libexec/telnetd/sys_term.c

1.8  thorpej /*	$NetBSD: sys_term.c,v 1.8 1996/02/28 20:38:21 thorpej Exp $	*/
1.8  thorpej
1.1      cgd /*
1.3      cgd  * Copyright (c) 1989, 1993
1.3      cgd  *	The Regents of the University of California.  All rights reserved.
1.1      cgd  *
1.1      cgd  * Redistribution and use in source and binary forms, with or without
1.1      cgd  * modification, are permitted provided that the following conditions
1.1      cgd  * are met:
1.1      cgd  * 1. Redistributions of source code must retain the above copyright
1.1      cgd  *    notice, this list of conditions and the following disclaimer.
1.1      cgd  * 2. Redistributions in binary form must reproduce the above copyright
1.1      cgd  *    notice, this list of conditions and the following disclaimer in the
1.1      cgd  *    documentation and/or other materials provided with the distribution.
1.1      cgd  * 3. All advertising materials mentioning features or use of this software
1.1      cgd  *    must display the following acknowledgement:
1.1      cgd  *	This product includes software developed by the University of
1.1      cgd  *	California, Berkeley and its contributors.
1.1      cgd  * 4. Neither the name of the University nor the names of its contributors
1.1      cgd  *    may be used to endorse or promote products derived from this software
1.1      cgd  *    without specific prior written permission.
1.1      cgd  *
1.1      cgd  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1      cgd  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1      cgd  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1      cgd  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1      cgd  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1      cgd  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1      cgd  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1      cgd  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1      cgd  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1      cgd  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1      cgd  * SUCH DAMAGE.
1.1      cgd  */
1.1      cgd
1.1      cgd #ifndef lint
1.8  thorpej #if 0
1.8  thorpej static char sccsid[] = "@(#)sys_term.c	8.4+1 (Berkeley) 5/30/95";
1.8  thorpej #else
1.8  thorpej static char rcsid[] = "$NetBSD: sys_term.c,v 1.8 1996/02/28 20:38:21 thorpej Exp $";
1.8  thorpej #endif
1.1      cgd #endif /* not lint */
1.1      cgd
1.1      cgd #include "telnetd.h"
1.1      cgd #include "pathnames.h"
1.1      cgd
1.6      jtk #include <sys/cdefs.h>
1.6      jtk #define P __P
1.6      jtk
1.3      cgd #if	defined(AUTHENTICATION)
1.1      cgd #include <libtelnet/auth.h>
1.1      cgd #endif
1.1      cgd
1.3      cgd #if defined(CRAY) || defined(__hpux)
1.3      cgd # define PARENT_DOES_UTMP
1.3      cgd #endif
1.3      cgd
1.1      cgd #ifdef	NEWINIT
1.1      cgd #include <initreq.h>
1.3      cgd int	utmp_len = MAXHOSTNAMELEN;	/* sizeof(init_request.host) */
1.1      cgd #else	/* NEWINIT*/
1.3      cgd # ifdef	UTMPX
1.3      cgd # include <utmpx.h>
1.3      cgd struct	utmpx wtmp;
1.3      cgd # else
1.3      cgd # include <utmp.h>
1.1      cgd struct	utmp wtmp;
1.3      cgd # endif /* UTMPX */
1.1      cgd
1.3      cgd int	utmp_len = sizeof(wtmp.ut_host);
1.3      cgd # ifndef PARENT_DOES_UTMP
1.1      cgd char	wtmpf[]	= "/usr/adm/wtmp";
1.1      cgd char	utmpf[] = "/etc/utmp";
1.3      cgd # else /* PARENT_DOES_UTMP */
1.1      cgd char	wtmpf[]	= "/etc/wtmp";
1.3      cgd # endif /* PARENT_DOES_UTMP */
1.3      cgd
1.3      cgd # ifdef CRAY
1.1      cgd #include <tmpdir.h>
1.1      cgd #include <sys/wait.h>
1.6      jtk #  if (UNICOS_LVL == '7.0') || (UNICOS_LVL == '7.1')
1.6      jtk #   define UNICOS7x
1.3      cgd #  endif
1.3      cgd
1.6      jtk #  ifdef UNICOS7x
1.3      cgd #include <sys/sysv.h>
1.3      cgd #include <sys/secstat.h>
1.3      cgd extern int secflag;
1.3      cgd extern struct sysv sysv;
1.6      jtk #  endif /* UNICOS7x */
1.1      cgd # endif	/* CRAY */
1.1      cgd #endif	/* NEWINIT */
1.1      cgd
1.3      cgd #ifdef	STREAMSPTY
1.3      cgd #include <sac.h>
1.3      cgd #include <sys/stropts.h>
1.3      cgd #endif
1.3      cgd
1.1      cgd #define SCPYN(a, b)	(void) strncpy(a, b, sizeof(a))
1.1      cgd #define SCMPN(a, b)	strncmp(a, b, sizeof(a))
1.1      cgd
1.1      cgd #ifdef	STREAMS
1.1      cgd #include <sys/stream.h>
1.1      cgd #endif
1.3      cgd #ifdef __hpux
1.3      cgd #include <sys/resource.h>
1.3      cgd #include <sys/proc.h>
1.3      cgd #endif
1.1      cgd #include <sys/tty.h>
1.1      cgd #ifdef	t_erase
1.1      cgd #undef	t_erase
1.1      cgd #undef	t_kill
1.1      cgd #undef	t_intrc
1.1      cgd #undef	t_quitc
1.1      cgd #undef	t_startc
1.1      cgd #undef	t_stopc
1.1      cgd #undef	t_eofc
1.1      cgd #undef	t_brkc
1.1      cgd #undef	t_suspc
1.1      cgd #undef	t_dsuspc
1.1      cgd #undef	t_rprntc
1.1      cgd #undef	t_flushc
1.1      cgd #undef	t_werasc
1.1      cgd #undef	t_lnextc
1.1      cgd #endif
1.1      cgd
1.1      cgd #if defined(UNICOS5) && defined(CRAY2) && !defined(EXTPROC)
1.1      cgd # define EXTPROC 0400
1.1      cgd #endif
1.1      cgd
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd struct termbuf {
1.1      cgd 	struct sgttyb sg;
1.1      cgd 	struct tchars tc;
1.1      cgd 	struct ltchars ltc;
1.1      cgd 	int state;
1.1      cgd 	int lflags;
1.1      cgd } termbuf, termbuf2;
1.1      cgd # define	cfsetospeed(tp, val)	(tp)->sg.sg_ospeed = (val)
1.1      cgd # define	cfsetispeed(tp, val)	(tp)->sg.sg_ispeed = (val)
1.1      cgd # define	cfgetospeed(tp)		(tp)->sg.sg_ospeed
1.1      cgd # define	cfgetispeed(tp)		(tp)->sg.sg_ispeed
1.1      cgd #else	/* USE_TERMIO */
1.1      cgd # ifdef	SYSV_TERMIO
1.1      cgd #	define termios termio
1.1      cgd # endif
1.1      cgd # ifndef	TCSANOW
1.1      cgd #  ifdef TCSETS
1.1      cgd #   define	TCSANOW		TCSETS
1.1      cgd #   define	TCSADRAIN	TCSETSW
1.1      cgd #   define	tcgetattr(f, t)	ioctl(f, TCGETS, (char *)t)
1.1      cgd #  else
1.1      cgd #   ifdef TCSETA
1.1      cgd #    define	TCSANOW		TCSETA
1.1      cgd #    define	TCSADRAIN	TCSETAW
1.1      cgd #    define	tcgetattr(f, t)	ioctl(f, TCGETA, (char *)t)
1.1      cgd #   else
1.1      cgd #    define	TCSANOW		TIOCSETA
1.1      cgd #    define	TCSADRAIN	TIOCSETAW
1.1      cgd #    define	tcgetattr(f, t)	ioctl(f, TIOCGETA, (char *)t)
1.1      cgd #   endif
1.1      cgd #  endif
1.1      cgd #  define	tcsetattr(f, a, t)	ioctl(f, a, t)
1.1      cgd #  define	cfsetospeed(tp, val)	(tp)->c_cflag &= ~CBAUD; \
1.1      cgd 					(tp)->c_cflag |= (val)
1.1      cgd #  define	cfgetospeed(tp)		((tp)->c_cflag & CBAUD)
1.1      cgd #  ifdef CIBAUD
1.1      cgd #   define	cfsetispeed(tp, val)	(tp)->c_cflag &= ~CIBAUD; \
1.1      cgd 					(tp)->c_cflag |= ((val)<<IBSHIFT)
1.1      cgd #   define	cfgetispeed(tp)		(((tp)->c_cflag & CIBAUD)>>IBSHIFT)
1.1      cgd #  else
1.1      cgd #   define	cfsetispeed(tp, val)	(tp)->c_cflag &= ~CBAUD; \
1.1      cgd 					(tp)->c_cflag |= (val)
1.1      cgd #   define	cfgetispeed(tp)		((tp)->c_cflag & CBAUD)
1.1      cgd #  endif
1.1      cgd # endif /* TCSANOW */
1.1      cgd struct termios termbuf, termbuf2;	/* pty control structure */
1.3      cgd # ifdef  STREAMSPTY
1.3      cgd int ttyfd = -1;
1.3      cgd # endif
1.1      cgd #endif	/* USE_TERMIO */
1.1      cgd
1.1      cgd /*
1.1      cgd  * init_termbuf()
1.1      cgd  * copy_termbuf(cp)
1.1      cgd  * set_termbuf()
1.1      cgd  *
1.1      cgd  * These three routines are used to get and set the "termbuf" structure
1.1      cgd  * to and from the kernel.  init_termbuf() gets the current settings.
1.1      cgd  * copy_termbuf() hands in a new "termbuf" to write to the kernel, and
1.1      cgd  * set_termbuf() writes the structure into the kernel.
1.1      cgd  */
1.1      cgd
1.1      cgd 	void
1.1      cgd init_termbuf()
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	(void) ioctl(pty, TIOCGETP, (char *)&termbuf.sg);
1.1      cgd 	(void) ioctl(pty, TIOCGETC, (char *)&termbuf.tc);
1.1      cgd 	(void) ioctl(pty, TIOCGLTC, (char *)&termbuf.ltc);
1.1      cgd # ifdef	TIOCGSTATE
1.1      cgd 	(void) ioctl(pty, TIOCGSTATE, (char *)&termbuf.state);
1.1      cgd # endif
1.1      cgd #else
1.3      cgd # ifdef  STREAMSPTY
1.3      cgd 	(void) tcgetattr(ttyfd, &termbuf);
1.3      cgd # else
1.1      cgd 	(void) tcgetattr(pty, &termbuf);
1.3      cgd # endif
1.1      cgd #endif
1.1      cgd 	termbuf2 = termbuf;
1.1      cgd }
1.1      cgd
1.1      cgd #if	defined(LINEMODE) && defined(TIOCPKT_IOCTL)
1.1      cgd 	void
1.1      cgd copy_termbuf(cp, len)
1.1      cgd 	char *cp;
1.1      cgd 	int len;
1.1      cgd {
1.1      cgd 	if (len > sizeof(termbuf))
1.1      cgd 		len = sizeof(termbuf);
1.6      jtk 	memmove((char *)&termbuf, cp, len);
1.1      cgd 	termbuf2 = termbuf;
1.1      cgd }
1.1      cgd #endif	/* defined(LINEMODE) && defined(TIOCPKT_IOCTL) */
1.1      cgd
1.1      cgd 	void
1.1      cgd set_termbuf()
1.1      cgd {
1.1      cgd 	/*
1.1      cgd 	 * Only make the necessary changes.
1.1      cgd 	 */
1.1      cgd #ifndef	USE_TERMIO
1.6      jtk 	if (memcmp((char *)&termbuf.sg, (char *)&termbuf2.sg,
1.6      jtk 							sizeof(termbuf.sg)))
1.1      cgd 		(void) ioctl(pty, TIOCSETN, (char *)&termbuf.sg);
1.6      jtk 	if (memcmp((char *)&termbuf.tc, (char *)&termbuf2.tc,
1.6      jtk 							sizeof(termbuf.tc)))
1.1      cgd 		(void) ioctl(pty, TIOCSETC, (char *)&termbuf.tc);
1.6      jtk 	if (memcmp((char *)&termbuf.ltc, (char *)&termbuf2.ltc,
1.1      cgd 							sizeof(termbuf.ltc)))
1.1      cgd 		(void) ioctl(pty, TIOCSLTC, (char *)&termbuf.ltc);
1.1      cgd 	if (termbuf.lflags != termbuf2.lflags)
1.1      cgd 		(void) ioctl(pty, TIOCLSET, (char *)&termbuf.lflags);
1.1      cgd #else	/* USE_TERMIO */
1.6      jtk 	if (memcmp((char *)&termbuf, (char *)&termbuf2, sizeof(termbuf)))
1.3      cgd # ifdef  STREAMSPTY
1.3      cgd 		(void) tcsetattr(ttyfd, TCSANOW, &termbuf);
1.3      cgd # else
1.1      cgd 		(void) tcsetattr(pty, TCSANOW, &termbuf);
1.3      cgd # endif
1.3      cgd # if	defined(CRAY2) && defined(UNICOS5)
1.1      cgd 	needtermstat = 1;
1.1      cgd # endif
1.1      cgd #endif	/* USE_TERMIO */
1.1      cgd }
1.1      cgd
1.1      cgd
1.1      cgd /*
1.1      cgd  * spcset(func, valp, valpp)
1.1      cgd  *
1.1      cgd  * This function takes various special characters (func), and
1.1      cgd  * sets *valp to the current value of that character, and
1.1      cgd  * *valpp to point to where in the "termbuf" structure that
1.1      cgd  * value is kept.
