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deb-mbse/saved-mbsebbs-code-2/mbsebbs/zmmisc.c
vbcoen 6a6a253885 Updated mbmon.c & mbsetup.c
Added doc dir. and manual as .pdf
restored deleted files - yep I screwed the pooch.
2015-11-03 20:41:11 +00:00

967 lines
20 KiB
C

/*
* $Id: zmmisc.c,v 1.25 2006/05/23 19:27:37 mbse Exp $
*
* Z M . C
* Copyright 1994 Omen Technology Inc All Rights Reserved
* ZMODEM protocol primitives
*
* Entry point Functions:
* zsbhdr(type, hdr) send binary header
* zshhdr(type, hdr) send hex header
* zgethdr(hdr) receive header - binary or hex
* zsdata(buf, len, frameend) send data
* zrdata(buf, len) receive data
* stohdr(pos) store position data in Txhdr
* long rclhdr(hdr) recover position offset from header
*
*
* This version implements numerous enhancements including ZMODEM
* Run Length Encoding and variable length headers. These
* features were not funded by the original Telenet development
* contract.
*
* This software may be freely used for educational (didactic
* only) purposes. This software may also be freely used to
* support file transfer operations to or from licensed Omen
* Technology products. Use with other commercial or shareware
* programs (Crosstalk, Procomm, etc.) REQUIRES REGISTRATION.
*
* Any programs which use part or all of this software must be
* provided in source form with this notice intact except by
* written permission from Omen Technology Incorporated.
*
* Use of this software for commercial or administrative purposes
* except when exclusively limited to interfacing Omen Technology
* products requires a per port license payment of $20.00 US per
* port (less in quantity). Use of this code by inclusion,
* decompilation, reverse engineering or any other means
* constitutes agreement to these conditions and acceptance of
* liability to license the materials and payment of reasonable
* legal costs necessary to enforce this license agreement.
*
*
* Omen Technology Inc
* Post Office Box 4681
* Portland OR 97208
*
* This code is made available in the hope it will be useful,
* BUT WITHOUT ANY WARRANTY OF ANY KIND OR LIABILITY FOR ANY
* DAMAGES OF ANY KIND.
*
*/
static void zputhex(int);
static void zsbh32(char*, int);
static void zsda32(char*, int, int);
static int zrdat32(char*,int);
static int noxrd7(void);
static int zrbhd32(char*);
static int zrbhdr(char*);
static int zrhhdr(char*);
static int zgethex(void);
static int zgeth1(void);
static void garbitch(void);
#include "../config.h"
#include "../lib/mbselib.h"
#include "ttyio.h"
#include "input.h"
#include "zmmisc.h"
/*
* Original zm.c timing was in tenths of seconds, but our current ttyio driver
* does timing in whole seconds.
*/
int Rxtimeout = 10; /* Seconds to wait for something, receiver */
char *txbuf=NULL;
static int lastsent; /* Last char we sent */
static int Not8bit; /* Seven bits seen on header */
extern unsigned Baudrate;
extern int zmodem_requested;
char *frametypes[] = {
(char *)"EMPTY", /* -16 */
(char *)"Can't be (-15)",
(char *)"Can't be (-14)",
(char *)"Can't be (-13)",
(char *)"Can't be (-12)",
(char *)"Can't be (-11)",
(char *)"Can't be (-10)",
(char *)"Can't be (-9)",
(char *)"HANGUP", /* -8 */
(char *)"Can't be (-7)",
(char *)"Can't be (-6)",
(char *)"Can't be (-5)",
(char *)"EOFILE", /* -4 */
(char *)"Can't be (-3)",
(char *)"TIMEOUT", /* -2 */
(char *)"ERROR", /* -1 */
(char *)"ZRQINIT",
(char *)"ZRINIT",
(char *)"ZSINIT",
(char *)"ZACK",
(char *)"ZFILE",
(char *)"ZSKIP",
(char *)"ZNAK",
(char *)"ZABORT",
(char *)"ZFIN",
(char *)"ZRPOS",
(char *)"ZDATA",
(char *)"ZEOF",
(char *)"ZFERR",
(char *)"ZCRC",
(char *)"ZCHALLENGE",
(char *)"ZCOMPL",
(char *)"ZCAN",
(char *)"ZFREECNT",
(char *)"ZCOMMAND",
(char *)"ZSTDERR",
(char *)"xxxxx"
#define FRTYPES 22 /* Total number of frame types in this array */
/* not including psuedo negative entries */
};
/***** Hack by mj ***********************************************************/
/*
* Buffer for outgoing frames. Sending them with single character write()'s
* is a waste of processor time and causes severe performance degradation
* on TCP and ISDN connections.
