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/* sysinf.c
Functions to read system information for the UUCP package.
Copyright (C) 1991, 1992 Ian Lance Taylor
This file is part of the Taylor UUCP package.
This program 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 2 of the
License, or (at your option) any later version.
This program 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 this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
The author of the program may be contacted at ian@airs.com or
c/o AIRS, P.O. Box 520, Waltham, MA 02254.
$Log: sysinf.c,v $
Revision 1.1.1.1 1993/03/21 09:45:37 cgd
initial import of 386bsd-0.1 sources
Revision 1.24 1992/04/02 22:51:09 ian
Add gcc 2.0 format checking to ulog, and fixed discovered problems
Revision 1.23 1992/03/30 04:49:10 ian
Niels Baggesen: added debugging types abnormal and uucp-proto
Revision 1.22 1992/03/28 21:47:55 ian
David J. MacKenzie: allow backslash to quote newline in config files
Revision 1.21 1992/03/28 20:31:55 ian
Franc,ois Pinard: allow a name to be given to an alternate
Revision 1.20 1992/03/24 17:18:33 ian
Fixed handling of alternates in file-wide defaults
Revision 1.19 1992/03/16 04:30:57 ian
Permit a retry time for the time and timegrade commands
Revision 1.18 1992/03/13 16:17:42 ian
Chip Salzenberg: set default login chat script timeout to 10 seconds
Revision 1.17 1992/03/12 19:54:43 ian
Debugging based on types rather than number
Revision 1.16 1992/03/09 20:14:37 ian
Ted Lindgreen: added max-remote-debug command
Revision 1.15 1992/03/07 02:56:30 ian
Rewrote time routines
Revision 1.14 1992/03/03 06:06:48 ian
T. William Wells: don't complain about missing configuration files
Revision 1.13 1992/02/23 19:50:50 ian
Handle READ and WRITE in Permissions correctly
Revision 1.12 1992/02/08 03:54:18 ian
Include <string.h> only in <uucp.h>, added 1992 copyright
Revision 1.11 1992/01/13 05:17:30 ian
Mike Park: wrong number of arguments to ulog call
Revision 1.10 1992/01/07 15:23:50 ian
Niels Baggesen: allocate number of protocol parameters correctly
Revision 1.9 1991/12/28 03:49:23 ian
Added HAVE_MEMFNS and HAVE_BFNS; changed uses of memset to bzero
Revision 1.8 1991/12/23 05:15:54 ian
David Nugent: set debugging level for a specific system
Revision 1.7 1991/12/17 17:08:02 ian
Marc Unangst: allow true and false for boolean strings as documented
Revision 1.6 1991/12/15 04:17:11 ian
Added chat-seven-bit command to control parity bit stripping
Revision 1.5 1991/12/15 03:42:33 ian
Added tprocess_chat_cmd for all chat commands, and added CMDTABTYPE_PREFIX
Revision 1.4 1991/11/13 20:38:00 ian
Added TCP port type for connections over TCP
Revision 1.3 1991/11/12 19:47:04 ian
Add called-chat set of commands to run a chat script on an incoming call
Revision 1.2 1991/11/11 23:47:24 ian
Added chat-program to run a program to do a chat script
Revision 1.1 1991/09/10 19:40:31 ian
Initial revision
*/
#include "uucp.h"
#if USE_RCS_ID
char sysinf_rcsid[] = "$Id: sysinf.c,v 1.1.1.1 1993/03/21 09:45:37 cgd Exp $";
#endif
#include <ctype.h>
#include <errno.h>
#include "port.h"
#include "system.h"
#include "uutime.h"
/* Whether we accept calls from unknown systems. */
boolean fUnknown_ok = FALSE;
/* Information we hold for an unknown system. */
struct ssysteminfo sUnknown;
/* Information we hold for the local system. */
struct ssysteminfo sLocalsys;
#if HAVE_TAYLOR_CONFIG
/* I don't find the system file format used by either V2 or BNU UUCP
very intuitive, so I've developed my own format. This replaces the
files L.sys and USERFILE for V2, and Systems and Permissions for
BNU. The complete format is described in a separate document. */
/* Some local functions. */
static void uiset_clear P((boolean falternate));
/* Set when we read the first line of a new file, to indicate that a
new set of defaults should be gathered. */
static boolean fIfirst;
/* This structure holds system information as it is gathered. */
static struct ssysteminfo sIhold;
/* Default information. */
static struct ssysteminfo sIdefault;
/* The name of the next system. */
static char *zInext_system;
/* The list of alternates to draw from. */
static struct ssysteminfo *qIalternates;
/* Whether to use default alternates. */
static boolean fIdefault_alternates;
/* There are several commands for which we want to take the default if
provided, but we don't want to add to the default. For example,
each system can have multiple time specifications (using different
grades), which is implemented by adding each new time specification
to the previous ones. We want to allow default time specifications.