1.1      cgd  *
1.1      cgd  * It returns the SLC_ level of support for this function.
1.1      cgd  */
1.1      cgd
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	int
1.1      cgd spcset(func, valp, valpp)
1.1      cgd 	int func;
1.1      cgd 	cc_t *valp;
1.1      cgd 	cc_t **valpp;
1.1      cgd {
1.1      cgd 	switch(func) {
1.1      cgd 	case SLC_EOF:
1.1      cgd 		*valp = termbuf.tc.t_eofc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.tc.t_eofc;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_EC:
1.1      cgd 		*valp = termbuf.sg.sg_erase;
1.1      cgd 		*valpp = (cc_t *)&termbuf.sg.sg_erase;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_EL:
1.1      cgd 		*valp = termbuf.sg.sg_kill;
1.1      cgd 		*valpp = (cc_t *)&termbuf.sg.sg_kill;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_IP:
1.1      cgd 		*valp = termbuf.tc.t_intrc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.tc.t_intrc;
1.1      cgd 		return(SLC_VARIABLE|SLC_FLUSHIN|SLC_FLUSHOUT);
1.1      cgd 	case SLC_ABORT:
1.1      cgd 		*valp = termbuf.tc.t_quitc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.tc.t_quitc;
1.1      cgd 		return(SLC_VARIABLE|SLC_FLUSHIN|SLC_FLUSHOUT);
1.1      cgd 	case SLC_XON:
1.1      cgd 		*valp = termbuf.tc.t_startc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.tc.t_startc;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_XOFF:
1.1      cgd 		*valp = termbuf.tc.t_stopc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.tc.t_stopc;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_AO:
1.1      cgd 		*valp = termbuf.ltc.t_flushc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.ltc.t_flushc;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_SUSP:
1.1      cgd 		*valp = termbuf.ltc.t_suspc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.ltc.t_suspc;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_EW:
1.1      cgd 		*valp = termbuf.ltc.t_werasc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.ltc.t_werasc;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_RP:
1.1      cgd 		*valp = termbuf.ltc.t_rprntc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.ltc.t_rprntc;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_LNEXT:
1.1      cgd 		*valp = termbuf.ltc.t_lnextc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.ltc.t_lnextc;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_FORW1:
1.1      cgd 		*valp = termbuf.tc.t_brkc;
1.1      cgd 		*valpp = (cc_t *)&termbuf.ltc.t_lnextc;
1.1      cgd 		return(SLC_VARIABLE);
1.1      cgd 	case SLC_BRK:
1.1      cgd 	case SLC_SYNCH:
1.1      cgd 	case SLC_AYT:
1.1      cgd 	case SLC_EOR:
1.1      cgd 		*valp = (cc_t)0;
1.1      cgd 		*valpp = (cc_t *)0;
1.1      cgd 		return(SLC_DEFAULT);
1.1      cgd 	default:
1.1      cgd 		*valp = (cc_t)0;
1.1      cgd 		*valpp = (cc_t *)0;
1.1      cgd 		return(SLC_NOSUPPORT);
1.1      cgd 	}
1.1      cgd }
1.1      cgd
1.1      cgd #else	/* USE_TERMIO */
1.1      cgd
1.1      cgd 	int
1.1      cgd spcset(func, valp, valpp)
1.1      cgd 	int func;
1.1      cgd 	cc_t *valp;
1.1      cgd 	cc_t **valpp;
1.1      cgd {
1.1      cgd
1.1      cgd #define	setval(a, b)	*valp = termbuf.c_cc[a]; \
1.1      cgd 			*valpp = &termbuf.c_cc[a]; \
1.1      cgd 			return(b);
1.1      cgd #define	defval(a) *valp = ((cc_t)a); *valpp = (cc_t *)0; return(SLC_DEFAULT);
1.1      cgd
1.1      cgd 	switch(func) {
1.1      cgd 	case SLC_EOF:
1.1      cgd 		setval(VEOF, SLC_VARIABLE);
1.1      cgd 	case SLC_EC:
1.1      cgd 		setval(VERASE, SLC_VARIABLE);
1.1      cgd 	case SLC_EL:
1.1      cgd 		setval(VKILL, SLC_VARIABLE);
1.1      cgd 	case SLC_IP:
1.1      cgd 		setval(VINTR, SLC_VARIABLE|SLC_FLUSHIN|SLC_FLUSHOUT);
1.1      cgd 	case SLC_ABORT:
1.1      cgd 		setval(VQUIT, SLC_VARIABLE|SLC_FLUSHIN|SLC_FLUSHOUT);
1.1      cgd 	case SLC_XON:
1.1      cgd #ifdef	VSTART
1.1      cgd 		setval(VSTART, SLC_VARIABLE);
1.1      cgd #else
1.1      cgd 		defval(0x13);
1.1      cgd #endif
1.1      cgd 	case SLC_XOFF:
1.1      cgd #ifdef	VSTOP
1.1      cgd 		setval(VSTOP, SLC_VARIABLE);
1.1      cgd #else
1.1      cgd 		defval(0x11);
1.1      cgd #endif
1.1      cgd 	case SLC_EW:
1.1      cgd #ifdef	VWERASE
1.1      cgd 		setval(VWERASE, SLC_VARIABLE);
1.1      cgd #else
1.1      cgd 		defval(0);
1.1      cgd #endif
1.1      cgd 	case SLC_RP:
1.1      cgd #ifdef	VREPRINT
1.1      cgd 		setval(VREPRINT, SLC_VARIABLE);
1.1      cgd #else
1.1      cgd 		defval(0);
1.1      cgd #endif
1.1      cgd 	case SLC_LNEXT:
1.1      cgd #ifdef	VLNEXT
1.1      cgd 		setval(VLNEXT, SLC_VARIABLE);
1.1      cgd #else
1.1      cgd 		defval(0);
1.1      cgd #endif
1.1      cgd 	case SLC_AO:
1.1      cgd #if	!defined(VDISCARD) && defined(VFLUSHO)
1.1      cgd # define VDISCARD VFLUSHO
1.1      cgd #endif
1.1      cgd #ifdef	VDISCARD
1.1      cgd 		setval(VDISCARD, SLC_VARIABLE|SLC_FLUSHOUT);
1.1      cgd #else
1.1      cgd 		defval(0);
1.1      cgd #endif
1.1      cgd 	case SLC_SUSP:
1.1      cgd #ifdef	VSUSP
1.1      cgd 		setval(VSUSP, SLC_VARIABLE|SLC_FLUSHIN);
1.1      cgd #else
1.1      cgd 		defval(0);
1.1      cgd #endif
1.1      cgd #ifdef	VEOL
1.1      cgd 	case SLC_FORW1:
1.1      cgd 		setval(VEOL, SLC_VARIABLE);
1.1      cgd #endif
1.1      cgd #ifdef	VEOL2
1.1      cgd 	case SLC_FORW2:
1.1      cgd 		setval(VEOL2, SLC_VARIABLE);
1.1      cgd #endif
1.1      cgd 	case SLC_AYT:
1.1      cgd #ifdef	VSTATUS
1.1      cgd 		setval(VSTATUS, SLC_VARIABLE);
1.1      cgd #else
1.1      cgd 		defval(0);
1.1      cgd #endif
1.1      cgd
1.1      cgd 	case SLC_BRK:
1.1      cgd 	case SLC_SYNCH:
1.1      cgd 	case SLC_EOR:
1.1      cgd 		defval(0);
1.1      cgd
1.1      cgd 	default:
1.1      cgd 		*valp = 0;
1.1      cgd 		*valpp = 0;
1.1      cgd 		return(SLC_NOSUPPORT);
1.1      cgd 	}
1.1      cgd }
1.1      cgd #endif	/* USE_TERMIO */
1.1      cgd
1.1      cgd #ifdef CRAY
1.1      cgd /*
1.1      cgd  * getnpty()
1.1      cgd  *
1.1      cgd  * Return the number of pty's configured into the system.
1.1      cgd  */
1.1      cgd 	int
1.1      cgd getnpty()
1.1      cgd {
1.1      cgd #ifdef _SC_CRAY_NPTY
1.1      cgd 	int numptys;
1.1      cgd
1.1      cgd 	if ((numptys = sysconf(_SC_CRAY_NPTY)) != -1)
1.1      cgd 		return numptys;
1.1      cgd 	else
1.1      cgd #endif /* _SC_CRAY_NPTY */
1.1      cgd 		return 128;
1.1      cgd }
1.1      cgd #endif /* CRAY */
1.1      cgd
1.1      cgd #ifndef	convex
1.1      cgd /*
1.1      cgd  * getpty()
1.1      cgd  *
1.1      cgd  * Allocate a pty.  As a side effect, the external character
1.1      cgd  * array "line" contains the name of the slave side.
1.1      cgd  *
1.1      cgd  * Returns the file descriptor of the opened pty.
1.1      cgd  */
1.1      cgd #ifndef	__GNUC__
1.1      cgd char *line = "\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0";
1.1      cgd #else
1.1      cgd static char Xline[] = "\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0";
1.1      cgd char *line = Xline;
1.1      cgd #endif
1.1      cgd #ifdef	CRAY
1.1      cgd char *myline = "\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0";
1.1      cgd #endif	/* CRAY */
1.1      cgd
1.1      cgd 	int
1.3      cgd getpty(ptynum)
1.3      cgd int *ptynum;
1.1      cgd {
1.1      cgd 	register int p;
1.3      cgd #ifdef	STREAMSPTY
1.3      cgd 	int t;
1.3      cgd 	char *ptsname();
1.3      cgd
1.3      cgd 	p = open("/dev/ptmx", 2);
1.3      cgd 	if (p > 0) {
1.3      cgd 		grantpt(p);
1.3      cgd 		unlockpt(p);
1.3      cgd 		strcpy(line, ptsname(p));
1.3      cgd 		return(p);
1.3      cgd 	}
1.3      cgd
1.3      cgd #else	/* ! STREAMSPTY */
1.1      cgd #ifndef CRAY
1.3      cgd 	register char *cp, *p1, *p2;
1.1      cgd 	register int i;
1.3      cgd #if defined(sun) && defined(TIOCGPGRP) && BSD < 199207
1.3      cgd 	int dummy;
1.3      cgd #endif
1.1      cgd
1.3      cgd #ifndef	__hpux
1.1      cgd 	(void) sprintf(line, "/dev/ptyXX");
1.1      cgd 	p1 = &line[8];
1.1      cgd 	p2 = &line[9];
1.3      cgd #else
1.3      cgd 	(void) sprintf(line, "/dev/ptym/ptyXX");
1.3      cgd 	p1 = &line[13];
1.3      cgd 	p2 = &line[14];
1.3      cgd #endif
1.1      cgd
1.3      cgd 	for (cp = "pqrstuvwxyzPQRST"; *cp; cp++) {
1.1      cgd 		struct stat stb;
1.1      cgd
1.3      cgd 		*p1 = *cp;
1.1      cgd 		*p2 = '0';
1.3      cgd 		/*
1.3      cgd 		 * This stat() check is just to keep us from
1.3      cgd 		 * looping through all 256 combinations if there
1.3      cgd 		 * aren't that many ptys available.
1.3      cgd 		 */
1.1      cgd 		if (stat(line, &stb) < 0)
1.1      cgd 			break;
1.1      cgd 		for (i = 0; i < 16; i++) {
1.1      cgd 			*p2 = "0123456789abcdef"[i];
1.1      cgd 			p = open(line, 2);
1.1      cgd 			if (p > 0) {
1.3      cgd #ifndef	__hpux
1.1      cgd 				line[5] = 't';
1.3      cgd #else
1.3      cgd 				for (p1 = &line[8]; *p1; p1++)
1.3      cgd 					*p1 = *(p1+1);
1.3      cgd 				line[9] = 't';
1.3      cgd #endif
1.3      cgd 				chown(line, 0, 0);
1.3      cgd 				chmod(line, 0600);
1.3      cgd #if defined(sun) && defined(TIOCGPGRP) && BSD < 199207
1.3      cgd 				if (ioctl(p, TIOCGPGRP, &dummy) == 0
1.3      cgd 				    || errno != EIO) {
1.3      cgd 					chmod(line, 0666);
1.3      cgd 					close(p);
1.3      cgd 					line[5] = 'p';
1.3      cgd 				} else
1.3      cgd #endif /* defined(sun) && defined(TIOCGPGRP) && BSD < 199207 */
1.3      cgd 					return(p);
1.1      cgd 			}
1.1      cgd 		}
1.1      cgd 	}
1.1      cgd #else	/* CRAY */
1.1      cgd 	extern lowpty, highpty;
1.1      cgd 	struct stat sb;
1.1      cgd
1.3      cgd 	for (*ptynum = lowpty; *ptynum <= highpty; (*ptynum)++) {
1.3      cgd 		(void) sprintf(myline, "/dev/pty/%03d", *ptynum);
1.1      cgd 		p = open(myline, 2);
1.1      cgd 		if (p < 0)
1.1      cgd 			continue;
1.3      cgd 		(void) sprintf(line, "/dev/ttyp%03d", *ptynum);
1.1      cgd 		/*
1.1      cgd 		 * Here are some shenanigans to make sure that there
1.1      cgd 		 * are no listeners lurking on the line.