*/
#define FRAME_BUFFER_SIZE 16384
static char *frame_buffer=NULL;
static int frame_length = 0;
#define BUFFER_CLEAR() do { frame_length=0; } while(0)
#define BUFFER_BYTE(c) do { frame_buffer[frame_length++]=(c); } while(0)
#define BUFFER_FLUSH() do { PUT(frame_buffer, frame_length); frame_length=0; } while(0);
/****************************************************************************/
void get_frame_buffer(void)
{
if (frame_buffer == NULL)
frame_buffer=xmalloc(FRAME_BUFFER_SIZE);
}
void del_frame_buffer(void)
{
if (frame_buffer == NULL)
return;
free(frame_buffer);
frame_buffer = NULL;
}
/*
* Send ZMODEM binary header hdr of type type
*/
void zsbhdr(int type, char *shdr)
{
register int n;
register unsigned short crc;
Crc32t = Txfcs32;
Syslog('z', "zsbh%s: %s %lx", Crc32t ? "32":"dr", frametypes[type+FTOFFSET], rclhdr(shdr));
BUFFER_CLEAR();
if (type == ZDATA)
for (n = Znulls; --n >=0; )
BUFFER_BYTE(0);
BUFFER_BYTE(ZPAD);
BUFFER_BYTE(ZDLE);
if (Crc32t)
zsbh32(shdr, type);
else {
BUFFER_BYTE(ZBIN);
zsendline(type);
crc = updcrc16(type, 0);
for (n=4; --n >= 0; ++shdr) {
zsendline(*shdr);
crc = updcrc16((0377& *shdr), crc);
}
crc = updcrc16(0,updcrc16(0,crc));
zsendline(((int)(crc>>8)));
zsendline(crc);
}
BUFFER_FLUSH();
if (type != ZDATA)
FLUSHOUT();
}
/*
* Send ZMODEM binary header hdr of type type
*/
void zsbh32(char *shdr, int type)
{
register int n;
register unsigned int crc;
BUFFER_BYTE(ZBIN32);
zsendline(type);
crc = 0xFFFFFFFFL;
crc = updcrc32(type, crc);
for (n=4; --n >= 0; ++shdr) {
crc = updcrc32((0377 & *shdr), crc);
zsendline(*shdr);
}
crc = ~crc;
for (n=4; --n >= 0;) {
zsendline((int)crc);
crc >>= 8;
}
}
/*
* Send ZMODEM HEX header hdr of type type
*/
void zshhdr(int type, char *shdr)
{
register int n;
register unsigned short crc;
Syslog('z', "zshhdr: %s %lx", frametypes[type+FTOFFSET], rclhdr(shdr));
BUFFER_CLEAR();
BUFFER_BYTE(ZPAD);
BUFFER_BYTE(ZPAD);
BUFFER_BYTE(ZDLE);
BUFFER_BYTE(ZHEX);
zputhex(type & 0x7f);
Crc32t = 0;
crc = updcrc16((type & 0x7f), 0);
for (n=4; --n >= 0; ++shdr) {
zputhex(*shdr);
crc = updcrc16((0377 & *shdr), crc);
}
crc = updcrc16(0,updcrc16(0,crc));
zputhex((int)(crc>>8));
zputhex((int)(crc & 0xff));
/*
* Make it printable on remote machine
*/
BUFFER_BYTE(015);
BUFFER_BYTE(0212);
/*
* Uncork the remote in case a fake XOFF has stopped data flow
*/
if (type != ZFIN && type != ZACK)
BUFFER_BYTE(021);
BUFFER_FLUSH();
FLUSHOUT();
}
/*
* Send binary array buf of length length, with ending ZDLE sequence frameend
*/
char *Zendnames[] = {(char *)"ZCRCE",(char *)"ZCRCG",(char *)"ZCRCQ",(char *)"ZCRCW"};
void zsdata(register char *buf, int length, int frameend)
{
register unsigned short crc;
BUFFER_CLEAR();
if (Crc32t)
zsda32(buf, length, frameend);
else {
Syslog('z', "zsdata: %d %s", length, Zendnames[(frameend-ZCRCE)&3]);
crc = 0;
for (;--length >= 0; ++buf) {
zsendline(*buf);
crc = updcrc16((0377 & *buf), crc);
}
BUFFER_BYTE(ZDLE);
BUFFER_BYTE(frameend);
crc = updcrc16(frameend, crc);
crc = updcrc16(0,updcrc16(0,crc));
zsendline(((int)(crc>>8)));