However, if a system has time specifications, we don't want to add
its time specifications to the default ones. We handle this with a
set of boolean variables which we set to tell the adding functions
to ignore any existing entry; when an entry has been added, the
boolean variable is cleared. */
static boolean fIclear_alias;
static boolean fIclear_alternate;
static boolean fIclear_time;
static boolean fIclear_calltimegrade;
static boolean fIclear_call_local_size;
static boolean fIclear_call_remote_size;
static boolean fIclear_called_local_size;
static boolean fIclear_called_remote_size;
static boolean fIclear_port;
static boolean fIclear_chat_fail;
static boolean fIclear_proto_param;
static boolean fIclear_called_chat_fail;
/* Local functions needed to parse the system information file. */
#define CMDTABFN(z) \
static enum tcmdtabret z P((int, char **, pointer, const char *))
CMDTABFN (ticlear);
CMDTABFN (tisystem);
CMDTABFN (tialias);
CMDTABFN (tialternate);
CMDTABFN (titime);
CMDTABFN (titimegrade);
CMDTABFN (ticall_local_size);
CMDTABFN (ticall_remote_size);
CMDTABFN (ticalled_local_size);
CMDTABFN (ticalled_remote_size);
CMDTABFN (titimetable);
CMDTABFN (tiport);
CMDTABFN (tichat);
CMDTABFN (ticalled_login);
CMDTABFN (tiproto_param);
CMDTABFN (tirequest);
CMDTABFN (titransfer);
#undef CMDTABFN
/* The commands accepted from the system information file. */
static const struct scmdtab asIcmds[] =
{
{ "#", CMDTABTYPE_FN | 1, NULL, ticlear },
{ "system", CMDTABTYPE_FN | 2, NULL, tisystem },
{ "alias", CMDTABTYPE_FN | 2, NULL, tialias },
{ "alternate", CMDTABTYPE_FN | 0, NULL, tialternate },
{ "default-alternates", CMDTABTYPE_BOOLEAN,
(pointer) &fIdefault_alternates, NULL },
{ "time", CMDTABTYPE_FN | 0, NULL, titime },
{ "timegrade", CMDTABTYPE_FN | 0, (pointer) &sIhold.ztime, titimegrade },
{ "call-timegrade", CMDTABTYPE_FN | 3, (pointer) &sIhold.zcalltimegrade,
titimegrade },
{ "call-local-size", CMDTABTYPE_FN | 3, NULL, ticall_local_size },
{ "call-remote-size", CMDTABTYPE_FN | 3, NULL, ticall_remote_size },
{ "called-local-size", CMDTABTYPE_FN | 3, NULL, ticalled_local_size },
{ "called-remote-size", CMDTABTYPE_FN | 3, NULL, ticalled_remote_size },
{ "timetable", CMDTABTYPE_FN | 3, NULL, titimetable },
{ "baud", CMDTABTYPE_LONG, (pointer) &sIhold.ibaud, NULL },
{ "speed", CMDTABTYPE_LONG, (pointer) &sIhold.ibaud, NULL },
{ "port", CMDTABTYPE_FN | 0, NULL, tiport },
{ "phone", CMDTABTYPE_STRING, (pointer) &sIhold.zphone, NULL },
{ "address", CMDTABTYPE_STRING, (pointer) &sIhold.zphone, NULL },
{ "chat", CMDTABTYPE_PREFIX | 0, (pointer) &sIhold.schat, tichat },
{ "call-login", CMDTABTYPE_STRING, (pointer) &sIhold.zcall_login, NULL },
{ "call-password", CMDTABTYPE_STRING, (pointer) &sIhold.zcall_password,
NULL },
{ "called-login", CMDTABTYPE_FN | 0, NULL, ticalled_login },
{ "callback", CMDTABTYPE_BOOLEAN, (pointer) &sIhold.fcallback, NULL },
{ "sequence", CMDTABTYPE_BOOLEAN, (pointer) &sIhold.fsequence, NULL },
{ "protocol", CMDTABTYPE_STRING, (pointer) &sIhold.zprotocols, NULL },
{ "protocol-parameter", CMDTABTYPE_FN | 0, NULL, tiproto_param },
{ "called-chat", CMDTABTYPE_PREFIX | 0, (pointer) &sIhold.scalled_chat,
tichat },
#if DEBUG > 1
{ "debug", CMDTABTYPE_FN | 0, (pointer) &sIhold.idebug, tidebug_parse },
{ "max-remote-debug", CMDTABTYPE_FN | 0,
(pointer) &sIhold.imax_remote_debug, tidebug_parse },
#endif
{ "call-request", CMDTABTYPE_BOOLEAN, (pointer) &sIhold.fcall_request,
NULL },
{ "called-request", CMDTABTYPE_BOOLEAN, (pointer) &sIhold.fcalled_request,
NULL },
{ "request", CMDTABTYPE_FN | 2, NULL, tirequest },
{ "call-transfer", CMDTABTYPE_BOOLEAN, (pointer) &sIhold.fcall_transfer,
NULL },
{ "called-transfer", CMDTABTYPE_BOOLEAN,
(pointer) &sIhold.fcalled_transfer, NULL },
{ "transfer", CMDTABTYPE_FN | 2, NULL, titransfer },
{ "local-send", CMDTABTYPE_FULLSTRING, (pointer) &sIhold.zlocal_send,
NULL },
{ "remote-send", CMDTABTYPE_FULLSTRING, (pointer) &sIhold.zremote_send,
NULL },
{ "local-receive", CMDTABTYPE_FULLSTRING,
(pointer) &sIhold.zlocal_receive, NULL },
{ "remote-receive", CMDTABTYPE_FULLSTRING,
(pointer) &sIhold.zremote_receive, NULL },
{ "command-path", CMDTABTYPE_FULLSTRING, (pointer) &sIhold.zpath, NULL },
{ "commands", CMDTABTYPE_FULLSTRING, (pointer) &sIhold.zcmds, NULL },
{ "free-space", CMDTABTYPE_LONG, (pointer) &sIhold.cfree_space, NULL },
{ "forwardto", CMDTABTYPE_FULLSTRING, (pointer) &sIhold.zforwardto, NULL },
{ "forward-to", CMDTABTYPE_FULLSTRING, (pointer) &sIhold.zforwardto, NULL },
{ "pubdir", CMDTABTYPE_STRING, (pointer) &sIhold.zpubdir, NULL },
{ "myname", CMDTABTYPE_STRING, (pointer) &sIhold.zlocalname, NULL },
{ NULL, 0, NULL, NULL }
};
/* This is called for the first line of each file. It clears the
defaults, so that each file has a different set. */
/*ARGSUSED*/
static enum tcmdtabret
ticlear (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
fIfirst = TRUE;
return CMDTABRET_FREE_AND_EXIT;
}
/* Process the system command. We store away the system name and exit
out of processing commands to let the main loop handle it. */
/*ARGSUSED*/
static enum tcmdtabret
tisystem (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
const char *z;
/* System names may only contain alphanumeric characters,