1.1      cgd 		 */
1.1      cgd 		if(stat(line, &sb) < 0) {
1.1      cgd 			(void) close(p);
1.1      cgd 			continue;
1.1      cgd 		}
1.1      cgd 		if(sb.st_uid || sb.st_gid || sb.st_mode != 0600) {
1.1      cgd 			chown(line, 0, 0);
1.1      cgd 			chmod(line, 0600);
1.1      cgd 			(void)close(p);
1.1      cgd 			p = open(myline, 2);
1.1      cgd 			if (p < 0)
1.1      cgd 				continue;
1.1      cgd 		}
1.1      cgd 		/*
1.1      cgd 		 * Now it should be safe...check for accessability.
1.1      cgd 		 */
1.1      cgd 		if (access(line, 6) == 0)
1.1      cgd 			return(p);
1.1      cgd 		else {
1.1      cgd 			/* no tty side to pty so skip it */
1.1      cgd 			(void) close(p);
1.1      cgd 		}
1.1      cgd 	}
1.1      cgd #endif	/* CRAY */
1.3      cgd #endif	/* STREAMSPTY */
1.1      cgd 	return(-1);
1.1      cgd }
1.1      cgd #endif	/* convex */
1.1      cgd
1.1      cgd #ifdef	LINEMODE
1.1      cgd /*
1.1      cgd  * tty_flowmode()	Find out if flow control is enabled or disabled.
1.1      cgd  * tty_linemode()	Find out if linemode (external processing) is enabled.
1.1      cgd  * tty_setlinemod(on)	Turn on/off linemode.
1.1      cgd  * tty_isecho()		Find out if echoing is turned on.
1.1      cgd  * tty_setecho(on)	Enable/disable character echoing.
1.1      cgd  * tty_israw()		Find out if terminal is in RAW mode.
1.1      cgd  * tty_binaryin(on)	Turn on/off BINARY on input.
1.1      cgd  * tty_binaryout(on)	Turn on/off BINARY on output.
1.1      cgd  * tty_isediting()	Find out if line editing is enabled.
1.1      cgd  * tty_istrapsig()	Find out if signal trapping is enabled.
1.1      cgd  * tty_setedit(on)	Turn on/off line editing.
1.1      cgd  * tty_setsig(on)	Turn on/off signal trapping.
1.1      cgd  * tty_issofttab()	Find out if tab expansion is enabled.
1.1      cgd  * tty_setsofttab(on)	Turn on/off soft tab expansion.
1.1      cgd  * tty_islitecho()	Find out if typed control chars are echoed literally
1.1      cgd  * tty_setlitecho()	Turn on/off literal echo of control chars
1.1      cgd  * tty_tspeed(val)	Set transmit speed to val.
1.1      cgd  * tty_rspeed(val)	Set receive speed to val.
1.1      cgd  */
1.1      cgd
1.1      cgd #ifdef convex
1.1      cgd static int linestate;
1.1      cgd #endif
1.1      cgd
1.1      cgd 	int
1.1      cgd tty_linemode()
1.1      cgd {
1.1      cgd #ifndef convex
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	return(termbuf.state & TS_EXTPROC);
1.1      cgd #else
1.1      cgd 	return(termbuf.c_lflag & EXTPROC);
1.1      cgd #endif
1.1      cgd #else
1.1      cgd 	return(linestate);
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd tty_setlinemode(on)
1.1      cgd 	int on;
1.1      cgd {
1.1      cgd #ifdef	TIOCEXT
1.1      cgd # ifndef convex
1.1      cgd 	set_termbuf();
1.1      cgd # else
1.1      cgd 	linestate = on;
1.1      cgd # endif
1.1      cgd 	(void) ioctl(pty, TIOCEXT, (char *)&on);
1.1      cgd # ifndef convex
1.1      cgd 	init_termbuf();
1.1      cgd # endif
1.1      cgd #else	/* !TIOCEXT */
1.1      cgd # ifdef	EXTPROC
1.1      cgd 	if (on)
1.1      cgd 		termbuf.c_lflag |= EXTPROC;
1.1      cgd 	else
1.1      cgd 		termbuf.c_lflag &= ~EXTPROC;
1.1      cgd # endif
1.1      cgd #endif	/* TIOCEXT */
1.1      cgd }
1.3      cgd #endif	/* LINEMODE */
1.1      cgd
1.1      cgd 	int
1.1      cgd tty_isecho()
1.1      cgd {
1.1      cgd #ifndef USE_TERMIO
1.1      cgd 	return (termbuf.sg.sg_flags & ECHO);
1.1      cgd #else
1.1      cgd 	return (termbuf.c_lflag & ECHO);
1.1      cgd #endif
1.1      cgd }
1.3      cgd
1.3      cgd 	int
1.3      cgd tty_flowmode()
1.3      cgd {
1.3      cgd #ifndef USE_TERMIO
1.3      cgd 	return(((termbuf.tc.t_startc) > 0 && (termbuf.tc.t_stopc) > 0) ? 1 : 0);
1.3      cgd #else
1.3      cgd 	return((termbuf.c_iflag & IXON) ? 1 : 0);
1.3      cgd #endif
1.3      cgd }
1.3      cgd
1.3      cgd 	int
1.3      cgd tty_restartany()
1.3      cgd {
1.3      cgd #ifndef USE_TERMIO
1.3      cgd # ifdef	DECCTQ
1.3      cgd 	return((termbuf.lflags & DECCTQ) ? 0 : 1);
1.3      cgd # else
1.3      cgd 	return(-1);
1.3      cgd # endif
1.3      cgd #else
1.3      cgd 	return((termbuf.c_iflag & IXANY) ? 1 : 0);
1.3      cgd #endif
1.3      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd tty_setecho(on)
1.1      cgd 	int on;
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	if (on)
1.1      cgd 		termbuf.sg.sg_flags |= ECHO|CRMOD;
1.1      cgd 	else
1.1      cgd 		termbuf.sg.sg_flags &= ~(ECHO|CRMOD);
1.1      cgd #else
1.1      cgd 	if (on)
1.1      cgd 		termbuf.c_lflag |= ECHO;
1.1      cgd 	else
1.1      cgd 		termbuf.c_lflag &= ~ECHO;
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	int
1.1      cgd tty_israw()
1.1      cgd {
1.1      cgd #ifndef USE_TERMIO
1.1      cgd 	return(termbuf.sg.sg_flags & RAW);
1.1      cgd #else
1.1      cgd 	return(!(termbuf.c_lflag & ICANON));
1.1      cgd #endif
1.1      cgd }
1.3      cgd
1.3      cgd #if	defined (AUTHENTICATION) && defined(NO_LOGIN_F) && defined(LOGIN_R)
1.3      cgd 	int
1.3      cgd tty_setraw(on)
1.3      cgd {
1.3      cgd #  ifndef USE_TERMIO
1.3      cgd 	if (on)
1.3      cgd 		termbuf.sg.sg_flags |= RAW;
1.3      cgd 	else
1.3      cgd 		termbuf.sg.sg_flags &= ~RAW;
1.3      cgd #  else
1.3      cgd 	if (on)
1.3      cgd 		termbuf.c_lflag &= ~ICANON;
1.3      cgd 	else
1.3      cgd 		termbuf.c_lflag |= ICANON;
1.3      cgd #  endif
1.3      cgd }
1.3      cgd #endif
1.1      cgd
1.1      cgd 	void
1.1      cgd tty_binaryin(on)
1.1      cgd 	int on;
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	if (on)
1.1      cgd 		termbuf.lflags |= LPASS8;
1.1      cgd 	else
1.1      cgd 		termbuf.lflags &= ~LPASS8;
1.1      cgd #else
1.1      cgd 	if (on) {
1.1      cgd 		termbuf.c_iflag &= ~ISTRIP;
1.1      cgd 	} else {
1.1      cgd 		termbuf.c_iflag |= ISTRIP;
1.1      cgd 	}
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd tty_binaryout(on)
1.1      cgd 	int on;
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	if (on)
1.1      cgd 		termbuf.lflags |= LLITOUT;
1.1      cgd 	else
1.1      cgd 		termbuf.lflags &= ~LLITOUT;
1.1      cgd #else
1.1      cgd 	if (on) {
1.1      cgd 		termbuf.c_cflag &= ~(CSIZE|PARENB);
1.1      cgd 		termbuf.c_cflag |= CS8;
1.1      cgd 		termbuf.c_oflag &= ~OPOST;
1.1      cgd 	} else {
1.1      cgd 		termbuf.c_cflag &= ~CSIZE;
1.1      cgd 		termbuf.c_cflag |= CS7|PARENB;
1.1      cgd 		termbuf.c_oflag |= OPOST;
1.1      cgd 	}
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	int
1.1      cgd tty_isbinaryin()
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	return(termbuf.lflags & LPASS8);
1.1      cgd #else
1.1      cgd 	return(!(termbuf.c_iflag & ISTRIP));
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	int
1.1      cgd tty_isbinaryout()
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	return(termbuf.lflags & LLITOUT);
1.1      cgd #else
1.1      cgd 	return(!(termbuf.c_oflag&OPOST));
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd #ifdef	LINEMODE
1.1      cgd 	int
1.1      cgd tty_isediting()
1.1      cgd {
1.1      cgd #ifndef USE_TERMIO
1.1      cgd 	return(!(termbuf.sg.sg_flags & (CBREAK|RAW)));
1.1      cgd #else
1.1      cgd 	return(termbuf.c_lflag & ICANON);
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	int
1.1      cgd tty_istrapsig()
1.1      cgd {
1.1      cgd #ifndef USE_TERMIO
1.1      cgd 	return(!(termbuf.sg.sg_flags&RAW));
1.1      cgd #else
1.1      cgd 	return(termbuf.c_lflag & ISIG);
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd tty_setedit(on)
1.1      cgd 	int on;
1.1      cgd {
1.1      cgd #ifndef USE_TERMIO
1.1      cgd 	if (on)
1.1      cgd 		termbuf.sg.sg_flags &= ~CBREAK;
1.1      cgd 	else
1.1      cgd 		termbuf.sg.sg_flags |= CBREAK;
1.1      cgd #else
1.1      cgd 	if (on)
1.1      cgd 		termbuf.c_lflag |= ICANON;
1.1      cgd 	else
1.1      cgd 		termbuf.c_lflag &= ~ICANON;
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd tty_setsig(on)
1.1      cgd 	int on;
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	if (on)
1.1      cgd 		;
1.1      cgd #else
1.1      cgd 	if (on)
1.1      cgd 		termbuf.c_lflag |= ISIG;
1.1      cgd 	else
1.1      cgd 		termbuf.c_lflag &= ~ISIG;
1.1      cgd #endif
1.1      cgd }
1.1      cgd #endif	/* LINEMODE */
1.1      cgd
1.1      cgd 	int
1.1      cgd tty_issofttab()
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	return (termbuf.sg.sg_flags & XTABS);
1.1      cgd #else
1.1      cgd # ifdef	OXTABS
1.1      cgd 	return (termbuf.c_oflag & OXTABS);
1.1      cgd # endif
1.1      cgd # ifdef	TABDLY
1.1      cgd 	return ((termbuf.c_oflag & TABDLY) == TAB3);
1.1      cgd # endif
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd tty_setsofttab(on)
1.1      cgd 	int on;
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	if (on)
1.1      cgd 		termbuf.sg.sg_flags |= XTABS;
1.1      cgd 	else
1.1      cgd 		termbuf.sg.sg_flags &= ~XTABS;
1.1      cgd #else
1.1      cgd 	if (on) {
1.1      cgd # ifdef	OXTABS
1.1      cgd 		termbuf.c_oflag |= OXTABS;
1.1      cgd # endif
1.1      cgd # ifdef	TABDLY
1.1      cgd 		termbuf.c_oflag &= ~TABDLY;
1.1      cgd 		termbuf.c_oflag |= TAB3;
1.1      cgd # endif
1.1      cgd 	} else {
1.1      cgd # ifdef	OXTABS
1.1      cgd 		termbuf.c_oflag &= ~OXTABS;
1.1      cgd # endif
1.1      cgd # ifdef	TABDLY
1.1      cgd 		termbuf.c_oflag &= ~TABDLY;
1.1      cgd 		termbuf.c_oflag |= TAB0;
1.1      cgd # endif
1.1      cgd 	}
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	int
1.1      cgd tty_islitecho()
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	return (!(termbuf.lflags & LCTLECH));
1.1      cgd #else
1.1      cgd # ifdef	ECHOCTL
1.1      cgd 	return (!(termbuf.c_lflag & ECHOCTL));
1.1      cgd # endif
1.1      cgd # ifdef	TCTLECH
1.1      cgd 	return (!(termbuf.c_lflag & TCTLECH));
1.1      cgd # endif
1.1      cgd # if	!defined(ECHOCTL) && !defined(TCTLECH)
1.1      cgd 	return (0);	/* assumes ctl chars are echoed '^x' */
1.1      cgd # endif
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd tty_setlitecho(on)
1.1      cgd 	int on;
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	if (on)
1.1      cgd 		termbuf.lflags &= ~LCTLECH;
1.1      cgd 	else
1.1      cgd 		termbuf.lflags |= LCTLECH;
1.1      cgd #else
1.1      cgd # ifdef	ECHOCTL
1.1      cgd 	if (on)
1.1      cgd 		termbuf.c_lflag &= ~ECHOCTL;
1.1      cgd 	else
1.1      cgd 		termbuf.c_lflag |= ECHOCTL;
1.1      cgd # endif
1.1      cgd # ifdef	TCTLECH
1.1      cgd 	if (on)
1.1      cgd 		termbuf.c_lflag &= ~TCTLECH;
1.1      cgd 	else
1.1      cgd 		termbuf.c_lflag |= TCTLECH;
1.1      cgd # endif
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd 	int
1.1      cgd tty_iscrnl()
1.1      cgd {
1.1      cgd #ifndef	USE_TERMIO
1.1      cgd 	return (termbuf.sg.sg_flags & CRMOD);
1.1      cgd #else
1.1      cgd 	return (termbuf.c_iflag & ICRNL);
1.1      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd /*
1.6      jtk  * Try to guess whether speeds are "encoded" (4.2BSD) or just numeric (4.4BSD).