zsendline(crc);
}
if (frameend == ZCRCW)
BUFFER_BYTE(XON);
BUFFER_FLUSH();
if (frameend != ZCRCG)
FLUSHOUT();
}
void zsda32(register char *buf, int length, int frameend)
{
int c;
unsigned int crc;
Syslog('z', "zsdat32: %d %s", length, Zendnames[(frameend-ZCRCE)&3]);
crc = 0xFFFFFFFFL;
for (;--length >= 0; ++buf) {
c = *buf & 0377;
zsendline(c);
crc = updcrc32(c, crc);
}
BUFFER_BYTE(ZDLE);
BUFFER_BYTE(frameend);
crc = updcrc32(frameend, crc);
crc = ~crc;
for (c=4; --c >= 0;) {
zsendline((int)crc); crc >>= 8;
}
}
/*
* Receive array buf of max length with ending ZDLE sequence
* and CRC. Returns the ending character or error code.
* NB: On errors may store length+1 bytes!
*/
int zrdata(register char *buf, int length)
{
register int c;
register unsigned short crc;
register char *end;
register int d;
if (Crc32r)
return zrdat32(buf, length);
crc = Rxcount = 0;
end = buf + length;
while (buf <= end) {
if ((c = zdlread()) & ~0377) {
crcfoo:
switch (c) {
case GOTCRCE:
case GOTCRCG:
case GOTCRCQ:
case GOTCRCW: crc = updcrc16((((d=c))&0377), crc);
if ((c = zdlread()) & ~0377)
goto crcfoo;
crc = updcrc16(c, crc);
if ((c = zdlread()) & ~0377)
goto crcfoo;
crc = updcrc16(c, crc);
if (crc & 0xFFFF) {
Syslog('+', "Zmodem zrdata: Bad CRC");
return TERROR;
}
Rxcount = length - (end - buf);
Syslog('z', "zrdata: %d %s", Rxcount, Zendnames[(d-GOTCRCE)&3]);
return d;
case GOTCAN: Syslog('+', "Zmodem: Sender Canceled");
return ZCAN;
case TIMEOUT: Syslog('+', "Zmodem: TIMEOUT receiving data");
return c;
case HANGUP: Syslog('+', "Zmodem: Carrier lost while receiving");
return c;
default: garbitch();
return c;
}
}
*buf++ = c;
crc = updcrc16(c, crc);
}
Syslog('+', "Zmodem: Data subpacket too long");
return TERROR;
}
int zrdat32(register char *buf, int length)
{
register int c;
register unsigned int crc;
register char *end;
register int d;
crc = 0xFFFFFFFFL;
Rxcount = 0;
end = buf + length;
while (buf <= end) {
if ((c = zdlread()) & ~0377) {
crcfoo:
switch (c) {
case GOTCRCE:
case GOTCRCG:
case GOTCRCQ:
case GOTCRCW: d = c; c &= 0377;
crc = updcrc32(c, crc);
if ((c = zdlread()) & ~0377)
goto crcfoo;
crc = updcrc32(c, crc);
if ((c = zdlread()) & ~0377)
goto crcfoo;
crc = updcrc32(c, crc);
if ((c = zdlread()) & ~0377)
goto crcfoo;
crc = updcrc32(c, crc);
if ((c = zdlread()) & ~0377)
goto crcfoo;
crc = updcrc32(c, crc);
if (crc != 0xDEBB20E3) {
Syslog('+', "Zmodem zrdat32: Bad CRC %08x should be 0xDEBB20E3", crc);
return TERROR;
}
Rxcount = length - (end - buf);
Syslog('z', "zrdat32: %d %s", Rxcount, Zendnames[(d-GOTCRCE)&3]);
return d;
case GOTCAN: Syslog('+', "Zmodem: Sender Canceled");
return ZCAN;
case TIMEOUT: Syslog('+', "Zmodem: TIMEOUT");
return c;
case HANGUP: Syslog('+', "Zmodem: Carrier lost while receiving");
return c;
default: garbitch();
return c;
}
}
*buf++ = c;
crc = updcrc32(c, crc);
}
Syslog('+', "Zmodem: Data subpacket too long");
return TERROR;
}
void garbitch(void)
{
Syslog('+', "Zmodem: Garbled data subpacket");
}
/*
* Read a ZMODEM header to hdr, either binary or hex.
