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|
/*
* Copyright 1996 Jonathan Naylor G4KLX
*
* Added ROSE new facilities : Jean-Paul ROUBELAT 04-1998
* Added ROSE multi-digi : Jean-Paul ROUBELAT 05-1998
* Added ROSE PID transport : Jean-Paul ROUBELAT 07-1998
*/
#include <stdio.h>
#include <string.h>
#include "listen.h"
#define PID_SEGMENT 0x08
#define PID_ARP 0xCD
#define PID_NETROM 0xCF
#define PID_IP 0xCC
#define PID_X25 0x01
#define PID_TEXNET 0xC3
#define PID_FLEXNET 0xCE
#define PID_NO_L3 0xF0
#define ROSE_ADDR_LEN 5
#define CALL_REQUEST 0x0B
#define CALL_ACCEPTED 0x0F
#define CLEAR_REQUEST 0x13
#define CLEAR_CONFIRMATION 0x17
#define INTERRUPT 0x23
#define INTERRUPT_CONFIRMATION 0x27
#define RESET_REQUEST 0x1B
#define RESET_CONFIRMATION 0x1F
#define RESTART_REQUEST 0xFB
#define RESTART_CONFIRMATION 0xFF
#define REGISTRATION_REQUEST 0xF3
#define REGISTRATION_CONFIRMATION 0xF7
#define DIAGNOSTIC 0xF1
#define RR 0x01
#define RNR 0x05
#define REJ 0x09
#define DATA 0x00
#define QBIT 0x80
#define DBIT 0x40
#define MBIT 0x10
#define AX25_HBIT 0x80
static char *dump_x25_addr(unsigned char *);
static char *clear_code(unsigned char);
static char *reset_code(unsigned char);
static char *restart_code(unsigned char);
static void facility(unsigned char *, int len);
void rose_dump(unsigned char *data, int length, int hexdump)
{
unsigned char *source = NULL;
unsigned char *dest = NULL;
unsigned int len, hlen;
unsigned int lci = ((unsigned) (data[0] & 0x0F) << 8) + data[1];
lprintf(T_ROSEHDR, "X.25: LCI %3.3X : ", lci);
switch (data[2]) {
case CALL_REQUEST:
len = 4;
hlen = (((data[3] >> 4) & 0x0F) + 1) / 2;
hlen += (((data[3] >> 0) & 0x0F) + 1) / 2;
if (hlen == 10) {
dest = data + 4;
source = data + 9;
}
len += hlen;
data += len;
length -= len;
lprintf(T_ROSEHDR, "CALL REQUEST - ");
if (length) {
unsigned int flen = data[0] + 1;
facility(data, length);
length -= flen;
data += flen;
if (length > 0)
data_dump(data, length, 1);
} else {
lprintf(T_ROSEHDR, "\n");
}
return;
case CALL_ACCEPTED:
lprintf(T_ROSEHDR, "CALL ACCEPTED\n");
return;
case CLEAR_REQUEST:
lprintf(T_ROSEHDR, "CLEAR REQUEST - Cause %s - Diag %d\n",
clear_code(data[3]), data[4]);
if (length > 6) {
facility(data + 6, length - 6);
}
return;
case CLEAR_CONFIRMATION:
lprintf(T_ROSEHDR, "CLEAR CONFIRMATION\n");
return;
case DIAGNOSTIC:
lprintf(T_ROSEHDR, "DIAGNOSTIC - Diag %d\n", data[3]);
return;
case INTERRUPT:
lprintf(T_ROSEHDR, "INTERRUPT\n");
data_dump(data + 3, length - 3, hexdump);
return;
case INTERRUPT_CONFIRMATION:
lprintf(T_ROSEHDR, "INTERRUPT CONFIRMATION\n");
return;
case RESET_REQUEST:
lprintf(T_ROSEHDR, "RESET REQUEST - Cause %s - Diag %d\n",
reset_code(data[3]), data[4]);
return;
case RESET_CONFIRMATION:
lprintf(T_ROSEHDR, "RESET CONFIRMATION\n");
return;
case RESTART_REQUEST:
lprintf(T_ROSEHDR,
"RESTART REQUEST - Cause %s - Diag %d\n",
restart_code(data[3]), data[4]);
return;
case RESTART_CONFIRMATION:
lprintf(T_ROSEHDR, "RESTART CONFIRMATION\n");
return;
case REGISTRATION_REQUEST:
lprintf(T_ROSEHDR, "REGISTRATION REQUEST\n");
return;
case REGISTRATION_CONFIRMATION:
lprintf(T_ROSEHDR, "REGISTRATION CONFIRMATION\n");
return;
}
if ((data[2] & 0x01) == DATA) {
lprintf(T_ROSEHDR, "DATA R%d S%d %s%s%s",
(data[2] >> 5) & 0x07, (data[2] >> 1) & 0x07,
(data[0] & QBIT) ? "Q" : "",
(data[0] & DBIT) ? "D" : "",
