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/* Sample system-dependent communications i/o routines for embedded Kermit. */
/*
Author: Frank da Cruz.
Copyright (C) 1995, 2011.
Trustees of Columbia University in the City of New York.
All rights reserved.
See kermit.c for license.
*/
/*
The sample i/o routines for UNIX that provide packet i/o
functions on the console (login) device.
Copy this file, rename it appropriately, and replace the contents
of each routine appropriately for your platform.
Device i/o:
int devopen() Communications device - open
int pktmode() Communications device - enter/exit packet mode
int readpkt() Communications device - read a packet
int tx_data() Communications device - send data
int devclose() Communications device - close
int inchk() Communications device - check if bytes are ready to read
File i/o:
int openfile() File - open for input or output
ULONG fileinfo() Get input file modtime and size
int readfile() Input file - read data
int writefile() Output file - write data
int closefile() Input or output file - close
Full definitions below, prototypes in kermit.h.
These routines must handle speed setting, parity, flow control, file i/o,
and similar items without the kermit() routine knowing anything about it.
If parity is in effect, these routines must add it to outbound characters
and strip it from inbound characters.
*/
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/stat.h>
#include <time.h>
#include <errno.h>
#ifndef O_WRONLY
#include <sys/file.h>
#ifdef X_OK
#undef X_OK
#endif /* X_OK */
#endif /* O_WRONLY */
#include "cdefs.h"
#include "debug.h"
#include "platform.h"
#include "kermit.h"
UCHAR o_buf[OBUFLEN+8]; /* File output buffer */
UCHAR i_buf[IBUFLEN+8]; /* File output buffer */
/*
In this example, the output file is unbuffered to ensure that every
output byte is commited. The input file, however, is buffered for speed.
This is just one of many possible implmentation choices, invisible to the
Kermit protocol module.
*/
static int ttyfd, ofile = -1; /* File descriptors */
static FILE * ifile = (FILE *)0; /* and pointers */
/* Debugging */
#ifdef DEBUG
static FILE * dp = (FILE *)0; /* Debug log */
static int xdebug = 0; /* Debugging on/off */
void
dodebug(int fc, UCHAR * label, UCHAR * sval, long nval) {
if (fc != DB_OPN && !xdebug)
return;
if (!label)
label = (UCHAR *)"";
switch (fc) { /* Function code */
case DB_OPN: /* Open debug log */
if (dp) fclose(dp);
if (!*label) label = (UCHAR *)"debug.log";
dp = fopen((char *)label,"w");
if (!dp) {
dp = stderr;
} else {
setbuf(dp,(char *)0);
}
xdebug = 1;
fprintf(dp,"DEBUG LOG OPEN\n");
return;
case DB_MSG: /* Write a message */
if (dp) fprintf(dp,"%s\n",label);
return;
case DB_CHR: /* Write label and character */
if (dp) fprintf(dp,"%s=[%c]\n",label,(char)nval);
return;
case DB_PKT: /* Log a packet */
/* (fill in later, fall thru for now...) */
case DB_LOG: /* Write label and string or number */
if (sval && dp)
fprintf(dp,"%s[%s]\n",label,sval);
else
fprintf(dp,"%s=%ld\n",label,nval);
return;
case DB_CLS: /* Close debug log */
if (dp) {
fclose(dp);
dp = (FILE *)0;
}
xdebug = 0;
}
}
#endif /* DEBUG */
/* D E V O P E N -- Open communications device */
/*
Call with: string pointer to device name. This routine should get the
current device settings and save them so devclose() can restore them.
It should open the device. If the device is a serial port, devopen()
set the speed, stop bits, flow control, etc.
Returns: 0 on failure, 1 on success.
*/
int
devopen(char *device) {
ttyfd = 0;
return(1);
}
/* P K T M O D E -- Put communications device into or out of packet mode */
/*
Call with: 0 to put in normal (cooked) mode, 1 to put in packet (raw) mode.
For a "dumb i/o device" like an i/o port that does not have a login attached
to it, this routine can usually be a no-op.
Returns: 0 on failure, 1 on success.
*/
int
pktmode(short on) {
if (ttyfd < 0) /* Device must be open */
return(0);
return (system(on ? "stty raw -echo" : "stty sane") /* Crude but effective */
? 0 : 1);
}
/* D E V S E T T I N G S */
int
devsettings(char * s) {
/* Get current device settings, save them for devrestore() */
/* Parse string s, do whatever it says, e.g. "9600;8N1" */
if (!pktmode(ON)) /* And put device in packet mode */
return(0);
return(1);
}
/* D E V R E S T O R E */
int
devrestore(void) {
/* Put device back as we found it */
pktmode(OFF);
return(1);
}
/* D E V C L O S E -- Closes the current open communications device */
/*
Call with: nothing
Closes the device and puts it back the way it was found by devopen().