*
* Set Rxhlen to size of header (default 4) (valid if good hdr)
* On success, set Zmodem to 1, set Rxpos and return type of header.
* Otherwise return negative on error.
* Return ERROR instantly if ZCRCW sequence, for fast error recovery.
*/
int zgethdr(char *shdr)
{
register int c, n, cancount, tmcount;
int Zrwindow = 1400;
n = Zrwindow + Baudrate;
Rxframeind = Rxtype = 0;
startover:
cancount = 5;
tmcount = 5;
again:
switch (c = GETCHAR(Rxtimeout)) {
case 021:
case 0221: goto again;
case HANGUP: goto fifi;
case TIMEOUT: Syslog('z', "zgethdr: got TIMEOUT %d", tmcount);
if (--tmcount <= 0) {
c = TERROR;
goto fifi;
}
goto startover;
case CAN:
gotcan:
Syslog('z', "zgethdr: got CAN %d", cancount);
if (--cancount <= 0) {
c = ZCAN;
goto fifi;
}
switch (c = GETCHAR(1)) {
case TIMEOUT: goto again;
case ZCRCW: switch (GETCHAR(1)) {
case TIMEOUT: c = TERROR;
goto fifi;
case HANGUP: goto fifi;
default: goto agn2;
}
case HANGUP: goto fifi;
default: break;
case CAN: if (--cancount <= 0) {
c = ZCAN;
goto fifi;
}
goto again;
}
/* **** FALL THRU TO **** */
default:
agn2:
#define GCOUNT (-4)
if ( --n == 0) {
c = GCOUNT;
Syslog('z', "zgethdr: garbage count exceeded");
goto fifi;
}
goto startover;
case ZPAD|0200: /* This is what we want. */
Not8bit = c;
case ZPAD: /* This is what we want. */
break;
}
cancount = 5;
splat:
switch (c = noxrd7()) {
case ZPAD: goto splat;
case HANGUP:
case TIMEOUT: goto fifi;
default: goto agn2;
case ZDLE: /* This is what we want. */
break;
}
Rxframeind = c = noxrd7();
switch (c) {
case ZBIN32: Crc32r = 1;
c = zrbhd32(shdr);
break;
case HANGUP:
case TIMEOUT: goto fifi;
case ZBIN: Crc32r = 0;
c = zrbhdr(shdr);
break;
case ZHEX: Crc32r = 0;
c = zrhhdr(shdr);
break;
case CAN: goto gotcan;
default: Syslog('z', "Zmodem: zgethdr got %d char", c);
goto agn2;
}
for (n = 4; ++n < ZMAXHLEN; ) /* Clear unused hdr bytes */
shdr[n] = 0;
Rxpos = shdr[ZP3] & 0377;
Rxpos = (Rxpos<<8) + (shdr[ZP2] & 0377);
Rxpos = (Rxpos<<8) + (shdr[ZP1] & 0377);
Rxpos = (Rxpos<<8) + (shdr[ZP0] & 0377);
fifi:
switch (c) {
case GOTCAN: c = ZCAN;
/* **** FALL THRU TO **** */
case ZNAK:
case ZCAN:
case TERROR:
case TIMEOUT:
case HANGUP: Syslog('+', "Zmodem: Got %s", frametypes[c+FTOFFSET]);
/* **** FALL THRU TO **** */
default: if (c >= -FTOFFSET && c <= FRTYPES)
