linbpq/Moncode.c

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/*
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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
*/
// Monitor Code - from moncode.asm
#pragma data_seg("_BPQDATA")
#define _CRT_SECURE_NO_DEPRECATE
#include <stdlib.h>
#include <string.h>
#include <time.h>
#pragma data_seg("_BPQDATA")
#include "CHeaders.h"
#include "tncinfo.h"
// MSGFLAG contains CMD/RESPONSE BITS
#define CMDBIT 4 // CURRENT MESSAGE IS A COMMAND
#define RESP 2 // CURRENT MSG IS RESPONSE
#define VER1 1 // CURRENT MSG IS VERSION 1
#define UI 3
#define SABM 0x2F
#define DISC 0x43
#define DM 0x0F
#define UA 0x63
#define FRMR 0x87
#define RR 1
#define RNR 5
#define REJ 9
#define PFBIT 0x10 // POLL/FINAL BIT IN CONTROL BYTE
#define NETROM_PID 0xCF
#define IP_PID 0xCC
#define ARP_PID 0xCD
#define NODES_SIG 0xFF
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UCHAR * DisplayINP3RIF(UCHAR * ptr1, UCHAR * ptr2, unsigned int msglen);
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char * DISPLAY_NETROM(MESSAGE * ADJBUFFER, UCHAR * Output, int MsgLen);
UCHAR * DISPLAYIPDATAGRAM(IPMSG * IP, UCHAR * Output, int MsgLen);
char * DISPLAYARPDATAGRAM(UCHAR * Datagram, UCHAR * Output);
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DllExport int APIENTRY SetTraceOptions(int mask, int mtxparam, int mcomparam)
{
// Sets the tracing options for DecodeFrame. Mask is a bit
// mask of ports to monitor (ie 101 binary will monitor ports
// 1 and 3). MTX enables monitoring on transmitted frames. MCOM
// enables monitoring of protocol control frames (eg SABM, UA, RR),
// as well as info frames.
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// *** For external use only, supports portnum up to 31 ***
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MMASK = mask;
MTX = mtxparam;
MCOM = mcomparam;
return (0);
}
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DllExport int APIENTRY SetTraceOptions64(uint64_t mask, int mtxparam, int mcomparam, int monUIOnly)
{
// Sets the tracing options for DecodeFrame. Mask is a bit
// mask of ports to monitor (ie 101 binary will monitor ports
// 1 and 3). MTX enables monitoring on transmitted frames. MCOM
// enables monitoring of protocol control frames (eg SABM, UA, RR),
// as well as info frames.
// *** For external use only, supports portnum up to 63 ***
MMASK = mask;
MTX = mtxparam;
MCOM = mcomparam;
MUIONLY = monUIOnly;
return (0);
}
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DllExport int APIENTRY SetTraceOptionsEx(int mask, int mtxparam, int mcomparam, int monUIOnly)
{
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// *** For external use only, supports portnum up to 31 ***
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// Sets the tracing options for DecodeFrame. Mask is a bit
// mask of ports to monitor (ie 101 binary will monitor ports
// 1 and 3). MTX enables monitoring on transmitted frames. MCOM
// enables monitoring of protocol control frames (eg SABM, UA, RR),
// as well as info frames.
MMASK = mask;
MTX = mtxparam;
MCOM = mcomparam;
MUIONLY = monUIOnly;
return 0;
}
int IntSetTraceOptionsEx(uint64_t mask, int mtxparam, int mcomparam, int monUIOnly)
{
// Sets the tracing options for DecodeFrame. Mask is a bit
// mask of ports to monitor (ie 101 binary will monitor ports
// 1 and 3). MTX enables monitoring on transmitted frames. MCOM
// enables monitoring of protocol control frames (eg SABM, UA, RR),
// as well as info frames.