Returns: 0 on failure, 1 on success.
*/
int
devclose(void) {
ttyfd = -1;
return(1);
}
/* I N C H K -- Check if input waiting */
/*
Check if input is waiting to be read, needed for sliding windows. This
sample version simply looks in the stdin buffer (which is not portable
even among different Unixes). If your platform does not provide a way to
look at the device input buffer without blocking and without actually
reading from it, make this routine return -1. On success, returns the
numbers of characters waiting to be read, i.e. that can be safely read
without blocking.
*/
int
inchk(struct k_data * k) {
#ifdef _IO_file_flags /* Linux */
if (ttyfd < 0) /* Device must be open */
return(0);
return((int) ((stdin->_IO_read_end) - (stdin->_IO_read_ptr)));
#else
#ifdef AIX /* AIX */
if (ttyfd < 0)
return(0);
return(stdin->_cnt);
#else
#ifdef SunOS /* Solaris and SunOS */
if (ttyfd < 0)
return(0);
return(stdin->_cnt);
#else
#ifdef HPUX /* HPUX */
if (ttyfd < 0)
return(0);
return(stdin->__cnt);
#else
return(-1);
#endif /* HPUX */
#endif /* SunOS */
#endif /* AIX */
#endif /* _IO_file_flags */
}
/* R E A D P K T -- Read a Kermit packet from the communications device */
/*
Call with:
k - Kermit struct pointer
p - pointer to read buffer
len - length of read buffer
When reading a packet, this function looks for start of Kermit packet
(k->r_soh), then reads everything between it and the end of the packet
(k->r_eom) into the indicated buffer. Returns the number of bytes read, or:
0 - timeout or other possibly correctable error;
-1 - fatal error, such as loss of connection, or no buffer to read into.
*/
int
readpkt(struct k_data * k, UCHAR *p, int len, int fc) {
int x, n;
short flag;
UCHAR c;
/*
Timeout not implemented in this sample.
It should not be needed. All non-embedded Kermits that are capable of
making connections are also capable of timing out, and only one Kermit
needs to time out. NOTE: This simple example waits for SOH and then
reads everything up to the negotiated packet terminator. A more robust
version might be driven by the value of the packet-length field.
*/
#ifdef DEBUG
UCHAR * p2;
#endif /* DEBUG */
#ifdef F_CTRLC
short ccn;
ccn = 0;
#endif /* F_CTRLC */
if (ttyfd < 0 || !p) { /* Device not open or no buffer */
debug(DB_MSG,"readpkt FAIL",0,0);
return(-1);
}
flag = n = 0; /* Init local variables */
#ifdef DEBUG
p2 = p;
#endif /* DEBUG */
while (1) {
x = getchar(); /* Replace this with real i/o */
c = (k->parity) ? x & 0x7f : x & 0xff; /* Strip parity */
#ifdef F_CTRLC
/* In remote mode only: three consecutive ^C's to quit */
if (k->remote && c == (UCHAR) 3) {
if (++ccn > 2) {
debug(DB_MSG,"readpkt ^C^C^C",0,0);
return(-1);
}
} else {
ccn = 0;
}
#endif /* F_CTRLC */
if (!flag && c != k->r_soh) /* No start of packet yet */
continue; /* so discard these bytes. */
if (c == k->r_soh) { /* Start of packet */
flag = 1; /* Remember */
continue; /* But discard. */
} else if (c == k->r_eom /* Packet terminator */
|| c == '\012' /* 1.3: For HyperTerminal */
) {
#ifdef DEBUG
*p = NUL; /* Terminate for printing */
debug(DB_PKT,"RPKT",p2,n);
#endif /* DEBUG */
return(n);
} else { /* Contents of packet */
if (n++ > k->r_maxlen) /* Check length */
return(0);
else
*p++ = x & 0xff;
}
}
debug(DB_MSG,"READPKT FAIL (end)",0,0);
return(-1);
}
/* T X _ D A T A -- Writes n bytes of data to communication device. */
/*
Call with:
k = pointer to Kermit struct.
p = pointer to data to transmit.
n = length.
Returns:
X_OK on success.
X_ERROR on failure to write - i/o error.
*/
int
tx_data(struct k_data * k, UCHAR *p, int n) {
int x;
int max;
max = 10; /* Loop breaker */
while (n > 0) { /* Keep trying till done */
x = write(ttyfd,p,n);
debug(DB_MSG,"tx_data write",0,x);
if (x < 0 || --max < 1) /* Errors are fatal */
return(X_ERROR);
n -= x;
p += x;
}
return(X_OK); /* Success */
}
/* O P E N F I L E -- Open output file */
/*
Call with:
Pointer to filename.