underscores, dashes and dots, and they may not begin with a dot,
at least for now. */
for (z = argv[1]; *z != '\0'; z++)
{
if (! isalnum (BUCHAR (*z))
&& *z != '_'
&& *z != '-'
&& (*z != '.' || z == argv[1]))
{
ulog (LOG_ERROR, "%s: %s %s: Illegal character in system name",
zerr, argv[0], argv[1]);
return CMDTABRET_FREE;
}
}
if (strlen (argv[1]) > cSysdep_max_name_len)
{
ulog (LOG_ERROR, "System name \"%s\" too long (max %d)", argv[1],
cSysdep_max_name_len);
return CMDTABRET_FREE;
}
zInext_system = argv[1];
DEBUG_MESSAGE1 (DEBUG_CONFIG,
"tisystem: Reading system %s", zInext_system);
return CMDTABRET_EXIT;
}
/* Process the alias command. */
/*ARGSUSED*/
static enum tcmdtabret
tialias (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
if (fIclear_alias)
{
sIhold.zalias = NULL;
fIclear_alias = FALSE;
}
uadd_string (&sIhold.zalias, argv[1], ' ');
return CMDTABRET_FREE;
}
/* Process the alternate command. The current information is in
sIhold. We link this onto a chain of alternates starting at
sIalternate. We then set up sIhold with the defaults for the next
alternate. qIalternates holds the list of alternates for the
file-wide defaults, and we use to set up sIhold. We also call
uiset_clear to set all the fIclear_* variables so that commands
like ``time'' know that they should ignore any existing entry. */
static struct ssysteminfo sIalternate;
/*ARGSUSED*/
static enum tcmdtabret
tialternate (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
if (fIclear_alternate)
{
sIalternate = sIhold;
fIclear_alternate = FALSE;
}
else
{
struct ssysteminfo *qnew;
struct ssysteminfo **pq;
qnew = (struct ssysteminfo *) xmalloc (sizeof (struct ssysteminfo));
*qnew = sIhold;
for (pq = &sIalternate.qalternate; *pq != NULL; pq = &(*pq)->qalternate)
;
*pq = qnew;
sIhold = sIalternate;
sIhold.qalternate = NULL;
}
/* Clear the name of the next alternate. */
sIhold.zalternate = NULL;
/* Now, if there is a default alternate to base this on, we must
override everything not changed before the first ``alternate''
command to the default alternate. */
if (fIdefault_alternates
&& qIalternates != NULL)
{
if (qIalternates->zalternate != NULL)
sIhold.zalternate = qIalternates->zalternate;
#define TEST(x) \
if (sIhold.x == sIdefault.x) \
sIhold.x = qIalternates->x;
TEST (ztime);
TEST (zcalltimegrade);
TEST (zcall_local_size);
TEST (zcall_remote_size);
TEST (zcalled_local_size);
TEST (zcalled_remote_size);
TEST (ibaud);
TEST (zport);
TEST (qport);
TEST (zphone);
TEST (schat.zchat);
TEST (schat.zprogram);
TEST (schat.ctimeout);
TEST (schat.zfail);
TEST (zcall_login);
TEST (zcalled_login);
TEST (fcallback);
TEST (zprotocols);
TEST (cproto_params);
TEST (qproto_params);
TEST (scalled_chat.zchat);
TEST (scalled_chat.zprogram);
TEST (scalled_chat.ctimeout);
TEST (scalled_chat.zfail);
#if DEBUG > 1
TEST (idebug);
TEST (imax_remote_debug);
#endif
TEST (fcall_request);
TEST (fcalled_request);
TEST (fcall_transfer);
TEST (fcalled_transfer);
TEST (zlocal_send);
TEST (zcalled_local_send);
TEST (zremote_send);
TEST (zcalled_remote_send);
TEST (zlocal_receive);
TEST (zcalled_local_receive);
TEST (zremote_receive);
TEST (zcalled_remote_receive);
TEST (zpath);
TEST (zcmds);
TEST (cfree_space);
TEST (zforwardto);
TEST (zpubdir);
TEST (zlocalname);
#undef TEST
qIalternates = qIalternates->qalternate;
}
/* If there is a name for this alternate, put it in. */
if (argc > 1)
sIhold.zalternate = xstrdup (argv[1]);
uiset_clear (TRUE);
return CMDTABRET_FREE;
}
/* Process the time command. */
/*ARGSUSED*/
static enum tcmdtabret
titime (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
char *pznew[4];
char ab[2];
pznew[0] = argv[0];
ab[0] = 'z';
ab[1] = '\0';
pznew[1] = ab;
pznew[2] = argv[1];
if (argc > 2)
pznew[3] = argv[2];
return titimegrade (argc + 1, pznew, (pointer) &sIhold.ztime, zerr);
}
/* Process the timegrade and the call-timegrade commands. */
static enum tcmdtabret
titimegrade (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
char **pztime = (char **) pvar;
int clen;
char *z;
if (argc < 3 || argc > 4)
{
ulog (LOG_ERROR, "%s: %s: Wrong number of arguments", zerr, argv[0]);
return CMDTABRET_FREE;
}
if (argv[1][1] != '\0' || ! FGRADE_LEGAL (argv[1][0]))
{
ulog (LOG_ERROR, "%s: %s: Illegal grade '%s'", zerr, argv[0],
argv[1]);
return CMDTABRET_FREE;
}
/* We should probably check whether the time string is legal. A
timegrade string is a single character grade, then a time string,
then an optional semicolon and a retry time. */
clen = strlen (argv[2]) + 2;
if (argc > 3)
clen += strlen (argv[3]) + 1;
z = (char *) alloca (clen);
*z = argv[1][0];
strcpy (z + 1, argv[2]);
if (argc > 3)
{
strcat (z, ";");
strcat (z, argv[3]);
}
if (pztime == &sIhold.ztime)
{
if (fIclear_time)
{
*pztime = NULL;
fIclear_time = FALSE;
}
}
else
{
if (fIclear_calltimegrade)
{
*pztime = NULL;
fIclear_calltimegrade = FALSE;
}
}
uadd_string (pztime, z, ' ');
return CMDTABRET_FREE;
}
/* Add a size command. */
static enum tcmdtabret tiadd_size P((int argc, char **argv,
const char *zerr, boolean *pf,
char **pz));
static enum tcmdtabret
tiadd_size (argc, argv, zerr, pf, pz)
int argc;
char **argv;
const char *zerr;
boolean *pf;
char **pz;
{
long cbytes;
char *zend;
char *zarg;
cbytes = strtol (argv[1], &zend, 10);