Syslog('z', "zgethdr: %c %s %lx", Rxframeind, frametypes[c+FTOFFSET], Rxpos);
else
Syslog('z', "zgethdr: %d %d %lx", Rxframeind, c, Rxpos);
}
return c;
}
/*
* Receive a binary style header (type and position)
*/
int zrbhdr(register char *shdr)
{
register int c, n;
register unsigned short crc;
if ((c = zdlread()) & ~0377)
return c;
Rxtype = c;
crc = updcrc16(c, 0);
for (n=4; --n >= 0; ++shdr) {
if ((c = zdlread()) & ~0377)
return c;
crc = updcrc16(c, crc);
*shdr = c;
}
if ((c = zdlread()) & ~0377)
return c;
crc = updcrc16(c, crc);
if ((c = zdlread()) & ~0377)
return c;
crc = updcrc16(c, crc);
if (crc & 0xFFFF) {
Syslog('+', "Zmodem zrbhdr: Bad CRC");
return TERROR;
}
zmodem_requested = TRUE;
protocol = ZM_ZMODEM;
return Rxtype;
}
/*
* Receive a binary style header (type and position) with 32 bit FCS
*/
int zrbhd32(register char *shdr)
{
register int c, n;
register unsigned int crc;
if ((c = zdlread()) & ~0377)
return c;
Rxtype = c;
crc = 0xFFFFFFFFL; crc = updcrc32(c, crc);
for (n=4; --n >= 0; ++shdr) {
if ((c = zdlread()) & ~0377)
return c;
crc = updcrc32(c, crc);
*shdr = c;
}
for (n=4; --n >= 0;) {
if ((c = zdlread()) & ~0377)
return c;
crc = updcrc32(c, crc);
}
if (crc != 0xDEBB20E3) {
Syslog('+', "Zmodem zrbhd32: Bad CRC");
return TERROR;
}
zmodem_requested = TRUE;
protocol = ZM_ZMODEM;
return Rxtype;
}
/*
* Receive a hex style header (type and position)
*/
int zrhhdr(char *shdr)
{
register int c;
register unsigned short crc;
register int n;
if ((c = zgethex()) < 0)
return c;
Rxtype = c;
crc = updcrc16(c, 0);
for (n=4; --n >= 0; ++shdr) {
if ((c = zgethex()) < 0)
return c;
crc = updcrc16(c, crc);
*shdr = c;
}
if ((c = zgethex()) < 0)
return c;
crc = updcrc16(c, crc);
if ((c = zgethex()) < 0)
return c;
crc = updcrc16(c, crc);
if (crc & 0xFFFF) {
Syslog('+', "Zmodem zrhhdr: Bad CRC");
return TERROR;
}
switch (c = GETCHAR(2)) {
case 0215: Not8bit = c;
/* **** FALL THRU TO **** */
case 015: /* Throw away possible cr/lf */
switch (c = GETCHAR(Rxtimeout)) {
case 012: Not8bit |= c;
}
}
if (c < 0)
return c;
zmodem_requested = TRUE;
protocol = ZM_ZMODEM;
return Rxtype;
}
/*
* Send a byte as two hex digits
*/
void zputhex(int c)
{
static char digits[] = "0123456789abcdef";
BUFFER_BYTE(digits[(c&0xF0)>>4]);
BUFFER_BYTE(digits[(c)&0xF]);
}
/*
* Send character c with ZMODEM escape sequence encoding.
