xref: /illumos-gate/usr/src/uts/common/io/tty_pty.c (revision d48be21240dfd051b689384ce2b23479d757f2d8)
1 /*
2  * Copyright 2008 Sun Microsystems, Inc.  All rights reserved.
3  * Use is subject to license terms.
4  * Copyright 2015, Joyent, Inc.
5  */
6 
7 /*
8  * Copyright (c) 1983 Regents of the University of California.
9  * All rights reserved. The Berkeley software License Agreement
10  * specifies the terms and conditions for redistribution.
11  */
12 
13 /*
14  * PTY - Stream "pseudo-terminal" device.  For each "manager" side it connects
15  * to a "subsidiary" side.
16  */
17 
18 
19 #include <sys/param.h>
20 #include <sys/systm.h>
21 #include <sys/filio.h>
22 #include <sys/ioccom.h>
23 #include <sys/termios.h>
24 #include <sys/termio.h>
25 #include <sys/ttold.h>
26 #include <sys/stropts.h>
27 #include <sys/stream.h>
28 #include <sys/tty.h>
29 #include <sys/user.h>
30 #include <sys/conf.h>
31 #include <sys/file.h>
32 #include <sys/vnode.h>
33 #include <sys/proc.h>
34 #include <sys/uio.h>
35 #include <sys/errno.h>
36 #include <sys/strsubr.h>
37 #include <sys/poll.h>
38 #include <sys/sysmacros.h>
39 #include <sys/debug.h>
40 #include <sys/procset.h>
41 #include <sys/cred.h>
42 #include <sys/ptyvar.h>
43 #include <sys/suntty.h>
44 #include <sys/stat.h>
45 
46 #include <sys/conf.h>
47 #include <sys/ddi.h>
48 #include <sys/sunddi.h>
49 
50 extern int npty;	/* number of pseudo-ttys configured in */
51 extern struct pty *pty_softc;
52 extern struct pollhead	ptcph;	/* poll head for ptcpoll() use */
53 
54 int ptcopen(dev_t *, int, int, struct cred *);
55 int ptcclose(dev_t, int, int, struct cred *);
56 int ptcwrite(dev_t, struct uio *, struct cred *);
57 int ptcread(dev_t, struct uio *, struct cred *);
58 int ptcioctl(dev_t, int, intptr_t, int, struct cred *, int *);
59 int ptcpoll(dev_t, short, int, short *, struct pollhead **);
60 
61 static int ptc_info(dev_info_t *, ddi_info_cmd_t, void *, void **);
62 static int ptc_attach(dev_info_t *, ddi_attach_cmd_t);
63 static dev_info_t *ptc_dip;	/* for dev-to-dip conversions */
64 
65 static void ptc_init(void), ptc_uninit(void);
66 
67 static int makemsg(ssize_t count, struct uio *uiop,
68     struct pty *pty, mblk_t **mpp);
69 
70 struct cb_ops	ptc_cb_ops = {
71 	ptcopen,		/* open */
72 	ptcclose,		/* close */
73 	nodev,			/* strategy */
74 	nodev,			/* print */
75 	nodev,			/* dump */
76 	ptcread,		/* read */
77 	ptcwrite,		/* write */
78 	ptcioctl,		/* ioctl */
79 	nodev,			/* devmap */
80 	nodev,			/* mmap */
81 	nodev,			/* segmap */
82 	ptcpoll,		/* poll */
83 	ddi_prop_op,		/* prop_op */
84 	0,			/* streamtab */
85 	D_NEW | D_MP		/* Driver compatibility flag */
86 };
87 
88 struct dev_ops	ptc_ops = {
89 	DEVO_REV,		/* devo_rev */
90 	0,			/* refcnt */
91 	ptc_info,		/* info */
92 	nulldev,		/* identify */
93 	nulldev,		/* probe */
94 	ptc_attach,		/* attach */
95 	nodev,			/* detach */
96 	nodev,			/* reset */
97 	&ptc_cb_ops,		/* driver operations */
98 	(struct bus_ops *)0,	/* bus operations */
99 	NULL,			/* power */
100 	ddi_quiesce_not_supported,	/* devo_quiesce */
101 };
102 
103 #include <sys/types.h>
104 #include <sys/conf.h>
105 #include <sys/param.h>
106 #include <sys/systm.h>
107 #include <sys/errno.h>
108 #include <sys/modctl.h>
109 
110 extern int dseekneg_flag;
111 extern struct mod_ops mod_driverops;
112 extern struct dev_ops ptc_ops;
113 
114 /*
115  * Module linkage information for the kernel.