Size in bytes.
Creation date in format yyyymmdd hh:mm:ss, e.g. 19950208 14:00:00
Mode: 1 = read, 2 = create, 3 = append.
Returns:
X_OK on success.
X_ERROR on failure, including rejection based on name, size, or date.
*/
int
openfile(struct k_data * k, UCHAR * s, int mode) {
switch (mode) {
case 1: /* Read */
if (!(ifile = fopen((char *)s,"r"))) {
debug(DB_LOG,"openfile read error",s,0);
return(X_ERROR);
}
k->s_first = 1; /* Set up for getkpt */
k->zinbuf[0] = '\0'; /* Initialize buffer */
k->zinptr = k->zinbuf; /* Set up buffer pointer */
k->zincnt = 0; /* and count */
debug(DB_LOG,"openfile read ok",s,0);
return(X_OK);
case 2: /* Write (create) */
ofile = creat((char *)s,0644);
if (ofile < 0) {
debug(DB_LOG,"openfile write error",s,0);
return(X_ERROR);
}
debug(DB_LOG,"openfile write ok",s,0);
return(X_OK);
#ifdef COMMENT
case 3: /* Append (not used) */
ofile = open(s,O_WRONLY|O_APPEND);
if (ofile < 0) {
debug(DB_LOG,"openfile append error",s,0);
return(X_ERROR);
}
debug(DB_LOG,"openfile append ok",s,0);
return(X_OK);
#endif /* COMMENT */
default:
return(X_ERROR);
}
}
/* F I L E I N F O -- Get info about existing file */
/*
Call with:
Pointer to filename
Pointer to buffer for date-time string
Length of date-time string buffer (must be at least 18 bytes)
Pointer to int file type:
0: Prevailing type is text.
1: Prevailing type is binary.
Transfer mode (0 = auto, 1 = manual):
0: Figure out whether file is text or binary and return type.
1: (nonzero) Don't try to figure out file type.
Returns:
X_ERROR on failure.
0L or greater on success == file length.
Date-time string set to yyyymmdd hh:mm:ss modtime of file.
If date can't be determined, first byte of buffer is set to NUL.
Type set to 0 (text) or 1 (binary) if mode == 0.
*/
#ifdef F_SCAN
#define SCANBUF 1024
#define SCANSIZ 49152
#endif /* F_SCAN */
ULONG
fileinfo(struct k_data * k,
UCHAR * filename, UCHAR * buf, int buflen, short * type, short mode) {
struct stat statbuf;
struct tm * timestamp, * localtime();
#ifdef F_SCAN
FILE * fp; /* File scan pointer */
char inbuf[SCANBUF]; /* and buffer */
#endif /* F_SCAN */
if (!buf)
return(X_ERROR);
buf[0] = '\0';
if (buflen < 18)
return(X_ERROR);
if (stat((char *)filename,&statbuf) < 0)
return(X_ERROR);
timestamp = localtime(&(statbuf.st_mtime));
sprintf((char *)buf,"%04d%02d%02d %02d:%02d:%02d",
timestamp->tm_year + 1900,
timestamp->tm_mon + 1,
timestamp->tm_mday,
timestamp->tm_hour,
timestamp->tm_min,
timestamp->tm_sec
);
#ifdef F_SCAN
/*
Here we determine if the file is text or binary if the transfer mode is
not forced. This is an extremely crude sample, which diagnoses any file
that contains a control character other than HT, LF, FF, or CR as binary.
A more thorough content analysis can be done that accounts for various
character sets as well as various forms of Unicode (UTF-8, UTF-16, etc).
Or the diagnosis could be based wholly or in part on the filename.
etc etc. Or the implementation could skip this entirely by not defining
F_SCAN and/or by always calling this routine with type set to -1.