MMASK = mask;
MTX = mtxparam;
MCOM = mcomparam;
MUIONLY = monUIOnly;
return 0;
}
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int APRSDecodeFrame(MESSAGE * msg, char * buffer, time_t Stamp, uint64_t Mask)
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{
return IntDecodeFrame(msg, buffer, Stamp, Mask, TRUE, FALSE);
}
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DllExport int APIENTRY DecodeFrame(MESSAGE * msg, char * buffer, time_t Stamp)
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{
return IntDecodeFrame(msg, buffer, Stamp, MMASK, FALSE, FALSE);
}
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int IntDecodeFrame(MESSAGE * msg, char * buffer, time_t Stamp, uint64_t Mask, BOOL APRS, BOOL MINI)
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{
UCHAR * ptr;
int n;
MESSAGE * ADJBUFFER;
ptrdiff_t Work;
UCHAR CTL;
BOOL PF = 0;
char CRCHAR[3] = " ";
char PFCHAR[3] = " ";
int Port;
int MSGFLAG = 0; //CR and V1 flags
char * Output = buffer;
char TR = 'R';
char From[10], To[10];
BOOL Info = 0;
BOOL FRMRFLAG = 0;
BOOL XIDFLAG = 0;
BOOL TESTFLAG = 0;
size_t MsgLen = msg->LENGTH;
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// Use gmtime so we can also display in local time
struct tm * TM;
if (MTX & 0x80)
TM = localtime(&Stamp);
else
TM = gmtime(&Stamp);
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// MINI mode is for Node Listen (remote monitor) Mode. Keep info to minimum
/*
KO6IZ*>K7TMG-1:
/ex
KO6IZ*>K7TMG-1:
b
KO6IZ*>K7TMG-1 (UA)
W0TX*>KC6OAR>KB9KC>ID:
W0TX/R DRC/D W0TX-2/G W0TX-1/B W0TX-7/N
KC6OAR*>ID:
*/
// Check Port
Port = msg->PORT;
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if (Port == 40)
Port = Port;
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if (Port & 0x80)
{
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if ((MTX & 1) == 0)
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return 0; // TRANSMITTED FRAME - SEE IF MTX ON
TR = 'T';
}
Port &= 0x7F;
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if ((((uint64_t)1 << (Port - 1)) & Mask) == 0) // Check MMASK
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{
if (msg->Padding[0] == '[')
msg->Padding[0] = 0;
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return 0;
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}
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// We now pass Text format monitoring from non-ax25 drivers through this code
// As a valid ax.25 address must have bottom bit set flag plain text messages
// with hex 01.
// GET THE CONTROL BYTE, TO SEE IF THIS FRAME IS TO BE DISPLAYED
if (msg->DEST[0] == 1)
{
// Just copy text (Null Terminated) to output
// Need Timestamp and T/R
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// Add Port: unless Mail Mon (port 64)
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Output += sprintf((char *)Output, "%02d:%02d:%02d%c ", TM->tm_hour, TM->tm_min, TM->tm_sec, TR);
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strcpy(Output, &msg->DEST[1]);
Output += strlen(Output);
if (buffer[strlen(buffer) -1] == '\r')
Output--;
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if (Port == 64)
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Output += sprintf((char *)Output, " \r");
else
Output += sprintf((char *)Output, " Port=%d\r", Port);
return (int)strlen(buffer);
}
n = 8; // MAX DIGIS
ptr = &msg->ORIGIN[6]; // End of Address bit
while ((*ptr & 1) == 0)
{
// MORE TO COME
ptr += 7;
n--;
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if (n < 0)
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return 0; // Corrupt - no end of address bit
}
// Reached End of digis
Work = ptr - &msg->ORIGIN[6]; // Work is length of digis
MsgLen -= Work;
ADJBUFFER = (MESSAGE *)((UCHAR *)msg + Work); // ADJBUFFER points to CTL, etc. allowing for digis
CTL = ADJBUFFER->CTL;
if (CTL & PFBIT)
PF = TRUE;
CTL &= ~PFBIT;
if (MUIONLY)
if (CTL != 3)
return 0;
if ((CTL & 1) == 0 || CTL == FRMR || CTL == 3)
{
}
else
{
if (((CTL & 2) && MINI) == 0) // Want Control (but not super unless MCOM
if (MCOM == 0)
return 0; // Dont do control
}
// Add Port: if MINI mode and monitoring more than one port
if (MINI == 0)
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Output += sprintf((char *)Output, "%02d:%02d:%02d%c ", TM->tm_hour, TM->tm_min, TM->tm_sec, TR);
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else
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if (CountBits64(Mask) > 1)
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Output += sprintf((char *)Output, "%d:", Port);
From[ConvFromAX25(msg->ORIGIN, From)] = 0;
To[ConvFromAX25(msg->DEST, To)] = 0;
Output += sprintf((char *)Output, "%s>%s", From, To);
// Display any Digi-Peaters
n = 8; // Max number of digi-peaters
ptr = &msg->ORIGIN[6]; // End of Address bit
while ((*ptr & 1) == 0)
{
// MORE TO COME
From[ConvFromAX25(ptr + 1, From)] = 0;
Output += sprintf((char *)Output, ",%s", From);
ptr += 7;
n--;
if (n == 0)
break;
// See if digi actioned - put a * on last actioned
if (*ptr & 0x80)
{
if (*ptr & 1) // if last address, must need *
*(Output++) = '*';
else
if ((ptr[7] & 0x80) == 0) // Repeased by next?