116  */
117 
118 static struct modldrv modldrv = {
119 	&mod_driverops,
120 	"tty pseudo driver control 'ptc'",
121 	&ptc_ops,
122 };
123 
124 static struct modlinkage modlinkage = {
125 	MODREV_1,
126 	&modldrv,
127 	NULL
128 };
129 
130 int
131 _init()
132 {
133 	int rc;
134 
135 	if ((rc = mod_install(&modlinkage)) == 0)
136 		ptc_init();
137 	return (rc);
138 }
139 
140 
141 int
142 _fini()
143 {
144 	int rc;
145 
146 	if ((rc = mod_remove(&modlinkage)) == 0)
147 		ptc_uninit();
148 	return (rc);
149 }
150 
151 int
152 _info(struct modinfo *modinfop)
153 {
154 	return (mod_info(&modlinkage, modinfop));
155 }
156 
157 static char	*pty_banks = PTY_BANKS;
158 static char	*pty_digits = PTY_DIGITS;
159 
160 /* ARGSUSED */
161 static int
162 ptc_attach(dev_info_t *devi, ddi_attach_cmd_t cmd)
163 {
164 	char	name[8];
165 	int	pty_num;
166 	char	*pty_digit = pty_digits;
167 	char	*pty_bank = pty_banks;
168 
169 	for (pty_num = 0; pty_num < npty; pty_num++) {
170 		(void) sprintf(name, "pty%c%c", *pty_bank, *pty_digit);
171 		if (ddi_create_minor_node(devi, name, S_IFCHR,
172 		    pty_num, DDI_PSEUDO, 0) == DDI_FAILURE) {
173 			ddi_remove_minor_node(devi, NULL);
174 			return (-1);
175 		}
176 		if (*(++pty_digit) == '\0') {
177 			pty_digit = pty_digits;
178 			if (*(++pty_bank) == '\0')
179 				break;
180 		}
181 	}
182 	ptc_dip = devi;
183 	return (DDI_SUCCESS);
184 }
185 
186 /* ARGSUSED */
187 static int
188 ptc_info(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result)
189 {
190 	int error;
191 
192 	switch (infocmd) {
193 	case DDI_INFO_DEVT2DEVINFO:
194 		if (ptc_dip == NULL) {
195 			*result = (void *)NULL;
196 			error = DDI_FAILURE;
197 		} else {
198 			*result = (void *) ptc_dip;
199 			error = DDI_SUCCESS;
200 		}
201 		break;
202 	case DDI_INFO_DEVT2INSTANCE:
203 		*result = (void *)0;
204 		error = DDI_SUCCESS;
205 		break;
206 	default:
207 		error = DDI_FAILURE;
208 	}
209 	return (error);
210 }
211 
212 static void
213 ptc_init(void)
214 {
215 	minor_t dev;
216 
217 	for (dev = 0; dev < npty; dev++) {
218 		cv_init(&pty_softc[dev].pt_cv_flags, NULL, CV_DEFAULT, NULL);
219 		cv_init(&pty_softc[dev].pt_cv_readq, NULL, CV_DEFAULT, NULL);
220 		cv_init(&pty_softc[dev].pt_cv_writeq, NULL, CV_DEFAULT, NULL);
221 		mutex_init(&pty_softc[dev].ptc_lock, NULL, MUTEX_DEFAULT, NULL);
222 	}
223 }
224 
225 static void
226 ptc_uninit(void)
227 {
228 	minor_t dev;
229 
230 	for (dev = 0; dev < npty; dev++) {
231 		cv_destroy(&pty_softc[dev].pt_cv_flags);
232 		cv_destroy(&pty_softc[dev].pt_cv_readq);
233 		cv_destroy(&pty_softc[dev].pt_cv_writeq);
234 		mutex_destroy(&pty_softc[dev].ptc_lock);
235 	}
236 }
237 
238 /*
239  * Manager side.  This is not, alas, a streams device; there are too
240  * many old features that we must support and that don't work well
241  * with streams.