*/
if (!mode) { /* File type determination requested */
int isbinary = 1;
fp = fopen((char *)filename,"r"); /* Open the file for scanning */
if (fp) {
int n = 0, count = 0;
char c, * p;
debug(DB_LOG,"fileinfo scan ",filename,0);
isbinary = 0;
while (count < SCANSIZ && !isbinary) { /* Scan this much */
n = fread(inbuf,1,SCANBUF,fp);
if (n == EOF || n == 0)
break;
count += n;
p = inbuf;
while (n--) {
c = *p++;
if (c < 32 || c == 127) {
if (c != 9 && /* Tab */
c != 10 && /* LF */
c != 12 && /* FF */
c != 13) { /* CR */
isbinary = 1;
debug(DB_MSG,"fileinfo BINARY",0,0);
break;
}
}
}
}
fclose(fp);
*type = isbinary;
}
}
#endif /* F_SCAN */
return((ULONG)(statbuf.st_size));
}
/* R E A D F I L E -- Read data from a file */
int
readfile(struct k_data * k) {
if (!k->zinptr) {
#ifdef DEBUG
fprintf(dp,"readfile ZINPTR NOT SET\n");
#endif /* DEBUG */
return(X_ERROR);
}
if (k->zincnt < 1) { /* Nothing in buffer - must refill */
if (k->binary) { /* Binary - just read raw buffers */
k->dummy = 0;
k->zincnt = fread(k->zinbuf, 1, k->zinlen, ifile);
debug(DB_LOG,"readfile binary ok zincnt",0,k->zincnt);
} else { /* Text mode needs LF/CRLF handling */
int c; /* Current character */
for (k->zincnt = 0; (k->zincnt < (k->zinlen - 2)); (k->zincnt)++) {
if ((c = getc(ifile)) == EOF)
break;
if (c == '\n') /* Have newline? */
k->zinbuf[(k->zincnt)++] = '\r'; /* Insert CR */
k->zinbuf[k->zincnt] = c;
}
#ifdef DEBUG
k->zinbuf[k->zincnt] = '\0';
debug(DB_LOG,"readfile text ok zincnt",0,k->zincnt);
#endif /* DEBUG */
}
k->zinbuf[k->zincnt] = '\0'; /* Terminate. */
if (k->zincnt == 0) /* Check for EOF */
return(-1);
k->zinptr = k->zinbuf; /* Not EOF - reset pointer */
}
(k->zincnt)--; /* Return first byte. */
debug(DB_LOG,"readfile exit zincnt",0,k->zincnt);
debug(DB_LOG,"readfile exit zinptr",0,k->zinptr);
return(*(k->zinptr)++ & 0xff);
}
/* W R I T E F I L E -- Write data to file */
/*
Call with:
Kermit struct
String pointer
Length
Returns:
X_OK on success
X_ERROR on failure, such as i/o error, space used up, etc
*/
int
writefile(struct k_data * k, UCHAR * s, int n) {
int rc;
rc = X_OK;
debug(DB_LOG,"writefile binary",0,k->binary);
if (k->binary) { /* Binary mode, just write it */
if (write(ofile,s,n) != n)
rc = X_ERROR;
} else { /* Text mode, skip CRs */
UCHAR * p, * q;
int i;
q = s;
while (1) {
for (p = q, i = 0; ((*p) && (*p != (UCHAR)13)); p++, i++) ;
if (i > 0)
if (write(ofile,q,i) != i)
rc = X_ERROR;
if (!*p) break;
q = p+1;
}
}
return(rc);
}
/* C L O S E F I L E -- Close output file */
/*
Mode = 1 for input file, mode = 2 or 3 for output file.
For output files, the character c is the character (if any) from the Z
packet data field. If it is D, it means the file transfer was canceled
in midstream by the sender, and the file is therefore incomplete. This
routine should check for that and decide what to do. It should be
harmless to call this routine for a file that that is not open.
*/
int
closefile(struct k_data * k, UCHAR c, int mode) {
int rc = X_OK; /* Return code */
switch (mode) {
case 1: /* Closing input file */
if (!ifile) /* If not not open */
break; /* do nothing but succeed */
debug(DB_LOG,"closefile (input)",k->filename,0);
if (fclose(ifile) < 0)
rc = X_ERROR;
break;
case 2: /* Closing output file */
case 3:
if (ofile < 0) /* If not open */
break; /* do nothing but succeed */
debug(DB_LOG,"closefile (output) name",k->filename,0);
debug(DB_LOG,"closefile (output) keep",0,k->ikeep);
if (close(ofile) < 0) { /* Try to close */
rc = X_ERROR;
} else if ((k->ikeep == 0) && /* Don't keep incomplete files */
(c == 'D')) { /* This file was incomplete */
if (k->filename) {
debug(DB_LOG,"deleting incomplete",k->filename,0);
unlink((char *)k->filename); /* Delete it. */
}
}
break;
default:
rc = X_ERROR;
}
return(rc);
}
#ifdef SIMULATED_ERROR
int xerror() {
unsigned int x;
extern int errorrate; /* Fix this - NO EXTERNS */
if (!errorrate)
return(0);
x = rand() % 100; /* Fix this - NO C LIBRARY */
debug(DB_LOG,"RANDOM",0,x);
debug(DB_LOG,"ERROR",0,(x < errorrate));
return(x < errorrate);
}
#endif /* SIMULATED_ERROR */
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