*(Output++) = '*'; // No, so need *
}
}
if (MINI == 0)
Output += sprintf((char *)Output, " Port=%d ", Port);
// Set up CR and PF
CRCHAR[0] = 0;
PFCHAR[0] = 0;
if (msg->DEST[6] & 0x80)
{
if (msg->ORIGIN[6] & 0x80) // Both set, assume V1
MSGFLAG |= VER1;
else
{
MSGFLAG |= CMDBIT;
CRCHAR[0] = ' ';
CRCHAR[1] = 'C';
if (PF) // If FP set
{
PFCHAR[0] = ' ';
PFCHAR[1] = 'P';
}
}
}
else
{
if (msg->ORIGIN[6] & 0x80) // Only Origin Set
{
MSGFLAG |= RESP;
CRCHAR[0] = ' ';
CRCHAR[1] = 'R';
if (PF) // If FP set
{
PFCHAR[0] = ' ';
PFCHAR[1] = 'F';
}
}
else
MSGFLAG |= VER1; // Neither, assume V1
}
if ((CTL & 1) == 0) // I frame
{
int NS = (CTL >> 1) & 7; // ISOLATE RECEIVED N(S)
int NR = (CTL >> 5) & 7;
Info = 1;
if (MINI == 0)
Output += sprintf((char *)Output, "<I%s%s S%d R%d>", CRCHAR, PFCHAR, NS, NR);
}
else if (CTL == 3)
{
// Un-numbered Information Frame
Output += sprintf((char *)Output, "<UI%s>", CRCHAR);
Info = 1;
}
else if (CTL & 2)
{
// UN Numbered
char SUP[6] = "??";
switch (CTL)
{
case SABM:
strcpy(SUP, "C");
break;
case SABME:
strcpy(SUP, "SABME");
break;
case XID:
strcpy(SUP, "XID");
XIDFLAG = 1;
break;
case TEST:
strcpy(SUP, "TEST");
TESTFLAG = 1;
break;
case DISC:
strcpy(SUP, "D");
break;
case DM:
strcpy(SUP, "DM");
break;
case UA:
strcpy(SUP, "UA");
break;
case FRMR:
strcpy(SUP, "FRMR");
FRMRFLAG = 1;
break;
}
if (MINI)
Output += sprintf((char *)Output, "<%s>", SUP);
else
Output += sprintf((char *)Output, "<%s%s%s>", SUP, CRCHAR, PFCHAR);
}
else
{
// Super
int NR = (CTL >> 5) & 7;
char SUP[5] = "??";
switch (CTL & 0x0F)
{
case RR:
strcpy(SUP, "RR");
break;
case RNR:
strcpy(SUP, "RNR");
break;
case REJ:
strcpy(SUP, "REJ");
break;
case SREJ:
strcpy(SUP, "SREJ");
break;
}
Output += sprintf((char *)Output, "<%s%s%s R%d>", SUP, CRCHAR, PFCHAR, NR);
}
if (FRMRFLAG)
Output += sprintf((char *)Output, " %02X %02X %02X", ADJBUFFER->PID, ADJBUFFER->L2DATA[0], ADJBUFFER->L2DATA[1]);
if (XIDFLAG)
{
// Decode and display XID
UCHAR * ptr = &ADJBUFFER->PID;
if (*ptr++ == 0x82 && *ptr++ == 0x80)
{
int Type;
int Len;
unsigned int value;
int xidlen = *(ptr++) << 8;
xidlen += *ptr++;
// XID is set of Type, Len, Value n-tuples
// G8BPQ-2>G8BPQ:(XID cmd, p=1) Half-Duplex SREJ modulo-128 I-Field-Length-Rx=256 Window-Size-Rx=32 Ack-Timer=3000 Retries=10
while (xidlen > 0)
{
Type = *ptr++;
Len = *ptr++;
value = 0;
xidlen -= (Len + 2);
while (Len--)
{
value <<=8;
value += *ptr++;
}
switch(Type)
{
case 2: //Bin fields
case 3:
Output += sprintf((char *)Output, " %d=%x", Type, value);
break;
case 6: //RX Size