if (*zend != '\0')
{
ulog (LOG_ERROR, "%s: %s: Bad number", zerr, argv[0]);
return CMDTABRET_FREE;
}
/* We should check the legality of the time string here. */
if (*pf)
{
*pz = NULL;
*pf = FALSE;
}
zarg = (char *) alloca (strlen (argv[2]) + 20);
sprintf (zarg, "%ld %s", cbytes, argv[2]);
uadd_string (pz, zarg, ' ');
return CMDTABRET_FREE;
}
/* Process the call-local-size command. */
/*ARGSUSED*/
static enum tcmdtabret
ticall_local_size (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
return tiadd_size (argc, argv, zerr, &fIclear_call_local_size,
&sIhold.zcall_local_size);
}
/* Process the call-remote-size command. */
/*ARGSUSED*/
static enum tcmdtabret
ticall_remote_size (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
return tiadd_size (argc, argv, zerr, &fIclear_call_remote_size,
&sIhold.zcall_remote_size);
}
/* Process the called-local-size command. */
/*ARGSUSED*/
static enum tcmdtabret
ticalled_local_size (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
return tiadd_size (argc, argv, zerr, &fIclear_called_local_size,
&sIhold.zcalled_local_size);
}
/* Process the called-remote-size command. */
/*ARGSUSED*/
static enum tcmdtabret
ticalled_remote_size (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
return tiadd_size (argc, argv, zerr, &fIclear_called_remote_size,
&sIhold.zcalled_remote_size);
}
/* Process the timetable command. */
/*ARGSUSED*/
static enum tcmdtabret
titimetable (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
uaddtimetable (argv[1], argv[2]);
return CMDTABRET_CONTINUE;
}
/* Process the port command. */
/*ARGSUSED*/
static enum tcmdtabret
tiport (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
if (argc < 2)
{
ulog (LOG_ERROR, "%s: %s: Wrong number of arguments", zerr, argv[0]);
return CMDTABRET_FREE;
}
if (fIclear_port)
{
sIhold.zport = NULL;
sIhold.qport = NULL;
fIclear_port = FALSE;
}
if (argc > 2)
{
enum tcmdtabret tret;
if (sIhold.zport != NULL)
{
ulog (LOG_ERROR,
"%s: %s: Ignoring port specification following port name",
zerr, argv[0]);
return CMDTABRET_FREE;
}
tret = tprocess_port_cmd (argc - 1, argv + 1, (pointer) &sIhold.qport,
zerr);
if (sIhold.qport != NULL && sIhold.qport->zname == NULL)
{
char *zname;
if (sIhold.zname == NULL)
sIhold.qport->zname = "default system file port";
else
{
zname = (char *) alloca (strlen (sIhold.zname)
+ sizeof "system port");
sprintf (zname, "system %s port", sIhold.zname);
sIhold.qport->zname = xstrdup (zname);
}
}
#if DEBUG > 1
if (sIhold.qport != NULL)
DEBUG_MESSAGE2 (DEBUG_CONFIG,
"tiport: Command %s to port %s", argv[1],
sIhold.qport->zname);
#endif
return tret;
}
else
{
if (sIhold.qport != NULL)
{
ulog (LOG_ERROR,
"%s: %s: Ignoring port name following port specification",
zerr, argv[0]);
return CMDTABRET_FREE;
}
sIhold.zport = argv[1];
return CMDTABRET_CONTINUE;
}
}
/* Process one of the chat commands. We have a special version for
systems just so that we clear out the chat failure strings. It
would be nice if there were a cleaner way to do this. */
static enum tcmdtabret
tichat (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
if (strcmp (argv[0], "chat-fail") == 0)
{
if (fIclear_chat_fail)
{
sIhold.schat.zfail = NULL;
fIclear_chat_fail = FALSE;
}
}
else if (strcmp (argv[0], "called-chat-fail") == 0)
{
if (fIclear_called_chat_fail)
{
sIhold.scalled_chat.zfail = NULL;
fIclear_called_chat_fail = FALSE;
}
}
return tprocess_chat_cmd (argc, argv, pvar, zerr);
}
/* Process the called-login command. */
/*ARGSUSED*/
static enum tcmdtabret
ticalled_login (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
if (argc < 2)
{
ulog (LOG_ERROR, "%s: %s: Wrong number of arguments", zerr, argv[0]);
return CMDTABRET_FREE;
}
sIhold.zcalled_login = argv[1];
if (argc > 2)
uadd_validate (argv[1], argc - 2, (const char **) argv + 2);
return CMDTABRET_CONTINUE;
}
/* Process the protocol parameter command. */
/*ARGSUSED*/
static enum tcmdtabret
tiproto_param (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
if (fIclear_proto_param)
{
sIhold.cproto_params = 0;
sIhold.qproto_params = NULL;
fIclear_proto_param = FALSE;
}
return tadd_proto_param (&sIhold.cproto_params, &sIhold.qproto_params,
zerr, argc - 1, argv + 1);
}
/* Process the request command. */
/*ARGSUSED*/
static enum tcmdtabret
tirequest (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
char b;
boolean fset;
b = argv[1][0];
if (b == 'y' || b == 'Y' || b == 't' || b == 'T')
fset = TRUE;
else if (b == 'n' || b == 'N' || b == 'f' || b == 'F')
fset = FALSE;
else
{
ulog (LOG_ERROR, "%s: %s: %s: Bad boolean", zerr, argv[0], argv[1]);
return CMDTABRET_FREE;
}
sIhold.fcall_request = fset;
sIhold.fcalled_request = fset;
return CMDTABRET_FREE;
}
/* Process the transfer command. */
/*ARGSUSED*/
static enum tcmdtabret
titransfer (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
char b;
boolean fset;
b = argv[1][0];
if (b == 'y' || b == 'Y' || b == 't' || b == 'T')
fset = TRUE;
else if (b == 'n' || b == 'N' || b == 'f' || b == 'F')
fset = FALSE;
else
{
ulog (LOG_ERROR, "%s: %s: %s: Bad boolean", zerr, argv[0], argv[1]);
return CMDTABRET_FREE;
}
sIhold.fcall_transfer = fset;
sIhold.fcalled_transfer = fset;
return CMDTABRET_FREE;
}
/* Mark all the contents of sIhold to be cleared before they are set.