1.6      jtk  */
1.6      jtk #if B4800 != 4800
1.6      jtk #define	DECODE_BAUD
1.6      jtk #endif
1.6      jtk
1.6      jtk #ifdef	DECODE_BAUD
1.6      jtk
1.6      jtk /*
1.1      cgd  * A table of available terminal speeds
1.1      cgd  */
1.1      cgd struct termspeeds {
1.1      cgd 	int	speed;
1.1      cgd 	int	value;
1.1      cgd } termspeeds[] = {
1.6      jtk 	{ 0,      B0 },      { 50,    B50 },    { 75,     B75 },
1.6      jtk 	{ 110,    B110 },    { 134,   B134 },   { 150,    B150 },
1.6      jtk 	{ 200,    B200 },    { 300,   B300 },   { 600,    B600 },
1.6      jtk 	{ 1200,   B1200 },   { 1800,  B1800 },  { 2400,   B2400 },
1.6      jtk 	{ 4800,   B4800 },
1.6      jtk #ifdef	B7200
1.6      jtk 	{ 7200,  B7200 },
1.6      jtk #endif
1.6      jtk 	{ 9600,   B9600 },
1.6      jtk #ifdef	B14400
1.6      jtk 	{ 14400,  B14400 },
1.6      jtk #endif
1.6      jtk #ifdef	B19200
1.6      jtk 	{ 19200,  B19200 },
1.6      jtk #endif
1.6      jtk #ifdef	B28800
1.6      jtk 	{ 28800,  B28800 },
1.6      jtk #endif
1.6      jtk #ifdef	B38400
1.6      jtk 	{ 38400,  B38400 },
1.6      jtk #endif
1.6      jtk #ifdef	B57600
1.6      jtk 	{ 57600,  B57600 },
1.6      jtk #endif
1.6      jtk #ifdef	B115200
1.6      jtk 	{ 115200, B115200 },
1.6      jtk #endif
1.6      jtk #ifdef	B230400
1.6      jtk 	{ 230400, B230400 },
1.6      jtk #endif
1.6      jtk 	{ -1,     0 }
1.1      cgd };
1.6      jtk #endif	/* DECODE_BUAD */
1.1      cgd
1.1      cgd 	void
1.1      cgd tty_tspeed(val)
1.1      cgd 	int val;
1.1      cgd {
1.6      jtk #ifdef	DECODE_BAUD
1.1      cgd 	register struct termspeeds *tp;
1.1      cgd
1.1      cgd 	for (tp = termspeeds; (tp->speed != -1) && (val > tp->speed); tp++)
1.1      cgd 		;
1.6      jtk 	if (tp->speed == -1)	/* back up to last valid value */
1.6      jtk 		--tp;
1.1      cgd 	cfsetospeed(&termbuf, tp->value);
1.6      jtk #else	/* DECODE_BUAD */
1.6      jtk 	cfsetospeed(&termbuf, val);
1.6      jtk #endif	/* DECODE_BUAD */
1.1      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd tty_rspeed(val)
1.1      cgd 	int val;
1.1      cgd {
1.6      jtk #ifdef	DECODE_BAUD
1.1      cgd 	register struct termspeeds *tp;
1.1      cgd
1.1      cgd 	for (tp = termspeeds; (tp->speed != -1) && (val > tp->speed); tp++)
1.1      cgd 		;
1.6      jtk 	if (tp->speed == -1)	/* back up to last valid value */
1.6      jtk 		--tp;
1.1      cgd 	cfsetispeed(&termbuf, tp->value);
1.6      jtk #else	/* DECODE_BAUD */
1.6      jtk 	cfsetispeed(&termbuf, val);
1.6      jtk #endif	/* DECODE_BAUD */
1.1      cgd }
1.1      cgd
1.1      cgd #if	defined(CRAY2) && defined(UNICOS5)
1.1      cgd 	int
1.1      cgd tty_isnewmap()
1.1      cgd {
1.1      cgd 	return((termbuf.c_oflag & OPOST) && (termbuf.c_oflag & ONLCR) &&
1.1      cgd 			!(termbuf.c_oflag & ONLRET));
1.1      cgd }
1.1      cgd #endif
1.1      cgd
1.3      cgd #ifdef PARENT_DOES_UTMP
1.1      cgd # ifndef NEWINIT
1.1      cgd extern	struct utmp wtmp;
1.1      cgd extern char wtmpf[];
1.1      cgd # else	/* NEWINIT */
1.1      cgd int	gotalarm;
1.1      cgd
1.1      cgd 	/* ARGSUSED */
1.1      cgd 	void
1.1      cgd nologinproc(sig)
1.1      cgd 	int sig;
1.1      cgd {
1.1      cgd 	gotalarm++;
1.1      cgd }
1.1      cgd # endif	/* NEWINIT */
1.3      cgd #endif /* PARENT_DOES_UTMP */
1.1      cgd
1.1      cgd #ifndef	NEWINIT
1.3      cgd # ifdef PARENT_DOES_UTMP
1.1      cgd extern void utmp_sig_init P((void));
1.1      cgd extern void utmp_sig_reset P((void));
1.1      cgd extern void utmp_sig_wait P((void));
1.1      cgd extern void utmp_sig_notify P((int));
1.3      cgd # endif /* PARENT_DOES_UTMP */
1.1      cgd #endif
1.1      cgd
1.1      cgd /*
1.1      cgd  * getptyslave()
1.1      cgd  *
1.1      cgd  * Open the slave side of the pty, and do any initialization
1.1      cgd  * that is necessary.  The return value is a file descriptor
1.1      cgd  * for the slave side.
1.1      cgd  */
1.1      cgd 	int
1.1      cgd getptyslave()
1.1      cgd {
1.1      cgd 	register int t = -1;
1.1      cgd
1.1      cgd #if	!defined(CRAY) || !defined(NEWINIT)
1.1      cgd # ifdef	LINEMODE
1.1      cgd 	int waslm;
1.1      cgd # endif
1.1      cgd # ifdef	TIOCGWINSZ
1.1      cgd 	struct winsize ws;
1.1      cgd 	extern int def_row, def_col;
1.1      cgd # endif
1.1      cgd 	extern int def_tspeed, def_rspeed;
1.1      cgd 	/*
1.1      cgd 	 * Opening the slave side may cause initilization of the
1.1      cgd 	 * kernel tty structure.  We need remember the state of
1.1      cgd 	 * 	if linemode was turned on
1.1      cgd 	 *	terminal window size
1.1      cgd 	 *	terminal speed
1.1      cgd 	 * so that we can re-set them if we need to.
1.1      cgd 	 */
1.1      cgd # ifdef	LINEMODE
1.1      cgd 	waslm = tty_linemode();
1.1      cgd # endif
1.1      cgd
1.1      cgd
1.1      cgd 	/*
1.1      cgd 	 * Make sure that we don't have a controlling tty, and
1.1      cgd 	 * that we are the session (process group) leader.
1.1      cgd 	 */
1.1      cgd # ifdef	TIOCNOTTY
1.1      cgd 	t = open(_PATH_TTY, O_RDWR);
1.1      cgd 	if (t >= 0) {
1.1      cgd 		(void) ioctl(t, TIOCNOTTY, (char *)0);
1.1      cgd 		(void) close(t);
1.1      cgd 	}
1.1      cgd # endif
1.1      cgd
1.1      cgd
1.3      cgd # ifdef PARENT_DOES_UTMP
1.1      cgd 	/*
1.1      cgd 	 * Wait for our parent to get the utmp stuff to get done.
1.1      cgd 	 */
1.1      cgd 	utmp_sig_wait();
1.1      cgd # endif
1.1      cgd
1.1      cgd 	t = cleanopen(line);
1.1      cgd 	if (t < 0)
1.1      cgd 		fatalperror(net, line);
1.1      cgd
1.3      cgd #ifdef  STREAMSPTY
1.3      cgd #ifdef	USE_TERMIO
1.3      cgd 	ttyfd = t;
1.3      cgd #endif
1.6      jtk 	if (ioctl(t, I_PUSH, "ptem") < 0)
1.3      cgd 		fatal(net, "I_PUSH ptem");
1.3      cgd 	if (ioctl(t, I_PUSH, "ldterm") < 0)
1.3      cgd 		fatal(net, "I_PUSH ldterm");
1.3      cgd 	if (ioctl(t, I_PUSH, "ttcompat") < 0)
1.3      cgd 		fatal(net, "I_PUSH ttcompat");
1.3      cgd 	if (ioctl(pty, I_PUSH, "pckt") < 0)
1.3      cgd 		fatal(net, "I_PUSH pckt");
1.3      cgd #endif
1.3      cgd
1.1      cgd 	/*
1.1      cgd 	 * set up the tty modes as we like them to be.
1.1      cgd 	 */
1.1      cgd 	init_termbuf();
1.1      cgd # ifdef	TIOCGWINSZ
1.1      cgd 	if (def_row || def_col) {
1.6      jtk 		memset((char *)&ws, 0, sizeof(ws));
1.1      cgd 		ws.ws_col = def_col;
1.1      cgd 		ws.ws_row = def_row;
1.1      cgd 		(void)ioctl(t, TIOCSWINSZ, (char *)&ws);
1.1      cgd 	}
1.1      cgd # endif
1.1      cgd
1.1      cgd 	/*
1.1      cgd 	 * Settings for sgtty based systems
1.1      cgd 	 */
1.1      cgd # ifndef	USE_TERMIO
1.1      cgd 	termbuf.sg.sg_flags |= CRMOD|ANYP|ECHO|XTABS;
1.1      cgd # endif	/* USE_TERMIO */
1.1      cgd
1.1      cgd 	/*
1.3      cgd 	 * Settings for UNICOS (and HPUX)
1.1      cgd 	 */
1.3      cgd # if defined(CRAY) || defined(__hpux)
1.1      cgd 	termbuf.c_oflag = OPOST|ONLCR|TAB3;
1.1      cgd 	termbuf.c_iflag = IGNPAR|ISTRIP|ICRNL|IXON;
1.1      cgd 	termbuf.c_lflag = ISIG|ICANON|ECHO|ECHOE|ECHOK;
1.1      cgd 	termbuf.c_cflag = EXTB|HUPCL|CS8;
1.1      cgd # endif
1.1      cgd
1.1      cgd 	/*
1.1      cgd 	 * Settings for all other termios/termio based
1.1      cgd 	 * systems, other than 4.4BSD.  In 4.4BSD the
1.1      cgd 	 * kernel does the initial terminal setup.
1.1      cgd 	 */
1.3      cgd # if defined(USE_TERMIO) && !(defined(CRAY) || defined(__hpux)) && (BSD <= 43)
1.1      cgd #  ifndef	OXTABS
1.1      cgd #   define OXTABS	0
1.1      cgd #  endif
1.1      cgd 	termbuf.c_lflag |= ECHO;
1.1      cgd 	termbuf.c_oflag |= ONLCR|OXTABS;
1.1      cgd 	termbuf.c_iflag |= ICRNL;
1.1      cgd 	termbuf.c_iflag &= ~IXOFF;
1.1      cgd # endif /* defined(USE_TERMIO) && !defined(CRAY) && (BSD <= 43) */
1.1      cgd 	tty_rspeed((def_rspeed > 0) ? def_rspeed : 9600);
1.1      cgd 	tty_tspeed((def_tspeed > 0) ? def_tspeed : 9600);
1.1      cgd # ifdef	LINEMODE
1.1      cgd 	if (waslm)
1.1      cgd 		tty_setlinemode(1);
1.1      cgd # endif	/* LINEMODE */
1.1      cgd
1.1      cgd 	/*
1.1      cgd 	 * Set the tty modes, and make this our controlling tty.