Output += sprintf((char *)Output, " RX Paclen=%d", value / 8);
break;
case 8: //RX Window
Output += sprintf((char *)Output, " RX Window=%d", value);
break;
}
}
}
}
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if (msg->Padding[0] == '[')
Output += sprintf((char *)Output, " %s", msg->Padding);
msg->Padding[0] = 0;
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if (Info)
{
// We have an info frame
switch (ADJBUFFER->PID)
{
case 0xF0: // Normal Data
{
char Infofield[257];
char * ptr1 = Infofield;
char * ptr2 = ADJBUFFER->L2DATA;
UCHAR C;
size_t len;
MsgLen = MsgLen - (19 + sizeof(void *));
if (MsgLen < 0 || MsgLen > 257)
return 0; // Duff
while (MsgLen--)
{
C = *(ptr2++);
if (APRS)
*(ptr1++) = C; // MIC-E needs all chars
else
{
// Convert to printable
C &= 0x7F;
if (C == 13 || C == 10 || C > 31)
*(ptr1++) = C;
}
}
len = ptr1 - Infofield;
Output[0] = ':';
Output[1] = 13;
memcpy(&Output[2], Infofield, len);
Output += (len + 2);
break;
}
case NETROM_PID:
Output = DISPLAY_NETROM(ADJBUFFER, Output, (int)MsgLen);
break;
case IP_PID:
Output += sprintf((char *)Output, " <IP>\r");
Output = DISPLAYIPDATAGRAM((IPMSG *)&ADJBUFFER->L2DATA[0], Output, (int)MsgLen);
break;
case ARP_PID:
Output = DISPLAYARPDATAGRAM(&ADJBUFFER->L2DATA[0], Output);
break;
case 8: // Fragmented IP
n = ADJBUFFER->L2DATA[0]; // Frag Count
Output += sprintf((char *)Output, "<Fragmented IP %02x>\r", n);
if (ADJBUFFER->L2DATA[0] & 0x80) // First Frag - Display Header
{
Output = DISPLAYIPDATAGRAM((IPMSG *)&ADJBUFFER->L2DATA[2], Output, (int)MsgLen - 1);
}
break;
}
}
if (Output[-1] != 13)
Output += sprintf((char *)Output, "\r");
return (int)(Output - buffer);
}
// Display NET/ROM data
char * DISPLAY_NETROM(MESSAGE * ADJBUFFER, UCHAR * Output, int MsgLen)
{
char Alias[7]= "";
char Dest[10];
char Node[10];
UCHAR TTL, Index, ID, TXNO, RXNO, OpCode, Flags, Window;
UCHAR * ptr = &ADJBUFFER->L2DATA[0];
if (ADJBUFFER->L2DATA[0] == NODES_SIG)
{
// Display NODES
// If an INP3 RIF (type <> UI) decode as such
if (ADJBUFFER->CTL != 3) // UI
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return DisplayINP3RIF(&ADJBUFFER->L2DATA[1], Output, MsgLen - (MSGHDDRLEN + 14 + 3));
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memcpy(Alias, ++ptr, 6);
ptr += 6;
Output += sprintf((char *)Output, " NODES broadcast from %s\r", Alias);
MsgLen -= 30; //Header, mnemonic and signature length
while(MsgLen > 20) // Entries are 21 bytes
{
Dest[ConvFromAX25(ptr, Dest)] = 0;
ptr +=7;
memcpy(Alias, ptr, 6);
ptr +=6;
strlop(Alias, ' ');
Node[ConvFromAX25(ptr, Node)] = 0;