If the falternate argument is TRUE, then only prepare to clear
those contents that should be cleared for an alternate. */
static void
uiset_clear (falternate)
boolean falternate;
{
if (! falternate)
{
fIclear_alias = TRUE;
fIclear_alternate = TRUE;
}
fIclear_time = TRUE;
fIclear_calltimegrade = TRUE;
fIclear_call_local_size = TRUE;
fIclear_call_remote_size = TRUE;
fIclear_called_local_size = TRUE;
fIclear_called_remote_size = TRUE;
fIclear_port = TRUE;
fIclear_chat_fail = TRUE;
fIclear_proto_param = TRUE;
fIclear_called_chat_fail = TRUE;
}
#endif /* HAVE_TAYLOR_CONFIG */
/* Set up the default values advertised in the documentation. */
void
uset_system_defaults (qsys)
struct ssysteminfo *qsys;
{
qsys->zname = NULL;
qsys->zalias = NULL;
qsys->qalternate = NULL;
qsys->zalternate = NULL;
qsys->ztime = xmalloc (1 + sizeof "Never");
sprintf (qsys->ztime, "%cNever", BGRADE_LOW);
qsys->zcalltimegrade = NULL;
qsys->zcall_local_size = NULL;
qsys->zcall_remote_size = NULL;
qsys->zcalled_local_size = NULL;
qsys->zcalled_remote_size = NULL;
qsys->ibaud = 0L;
qsys->ihighbaud = 0L;
qsys->zport = NULL;
qsys->zphone = NULL;
qsys->qport = NULL;
INIT_CHAT (&qsys->schat);
qsys->schat.zchat =
(char *) "\"\" \\r\\c ogin:-BREAK-ogin:-BREAK-ogin: \\L word: \\P";
qsys->schat.ctimeout = 10;
qsys->zcall_login = NULL;
qsys->zcall_password = NULL;
qsys->zcalled_login = NULL;
qsys->fcallback = FALSE;
qsys->fsequence = FALSE;
qsys->zprotocols = NULL;
qsys->cproto_params = 0;
qsys->qproto_params = NULL;
INIT_CHAT (&qsys->scalled_chat);
#if DEBUG > 1
qsys->idebug = 0;
qsys->imax_remote_debug = DEBUG_ABNORMAL | DEBUG_CHAT | DEBUG_HANDSHAKE;
#endif
qsys->fcall_request = TRUE;
qsys->fcalled_request = TRUE;
qsys->fcall_transfer = TRUE;
qsys->fcalled_transfer = TRUE;
qsys->zlocal_send = ZROOTDIR;
qsys->zcalled_local_send = NULL;
qsys->zremote_send = "~";
qsys->zcalled_remote_send = NULL;
qsys->zlocal_receive = "~";
qsys->zcalled_local_receive = NULL;
qsys->zremote_receive = "~";
qsys->zcalled_remote_receive = NULL;
qsys->zpath = CMDPATH;
qsys->zcmds = "rnews rmail";
qsys->cfree_space = DEFAULT_FREE_SPACE;
qsys->zforwardto = NULL;
qsys->zpubdir = NULL;
qsys->zlocalname = NULL;
}
/* Variables to store the loaded system information. */
static boolean fIhave_systems;
static int cIsystems;
static struct ssysteminfo *pasIsystems;
/* Read information about all systems. */
static void uiread_systems P((void));
static void
uiread_systems ()
{
if (fIhave_systems)
return;
fIhave_systems = TRUE;
#if HAVE_TAYLOR_CONFIG
if (zSysfile == NULL)
{
boolean fmore;
/* Only warn about a missing file if we aren't going to read the
V2 or BNU files. */
fmore = FALSE;
#if HAVE_V2_CONFIG
if (fV2)
fmore = TRUE;
#endif
#if HAVE_BNU_CONFIG
if (fBnu)
fmore = TRUE;
#endif
if (! fmore)
{
ulog (LOG_ERROR, "%s%s: file not found", NEWCONFIGLIB,
SYSFILE);
return;
}
}
else
{
struct smulti_file *qmulti;
int calc;
boolean fdefaults, fsystem;
struct ssysteminfo *qalternates;
qmulti = qmulti_open (zSysfile);
if (qmulti != NULL)
{
calc = 0;
fdefaults = FALSE;
fsystem = FALSE;
qalternates = NULL;
fIfirst = FALSE;
zInext_system = NULL;
while (TRUE)
{
qIalternates = qalternates;
fIdefault_alternates = TRUE;
/* Read commands. This will exit when it encounters the
start of a file (which it will when we first start
reading) and when it reads a ``system'' command. */
uprocesscmds ((FILE *) NULL, qmulti, asIcmds,
(const char *) NULL,
CMDFLAG_WARNUNRECOG | CMDFLAG_BACKSLASH);
/* The handling of alternates can get complex. Before
we start reading a system, fIclear_alternate is set
to TRUE (this is done in uiset_clear). After we have
finished reading a system, then if fIclear_alternate
is still TRUE then no ``alternate'' command was used
and the system information is in sIhold. Otherwise,
if fIclear_alternate is FALSE, an ``alternate''
command was used and we must call tialternate one
more time; after this final call to tialternate, the
system information will be in sIalternate.