242  */
243 
244 int
245 ptcopen(dev_t *devp, int flag, int otyp, struct cred *cred)
246 {
247 	dev_t dev = *devp;
248 	struct pty *pty;
249 	queue_t *q;
250 
251 	if (getminor(dev) >= npty) {
252 		return (ENXIO);
253 	}
254 	pty = &pty_softc[getminor(dev)];
255 	mutex_enter(&pty->ptc_lock);
256 	if (pty->pt_flags & PF_CARR_ON) {
257 		mutex_exit(&pty->ptc_lock);
258 		return (EIO);	/* manager is exclusive use */
259 				/* XXX - should be EBUSY! */
260 	}
261 	if (pty->pt_flags & PF_WOPEN) {
262 		pty->pt_flags &= ~PF_WOPEN;
263 		cv_broadcast(&pty->pt_cv_flags);
264 	}
265 
266 	if ((q = pty->pt_ttycommon.t_readq) != NULL) {
267 		/*
268 		 * Send an un-hangup to the subsidiary, since "carrier" is
269 		 * coming back up.  Make sure we're doing canonicalization.
270 		 */
271 		(void) putctl(q, M_UNHANGUP);
272 		(void) putctl1(q, M_CTL, MC_DOCANON);
273 	}
274 	pty->pt_flags |= PF_CARR_ON;
275 	pty->pt_send = 0;
276 	pty->pt_ucntl = 0;
277 
278 	mutex_exit(&pty->ptc_lock);
279 	return (0);
280 }
281 
282 int
283 ptcclose(dev_t dev, int flag, int otyp, struct cred *cred)
284 {
285 	struct pty *pty;
286 	mblk_t *bp;
287 	queue_t *q;
288 
289 	pty = &pty_softc[getminor(dev)];
290 
291 	mutex_enter(&pty->ptc_lock);
292 	if ((q = pty->pt_ttycommon.t_readq) != NULL) {
293 		/*
294 		 * Send a hangup to the subsidiary, since "carrier" is dropping.
295 		 */
296 		(void) putctl(q, M_HANGUP);
297 	}
298 
299 	/*
300 	 * Clear out all the manager-side state.  This also
301 	 * clears PF_CARR_ON, which is correct because the
302 	 * "carrier" is dropping since the manager process
303 	 * is going away.
304 	 */
305 	pty->pt_flags &= (PF_WOPEN|PF_STOPPED|PF_NOSTOP);
306 	while ((bp = pty->pt_stuffqfirst) != NULL) {
307 		if ((pty->pt_stuffqfirst = bp->b_next) == NULL)
308 			pty->pt_stuffqlast = NULL;
309 		else
310 			pty->pt_stuffqfirst->b_prev = NULL;
311 		pty->pt_stuffqlen--;
312 		bp->b_next = bp->b_prev = NULL;
313 		freemsg(bp);
314 	}
315 	mutex_exit(&pty->ptc_lock);
316 	return (0);
317 }
318 
319 int
320 ptcread(dev_t dev, struct uio *uio, struct cred *cred)
321 {
322 	struct pty *pty = &pty_softc[getminor(dev)];
323 	mblk_t *bp, *nbp;
324 	queue_t *q;
325 	unsigned char tmp;
326 	ssize_t cc;
327 	int error;
328 	off_t off;
329 
330 	off = uio->uio_offset;
331 
332 	mutex_enter(&pty->ptc_lock);
333 
334 	for (;;) {
335 		while (pty->pt_flags & PF_READ) {
336 			pty->pt_flags |= PF_WREAD;
337 			cv_wait(&pty->pt_cv_flags, &pty->ptc_lock);
338 		}
339 		pty->pt_flags |= PF_READ;
340 
341 		/*
342 		 * If there's a TIOCPKT packet waiting, pass it back.
343 		 */
344 		while (pty->pt_flags&(PF_PKT|PF_UCNTL) && pty->pt_send) {
345 			tmp = pty->pt_send;
346 			pty->pt_send = 0;
347 			mutex_exit(&pty->ptc_lock);
348 			error = ureadc((int)tmp, uio);
349 			uio->uio_offset = off;
350 			mutex_enter(&pty->ptc_lock);
351 			if (error) {
352 				pty->pt_send |= tmp;
353 				goto out;
354 			}
355 			if (pty->pt_send == 0)
356 				goto out;
357 		}
358 
359 		/*
360 		 * If there's a user-control packet waiting, pass the
361 		 * "ioctl" code back.