1.1      cgd 	 */
1.1      cgd 	set_termbuf();
1.1      cgd 	if (login_tty(t) == -1)
1.1      cgd 		fatalperror(net, "login_tty");
1.1      cgd #endif	/* !defined(CRAY) || !defined(NEWINIT) */
1.1      cgd 	if (net > 2)
1.1      cgd 		(void) close(net);
1.3      cgd #if	defined(AUTHENTICATION) && defined(NO_LOGIN_F) && defined(LOGIN_R)
1.3      cgd 	/*
1.3      cgd 	 * Leave the pty open so that we can write out the rlogin
1.3      cgd 	 * protocol for /bin/login, if the authentication works.
1.3      cgd 	 */
1.3      cgd #else
1.3      cgd 	if (pty > 2) {
1.1      cgd 		(void) close(pty);
1.3      cgd 		pty = -1;
1.3      cgd 	}
1.3      cgd #endif
1.1      cgd }
1.1      cgd
1.1      cgd #if	!defined(CRAY) || !defined(NEWINIT)
1.1      cgd #ifndef	O_NOCTTY
1.1      cgd #define	O_NOCTTY	0
1.1      cgd #endif
1.1      cgd /*
1.1      cgd  * Open the specified slave side of the pty,
1.1      cgd  * making sure that we have a clean tty.
1.1      cgd  */
1.1      cgd 	int
1.1      cgd cleanopen(line)
1.1      cgd 	char *line;
1.1      cgd {
1.1      cgd 	register int t;
1.6      jtk #ifdef	UNICOS7x
1.3      cgd 	struct secstat secbuf;
1.6      jtk #endif	/* UNICOS7x */
1.1      cgd
1.3      cgd #ifndef STREAMSPTY
1.1      cgd 	/*
1.1      cgd 	 * Make sure that other people can't open the
1.1      cgd 	 * slave side of the connection.
1.1      cgd 	 */
1.1      cgd 	(void) chown(line, 0, 0);
1.1      cgd 	(void) chmod(line, 0600);
1.3      cgd #endif
1.1      cgd
1.1      cgd # if !defined(CRAY) && (BSD > 43)
1.1      cgd 	(void) revoke(line);
1.1      cgd # endif
1.6      jtk #ifdef	UNICOS7x
1.3      cgd 	if (secflag) {
1.3      cgd 		if (secstat(line, &secbuf) < 0)
1.3      cgd 			return(-1);
1.3      cgd 		if (setulvl(secbuf.st_slevel) < 0)
1.3      cgd 			return(-1);
1.3      cgd 		if (setucmp(secbuf.st_compart) < 0)
1.3      cgd 			return(-1);
1.3      cgd 	}
1.6      jtk #endif	/* UNICOS7x */
1.3      cgd
1.1      cgd 	t = open(line, O_RDWR|O_NOCTTY);
1.3      cgd
1.6      jtk #ifdef	UNICOS7x
1.3      cgd 	if (secflag) {
1.3      cgd 		if (setulvl(sysv.sy_minlvl) < 0)
1.3      cgd 			return(-1);
1.3      cgd 		if (setucmp(0) < 0)
1.3      cgd 			return(-1);
1.3      cgd 	}
1.6      jtk #endif	/* UNICOS7x */
1.3      cgd
1.1      cgd 	if (t < 0)
1.1      cgd 		return(-1);
1.1      cgd
1.1      cgd 	/*
1.1      cgd 	 * Hangup anybody else using this ttyp, then reopen it for
1.1      cgd 	 * ourselves.
1.1      cgd 	 */
1.3      cgd # if !(defined(CRAY) || defined(__hpux)) && (BSD <= 43) && !defined(STREAMSPTY)
1.1      cgd 	(void) signal(SIGHUP, SIG_IGN);
1.1      cgd 	vhangup();
1.1      cgd 	(void) signal(SIGHUP, SIG_DFL);
1.1      cgd 	t = open(line, O_RDWR|O_NOCTTY);
1.1      cgd 	if (t < 0)
1.1      cgd 		return(-1);
1.1      cgd # endif
1.1      cgd # if	defined(CRAY) && defined(TCVHUP)
1.1      cgd 	{
1.1      cgd 		register int i;
1.1      cgd 		(void) signal(SIGHUP, SIG_IGN);
1.1      cgd 		(void) ioctl(t, TCVHUP, (char *)0);
1.1      cgd 		(void) signal(SIGHUP, SIG_DFL);
1.3      cgd
1.6      jtk #ifdef	UNICOS7x
1.3      cgd 		if (secflag) {
1.3      cgd 			if (secstat(line, &secbuf) < 0)
1.3      cgd 				return(-1);
1.3      cgd 			if (setulvl(secbuf.st_slevel) < 0)
1.3      cgd 				return(-1);
1.3      cgd 			if (setucmp(secbuf.st_compart) < 0)
1.3      cgd 				return(-1);
1.3      cgd 		}
1.6      jtk #endif	/* UNICOS7x */
1.3      cgd
1.1      cgd 		i = open(line, O_RDWR);
1.3      cgd
1.6      jtk #ifdef	UNICOS7x
1.3      cgd 		if (secflag) {
1.3      cgd 			if (setulvl(sysv.sy_minlvl) < 0)
1.3      cgd 				return(-1);
1.3      cgd 			if (setucmp(0) < 0)
1.3      cgd 				return(-1);
1.3      cgd 		}
1.6      jtk #endif	/* UNICOS7x */
1.3      cgd
1.1      cgd 		if (i < 0)
1.1      cgd 			return(-1);
1.1      cgd 		(void) close(t);
1.1      cgd 		t = i;
1.1      cgd 	}
1.1      cgd # endif	/* defined(CRAY) && defined(TCVHUP) */
1.1      cgd 	return(t);
1.1      cgd }
1.1      cgd #endif	/* !defined(CRAY) || !defined(NEWINIT) */
1.1      cgd
1.1      cgd #if BSD <= 43
1.3      cgd
1.1      cgd 	int
1.1      cgd login_tty(t)
1.1      cgd 	int t;
1.1      cgd {
1.3      cgd 	if (setsid() < 0) {
1.3      cgd #ifdef ultrix
1.3      cgd 		/*
1.3      cgd 		 * The setsid() may have failed because we
1.3      cgd 		 * already have a pgrp == pid.  Zero out
1.3      cgd 		 * our pgrp and try again...
1.3      cgd 		 */
1.3      cgd 		if ((setpgrp(0, 0) < 0) || (setsid() < 0))
1.3      cgd #endif
1.3      cgd 			fatalperror(net, "setsid()");
1.3      cgd 	}
1.1      cgd # ifdef	TIOCSCTTY
1.1      cgd 	if (ioctl(t, TIOCSCTTY, (char *)0) < 0)
1.1      cgd 		fatalperror(net, "ioctl(sctty)");
1.3      cgd #  if defined(CRAY)
1.1      cgd 	/*
1.1      cgd 	 * Close the hard fd to /dev/ttypXXX, and re-open through
1.1      cgd 	 * the indirect /dev/tty interface.
1.1      cgd 	 */
1.1      cgd 	close(t);
1.1      cgd 	if ((t = open("/dev/tty", O_RDWR)) < 0)
1.1      cgd 		fatalperror(net, "open(/dev/tty)");
1.1      cgd #  endif
1.1      cgd # else
1.3      cgd 	/*
1.3      cgd 	 * We get our controlling tty assigned as a side-effect
1.3      cgd 	 * of opening up a tty device.  But on BSD based systems,
1.3      cgd 	 * this only happens if our process group is zero.  The
1.3      cgd 	 * setsid() call above may have set our pgrp, so clear
1.3      cgd 	 * it out before opening the tty...
1.3      cgd 	 */
1.6      jtk #  ifndef SOLARIS
1.3      cgd 	(void) setpgrp(0, 0);
1.6      jtk #  else
1.6      jtk 	(void) setpgrp();
1.6      jtk #  endif
1.1      cgd 	close(open(line, O_RDWR));
1.1      cgd # endif
1.1      cgd 	if (t != 0)
1.1      cgd 		(void) dup2(t, 0);
1.1      cgd 	if (t != 1)
1.1      cgd 		(void) dup2(t, 1);
1.1      cgd 	if (t != 2)
1.1      cgd 		(void) dup2(t, 2);
1.1      cgd 	if (t > 2)
1.1      cgd 		close(t);
1.1      cgd 	return(0);
1.1      cgd }
1.1      cgd #endif	/* BSD <= 43 */
1.1      cgd
1.1      cgd #ifdef	NEWINIT
1.1      cgd char *gen_id = "fe";
1.1      cgd #endif
1.1      cgd
1.1      cgd /*
1.1      cgd  * startslave(host)
1.1      cgd  *
1.1      cgd  * Given a hostname, do whatever
1.1      cgd  * is necessary to startup the login process on the slave side of the pty.
1.1      cgd  */
1.1      cgd
1.1      cgd /* ARGSUSED */
1.1      cgd 	void
1.1      cgd startslave(host, autologin, autoname)
1.1      cgd 	char *host;
1.1      cgd 	int autologin;
1.1      cgd 	char *autoname;
1.1      cgd {
1.1      cgd 	register int i;
1.1      cgd 	char name[256];
1.1      cgd #ifdef	NEWINIT
1.1      cgd 	extern char *ptyip;
1.1      cgd 	struct init_request request;
1.1      cgd 	void nologinproc();
1.1      cgd 	register int n;
1.1      cgd #endif	/* NEWINIT */
1.1      cgd
1.3      cgd #if	defined(AUTHENTICATION)
1.1      cgd 	if (!autoname || !autoname[0])
1.1      cgd 		autologin = 0;
1.1      cgd
1.1      cgd 	if (autologin < auth_level) {
1.1      cgd 		fatal(net, "Authorization failed");
1.1      cgd 		exit(1);
1.1      cgd 	}
1.1      cgd #endif
1.1      cgd
1.1      cgd #ifndef	NEWINIT
1.3      cgd # ifdef	PARENT_DOES_UTMP
1.1      cgd 	utmp_sig_init();
1.3      cgd # endif	/* PARENT_DOES_UTMP */
1.1      cgd
1.1      cgd 	if ((i = fork()) < 0)
1.1      cgd 		fatalperror(net, "fork");
1.1      cgd 	if (i) {
1.3      cgd # ifdef PARENT_DOES_UTMP
1.1      cgd 		/*
1.1      cgd 		 * Cray parent will create utmp entry for child and send
1.1      cgd 		 * signal to child to tell when done.  Child waits for signal
1.1      cgd 		 * before doing anything important.
1.1      cgd 		 */
1.1      cgd 		register int pid = i;
1.1      cgd 		void sigjob P((int));
1.1      cgd
1.1      cgd 		setpgrp();
1.1      cgd 		utmp_sig_reset();		/* reset handler to default */
1.1      cgd 		/*
1.1      cgd 		 * Create utmp entry for child
1.1      cgd 		 */
1.1      cgd 		(void) time(&wtmp.ut_time);
1.1      cgd 		wtmp.ut_type = LOGIN_PROCESS;
1.1      cgd 		wtmp.ut_pid = pid;
1.1      cgd 		SCPYN(wtmp.ut_user, "LOGIN");
1.1      cgd 		SCPYN(wtmp.ut_host, host);
1.1      cgd 		SCPYN(wtmp.ut_line, line + sizeof("/dev/") - 1);
1.3      cgd #ifndef	__hpux
1.1      cgd 		SCPYN(wtmp.ut_id, wtmp.ut_line+3);
1.3      cgd #else
1.3      cgd 		SCPYN(wtmp.ut_id, wtmp.ut_line+7);
1.3      cgd #endif
1.1      cgd 		pututline(&wtmp);
1.1      cgd 		endutent();
1.1      cgd 		if ((i = open(wtmpf, O_WRONLY|O_APPEND)) >= 0) {
1.1      cgd 			(void) write(i, (char *)&wtmp, sizeof(struct utmp));
1.1      cgd 			(void) close(i);
1.1      cgd 		}
1.3      cgd #ifdef	CRAY
1.1      cgd 		(void) signal(WJSIGNAL, sigjob);
1.3      cgd #endif
1.1      cgd 		utmp_sig_notify(pid);
1.3      cgd # endif	/* PARENT_DOES_UTMP */
1.1      cgd 	} else {
1.3      cgd 		getptyslave(autologin);
1.1      cgd 		start_login(host, autologin, autoname);
1.1      cgd 		/*NOTREACHED*/
1.1      cgd 	}
1.1      cgd #else	/* NEWINIT */
1.1      cgd
1.1      cgd 	/*
1.1      cgd 	 * Init will start up login process if we ask nicely.  We only wait
1.1      cgd 	 * for it to start up and begin normal telnet operation.