ptr +=7;
Output += sprintf((char *)Output, " %s:%s via %s qlty=%d\r", Alias, Dest, Node, ptr[0]);
ptr++;
MsgLen -= 21;
}
return Output;
}
// Display normal NET/ROM transmissions
Output += sprintf((char *)Output, " NET/ROM\r ");
Dest[ConvFromAX25(ptr, Dest)] = 0;
ptr +=7;
Node[ConvFromAX25(ptr, Node)] = 0;
ptr +=7;
TTL = *(ptr++);
Index = *(ptr++);
ID = *(ptr++);
TXNO = *(ptr++);
RXNO = *(ptr++);
OpCode = Flags = *(ptr++);
OpCode &= 15; // Remove Flags
Output += sprintf((char *)Output, "%s to %s ttl %d cct=%02X%02X ", Dest, Node, TTL, Index, ID );
MsgLen -= 20;
switch (OpCode)
{
case L4CREQ:
Window = *(ptr++);
Dest[ConvFromAX25(ptr, Dest)] = 0;
ptr +=7;
Node[ConvFromAX25(ptr, Node)] = 0;
ptr +=7;
Output += sprintf((char *)Output, "<CON REQ> w=%d %s at %s", Window, Dest, Node);
if (MsgLen > 38) // BPQ Extended Params
{
short Timeout = (SHORT)*ptr;
Output += sprintf((char *)Output, " t/o %d", Timeout);
}
return Output;
case L4CACK:
if (Flags & L4BUSY) // BUSY RETURNED
return Output + sprintf((char *)Output, " <CON NAK> - BUSY");
return Output + sprintf((char *)Output, " <CON ACK> w=%d my cct=%02X%02X", ptr[1], TXNO, RXNO);
case L4DREQ:
return Output + sprintf((char *)Output, " <DISC REQ>");
case L4DACK:
return Output + sprintf((char *)Output, " <DISC ACK>");
case L4INFO:
{
char Infofield[257];
char * ptr1 = Infofield;
UCHAR C;
size_t len;
Output += sprintf((char *)Output, " <INFO S%d R%d>", TXNO, RXNO);
if (Flags & L4BUSY)
*(Output++) = 'B';
if (Flags & L4NAK)
*(Output++) = 'N';
if (Flags & L4MORE)
*(Output++) = 'M';
MsgLen = MsgLen - (19 + sizeof(void *));
if (MsgLen < 0 || MsgLen > 257)
return Output; // Duff
while (MsgLen--)
{
C = *(ptr++);
// Convert to printable
C &= 0x7F;
if (C == 13 || C == 10 || C > 31)
*(ptr1++) = C;
}
len = ptr1 - Infofield;
Output[0] = ':';
Output[1] = 13;
memcpy(&Output[2], Infofield, len);
Output += (len + 2);
}
return Output;
case L4IACK:
Output += sprintf((char *)Output, " <INFO ACK R%d> ", RXNO);
if (Flags & L4BUSY)
*(Output++) = 'B';
if (Flags & L4NAK)
*(Output++) = 'N';
if (Flags & L4MORE)
*(Output++) = 'M';
return Output;
case 0:
// OPcode zero is used for several things
if (Index == 0x0c && ID == 0x0c) // IP
{
*(Output++) = 13;
*(Output++) = ' ';
Output = DISPLAYIPDATAGRAM((IPMSG *)ptr, Output, MsgLen);
return Output;
}
if (Index == 0 && ID == 1) // NRR
{
Output += sprintf((char *)Output, " <Record Route>\r");
MsgLen -= 23;
while (MsgLen > 6)
{
Dest[ConvFromAX25(ptr, Dest)] = 0;
if (ptr[7] & 0x80)
Output += sprintf((char *)Output, "%s* ", Dest);
else