362 		 */
363 		while ((pty->pt_flags & (PF_UCNTL|PF_43UCNTL)) &&
364 		    pty->pt_ucntl) {
365 			tmp = pty->pt_ucntl;
366 			pty->pt_ucntl = 0;
367 			mutex_exit(&pty->ptc_lock);
368 			error = ureadc((int)tmp, uio);
369 			uio->uio_offset = off;
370 			mutex_enter(&pty->ptc_lock);
371 			if (error) {
372 				if (pty->pt_ucntl == 0)
373 					pty->pt_ucntl = tmp;
374 				goto out;
375 			}
376 			if (pty->pt_ucntl == 0)
377 				goto out;
378 		}
379 
380 		/*
381 		 * If there's any data waiting, pass it back.
382 		 */
383 		if ((q = pty->pt_ttycommon.t_writeq) != NULL &&
384 		    q->q_first != NULL &&
385 		    !(pty->pt_flags & PF_STOPPED)) {
386 			if (pty->pt_flags & (PF_PKT|PF_UCNTL|PF_43UCNTL)) {
387 				/*
388 				 * We're about to begin a move in packet or
389 				 * user-control mode; precede the data with a
390 				 * data header.
391 				 */
392 				mutex_exit(&pty->ptc_lock);
393 				error = ureadc(TIOCPKT_DATA, uio);
394 				uio->uio_offset = off;
395 				mutex_enter(&pty->ptc_lock);
396 				if (error != 0)
397 					goto out;
398 				if ((q = pty->pt_ttycommon.t_writeq) == NULL)
399 					goto out;
400 			}
401 			if ((bp = getq(q)) == NULL)
402 				goto out;
403 			while (uio->uio_resid > 0) {
404 				while ((cc = bp->b_wptr - bp->b_rptr) == 0) {
405 					nbp = bp->b_cont;
406 					freeb(bp);
407 					if ((bp = nbp) == NULL) {
408 						if ((q == NULL) ||
409 						    (bp = getq(q)) == NULL)
410 							goto out;
411 					}
412 				}
413 				cc = MIN(cc, uio->uio_resid);
414 				mutex_exit(&pty->ptc_lock);
415 				error = uiomove((caddr_t)bp->b_rptr,
416 				    cc, UIO_READ, uio);
417 				uio->uio_offset = off;
418 				mutex_enter(&pty->ptc_lock);
419 				if (error != 0) {
420 					freemsg(bp);
421 					goto out;
422 				}
423 				q = pty->pt_ttycommon.t_writeq;
424 				bp->b_rptr += cc;
425 			}
426 			/*
427 			 * Strip off zero-length blocks from the front of
428 			 * what we're putting back on the queue.
429 			 */
430 			while ((bp->b_wptr - bp->b_rptr) == 0) {
431 				nbp = bp->b_cont;
432 				freeb(bp);
433 				if ((bp = nbp) == NULL)
434 					goto out;	/* nothing left */
435 			}
436 			if (q != NULL)
437 				(void) putbq(q, bp);
438 			else
439 				freemsg(bp);
440 			goto out;
441 		}
442 
443 		/*
444 		 * If there's any TIOCSTI-stuffed characters, pass
445 		 * them back.  (They currently arrive after all output;
446 		 * is this correct?)
447 		 */
448 		if (pty->pt_flags&PF_UCNTL && pty->pt_stuffqfirst != NULL) {
449 			mutex_exit(&pty->ptc_lock);
450 			error = ureadc(TIOCSTI&0xff, uio);
451 			mutex_enter(&pty->ptc_lock);
452 			while (error == 0 &&
453 			    (bp = pty->pt_stuffqfirst) != NULL &&
454 			    uio->uio_resid > 0) {
455 				pty->pt_stuffqlen--;
456 				if ((pty->pt_stuffqfirst = bp->b_next) == NULL)
457 					pty->pt_stuffqlast = NULL;
458 				else
459 					pty->pt_stuffqfirst->b_prev = NULL;
460 				mutex_exit(&pty->ptc_lock);
461 				error = ureadc((int)*bp->b_rptr, uio);
462 				bp->b_next = bp->b_prev = NULL;
463 				freemsg(bp);
464 				mutex_enter(&pty->ptc_lock);
465 			}
466 			uio->uio_offset = off;
467 			goto out;
468 		}
469 
470 		/*
471 		 * There's no data available.