1.1      cgd 	 */
1.1      cgd 	if ((i = open(INIT_FIFO, O_WRONLY)) < 0) {
1.1      cgd 		char tbuf[128];
1.1      cgd 		(void) sprintf(tbuf, "Can't open %s\n", INIT_FIFO);
1.1      cgd 		fatalperror(net, tbuf);
1.1      cgd 	}
1.1      cgd 	memset((char *)&request, 0, sizeof(request));
1.1      cgd 	request.magic = INIT_MAGIC;
1.1      cgd 	SCPYN(request.gen_id, gen_id);
1.1      cgd 	SCPYN(request.tty_id, &line[8]);
1.1      cgd 	SCPYN(request.host, host);
1.1      cgd 	SCPYN(request.term_type, terminaltype ? terminaltype : "network");
1.1      cgd #if	!defined(UNICOS5)
1.1      cgd 	request.signal = SIGCLD;
1.1      cgd 	request.pid = getpid();
1.1      cgd #endif
1.1      cgd #ifdef BFTPDAEMON
1.1      cgd 	/*
1.1      cgd 	 * Are we working as the bftp daemon?
1.1      cgd 	 */
1.1      cgd 	if (bftpd) {
1.1      cgd 		SCPYN(request.exec_name, BFTPPATH);
1.1      cgd 	}
1.1      cgd #endif /* BFTPDAEMON */
1.1      cgd 	if (write(i, (char *)&request, sizeof(request)) < 0) {
1.1      cgd 		char tbuf[128];
1.1      cgd 		(void) sprintf(tbuf, "Can't write to %s\n", INIT_FIFO);
1.1      cgd 		fatalperror(net, tbuf);
1.1      cgd 	}
1.1      cgd 	(void) close(i);
1.1      cgd 	(void) signal(SIGALRM, nologinproc);
1.1      cgd 	for (i = 0; ; i++) {
1.1      cgd 		char tbuf[128];
1.1      cgd 		alarm(15);
1.1      cgd 		n = read(pty, ptyip, BUFSIZ);
1.1      cgd 		if (i == 3 || n >= 0 || !gotalarm)
1.1      cgd 			break;
1.1      cgd 		gotalarm = 0;
1.1      cgd 		sprintf(tbuf, "telnetd: waiting for /etc/init to start login process on %s\r\n", line);
1.1      cgd 		(void) write(net, tbuf, strlen(tbuf));
1.1      cgd 	}
1.1      cgd 	if (n < 0 && gotalarm)
1.1      cgd 		fatal(net, "/etc/init didn't start login process");
1.1      cgd 	pcc += n;
1.1      cgd 	alarm(0);
1.1      cgd 	(void) signal(SIGALRM, SIG_DFL);
1.1      cgd
1.1      cgd 	return;
1.1      cgd #endif	/* NEWINIT */
1.1      cgd }
1.1      cgd
1.1      cgd char	*envinit[3];
1.1      cgd extern char **environ;
1.1      cgd
1.1      cgd 	void
1.1      cgd init_env()
1.1      cgd {
1.1      cgd 	extern char *getenv();
1.1      cgd 	char **envp;
1.1      cgd
1.1      cgd 	envp = envinit;
1.1      cgd 	if (*envp = getenv("TZ"))
1.1      cgd 		*envp++ -= 3;
1.3      cgd #if	defined(CRAY) || defined(__hpux)
1.1      cgd 	else
1.1      cgd 		*envp++ = "TZ=GMT0";
1.1      cgd #endif
1.1      cgd 	*envp = 0;
1.1      cgd 	environ = envinit;
1.1      cgd }
1.1      cgd
1.1      cgd #ifndef	NEWINIT
1.1      cgd
1.1      cgd /*
1.1      cgd  * start_login(host)
1.1      cgd  *
1.1      cgd  * Assuming that we are now running as a child processes, this
1.1      cgd  * function will turn us into the login process.
1.1      cgd  */
1.1      cgd
1.1      cgd 	void
1.1      cgd start_login(host, autologin, name)
1.1      cgd 	char *host;
1.1      cgd 	int autologin;
1.1      cgd 	char *name;
1.1      cgd {
1.1      cgd 	register char *cp;
1.1      cgd 	register char **argv;
1.1      cgd 	char **addarg();
1.3      cgd 	extern char *getenv();
1.3      cgd #ifdef	UTMPX
1.3      cgd 	register int pid = getpid();
1.3      cgd 	struct utmpx utmpx;
1.3      cgd #endif
1.3      cgd #ifdef SOLARIS
1.3      cgd 	char *term;
1.3      cgd 	char termbuf[64];
1.3      cgd #endif
1.3      cgd
1.3      cgd #ifdef	UTMPX
1.3      cgd 	/*
1.3      cgd 	 * Create utmp entry for child
1.3      cgd 	 */
1.3      cgd
1.6      jtk 	memset(&utmpx, 0, sizeof(utmpx));
1.3      cgd 	SCPYN(utmpx.ut_user, ".telnet");
1.3      cgd 	SCPYN(utmpx.ut_line, line + sizeof("/dev/") - 1);
1.3      cgd 	utmpx.ut_pid = pid;
1.3      cgd 	utmpx.ut_id[0] = 't';
1.3      cgd 	utmpx.ut_id[1] = 'n';
1.3      cgd 	utmpx.ut_id[2] = SC_WILDC;
1.3      cgd 	utmpx.ut_id[3] = SC_WILDC;
1.3      cgd 	utmpx.ut_type = LOGIN_PROCESS;
1.3      cgd 	(void) time(&utmpx.ut_tv.tv_sec);
1.3      cgd 	if (makeutx(&utmpx) == NULL)
1.3      cgd 		fatal(net, "makeutx failed");
1.3      cgd #endif
1.1      cgd
1.6      jtk 	scrub_env();
1.6      jtk
1.1      cgd 	/*
1.1      cgd 	 * -h : pass on name of host.
1.1      cgd 	 *		WARNING:  -h is accepted by login if and only if
1.1      cgd 	 *			getuid() == 0.
1.1      cgd 	 * -p : don't clobber the environment (so terminal type stays set).
1.1      cgd 	 *
1.1      cgd 	 * -f : force this login, he has already been authenticated
1.1      cgd 	 */
1.1      cgd 	argv = addarg(0, "login");
1.3      cgd
1.3      cgd #if	!defined(NO_LOGIN_H)
1.3      cgd
1.3      cgd # if	defined (AUTHENTICATION) && defined(NO_LOGIN_F) && defined(LOGIN_R)
1.3      cgd 	/*
1.3      cgd 	 * Don't add the "-h host" option if we are going
1.3      cgd 	 * to be adding the "-r host" option down below...
1.3      cgd 	 */
1.3      cgd 	if ((auth_level < 0) || (autologin != AUTH_VALID))
1.3      cgd # endif
1.3      cgd 	{
1.3      cgd 		argv = addarg(argv, "-h");
1.3      cgd 		argv = addarg(argv, host);
1.3      cgd #ifdef	SOLARIS
1.3      cgd 		/*
1.3      cgd 		 * SVR4 version of -h takes TERM= as second arg, or -
1.3      cgd 		 */
1.3      cgd 		term = getenv("TERM");
1.3      cgd 		if (term == NULL || term[0] == 0) {
1.3      cgd 			term = "-";
1.3      cgd 		} else {
1.3      cgd 			strcpy(termbuf, "TERM=");
1.3      cgd 			strncat(termbuf, term, sizeof(termbuf) - 6);
1.3      cgd 			term = termbuf;
1.3      cgd 		}
1.3      cgd 		argv = addarg(argv, term);
1.3      cgd #endif
1.3      cgd 	}
1.3      cgd #endif
1.1      cgd #if	!defined(NO_LOGIN_P)
1.1      cgd 	argv = addarg(argv, "-p");
1.1      cgd #endif
1.6      jtk #ifdef	LINEMODE
1.6      jtk 	/*
1.6      jtk 	 * Set the environment variable "LINEMODE" to either
1.6      jtk 	 * "real" or "kludge" if we are operating in either
1.6      jtk 	 * real or kludge linemode.
1.6      jtk 	 */
1.6      jtk 	if (lmodetype == REAL_LINEMODE)
1.6      jtk 		setenv("LINEMODE", "real", 1);
1.6      jtk # ifdef KLUDGELINEMODE
1.6      jtk 	else if (lmodetype == KLUDGE_LINEMODE || lmodetype == KLUDGE_OK)
1.6      jtk 		setenv("LINEMODE", "kludge", 1);
1.6      jtk # endif
1.6      jtk #endif
1.1      cgd #ifdef	BFTPDAEMON
1.1      cgd 	/*
1.1      cgd 	 * Are we working as the bftp daemon?  If so, then ask login
1.1      cgd 	 * to start bftp instead of shell.
1.1      cgd 	 */
1.1      cgd 	if (bftpd) {
1.1      cgd 		argv = addarg(argv, "-e");
1.1      cgd 		argv = addarg(argv, BFTPPATH);
1.6      jtk 	} else
1.1      cgd #endif
1.1      cgd #if	defined (SecurID)
1.1      cgd 	/*
1.1      cgd 	 * don't worry about the -f that might get sent.
1.1      cgd 	 * A -s is supposed to override it anyhow.
1.1      cgd 	 */
1.1      cgd 	if (require_SecurID)
1.1      cgd 		argv = addarg(argv, "-s");
1.1      cgd #endif
1.3      cgd #if	defined (AUTHENTICATION)
1.1      cgd 	if (auth_level >= 0 && autologin == AUTH_VALID) {
1.1      cgd # if	!defined(NO_LOGIN_F)
1.1      cgd 		argv = addarg(argv, "-f");
1.5  mycroft 		argv = addarg(argv, "--");
1.3      cgd 		argv = addarg(argv, name);
1.3      cgd # else
1.3      cgd #  if defined(LOGIN_R)
1.3      cgd 		/*
1.3      cgd 		 * We don't have support for "login -f", but we
1.3      cgd 		 * can fool /bin/login into thinking that we are
1.3      cgd 		 * rlogind, and allow us to log in without a
1.3      cgd 		 * password.  The rlogin protocol expects
1.3      cgd 		 *	local-user\0remote-user\0term/speed\0
1.3      cgd 		 */
1.3      cgd
1.3      cgd 		if (pty > 2) {
1.3      cgd 			register char *cp;
1.3      cgd 			char speed[128];
1.3      cgd 			int isecho, israw, xpty, len;
1.3      cgd 			extern int def_rspeed;
1.3      cgd #  ifndef LOGIN_HOST
1.3      cgd 			/*
1.3      cgd 			 * Tell login that we are coming from "localhost".
1.3      cgd 			 * If we passed in the real host name, then the
1.3      cgd 			 * user would have to allow .rhost access from
1.3      cgd 			 * every machine that they want authenticated
1.3      cgd 			 * access to work from, which sort of defeats
1.3      cgd 			 * the purpose of an authenticated login...
1.3      cgd 			 * So, we tell login that the session is coming
1.3      cgd 			 * from "localhost", and the user will only have
1.3      cgd 			 * to have "localhost" in their .rhost file.
1.3      cgd 			 */
1.3      cgd #			define LOGIN_HOST "localhost"
1.3      cgd #  endif
1.3      cgd 			argv = addarg(argv, "-r");
1.3      cgd 			argv = addarg(argv, LOGIN_HOST);
1.3      cgd
1.3      cgd 			xpty = pty;
1.3      cgd # ifndef  STREAMSPTY
1.3      cgd 			pty = 0;
1.3      cgd # else
1.3      cgd 			ttyfd = 0;
1.1      cgd # endif
1.3      cgd 			init_termbuf();
1.3      cgd 			isecho = tty_isecho();
1.3      cgd 			israw = tty_israw();
1.3      cgd 			if (isecho || !israw) {
1.3      cgd 				tty_setecho(0);		/* Turn off echo */
1.3      cgd 				tty_setraw(1);		/* Turn on raw */
1.3      cgd 				set_termbuf();
1.3      cgd 			}
1.3      cgd 			len = strlen(name)+1;
1.3      cgd 			write(xpty, name, len);
1.3      cgd 			write(xpty, name, len);
1.3      cgd 			sprintf(speed, "%s/%d", (cp = getenv("TERM")) ? cp : "",
1.3      cgd 				(def_rspeed > 0) ? def_rspeed : 9600);
1.3      cgd 			len = strlen(speed)+1;
1.3      cgd 			write(xpty, speed, len);
1.3      cgd
1.3      cgd 			if (isecho || !israw) {
1.3      cgd 				init_termbuf();
1.3      cgd 				tty_setecho(isecho);
1.3      cgd 				tty_setraw(israw);
1.3      cgd 				set_termbuf();
1.3      cgd 				if (!israw) {
1.3      cgd 					/*
1.3      cgd 					 * Write a newline to ensure
1.3      cgd 					 * that login will be able to
1.3      cgd 					 * read the line...