The final call to tialternate is needed because each
occurrence of the ``alternate'' command links the
previous alternate into sIalternate and sets up
sIhold with the defaults for the next alternate. The
final call will link the last alternate into
sIalternate. */
if (fdefaults)
{
/* We were reading default information. Save it. */
if (fIclear_alternate)
sIdefault = sIhold;
else
{
(void) tialternate (0, (char **) NULL,
(pointer) NULL, "alternate");
sIdefault = sIalternate;
}
qalternates = sIdefault.qalternate;
sIdefault.qalternate = NULL;
fdefaults = FALSE;
}
else if (fsystem)
{
/* We just either finished a file or encountered a
``system'' command after we had started reading a
system. Finish up the information for the system
we were reading. */
if (cIsystems >= calc)
{
calc += 10;
pasIsystems =
((struct ssysteminfo *)
xrealloc ((pointer) pasIsystems,
calc * sizeof (struct ssysteminfo)));
}
/* We must now attach any remaining default
alternates. */
if (fIdefault_alternates)
{
while (qIalternates != NULL)
(void) tialternate (0, (char **) NULL,
(pointer) NULL, "alternate");
}
if (fIclear_alternate)
pasIsystems[cIsystems] = sIhold;
else
{
(void) tialternate (0, (char **) NULL,
(pointer) NULL, "alternate");
pasIsystems[cIsystems] = sIalternate;
}
++cIsystems;
fsystem = FALSE;
}
if (fIfirst)
{
/* We just started reading a new file. Reset the
default information. The next time around the
loop we will read the default information. */
uset_system_defaults (&sIhold);
uiset_clear (FALSE);
qalternates = NULL;
fdefaults = TRUE;
fIfirst = FALSE;
}
else if (zInext_system != NULL)
{
/* We just encountered a ``system'' command. Save
the name, reset the system information to the
defaults, and go on to read the system
information. */
sIhold = sIdefault;
sIhold.zname = zInext_system;
uiset_clear (FALSE);
fsystem = TRUE;
zInext_system = NULL;
}
else
{
/* We have reached the end of the files to read. */
break;
}
}
(void) fmulti_close (qmulti);
}
}
#endif /* HAVE_TAYLOR_CONFIG */
#if HAVE_V2_CONFIG
if (fV2)
{
int cv2;
struct ssysteminfo *pasv2;
uv2_read_systems (&cv2, &pasv2);
if (cv2 > 0)
{
pasIsystems =
((struct ssysteminfo *)
xrealloc ((pointer) pasIsystems,
(cIsystems + cv2) * sizeof (struct ssysteminfo)));
memcpy (pasIsystems + cIsystems, pasv2,
cv2 * sizeof (struct ssysteminfo));
cIsystems += cv2;
}
}
#endif /* HAVE_V2_CONFIG */
#if HAVE_BNU_CONFIG
if (fBnu)
{
int cbnu;
struct ssysteminfo *pasbnu;
ubnu_read_systems (&cbnu, &pasbnu);
if (cbnu > 0)
{
pasIsystems =
((struct ssysteminfo *)
xrealloc ((pointer) pasIsystems,
(cIsystems + cbnu) * sizeof (struct ssysteminfo)));
memcpy (pasIsystems + cIsystems, pasbnu,
cbnu * sizeof (struct ssysteminfo));
cIsystems += cbnu;
}
}
#endif /* HAVE_BNU_CONFIG */
}
/* Get information about all systems. */
void
uread_all_system_info (pc, ppas)
int *pc;
struct ssysteminfo **ppas;
{
if (! fIhave_systems)
uiread_systems ();
*pc = cIsystems;
*ppas = pasIsystems;
}
/* Get information about a specific system. */
boolean
fread_system_info (zsystem, qsys)
const char *zsystem;
struct ssysteminfo *qsys;
{
int i;
DEBUG_MESSAGE1 (DEBUG_CONFIG,
"fread_system_info: Reading information for system %s",
zsystem);
if (! fIhave_systems)
uiread_systems ();
for (i = 0; i < cIsystems; i++)
{
char *z;
if (strcmp (zsystem, pasIsystems[i].zname) == 0)
{
*qsys = pasIsystems[i];
DEBUG_MESSAGE1 (DEBUG_CONFIG,
"fread_system_info: Got information for system %s",
qsys->zname);
return TRUE;
}
z = pasIsystems[i].zalias;
if (z == NULL)
continue;
while (TRUE)
{
char *znext;
znext = z + strcspn (z, " ");
if (strncmp (zsystem, z, znext - z) == 0)
{
*qsys = pasIsystems[i];
DEBUG_MESSAGE1 (DEBUG_CONFIG,
"fread_system_info: Got system %s",
qsys->zname);
return TRUE;
}
z = znext;
if (*z == ' ')
++z;
else
break;
}
}
DEBUG_MESSAGE1 (DEBUG_CONFIG,
"fread_system_info: Could not find system %s",
zsystem);
return FALSE;
}
/* Prepare to read commands defining unknown systems. */
void
uiunknown_start ()
{
#if HAVE_TAYLOR_CONFIG
uset_system_defaults (&sIhold);
uiset_clear (FALSE);
#else /* ! HAVE_TAYLOR_CONFIG */
uset_system_defaults (&sUnknown);
#endif /* ! HAVE_TAYLOR_CONFIG */
}
#if HAVE_TAYLOR_CONFIG
/* Process a command defining unknown systems. This is actually
called from the main configuration file, not the system file. */
enum tcmdtabret
tiunknown (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
fUnknown_ok = TRUE;
return tprocess_one_cmd (argc - 1, argv + 1, asIcmds, zerr,
CMDFLAG_WARNUNRECOG);
}
#endif /* HAVE_TAYLOR_CONFIG */
/* Finish up after all commands defining unknwon systems. */
void
uiunknown_end ()
{
#if HAVE_TAYLOR_CONFIG
if (fUnknown_ok)
{
/* Add the final alternate. */
if (fIclear_alternate)
sUnknown = sIhold;
else
{
(void) tialternate (0, (char **) NULL, (pointer) NULL, "alternate");
sUnknown = sIalternate;
}
}
#endif /* HAVE_TAYLOR_CONFIG */
}
/* Initialize the local system information. Perhaps it would be
desirable to allow the user to customize this as well. This is
called after the configuration file has been read in and the system
name has been determined. Only a few elements of this structure
are ever actually used, probably just zname and zremote_receive. */
void
uisetup_localsys ()
{
uset_system_defaults (&sLocalsys);
sLocalsys.zname = zLocalname;
}
/* Translate a system name into something we can use locally. This should
be more intelligent than it is. Right now we just truncate the name;
if this matches the name of another system, we reject the call. */
const char *
ztranslate_system (zsystem)
const char *zsystem;
{
char *z;
struct ssysteminfo s;
if (strlen (zsystem) <= cSysdep_max_name_len)
return zsystem;
z = (char *) xmalloc (cSysdep_max_name_len + 1);
strncpy (z, zsystem, cSysdep_max_name_len);
z[cSysdep_max_name_len] = '\0';
if (fread_system_info (z, &s))
{
xfree ((pointer) z);
return NULL;
}
return z;
}
#if HAVE_TAYLOR_CONFIG
/* Get the login name and password for a system out of the call file.