472 		 * We want to block until the subsidiary is open, and there's
473 		 * something to read; but if we lost the subsidiary or we're
474 		 * NBIO, then return the appropriate error instead.
475 		 * POSIX-style non-block has top billing and gives -1 with
476 		 * errno = EAGAIN, BSD-style comes next and gives -1 with
477 		 * errno = EWOULDBLOCK, SVID-style comes last and gives 0.
478 		 */
479 		if (pty->pt_flags & PF_SUBSIDGONE) {
480 			error = EIO;
481 			goto out;
482 		}
483 		if (uio->uio_fmode & FNONBLOCK) {
484 			error = EAGAIN;
485 			goto out;
486 		}
487 		if (pty->pt_flags & PF_NBIO) {
488 			error = EWOULDBLOCK;
489 			goto out;
490 		}
491 		if (uio->uio_fmode & FNDELAY)
492 			goto out;
493 
494 		if (pty->pt_flags & PF_WREAD)
495 			cv_broadcast(&pty->pt_cv_flags);
496 
497 		pty->pt_flags &= ~(PF_READ | PF_WREAD);
498 
499 
500 		if (!cv_wait_sig(&pty->pt_cv_writeq, &pty->ptc_lock)) {
501 			mutex_exit(&pty->ptc_lock);
502 			return (EINTR);
503 		}
504 	}
505 
506 out:
507 	if (pty->pt_flags & PF_WREAD)
508 		cv_broadcast(&pty->pt_cv_flags);
509 
510 	pty->pt_flags &= ~(PF_READ | PF_WREAD);
511 
512 	mutex_exit(&pty->ptc_lock);
513 	return (error);
514 }
515 
516 int
517 ptcwrite(dev_t dev, struct uio *uio, struct cred *cred)
518 {
519 	struct pty *pty = &pty_softc[getminor(dev)];
520 	queue_t *q;
521 	int written;
522 	mblk_t *mp;
523 	int fmode = 0;
524 	int error = 0;
525 
526 	off_t off;
527 	off = uio->uio_offset;
528 
529 	mutex_enter(&pty->ptc_lock);
530 
531 again:
532 	while (pty->pt_flags & PF_WRITE) {
533 		pty->pt_flags |= PF_WWRITE;
534 		cv_wait(&pty->pt_cv_flags, &pty->ptc_lock);
535 	}
536 
537 	pty->pt_flags |= PF_WRITE;
538 
539 	if ((q = pty->pt_ttycommon.t_readq) == NULL) {
540 
541 		/*
542 		 * Wait for subsidiary to open.
543 		 */
544 		if (pty->pt_flags & PF_SUBSIDGONE) {
545 			error = EIO;
546 			goto out;
547 		}
548 		if (uio->uio_fmode & FNONBLOCK) {
549 			error = EAGAIN;
550 			goto out;
551 		}
552 		if (pty->pt_flags & PF_NBIO) {
553 			error = EWOULDBLOCK;
554 			goto out;
555 		}
556 		if (uio->uio_fmode & FNDELAY)
557 			goto out;
558 
559 		if (pty->pt_flags & PF_WWRITE)
560 			cv_broadcast(&pty->pt_cv_flags);
561 
562 		pty->pt_flags &= ~(PF_WRITE | PF_WWRITE);
563 
564 		if (!cv_wait_sig(&pty->pt_cv_readq, &pty->ptc_lock)) {
565 			mutex_exit(&pty->ptc_lock);
566 			return (EINTR);
567 		}
568 
569 		goto again;
570 	}
571 
572 	/*
573 	 * If in remote mode, even zero-length writes generate messages.
574 	 */
575 	written = 0;
576 	if ((pty->pt_flags & PF_REMOTE) || uio->uio_resid > 0) {
577 		do {
578 			while (!canput(q)) {
579 				/*
580 				 * Wait for subsidiary's read queue to unclog.