1.3      cgd 					 */
1.3      cgd 					write(xpty, "\n", 1);
1.3      cgd 				}
1.3      cgd 			}
1.3      cgd 			pty = xpty;
1.3      cgd 		}
1.3      cgd #  else
1.5  mycroft 		argv = addarg(argv, "--");
1.1      cgd 		argv = addarg(argv, name);
1.3      cgd #  endif
1.3      cgd # endif
1.1      cgd 	} else
1.1      cgd #endif
1.1      cgd 	if (getenv("USER")) {
1.5  mycroft 		argv = addarg(argv, "--");
1.1      cgd 		argv = addarg(argv, getenv("USER"));
1.3      cgd #if	defined(LOGIN_ARGS) && defined(NO_LOGIN_P)
1.1      cgd 		{
1.1      cgd 			register char **cpp;
1.1      cgd 			for (cpp = environ; *cpp; cpp++)
1.1      cgd 				argv = addarg(argv, *cpp);
1.1      cgd 		}
1.1      cgd #endif
1.3      cgd 		/*
1.3      cgd 		 * Assume that login will set the USER variable
1.3      cgd 		 * correctly.  For SysV systems, this means that
1.3      cgd 		 * USER will no longer be set, just LOGNAME by
1.3      cgd 		 * login.  (The problem is that if the auto-login
1.3      cgd 		 * fails, and the user then specifies a different
1.3      cgd 		 * account name, he can get logged in with both
1.3      cgd 		 * LOGNAME and USER in his environment, but the
1.3      cgd 		 * USER value will be wrong.
1.3      cgd 		 */
1.3      cgd 		unsetenv("USER");
1.1      cgd 	}
1.6      jtk #ifdef	SOLARIS
1.6      jtk 	else {
1.6      jtk 		char **p;
1.6      jtk
1.6      jtk 		argv = addarg(argv, "");	/* no login name */
1.6      jtk 		for (p = environ; *p; p++) {
1.6      jtk 			argv = addarg(argv, *p);
1.6      jtk 		}
1.6      jtk 	}
1.6      jtk #endif	/* SOLARIS */
1.3      cgd #if	defined(AUTHENTICATION) && defined(NO_LOGIN_F) && defined(LOGIN_R)
1.3      cgd 	if (pty > 2)
1.3      cgd 		close(pty);
1.3      cgd #endif
1.1      cgd 	closelog();
1.6      jtk 	/*
1.6      jtk 	 * This sleep(1) is in here so that telnetd can
1.6      jtk 	 * finish up with the tty.  There's a race condition
1.6      jtk 	 * the login banner message gets lost...
1.6      jtk 	 */
1.6      jtk 	sleep(1);
1.1      cgd 	execv(_PATH_LOGIN, argv);
1.1      cgd
1.1      cgd 	syslog(LOG_ERR, "%s: %m\n", _PATH_LOGIN);
1.1      cgd 	fatalperror(net, _PATH_LOGIN);
1.1      cgd 	/*NOTREACHED*/
1.1      cgd }
1.1      cgd
1.1      cgd 	char **
1.1      cgd addarg(argv, val)
1.1      cgd 	register char **argv;
1.1      cgd 	register char *val;
1.1      cgd {
1.1      cgd 	register char **cpp;
1.1      cgd
1.1      cgd 	if (argv == NULL) {
1.1      cgd 		/*
1.1      cgd 		 * 10 entries, a leading length, and a null
1.1      cgd 		 */
1.1      cgd 		argv = (char **)malloc(sizeof(*argv) * 12);
1.1      cgd 		if (argv == NULL)
1.1      cgd 			return(NULL);
1.1      cgd 		*argv++ = (char *)10;
1.1      cgd 		*argv = (char *)0;
1.1      cgd 	}
1.1      cgd 	for (cpp = argv; *cpp; cpp++)
1.1      cgd 		;
1.7      jtk 	if (cpp == &argv[(long)argv[-1]]) {
1.1      cgd 		--argv;
1.7      jtk 		*argv = (char *)((long)(*argv) + 10);
1.7      jtk 		argv = (char **)realloc(argv, sizeof(*argv)*((long)(*argv) + 2));
1.1      cgd 		if (argv == NULL)
1.1      cgd 			return(NULL);
1.1      cgd 		argv++;
1.7      jtk 		cpp = &argv[(long)argv[-1] - 10];
1.1      cgd 	}
1.1      cgd 	*cpp++ = val;
1.1      cgd 	*cpp = 0;
1.1      cgd 	return(argv);
1.1      cgd }
1.1      cgd #endif	/* NEWINIT */
1.1      cgd
1.1      cgd /*
1.6      jtk  * scrub_env()
1.6      jtk  *
1.6      jtk  * Remove a few things from the environment that
1.6      jtk  * don't need to be there.
1.6      jtk  */
1.6      jtk scrub_env()
1.6      jtk {
1.6      jtk 	register char **cpp, **cpp2;
1.6      jtk
1.6      jtk 	for (cpp2 = cpp = environ; *cpp; cpp++) {
1.6      jtk 		if (strncmp(*cpp, "LD_", 3) &&
1.6      jtk 		    strncmp(*cpp, "_RLD_", 5) &&
1.6      jtk 		    strncmp(*cpp, "LIBPATH=", 8) &&
1.6      jtk 		    strncmp(*cpp, "IFS=", 4))
1.6      jtk 			*cpp2++ = *cpp;
1.6      jtk 	}
1.6      jtk 	*cpp2 = 0;
1.6      jtk }
1.6      jtk
1.6      jtk /*
1.1      cgd  * cleanup()
1.1      cgd  *
1.1      cgd  * This is the routine to call when we are all through, to
1.1      cgd  * clean up anything that needs to be cleaned up.
1.1      cgd  */
1.1      cgd 	/* ARGSUSED */
1.1      cgd 	void
1.1      cgd cleanup(sig)
1.1      cgd 	int sig;
1.1      cgd {
1.3      cgd #ifndef	PARENT_DOES_UTMP
1.1      cgd # if (BSD > 43) || defined(convex)
1.1      cgd 	char *p;
1.1      cgd
1.1      cgd 	p = line + sizeof("/dev/") - 1;
1.1      cgd 	if (logout(p))
1.1      cgd 		logwtmp(p, "", "");
1.1      cgd 	(void)chmod(line, 0666);
1.1      cgd 	(void)chown(line, 0, 0);
1.1      cgd 	*p = 'p';
1.1      cgd 	(void)chmod(line, 0666);
1.1      cgd 	(void)chown(line, 0, 0);
1.1      cgd 	(void) shutdown(net, 2);
1.1      cgd 	exit(1);
1.1      cgd # else
1.1      cgd 	void rmut();
1.1      cgd
1.1      cgd 	rmut();
1.1      cgd 	vhangup();	/* XXX */
1.1      cgd 	(void) shutdown(net, 2);
1.1      cgd 	exit(1);
1.1      cgd # endif
1.3      cgd #else	/* PARENT_DOES_UTMP */
1.1      cgd # ifdef	NEWINIT
1.1      cgd 	(void) shutdown(net, 2);
1.1      cgd 	exit(1);
1.1      cgd # else	/* NEWINIT */
1.3      cgd #  ifdef CRAY
1.1      cgd 	static int incleanup = 0;
1.1      cgd 	register int t;
1.6      jtk 	int child_status; /* status of child process as returned by waitpid */
1.6      jtk 	int flags = WNOHANG|WUNTRACED;
1.1      cgd
1.1      cgd 	/*
1.1      cgd 	 * 1: Pick up the zombie, if we are being called
1.1      cgd 	 *    as the signal handler.
1.1      cgd 	 * 2: If we are a nested cleanup(), return.
1.1      cgd 	 * 3: Try to clean up TMPDIR.
1.1      cgd 	 * 4: Fill in utmp with shutdown of process.
1.1      cgd 	 * 5: Close down the network and pty connections.
1.1      cgd 	 * 6: Finish up the TMPDIR cleanup, if needed.
1.1      cgd 	 */
1.6      jtk 	if (sig == SIGCHLD) {
1.6      jtk 		while (waitpid(-1, &child_status, flags) > 0)
1.1      cgd 			;	/* VOID */
1.6      jtk 		/* Check if the child process was stopped
1.6      jtk 		 * rather than exited.  We want cleanup only if
1.6      jtk 		 * the child has died.
1.6      jtk 		 */
1.6      jtk 		if (WIFSTOPPED(child_status)) {
1.6      jtk 			return;
1.6      jtk 		}
1.6      jtk 	}
1.1      cgd 	t = sigblock(sigmask(SIGCHLD));
1.1      cgd 	if (incleanup) {
1.1      cgd 		sigsetmask(t);
1.1      cgd 		return;
1.1      cgd 	}
1.1      cgd 	incleanup = 1;
1.1      cgd 	sigsetmask(t);
1.6      jtk #ifdef	UNICOS7x
1.3      cgd 	if (secflag) {
1.3      cgd 		/*
1.3      cgd 		 *	We need to set ourselves back to a null
1.3      cgd 		 *	label to clean up.
1.3      cgd 		 */
1.3      cgd
1.3      cgd 		setulvl(sysv.sy_minlvl);
1.3      cgd 		setucmp((long)0);
1.3      cgd 	}
1.6      jtk #endif	/* UNICOS7x */
1.1      cgd
1.1      cgd 	t = cleantmp(&wtmp);
1.1      cgd 	setutent();	/* just to make sure */
1.3      cgd #  endif /* CRAY */
1.1      cgd 	rmut(line);
1.1      cgd 	close(pty);
1.1      cgd 	(void) shutdown(net, 2);
1.3      cgd #  ifdef CRAY
1.1      cgd 	if (t == 0)
1.1      cgd 		cleantmp(&wtmp);
1.3      cgd #  endif /* CRAY */
1.1      cgd 	exit(1);
1.1      cgd # endif	/* NEWINT */
1.3      cgd #endif	/* PARENT_DOES_UTMP */
1.1      cgd }
1.1      cgd
1.3      cgd #if defined(PARENT_DOES_UTMP) && !defined(NEWINIT)
1.1      cgd /*
1.1      cgd  * _utmp_sig_rcv
1.1      cgd  * utmp_sig_init
1.1      cgd  * utmp_sig_wait
1.1      cgd  *	These three functions are used to coordinate the handling of
1.1      cgd  *	the utmp file between the server and the soon-to-be-login shell.
1.1      cgd  *	The server actually creates the utmp structure, the child calls
1.1      cgd  *	utmp_sig_wait(), until the server calls utmp_sig_notify() and
1.1      cgd  *	signals the future-login shell to proceed.
1.1      cgd  */
1.1      cgd static int caught=0;		/* NZ when signal intercepted */
1.1      cgd static void (*func)();		/* address of previous handler */
1.1      cgd
1.1      cgd 	void
1.1      cgd _utmp_sig_rcv(sig)
1.1      cgd 	int sig;
1.1      cgd {
1.1      cgd 	caught = 1;
1.1      cgd 	(void) signal(SIGUSR1, func);
1.1      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd utmp_sig_init()
1.1      cgd {
1.1      cgd 	/*
1.1      cgd 	 * register signal handler for UTMP creation
1.1      cgd 	 */
1.1      cgd 	if ((int)(func = signal(SIGUSR1, _utmp_sig_rcv)) == -1)
1.1      cgd 		fatalperror(net, "telnetd/signal");
1.1      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd utmp_sig_reset()
1.1      cgd {
1.1      cgd 	(void) signal(SIGUSR1, func);	/* reset handler to default */
1.1      cgd }
1.1      cgd
1.3      cgd # ifdef __hpux
1.3      cgd # define sigoff() /* do nothing */
1.3      cgd # define sigon() /* do nothing */
1.3      cgd # endif
1.3      cgd
1.1      cgd 	void
1.1      cgd utmp_sig_wait()
1.1      cgd {
1.1      cgd 	/*
1.1      cgd 	 * Wait for parent to write our utmp entry.
1.1      cgd 	 */
1.1      cgd 	sigoff();
1.1      cgd 	while (caught == 0) {
1.1      cgd 		pause();	/* wait until we get a signal (sigon) */
1.1      cgd 		sigoff();	/* turn off signals while we check caught */
1.1      cgd 	}
1.1      cgd 	sigon();		/* turn on signals again */
1.1      cgd }
1.1      cgd
1.1      cgd 	void
1.1      cgd utmp_sig_notify(pid)
1.1      cgd {
1.1      cgd 	kill(pid, SIGUSR1);
1.1      cgd }
1.1      cgd
1.3      cgd # ifdef CRAY
1.1      cgd static int gotsigjob = 0;
1.1      cgd
1.1      cgd 	/*ARGSUSED*/
1.1      cgd 	void
1.1      cgd sigjob(sig)
1.1      cgd 	int sig;
1.1      cgd {
1.1      cgd 	register int jid;
1.1      cgd 	register struct jobtemp *jp;
1.1      cgd
1.1      cgd 	while ((jid = waitjob(NULL)) != -1) {
1.1      cgd 		if (jid == 0) {
1.1      cgd 			return;
1.1      cgd 		}
1.1      cgd 		gotsigjob++;
1.1      cgd 		jobend(jid, NULL, NULL);
1.1      cgd 	}
1.1      cgd }
1.1      cgd
1.1      cgd /*
1.6      jtk  *	jid_getutid:
1.6      jtk  *		called by jobend() before calling cleantmp()
1.6      jtk  *		to find the correct $TMPDIR to cleanup.
