:23:11 +01:00
if (ptr == 0) return;
2022-08-28 09:35:46 +01:00
ILen = atoi(&ptr[4]);
ptr = strstr(ptr, "]");
2023-07-29 07:23:11 +01:00
if (ptr == 0) return;
2022-08-28 09:35:46 +01:00
ptr += 2; // Skip ] and cr
memcpy(AdjMsg->L2DATA, ptr, ILen);
Monframe.LENGTH += ILen;
}
else if (AdjMsg->CTL == 0x97) // FRMR
{
ptr = strstr(ptr, ">");
2023-07-29 07:23:11 +01:00
if (ptr == 0) return;
2022-08-28 09:35:46 +01:00
sscanf(ptr+1, "%hhx %hhx %hhx", &AdjMsg->PID, &AdjMsg->L2DATA[0], &AdjMsg->L2DATA[1]);
Monframe.LENGTH += 3;
}
time(&Monframe.Timestamp);
BPQTRACE((MESSAGE *)&Monframe, TRUE);
}
/*
1:Fm GM8BPQ To GM8BPQ-2 <RR R1 >[17:36:17]
1:Fm GM8BPQ To GM8BPQ-2 <I R1 S7 pid=F0 Len=56 >[17:36:29]
BPQ:GM8BPQ-2} G8BPQ Win32 Test Switch, Skigersta, Isle o
1:Fm GM8BPQ-2 To GM8BPQ <RR R0 >[17:36:32]
1:Fm GM8BPQ To GM8BPQ-2 <I R1 S0 pid=F0 Len=9 >[17:36:33]
f Lewis.
1:Fm GM8BPQ-2 To GM8BPQ <RR R1 >[17:36:36]
1:Fm GM8BPQ To GM8BPQ-2 <RR F/R R1> [17:36:18R]
1:Fm GM8BPQ To GM8BPQ-2 <I F/C R1 S7 Pid=F0 Len=56> [17:36:30R]
BPQ:GM8BPQ-2} G8BPQ Win32 Test Switch, Skigersta, Isle o
1:Fm GM8BPQ-2 To GM8BPQ <RR F/R R0> [17:36:32T]
1:Fm GM8BPQ To GM8BPQ-2 <I F/C R1 S0 Pid=F0 Len=9> [17:36:34R]
f Lewis.
1:Fm GM8BPQ-2 To GM8BPQ <RR F/R R1> [17:36:36T]
1:Fm GM8BPQ To GM8BPQ-2 <RR F/R R1> [17:36:17T]
1:Fm GM8BPQ To GM8BPQ-2 <I F/C R1 S7 Pid=F0 Len=56> [17:36:29T]
BPQ:GM8BPQ-2} G8BPQ Win32 Test Switch, Skigersta, Isle o
1:Fm GM8BPQ-2 To GM8BPQ <RR F/R R0> [17:36:32R]
1:Fm GM8BPQ To GM8BPQ-2 <I F/C R1 S0 Pid=F0 Len=9> [17:36:33T]
f Lewis.
1:Fm GM8BPQ-2 To GM8BPQ <RR F/R R1> [17:36:36R]
*/