* Escape XON, XOFF. Escape CR following @ (Telenet net escape)
*/
void zsendline(int c)
{
switch (c &= 0377) {
case 0377:
lastsent = c;
if (Zctlesc || Zsendmask[32]) {
BUFFER_BYTE(ZDLE); c = ZRUB1;
}
BUFFER_BYTE(c);
break;
case ZDLE:
BUFFER_BYTE(ZDLE);
BUFFER_BYTE(lastsent = (c ^= 0100));
break;
case 015:
case 0215:
if (!Zctlesc && (lastsent & 0177) != '@')
goto sendit;
/* Fall thru */
case 020:
case 021:
case 023:
case 0221:
case 0223:
BUFFER_BYTE(ZDLE);
c ^= 0100;
sendit:
BUFFER_BYTE(lastsent = c);
break;
default:
if (((c & 0140) == 0) && (Zctlesc || Zsendmask[c & 037])) {
BUFFER_BYTE(ZDLE); c ^= 0100;
}
BUFFER_BYTE(lastsent = c);
}
}
/* Decode two lower case hex digits into an 8 bit byte value */
int zgethex(void)
{
register int c;
c = zgeth1();
return c;
}
int zgeth1(void)
{
register int c, n;
if ((c = noxrd7()) < 0)
return c;
n = c - '0';
if (n > 9)
n -= ('a' - ':');
if (n & ~0xF)
return TERROR;
if ((c = noxrd7()) < 0)
return c;
c -= '0';
if (c > 9)
c -= ('a' - ':');
if (c & ~0xF)
return TERROR;
c += (n<<4);
return c;
}
/*
* Read a byte, checking for ZMODEM escape encoding
* including CAN*5 which represents a quick abort
*/
int zdlread(void)
{
register int c;
again:
/* Quick check for non control characters */
if ((c = GETCHAR(Rxtimeout)) & 0140)
return c;
switch (c) {
case ZDLE: break;
case XON:
case XON|0200:
case XOFF:
case XOFF|0200: goto again;
default: if (Zctlesc && !(c & 0140)) {
goto again;
}
return c;
}
again2:
if ((c = GETCHAR(Rxtimeout)) < 0)
return c;
if (c == CAN && (c = GETCHAR(Rxtimeout)) < 0)
return c;
if (c == CAN && (c = GETCHAR(Rxtimeout)) < 0)
return c;
if (c == CAN && (c = GETCHAR(Rxtimeout)) < 0)
return c;
switch (c) {
case CAN: return GOTCAN;
case ZCRCE:
case ZCRCG:
case ZCRCQ:
case ZCRCW: return (c | GOTOR);
case ZRUB0: return 0177;
case ZRUB1: return 0377;
case XON:
case XON|0200:
case XOFF:
case XOFF|0200: goto again2;
default: if (Zctlesc && ! (c & 0140)) {
goto again2;
}
if ((c & 0140) == 0100)
return (c ^ 0100);
break;
}
Syslog('+', "Zmodem: Bad escape sequence 0x%x", c);
return TERROR;
}
/*
* Read a character from the modem line with timeout.
* Eat parity, XON and XOFF characters.
*/
int noxrd7(void)
{
register int c;
for (;;) {
if ((c = GETCHAR(Rxtimeout)) < 0)
return c;
switch (c &= 0177) {
case XON:
case XOFF: continue;
default: if (Zctlesc && !(c & 0140))
continue;
case '\r':
case '\n':
case ZDLE: return c;
}
}
}
/*
* Store long integer pos in Txhdr
*/
void stohdr(int pos)
{
Txhdr[ZP0] = pos;
Txhdr[ZP1] = pos>>8;
Txhdr[ZP2] = pos>>16;
Txhdr[ZP3] = pos>>24;
}
/*
* Recover a long integer from a header
*/
int rclhdr(register char *shdr)
{
register int l;
l = (shdr[ZP3] & 0377);
l = (l << 8) | (shdr[ZP2] & 0377);
l = (l << 8) | (shdr[ZP1] & 0377);
l = (l << 8) | (shdr[ZP0] & 0377);
return l;
}
char *protname(void)
{
switch (protocol) {
case ZM_XMODEM: return (char *)"Xmodem";
case ZM_YMODEM: return (char *)"Ymodem";
default: return (char *)"Zmodem";
}
}
/*
* Purge input, maximum wait time in n * 10 mSec.
*/
void purgeline(int howlong)
{
int c, count = 0;
unsigned char ch = 0;
do {
c = Waitchar(&ch, howlong);
count++;
} while (c == 1);
if (count)
Syslog('z', "purgeline: purged %d characters", count);
}
/*
* send cancel string to get the other end to shut up
*/
void canit(int fd)
{
static char canistr[] = { 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 0 };
Syslog('z', "%s: send canit to fd %d", protname(), fd);
write(fd, canistr, strlen(canistr));
if (fd == 0)
write(1, canistr, strlen(canistr));
}
/* End of zmmisc.c */