1.6      jtk  */
1.6      jtk
1.6      jtk 	struct utmp *
1.6      jtk jid_getutid(jid)
1.6      jtk 	int jid;
1.6      jtk {
1.6      jtk 	struct utmp *cur = NULL;
1.6      jtk
1.6      jtk 	setutent();	/* just to make sure */
1.6      jtk 	while (cur = getutent()) {
1.6      jtk 		if ( (cur->ut_type != NULL) && (jid == cur->ut_jid) ) {
1.6      jtk 			return(cur);
1.6      jtk 		}
1.6      jtk 	}
1.6      jtk
1.6      jtk 	return(0);
1.6      jtk }
1.6      jtk
1.6      jtk /*
1.1      cgd  * Clean up the TMPDIR that login created.
1.1      cgd  * The first time this is called we pick up the info
1.1      cgd  * from the utmp.  If the job has already gone away,
1.1      cgd  * then we'll clean up and be done.  If not, then
1.1      cgd  * when this is called the second time it will wait
1.1      cgd  * for the signal that the job is done.
1.1      cgd  */
1.1      cgd 	int
1.1      cgd cleantmp(wtp)
1.1      cgd 	register struct utmp *wtp;
1.1      cgd {
1.1      cgd 	struct utmp *utp;
1.1      cgd 	static int first = 1;
1.1      cgd 	register int mask, omask, ret;
1.3      cgd 	extern struct utmp *getutid P((const struct utmp *_Id));
1.3      cgd
1.1      cgd
1.1      cgd 	mask = sigmask(WJSIGNAL);
1.1      cgd
1.1      cgd 	if (first == 0) {
1.1      cgd 		omask = sigblock(mask);
1.1      cgd 		while (gotsigjob == 0)
1.1      cgd 			sigpause(omask);
1.1      cgd 		return(1);
1.1      cgd 	}
1.1      cgd 	first = 0;
1.1      cgd 	setutent();	/* just to make sure */
1.1      cgd
1.1      cgd 	utp = getutid(wtp);
1.1      cgd 	if (utp == 0) {
1.1      cgd 		syslog(LOG_ERR, "Can't get /etc/utmp entry to clean TMPDIR");
1.1      cgd 		return(-1);
1.1      cgd 	}
1.1      cgd 	/*
1.1      cgd 	 * Nothing to clean up if the user shell was never started.
1.1      cgd 	 */
1.1      cgd 	if (utp->ut_type != USER_PROCESS || utp->ut_jid == 0)
1.1      cgd 		return(1);
1.1      cgd
1.1      cgd 	/*
1.1      cgd 	 * Block the WJSIGNAL while we are in jobend().
1.1      cgd 	 */
1.1      cgd 	omask = sigblock(mask);
1.1      cgd 	ret = jobend(utp->ut_jid, utp->ut_tpath, utp->ut_user);
1.1      cgd 	sigsetmask(omask);
1.1      cgd 	return(ret);
1.1      cgd }
1.1      cgd
1.1      cgd 	int
1.1      cgd jobend(jid, path, user)
1.1      cgd 	register int jid;
1.1      cgd 	register char *path;
1.1      cgd 	register char *user;
1.1      cgd {
1.1      cgd 	static int saved_jid = 0;
1.6      jtk 	static int pty_saved_jid = 0;
1.1      cgd 	static char saved_path[sizeof(wtmp.ut_tpath)+1];
1.1      cgd 	static char saved_user[sizeof(wtmp.ut_user)+1];
1.1      cgd
1.6      jtk 	/*
1.6      jtk 	 * this little piece of code comes into play
1.6      jtk 	 * only when ptyreconnect is used to reconnect
1.6      jtk 	 * to an previous session.
1.6      jtk 	 *
1.6      jtk 	 * this is the only time when the
1.6      jtk 	 * "saved_jid != jid" code is executed.
1.6      jtk 	 */
1.6      jtk
1.6      jtk 	if ( saved_jid && saved_jid != jid ) {
1.6      jtk 		if (!path) {	/* called from signal handler */
1.6      jtk 			pty_saved_jid = jid;
1.6      jtk 		} else {
1.6      jtk 			pty_saved_jid = saved_jid;
1.6      jtk 		}
1.6      jtk 	}
1.6      jtk
1.1      cgd 	if (path) {
1.1      cgd 		strncpy(saved_path, path, sizeof(wtmp.ut_tpath));
1.1      cgd 		strncpy(saved_user, user, sizeof(wtmp.ut_user));
1.1      cgd 		saved_path[sizeof(saved_path)] = '\0';
1.1      cgd 		saved_user[sizeof(saved_user)] = '\0';
1.1      cgd 	}
1.1      cgd 	if (saved_jid == 0) {
1.1      cgd 		saved_jid = jid;
1.1      cgd 		return(0);
1.1      cgd 	}
1.6      jtk
1.6      jtk 	/* if the jid has changed, get the correct entry from the utmp file */
1.6      jtk
1.6      jtk 	if ( saved_jid != jid ) {
1.6      jtk 		struct utmp *utp = NULL;
1.6      jtk 		struct utmp *jid_getutid();
1.6      jtk
1.6      jtk 		utp = jid_getutid(pty_saved_jid);
1.6      jtk
1.6      jtk 		if (utp == 0) {
1.6      jtk 			syslog(LOG_ERR, "Can't get /etc/utmp entry to clean TMPDIR");
1.6      jtk 			return(-1);
1.6      jtk 		}
1.6      jtk
1.6      jtk 		cleantmpdir(jid, utp->ut_tpath, utp->ut_user);
1.6      jtk 		return(1);
1.6      jtk 	}
1.6      jtk
1.1      cgd 	cleantmpdir(jid, saved_path, saved_user);
1.1      cgd 	return(1);
1.1      cgd }
1.1      cgd
1.1      cgd /*
1.1      cgd  * Fork a child process to clean up the TMPDIR
1.1      cgd  */
1.1      cgd cleantmpdir(jid, tpath, user)
1.1      cgd 	register int jid;
1.1      cgd 	register char *tpath;
1.1      cgd 	register char *user;
1.1      cgd {
1.1      cgd 	switch(fork()) {
1.1      cgd 	case -1:
1.1      cgd 		syslog(LOG_ERR, "TMPDIR cleanup(%s): fork() failed: %m\n",
1.1      cgd 							tpath);
1.1      cgd 		break;
1.1      cgd 	case 0:
1.1      cgd 		execl(CLEANTMPCMD, CLEANTMPCMD, user, tpath, 0);
1.1      cgd 		syslog(LOG_ERR, "TMPDIR cleanup(%s): execl(%s) failed: %m\n",
1.1      cgd 							tpath, CLEANTMPCMD);
1.1      cgd 		exit(1);
1.1      cgd 	default:
1.1      cgd 		/*
1.1      cgd 		 * Forget about child.  We will exit, and
1.1      cgd 		 * /etc/init will pick it up.
1.1      cgd 		 */
1.1      cgd 		break;
1.1      cgd 	}
1.1      cgd }
1.3      cgd # endif /* CRAY */
1.3      cgd #endif	/* defined(PARENT_DOES_UTMP) && !defined(NEWINIT) */
1.1      cgd
1.1      cgd /*
1.1      cgd  * rmut()
1.1      cgd  *
1.1      cgd  * This is the function called by cleanup() to
1.1      cgd  * remove the utmp entry for this person.
1.1      cgd  */
1.1      cgd
1.3      cgd #ifdef	UTMPX
1.3      cgd 	void
1.3      cgd rmut()
1.3      cgd {
1.3      cgd 	register f;
1.3      cgd 	int found = 0;
1.3      cgd 	struct utmp *u, *utmp;
1.3      cgd 	int nutmp;
1.3      cgd 	struct stat statbf;
1.3      cgd
1.3      cgd 	struct utmpx *utxp, utmpx;
1.3      cgd
1.3      cgd 	/*
1.3      cgd 	 * This updates the utmpx and utmp entries and make a wtmp/x entry
1.3      cgd 	 */
1.3      cgd
1.3      cgd 	SCPYN(utmpx.ut_line, line + sizeof("/dev/") - 1);
1.3      cgd 	utxp = getutxline(&utmpx);
1.3      cgd 	if (utxp) {
1.3      cgd 		utxp->ut_type = DEAD_PROCESS;
1.3      cgd 		utxp->ut_exit.e_termination = 0;
1.3      cgd 		utxp->ut_exit.e_exit = 0;
1.3      cgd 		(void) time(&utmpx.ut_tv.tv_sec);
1.3      cgd 		utmpx.ut_tv.tv_usec = 0;
1.3      cgd 		modutx(utxp);
1.3      cgd 	}
1.3      cgd 	endutxent();
1.3      cgd }  /* end of rmut */
1.3      cgd #endif
1.3      cgd
1.3      cgd #if	!defined(UTMPX) && !(defined(CRAY) || defined(__hpux)) && BSD <= 43
1.1      cgd 	void
1.1      cgd rmut()
1.1      cgd {
1.1      cgd 	register f;
1.1      cgd 	int found = 0;
1.1      cgd 	struct utmp *u, *utmp;
1.1      cgd 	int nutmp;
1.1      cgd 	struct stat statbf;
1.1      cgd
1.1      cgd 	f = open(utmpf, O_RDWR);
1.1      cgd 	if (f >= 0) {
1.1      cgd 		(void) fstat(f, &statbf);
1.1      cgd 		utmp = (struct utmp *)malloc((unsigned)statbf.st_size);
1.1      cgd 		if (!utmp)
1.1      cgd 			syslog(LOG_ERR, "utmp malloc failed");
1.1      cgd 		if (statbf.st_size && utmp) {
1.1      cgd 			nutmp = read(f, (char *)utmp, (int)statbf.st_size);
1.1      cgd 			nutmp /= sizeof(struct utmp);
1.6      jtk
1.1      cgd 			for (u = utmp ; u < &utmp[nutmp] ; u++) {
1.1      cgd 				if (SCMPN(u->ut_line, line+5) ||
1.1      cgd 				    u->ut_name[0]==0)
1.1      cgd 					continue;
1.1      cgd 				(void) lseek(f, ((long)u)-((long)utmp), L_SET);
1.1      cgd 				SCPYN(u->ut_name, "");
1.1      cgd 				SCPYN(u->ut_host, "");
1.1      cgd 				(void) time(&u->ut_time);
1.1      cgd 				(void) write(f, (char *)u, sizeof(wtmp));
1.1      cgd 				found++;
1.1      cgd 			}
1.1      cgd 		}
1.1      cgd 		(void) close(f);
1.1      cgd 	}
1.1      cgd 	if (found) {
1.1      cgd 		f = open(wtmpf, O_WRONLY|O_APPEND);
1.1      cgd 		if (f >= 0) {
1.1      cgd 			SCPYN(wtmp.ut_line, line+5);
1.1      cgd 			SCPYN(wtmp.ut_name, "");
1.1      cgd 			SCPYN(wtmp.ut_host, "");
1.1      cgd 			(void) time(&wtmp.ut_time);
1.1      cgd 			(void) write(f, (char *)&wtmp, sizeof(wtmp));
1.1      cgd 			(void) close(f);
1.1      cgd 		}
1.1      cgd 	}
1.1      cgd 	(void) chmod(line, 0666);
1.1      cgd 	(void) chown(line, 0, 0);
1.1      cgd 	line[strlen("/dev/")] = 'p';
1.1      cgd 	(void) chmod(line, 0666);
1.1      cgd 	(void) chown(line, 0, 0);
1.1      cgd }  /* end of rmut */
1.1      cgd #endif	/* CRAY */
1.3      cgd
1.3      cgd #ifdef __hpux
1.3      cgd rmut (line)
1.3      cgd char *line;
1.3      cgd {
1.3      cgd 	struct utmp utmp;
1.3      cgd 	struct utmp *utptr;
1.3      cgd 	int fd;			/* for /etc/wtmp */
1.3      cgd
1.3      cgd 	utmp.ut_type = USER_PROCESS;
1.3      cgd 	(void) strncpy(utmp.ut_id, line+12, sizeof(utmp.ut_id));
1.3      cgd 	(void) setutent();
1.3      cgd 	utptr = getutid(&utmp);
1.3      cgd 	/* write it out only if it exists */
1.3      cgd 	if (utptr) {
1.3      cgd 		utptr->ut_type = DEAD_PROCESS;
1.3      cgd 		utptr->ut_time = time((long *) 0);
1.3      cgd 		(void) pututline(utptr);
1.3      cgd 		/* set wtmp entry if wtmp file exists */
1.3      cgd 		if ((fd = open(wtmpf, O_WRONLY | O_APPEND)) >= 0) {
1.3      cgd 			(void) write(fd, utptr, sizeof(utmp));
1.3      cgd 			(void) close(fd);
1.3      cgd 		}
1.3      cgd 	}
1.3      cgd 	(void) endutent();
1.3      cgd
1.3      cgd 	(void) chmod(line, 0666);
1.3      cgd 	(void) chown(line, 0, 0);
1.3      cgd 	line[14] = line[13];
1.3      cgd 	line[13] = line[12];
1.3      cgd 	line[8] = 'm';
1.3      cgd 	line[9] = '/';
1.3      cgd 	line[10] = 'p';
1.3      cgd 	line[11] = 't';
1.3      cgd 	line[12] = 'y';
1.3      cgd 	(void) chmod(line, 0666);
1.3      cgd 	(void) chown(line, 0, 0);
1.3      cgd }
1.3      cgd #endif