(data[2] & MBIT) ? "M" : "");
if ((length >= 5) && (data[0] & QBIT) && (data[3] == 0x7f)) {
/* pid transport */
int pid = data[4];
data += 5;
length -= 5;
switch (pid) {
case PID_SEGMENT:
lprintf(T_ROSEHDR," len %d\n", length - 5);
data_dump(data, length, hexdump);
break;
case PID_ARP:
lprintf(T_ROSEHDR," pid=ARP len %d\n", length - 5);
arp_dump(data, length);
break;
case PID_NETROM:
lprintf(T_ROSEHDR," pid=NET/ROM len %d\n", length - 5);
netrom_dump(data, length, hexdump, 0);
break;
case PID_IP:
lprintf(T_ROSEHDR," pid=IP len %d\n", length - 5);
ip_dump(data, length, hexdump);
break;
case PID_X25:
lprintf(T_ROSEHDR, " pid=X.25 len %d\n", length - 5);
rose_dump(data, length, hexdump);
break;
case PID_TEXNET:
lprintf(T_ROSEHDR, " pid=TEXNET len %d\n", length - 5);
data_dump(data, length, hexdump);
break;
case PID_FLEXNET:
lprintf(T_ROSEHDR, " pid=FLEXNET len %d\n", length - 5);
flexnet_dump(data, length, hexdump);
break;
case PID_NO_L3:
lprintf(T_ROSEHDR, " pid=Text len %d\n", length - 5);
data_dump(data, length, hexdump);
break;
default:
lprintf(T_ROSEHDR, " pid=0x%x len %d\n", pid, length - 5);
data_dump(data, length, hexdump);
break;
}
} else {
lprintf(T_ROSEHDR, " len %d\n", length - 3);
data_dump(data + 3, length - 3, hexdump);
}
return;
}
switch (data[2] & 0x1F) {
case RR:
lprintf(T_ROSEHDR, "RR R%d\n", (data[2] >> 5) & 0x07);
return;
case RNR:
lprintf(T_ROSEHDR, "RNR R%d\n", (data[2] >> 5) & 0x07);
return;
case REJ:
lprintf(T_ROSEHDR, "REJ R%d\n", (data[2] >> 5) & 0x07);
return;
}
lprintf(T_ROSEHDR, "UNKNOWN\n");
data_dump(data, length, 1);
}
static char *clear_code(unsigned char code)
{
static char buffer[25];
if (code == 0x00 || (code & 0x80) == 0x80)
return "DTE Originated";
if (code == 0x01)
return "Number Busy";
if (code == 0x09)
return "Out Of Order";
if (code == 0x11)
return "Remote Procedure Error";
if (code == 0x19)
return "Reverse Charging Acceptance Not Subscribed";
if (code == 0x21)
return "Incompatible Destination";
if (code == 0x29)
return "Fast Select Acceptance Not Subscribed";
if (code == 0x39)
return "Destination Absent";
if (code == 0x03)
return "Invalid Facility Requested";
if (code == 0x0B)
return "Access Barred";
if (code == 0x13)
return "Local Procedure Error";
if (code == 0x05)
return "Network Congestion";
if (code == 0x0D)
return "Not Obtainable";
if (code == 0x15)
return "RPOA Out Of Order";
sprintf(buffer, "Unknown %02X", code);
return buffer;
}
static char *reset_code(unsigned char code)
{
static char buffer[25];
if (code == 0x00 || (code & 0x80) == 0x80)
return "DTE Originated";
if (code == 0x03)
return "Remote Procedure Error";
if (code == 0x11)
return "Incompatible Destination";
if (code == 0x05)
return "Local Procedure Error";
if (code == 0x07)
return "Network Congestion";
sprintf(buffer, "Unknown %02X", code);
return buffer;
}
static char *restart_code(unsigned char code)
{
static char buffer[25];
if (code == 0x00 || (code & 0x80) == 0x80)
return "DTE Originated";
if (code == 0x01)
return "Local Procedure Error";
if (code == 0x03)
return "Network Congestion";
if (code == 0x07)
return "Network Operational";
sprintf(buffer, "Unknown %02X", code);
return buffer;
}
static char *dump_x25_addr(unsigned char *data)
{
static char buffer[25];
sprintf(buffer, "%02X%02X,%02X%02X%02X", data[0], data[1], data[2],