The call file is simple a sequence of lines. The first word on
each line is the system name, the second word is the login name,
and the third word is the password. We read it using uprocesscmds,
since it's easy. */
struct silogpass
{
char **pzlog;
char **pzpass;
};
static enum tcmdtabret tilog_pass P((int argc, char **argv, pointer pvar,
const char *zerr));
/*ARGSUSED*/
static enum tcmdtabret
tilog_pass (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
struct silogpass *q = (struct silogpass *) pvar;
*q->pzlog = xstrdup (argv[1]);
*q->pzpass = xstrdup (argv[2]);
return CMDTABRET_FREE_AND_EXIT;
}
#endif /* HAVE_TAYLOR_CONFIG */
/* Get the login name and password to use for a system. */
boolean
fcallout_login (qsys, pzlog, pzpass)
const struct ssysteminfo *qsys;
char **pzlog;
char **pzpass;
{
*pzlog = NULL;
*pzpass = NULL;
#if HAVE_TAYLOR_CONFIG
{
struct smulti_file *qmulti;
struct scmdtab as[2];
struct silogpass s;
qmulti = qmulti_open (zCallfile);
if (qmulti == NULL)
return FALSE;
s.pzlog = pzlog;
s.pzpass = pzpass;
as[0].zcmd = qsys->zname;
as[0].itype = CMDTABTYPE_FN | 3;
as[0].pvar = (pointer)&s;
as[0].ptfn = tilog_pass;
as[1].zcmd = NULL;
uprocesscmds ((FILE *) NULL, qmulti, as, (const char *) NULL,
CMDFLAG_BACKSLASH);
(void) fmulti_close (qmulti);
}
#endif /* HAVE_TAYLOR_CONFIG */
if (*pzlog == NULL)
{
ulog (LOG_ERROR, "No call out login for system %s", qsys->zname);
return FALSE;
}
return TRUE;
}
#if HAVE_TAYLOR_CONFIG
/* Check whether a login name and password gathered by the UUCP program
itself are correct. */
static enum tcmdtabret ticheck_login P((int argc, char **argv,
pointer pvar, const char *zerr));
/*ARGSUSED*/
static enum tcmdtabret
ticheck_login (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
char **pz = (char **) pvar;
*pz = xstrdup (argv[1]);
return CMDTABRET_FREE_AND_EXIT;
}
#endif /* HAVE_TAYLOR_CONFIG */
boolean
fcheck_login (zuser, zpass)
const char *zuser;
const char *zpass;
{
#if HAVE_TAYLOR_CONFIG
struct smulti_file *qmulti;
struct scmdtab as[2];
char *zfilepass;
boolean fok;
if (zPwdfile == NULL)
{
ulog (LOG_ERROR, "%s%s: file not found", NEWCONFIGLIB,
PASSWDFILE);
return FALSE;
}
qmulti = qmulti_open (zPwdfile);
if (qmulti == NULL)
return FALSE;
zfilepass = NULL;
as[0].zcmd = zuser;
as[0].itype = CMDTABTYPE_FN | 2;
as[0].pvar = (pointer)&zfilepass;
as[0].ptfn = ticheck_login;
as[1].zcmd = NULL;
uprocesscmds ((FILE *) NULL, qmulti, as, (const char *) NULL,
CMDFLAG_CASESIGNIFICANT | CMDFLAG_BACKSLASH);
(void) fmulti_close (qmulti);
fok = zfilepass != NULL && strcmp (zfilepass, zpass) == 0;
if (zfilepass != NULL)
{
bzero (zfilepass, strlen (zfilepass));
xfree ((pointer) zfilepass);
}
if (! fok)
ulog (LOG_ERROR, "Bad login");
return fok;
#else /* HAVE_TAYLOR_CONFIG */
ulog (LOG_ERROR, "Not compiled to accept logins");
return FALSE;
#endif /* HAVE_TAYLOR_CONFIG */
}
#if HAVE_TAYLOR_CONFIG
/* Process a chat command. These are done as prefix commands. We set
it up such that argv[0] will contain the string "chat" and we must
look after that point to see what command to execute. */
static struct schat_info sChat;
static enum tcmdtabret tcchat_fail P((int argc, char **argv,
pointer pvar,
const char *zerr));
static const struct scmdtab asChatcmds[] =
{
{ "chat", CMDTABTYPE_FULLSTRING, (pointer) &sChat.zchat, NULL },
{ "chat-program", CMDTABTYPE_FULLSTRING, (pointer) &sChat.zprogram,
NULL },
{ "chat-timeout", CMDTABTYPE_INT, (pointer) &sChat.ctimeout, NULL },
{ "chat-fail", CMDTABTYPE_FN | 2, NULL, tcchat_fail },
{ "chat-seven-bit", CMDTABTYPE_BOOLEAN, (pointer) &sChat.fstrip, NULL },
{ NULL, 0, NULL, NULL }
};
enum tcmdtabret
tprocess_chat_cmd (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
struct schat_info *qchat = (struct schat_info *) pvar;
char *zchat;
enum tcmdtabret t;
zchat = strstr (argv[0], "chat");
#if DEBUG > 0
if (zchat == NULL)
ulog (LOG_FATAL, "tprocess_chat_cmd: Can't happen");
#endif
argv[0] = zchat;
sChat = *qchat;
t = tprocess_one_cmd (argc, argv, asChatcmds, zerr,
CMDFLAG_WARNUNRECOG);
*qchat = sChat;
return t;
}
/* Add a new chat failure string. */
static enum tcmdtabret
tcchat_fail (argc, argv, pvar, zerr)
int argc;
char **argv;
pointer pvar;
const char *zerr;
{
uadd_string (&sChat.zfail, argv[1], ' ');
return CMDTABRET_FREE;
}
#endif /* HAVE_TAYLOR_CONFIG */
#if HAVE_TAYLOR_CONFIG
/* Add a protocol parameter entry. The pc parameter points to the
number of protocol parameter entries, and the pq parameter points
to the array of protocol parameters. */
enum tcmdtabret
tadd_proto_param (pc, pq, zerr, cargs, azargs)
int *pc;