581 				 */
582 				if (pty->pt_flags & PF_SUBSIDGONE) {
583 					error = EIO;
584 					goto out;
585 				}
586 				if (uio->uio_fmode & FNONBLOCK) {
587 					if (!written)
588 						error = EAGAIN;
589 					goto out;
590 				}
591 				if (pty->pt_flags & PF_NBIO) {
592 					if (!written)
593 						error = EWOULDBLOCK;
594 					goto out;
595 				}
596 				if (uio->uio_fmode & FNDELAY)
597 					goto out;
598 
599 				if (pty->pt_flags & PF_WWRITE)
600 					cv_broadcast(&pty->pt_cv_flags);
601 
602 				pty->pt_flags &= ~(PF_WRITE | PF_WWRITE);
603 
604 				if (!cv_wait_sig(&pty->pt_cv_readq,
605 				    &pty->ptc_lock)) {
606 					mutex_exit(&pty->ptc_lock);
607 					return (EINTR);
608 				}
609 
610 				while (pty->pt_flags & PF_WRITE) {
611 					pty->pt_flags |= PF_WWRITE;
612 					cv_wait(&pty->pt_cv_flags,
613 					    &pty->ptc_lock);
614 				}
615 
616 				pty->pt_flags |= PF_WRITE;
617 			}
618 
619 			if ((pty->pt_flags & PF_NBIO) &&
620 			    !(uio->uio_fmode & FNONBLOCK)) {
621 				fmode = uio->uio_fmode;
622 				uio->uio_fmode |= FNONBLOCK;
623 			}
624 
625 			error = makemsg(uio->uio_resid, uio, pty, &mp);
626 			uio->uio_offset = off;
627 			if (fmode)
628 				uio->uio_fmode = fmode;
629 			if (error != 0) {
630 				if (error != EAGAIN && error != EWOULDBLOCK)
631 					goto out;
632 				if (uio->uio_fmode & FNONBLOCK) {
633 					if (!written)
634 						error = EAGAIN;
635 					goto out;
636 				}
637 				if (pty->pt_flags & PF_NBIO) {
638 					if (!written)
639 						error = EWOULDBLOCK;
640 					goto out;
641 				}
642 				if (uio->uio_fmode & FNDELAY)
643 					goto out;
644 				cmn_err(CE_PANIC,
645 				    "ptcwrite: non null return from"
646 				    " makemsg");
647 			}
648 
649 			/*
650 			 * Check again for safety; since "uiomove" can take a
651 			 * page fault, there's no guarantee that "pt_flags"
652 			 * didn't change while it was happening.
653 			 */
654 			if ((q = pty->pt_ttycommon.t_readq) == NULL) {
655 				if (mp)
656 					freemsg(mp);
657 				error = EIO;
658 				goto out;
659 			}
660 			if (mp)
661 				(void) putq(q, mp);
662 			written = 1;
663 		} while (uio->uio_resid > 0);
664 	}
665 out:
666 	if (pty->pt_flags & PF_WWRITE)
667 		cv_broadcast(&pty->pt_cv_flags);
668 
669 	pty->pt_flags &= ~(PF_WRITE | PF_WWRITE);
670 
671 	mutex_exit(&pty->ptc_lock);
672 	return (error);
673 }
674 
675 #define	copy_in(data, d_arg) \
676 	if (copyin((caddr_t)data, &d_arg, sizeof (int)) != 0) \
677 		return (EFAULT)
678 
679 #define	copy_out(d_arg, data) \
680 	if (copyout(&d_arg, (caddr_t)data, sizeof (int)) != 0) \
681 		return (EFAULT)
682 
683 int
684 ptcioctl(dev_t dev, int cmd, intptr_t data, int flag, struct cred *cred,
685     int *rvalp)
686 {
687 	struct pty *pty = &pty_softc[getminor(dev)];
688 	queue_t *q;
689 	struct ttysize tty_arg;
690 	struct winsize win_arg;
691 	int d_arg;
692 	int err;
693 
694 	switch (cmd) {
695 
696 	case TIOCPKT:
697 		copy_in(data, d_arg);