Output += sprintf((char *)Output, "%s ", Dest);
ptr +=8;
MsgLen -= 8;
}
return Output;
}
}
Output += sprintf((char *)Output, " <???\?>");
return Output;
}
/*
PUBLIC L3IP
L3IP:
;
; TCP/IP DATAGRAM
;
mov EBX,OFFSET IP_MSG
call NORMSTR
;
INC ESI ; NOW POINTING TO IP HEADER
*/
UCHAR * DISPLAYIPDATAGRAM(IPMSG * IP, UCHAR * Output, int MsgLen)
{
UCHAR * ptr;
USHORT FRAGWORD;
ptr = (UCHAR *)&IP->IPSOURCE;
Output += sprintf((char *)Output, "%d.%d.%d.%d>", ptr[0], ptr[1], ptr[2], ptr[3]);
ptr = (UCHAR *)&IP->IPDEST;
Output += sprintf((char *)Output, "%d.%d.%d.%d LEN:%d ", ptr[0], ptr[1], ptr[2], ptr[3], htons(IP->IPLENGTH));
FRAGWORD = ntohs(IP->FRAGWORD);
if (FRAGWORD)
{
// If nonzero, check which bits are set
//Bit 0: reserved, must be zero
//Bit 1: (DF) 0 = May Fragment, 1 = Don't Fragment.
//Bit 2: (MF) 0 = Last Fragment, 1 = More Fragments.
//Fragment Offset: 13 bits
if (FRAGWORD & (1 << 14))
Output += sprintf((char *)Output, "DF ");
if (FRAGWORD & (1 << 13))
Output += sprintf((char *)Output, "MF ");
FRAGWORD &= 0xfff;
if (FRAGWORD)
{
Output += sprintf((char *)Output, "Offset %d ", FRAGWORD * 8);
return Output; // Cant display proto fields
}
}
if (IP->IPPROTOCOL == 6)
{
PTCPMSG TCP = (PTCPMSG)&IP->Data;
Output += sprintf((char *)Output, "TCP Src %d Dest %d ", ntohs(TCP->SOURCEPORT), ntohs(TCP->DESTPORT));
return Output;
}
if (IP->IPPROTOCOL == 1)
{
PICMPMSG ICMPptr = (PICMPMSG)&IP->Data;
Output += sprintf((char *)Output, "ICMP ");
if (ICMPptr->ICMPTYPE == 8)
Output += sprintf((char *)Output, "Echo Request ");
else
if (ICMPptr->ICMPTYPE == 0)
Output += sprintf((char *)Output, "Echo Reply ");
else
Output += sprintf((char *)Output, "Code %d", ICMPptr->ICMPTYPE);
return Output;
}
/*
MOV AL,IPPROTOCOL[ESI]
CMP AL,6
JNE @F
MOV EBX, OFFSET TCP
CALL NORMSTR
JMP ADD_CR
@@:
CMP AL,1
JNE @F
MOV EBX, OFFSET ICMP
CALL NORMSTR
JMP ADD_CR
@@:
CALL DISPLAY_BYTE_1 ; DISPLAY PROTOCOL TYPE
; mov AL,CR
; call PUTCHAR
;
; MOV ECX,39 ; TESTING
;IPLOOP:
; lodsb
; CALL BYTE_TO_HEX
;
; LOOP IPLOOP
JMP ADD_CR
*/
return Output;
}
char * DISPLAYARPDATAGRAM(UCHAR * Datagram, UCHAR * Output)
{
UCHAR * ptr = Datagram;
char Dest[10];
if (ptr[7] == 1) // Request
return Output + sprintf((char *)Output, " ARP Request who has %d.%d.%d.%d? Tell %d.%d.%d.%d",
ptr[26], ptr[27], ptr[28], ptr[29], ptr[15], ptr[16], ptr[17], ptr[18]);
// Response
Dest[ConvFromAX25(&ptr[8], Dest)] = 0;
return Output + sprintf((char *)Output, " ARP Reply %d.%d.%d.%d is at %s Tell %d.%d.%d.%d",
ptr[15], ptr[16], ptr[17], ptr[18], Dest, ptr[26], ptr[27], ptr[28], ptr[29]);
}