struct sproto_param **pq;
const char *zerr;
int cargs;
char **azargs;
{
int i;
struct sproto_param *q;
int ientry;
int icopy;
if (cargs < 1)
{
ulog (LOG_ERROR, "%s: protocol-parameter: Not enough arguments", zerr);
return CMDTABRET_FREE;
}
if (azargs[0][1] != '\0')
{
ulog (LOG_ERROR,
"%s: protocol-parameter: Protocol names are single characters",
zerr);
return CMDTABRET_FREE;
}
q = NULL;
ientry = 0;
for (i = 0; i < *pc; i++)
{
if ((*pq)[i].bproto == azargs[0][0])
{
q = &(*pq)[i];
ientry = q->centries;
++q->centries;
q->qentries =
((struct sproto_param_entry *)
xrealloc ((pointer) q->qentries,
(q->centries * sizeof (struct sproto_param_entry))));
break;
}
}
if (i >= *pc)
{
++(*pc);
*pq = ((struct sproto_param *)
xrealloc ((pointer) *pq,
(*pc * sizeof (struct sproto_param))));
q = &(*pq)[*pc - 1];
q->bproto = azargs[0][0];
q->centries = 1;
q->qentries = ((struct sproto_param_entry *)
xmalloc (sizeof (struct sproto_param_entry)));
ientry = 0;
}
q->qentries[ientry].cargs = cargs - 1;
q->qentries[ientry].azargs =
(char **) xmalloc ((cargs - 1) * sizeof (char *));
for (icopy = 0; icopy < cargs - 1; icopy++)
q->qentries[ientry].azargs[icopy] = azargs[icopy + 1];
return CMDTABRET_CONTINUE;
}
#endif /* HAVE_TAYLOR_CONFIG */
/* Apply some protocol parameters, given the current protocol. */
void
uapply_proto_params (bproto, qcmds, c, pas)
int bproto;
struct scmdtab *qcmds;
int c;
struct sproto_param *pas;
{
int i;
struct sproto_param *q;
for (i = 0, q = pas;
i < c;
i++, q++)
{
if (q->bproto == (char) bproto)
{
char ab[sizeof "g protocol parameters"];
struct sproto_param_entry *qentry;
int ientry;
sprintf (ab, "%c protocol parameters", bproto);
q = &pas[i];
for (ientry = 0, qentry = &q->qentries[0];
ientry < q->centries;
ientry++, qentry++)
(void) tprocess_one_cmd (qentry->cargs, qentry->azargs,
qcmds, ab, CMDFLAG_WARNUNRECOG);
return;
}
}
}
/* Maintain a list of systems which are permitted to log in using a
particular login name. This is the VALIDATE entry from the BNU
Permissions file. */
static struct svalidate
{
struct svalidate *qnext;
const char *zlogname;
int cmachines;
const char *azmachines[1];
} *qIvalidate;
/* Add an entry to the validation list. This assumes that it does not
have to copy the login name or the machine names. It does copy the
array of machines names. */
void
uadd_validate (zlogname, cmachines, pazmachines)
const char *zlogname;
int cmachines;
const char **pazmachines;
{
struct svalidate **pq, *q;
for (pq = &qIvalidate; *pq != NULL; pq = &(*pq)->qnext)
{
if (strcmp ((*pq)->zlogname, zlogname) == 0)
{
*pq = ((struct svalidate *)
xrealloc ((pointer) *pq,
sizeof (struct svalidate)
+ (((*pq)->cmachines + cmachines - 1)
* sizeof (const char *))));
memcpy ((*pq)->azmachines + (*pq)->cmachines, pazmachines,
cmachines * sizeof (const char *));
(*pq)->cmachines += cmachines;
return;
}
}
q = (struct svalidate *) xmalloc (sizeof (struct svalidate)
+ ((cmachines - 1)
* sizeof (const char *)));
q->qnext = qIvalidate;
q->zlogname = zlogname;
memcpy (q->azmachines, pazmachines,
cmachines * sizeof (const char *));
q->cmachines = cmachines;
qIvalidate = q;
}
/* Check whether a particular login name/machine name is valid. */
boolean
fcheck_validate (zlogname, zmachine)
const char *zlogname;
const char *zmachine;
{
struct svalidate *q;
for (q = qIvalidate; q != NULL; q = q->qnext)
{
if (strcmp (q->zlogname, zlogname) == 0)
{
int i;
for (i = 0; i < q->cmachines; i++)
if (strcmp (q->azmachines[i], zmachine) == 0)
return TRUE;
return FALSE;
}
}
return TRUE;
}
/* The variables which hold the array of timetables. */
int cTtable;
struct stimetable *pasTtable;
/* Initialize the table of timetables as advertised in the
documentation. */
void
uinittimetables ()
{
pasTtable = (struct stimetable *) xmalloc (3 * sizeof (struct stimetable));
pasTtable[0].zname = "Evening";
pasTtable[0].ztime = "Wk1705-0755,Sa,Su";
pasTtable[1].zname = "Night";
pasTtable[1].ztime = "Wk2305-0755,Sa,Su2305-1655";
pasTtable[2].zname = "NonPeak";
pasTtable[2].ztime = "Wk1805-0655,Sa,Su";
cTtable = 3;
}
/* Add a new timetable entry. This assumes it can take control of the
strings it is passed, so they must not be on the stack and if they
have been allocated they must not be freed. */
void
uaddtimetable (zname, ztime)
const char *zname;
const char *ztime;
{
if (pasTtable == NULL)
uinittimetables ();
pasTtable = ((struct stimetable *)
xrealloc ((pointer) pasTtable,
(cTtable + 1) * sizeof (struct stimetable)));
pasTtable[cTtable].zname = zname;
pasTtable[cTtable].ztime = ztime;
++cTtable;
}
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