698 		mutex_enter(&pty->ptc_lock);
699 		if (d_arg) {
700 			if (pty->pt_flags & (PF_UCNTL|PF_43UCNTL)) {
701 				mutex_exit(&pty->ptc_lock);
702 				return (EINVAL);
703 			}
704 			pty->pt_flags |= PF_PKT;
705 		} else
706 			pty->pt_flags &= ~PF_PKT;
707 		mutex_exit(&pty->ptc_lock);
708 		break;
709 
710 	case TIOCUCNTL:
711 		copy_in(data, d_arg);
712 		mutex_enter(&pty->ptc_lock);
713 		if (d_arg) {
714 			if (pty->pt_flags & (PF_PKT|PF_UCNTL)) {
715 				mutex_exit(&pty->ptc_lock);
716 				return (EINVAL);
717 			}
718 			pty->pt_flags |= PF_43UCNTL;
719 		} else
720 			pty->pt_flags &= ~PF_43UCNTL;
721 		mutex_exit(&pty->ptc_lock);
722 		break;
723 
724 	case TIOCTCNTL:
725 		copy_in(data, d_arg);
726 		mutex_enter(&pty->ptc_lock);
727 		if (d_arg) {
728 			if (pty->pt_flags & PF_PKT) {
729 				mutex_exit(&pty->ptc_lock);
730 				return (EINVAL);
731 			}
732 			pty->pt_flags |= PF_UCNTL;
733 		} else
734 			pty->pt_flags &= ~PF_UCNTL;
735 		mutex_exit(&pty->ptc_lock);
736 		break;
737 
738 	case TIOCREMOTE:
739 		copy_in(data, d_arg);
740 		mutex_enter(&pty->ptc_lock);
741 		if (d_arg) {
742 			if ((q = pty->pt_ttycommon.t_readq) != NULL)
743 				(void) putctl1(q, M_CTL, MC_NOCANON);
744 			pty->pt_flags |= PF_REMOTE;
745 		} else {
746 			if ((q = pty->pt_ttycommon.t_readq) != NULL)
747 				(void) putctl1(q, M_CTL, MC_DOCANON);
748 			pty->pt_flags &= ~PF_REMOTE;
749 		}
750 		mutex_exit(&pty->ptc_lock);
751 		break;
752 
753 	case TIOCSIGNAL:
754 		/*
755 		 * Blast a M_PCSIG message up the subsidiary stream; the
756 		 * signal number is the argument to the "ioctl".
757 		 */
758 		copy_in(data, d_arg);
759 		mutex_enter(&pty->ptc_lock);
760 		if ((q = pty->pt_ttycommon.t_readq) != NULL)
761 			(void) putctl1(q, M_PCSIG, (int)d_arg);
762 		mutex_exit(&pty->ptc_lock);
763 		break;
764 
765 	case FIONBIO:
766 		copy_in(data, d_arg);
767 		mutex_enter(&pty->ptc_lock);
768 		if (d_arg)
769 			pty->pt_flags |= PF_NBIO;
770 		else
771 			pty->pt_flags &= ~PF_NBIO;
772 		mutex_exit(&pty->ptc_lock);
773 		break;
774 
775 	case FIOASYNC:
776 		copy_in(data, d_arg);
777 		mutex_enter(&pty->ptc_lock);
778 		if (d_arg)
779 			pty->pt_flags |= PF_ASYNC;
780 		else
781 			pty->pt_flags &= ~PF_ASYNC;
782 		mutex_exit(&pty->ptc_lock);
783 		break;
784 
785 	/*
786 	 * These, at least, can work on the manager-side process
787 	 * group.
788 	 */
789 	case FIOGETOWN:
790 		mutex_enter(&pty->ptc_lock);
791 		d_arg = -pty->pt_pgrp;
792 		mutex_exit(&pty->ptc_lock);
793 		copy_out(d_arg, data);
794 		break;
795 
796 	case FIOSETOWN:
797 		copy_in(data, d_arg);
798 		mutex_enter(&pty->ptc_lock);
799 		pty->pt_pgrp = (short)(-d_arg);
800 		mutex_exit(&pty->ptc_lock);
801 		break;
802 
803 	case FIONREAD: {
804 		/*
805 		 * Return the total number of bytes of data in all messages in
806 		 * subsidiary write queue, which is manager read queue, unless
807 		 * a special message would be read.