data[3], data[4]);
return buffer;
}
static char *dump_ax25_call(unsigned char *data, int l_data)
{
static char buffer[25];
char *ptr = buffer;
int ssid;
while (l_data-- > 1) {
*ptr = *data++ >> 1;
if (*ptr != ' ')
++ptr;
}
*ptr++ = '-';
ssid = (*data & 0x1F) >> 1;
if (ssid >= 10) {
*ptr++ = '1';
ssid -= 10;
}
*ptr++ = ssid + '0';
*ptr = 0;
return buffer;
}
static void facility(unsigned char *data, int lgtot)
{
int lgfac, l, lg, fct, lgdigi, lgaddcall;
int lgad, lgaddr, lgadind, digi_fac;
char digis[80], digid[80];
char indorig[10], inddest[10];
char addstorig[20], addstdest[20];
char *d, *factot;
char buf[512];
char *result = buf;
factot = data;
lgfac = *data++;
lg = lgfac;
digi_fac = 0;
digid[0] = digis[0] = '\0';
indorig[0] = inddest[0] = '\0';
while (lg > 0) {
fct = *data++;
lg--;
switch (fct) {
case 0:
/* Marker=0 National Fac ou Marker=15 CCITT */
data++;
lg--;
break;
case 0x3F:
/* Used if call request via L2 digi instead of L3 */
lprintf(T_ROSEHDR, "Facility 3F%2.2X\n", *data++);
lg--;
break;
case 0x7F:
/* Random number to avoid loops */
lprintf(T_ROSEHDR, "NbAlea: %2.2X%2.2X\n", *data,
*(data + 1));
data += 2;
lg -= 2;
break;
case 0xE9:
/* Destination digi (for compatibility) */
lgdigi = *data++;
if (!digi_fac)
strcpy(digid,
dump_ax25_call(data, lgdigi));
data += lgdigi;
lg -= 1 + lgdigi;
break;
case 0xEB:
/* Origin digi (for compatibility) */
lgdigi = *data++;
if (!digi_fac)
strcpy(digis,
dump_ax25_call(data, lgdigi));
data += lgdigi;
lg -= 1 + lgdigi;
break;
case 0xED:
/* Out of order : callsign */
lgaddcall = *data++;
lprintf(T_ROSEHDR, "at %s",
dump_ax25_call(data, lgaddcall));
data += lgaddcall;
lg -= 1 + lgaddcall;
break;
case 0xEE:
/* Out of order : address */
lgaddcall = *data++;
++data; /* Don't know... */
lprintf(T_ROSEHDR, " @%s\n", dump_x25_addr(data));
/* data_dump(data, lgaddcall, 1); */
data += lgaddcall;
lg -= 1 + lgaddcall;
break;
case 0xEF:
lgaddcall = *data++;
for (d = data, l = 0; l < lgaddcall;
l += 7, d += 7) {
if (l > (6 * 7)) {
/* 6 digis maximum */
break;
}
if (d[6] & AX25_HBIT) {
strcat(digis,
dump_ax25_call(d, 7));
strcat(digis, " ");
} else {
strcat(digid,
dump_ax25_call(d, 7));
strcat(digid, " ");
}
}
data += lgaddcall;
lg -= 1 + lgaddcall;
digi_fac = 1;
break;
case 0xC9:
/* Address and callsign of the remote node */
case 0xCB:
/* Address and callsign of the local node */
lgaddcall = *data++;
data++;
data += 3;
lgad = *data++;
lg -= 6;
lgaddr = lgad;
if (fct == 0xCB)
strcpy(addstorig, dump_x25_addr(data));
else
strcpy(addstdest, dump_x25_addr(data));
data += (lgad + 1) / 2;
lg -= (lgad + 1) / 2;
lgadind = lgaddcall - (lgad + 1) / 2 - 5;
if (fct == 0xCB) {
strncpy(indorig, data, lgadind);
indorig[lgadind] = '\0';
} else {
strncpy(inddest, data, lgadind);
inddest[lgadind] = '\0';
}
data += lgadind;
lg -= lgadind;
break;
default:
lprintf(T_ROSEHDR, "Unknown Facility Type %2.2X\n",
fct);
data_dump(factot, lgtot, 1);
lg = 0;
break;
}
result += strlen(result);
}
if (*indorig && *inddest) {
/* Build the displayed string */
lprintf(T_ROSEHDR, "fm %-9s @%s", indorig, addstorig);
if (*digis)
lprintf(T_ROSEHDR, " via %s", digis);
lprintf(T_ROSEHDR, "\n");
lprintf(T_ROSEHDR, "to %-9s @%s", inddest, addstdest);
if (*digid)
lprintf(T_ROSEHDR, " via %s", digid);
lprintf(T_ROSEHDR, "\n");
}
}
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