808 		 */
809 		mblk_t *mp;
810 		size_t count = 0;
811 
812 		mutex_enter(&pty->ptc_lock);
813 		if (pty->pt_flags&(PF_PKT|PF_UCNTL) && pty->pt_send)
814 			count = 1;	/* will return 1 byte */
815 		else if ((pty->pt_flags & (PF_UCNTL|PF_43UCNTL)) &&
816 		    pty->pt_ucntl)
817 			count = 1;	/* will return 1 byte */
818 		else if ((q = pty->pt_ttycommon.t_writeq) != NULL &&
819 		    q->q_first != NULL && !(pty->pt_flags & PF_STOPPED)) {
820 			/*
821 			 * Will return whatever data is queued up.
822 			 */
823 			for (mp = q->q_first; mp != NULL; mp = mp->b_next)
824 				count += msgdsize(mp);
825 		} else if ((pty->pt_flags & PF_UCNTL) &&
826 		    pty->pt_stuffqfirst != NULL) {
827 			/*
828 			 * Will return STI'ed data.
829 			 */
830 			count = pty->pt_stuffqlen + 1;
831 		}
832 
833 		/*
834 		 * Under LP64 we could have more than INT_MAX bytes to report,
835 		 * but the interface is defined in terms of int, so we cap it.
836 		 */
837 		d_arg = MIN(count, INT_MAX);
838 		mutex_exit(&pty->ptc_lock);
839 		copy_out(d_arg, data);
840 		break;
841 	}
842 
843 	case TIOCSWINSZ:
844 		/*
845 		 * Unfortunately, TIOCSWINSZ and the old TIOCSSIZE "ioctl"s
846 		 * share the same code.  If the upper 16 bits of the number
847 		 * of lines is non-zero, it was probably a TIOCSWINSZ,
848 		 * with both "ws_row" and "ws_col" non-zero.
849 		 */
850 		if (copyin((caddr_t)data,
851 		    &tty_arg, sizeof (struct ttysize)) != 0)
852 			return (EFAULT);
853 
854 		if ((tty_arg.ts_lines & 0xffff0000) != 0) {
855 			/*
856 			 * It's a TIOCSWINSZ.
857 			 */
858 			win_arg = *(struct winsize *)&tty_arg;
859 
860 			mutex_enter(&pty->ptc_lock);
861 			/*
862 			 * If the window size changed, send a SIGWINCH.
863 			 */
864 			if (bcmp(&pty->pt_ttycommon.t_size,
865 			    &win_arg, sizeof (struct winsize))) {
866 				pty->pt_ttycommon.t_size = win_arg;
867 				if ((q = pty->pt_ttycommon.t_readq) != NULL)
868 					(void) putctl1(q, M_PCSIG, SIGWINCH);
869 			}
870 			mutex_exit(&pty->ptc_lock);
871 			break;
872 		}
873 		/* FALLTHROUGH */
874 
875 	case TIOCSSIZE:
876 		if (copyin((caddr_t)data,
877 		    &tty_arg, sizeof (struct ttysize)) != 0)
878 			return (EFAULT);
879 		mutex_enter(&pty->ptc_lock);
880 		pty->pt_ttycommon.t_size.ws_row = (ushort_t)tty_arg.ts_lines;
881 		pty->pt_ttycommon.t_size.ws_col = (ushort_t)tty_arg.ts_cols;
882 		pty->pt_ttycommon.t_size.ws_xpixel = 0;
883 		pty->pt_ttycommon.t_size.ws_ypixel = 0;
884 		mutex_exit(&pty->ptc_lock);
885 		break;
886 
887 	case TIOCGWINSZ:
888 		mutex_enter(&pty->ptc_lock);
889 		win_arg = pty->pt_ttycommon.t_size;
890 		mutex_exit(&pty->ptc_lock);
891 		if (copyout(&win_arg, (caddr_t)data,
892 		    sizeof (struct winsize)) != 0)
893 			return (EFAULT);
894 		break;
895 
896 	case TIOCGSIZE:
897 		mutex_enter(&pty->ptc_lock);
898 		tty_arg.ts_lines = pty->pt_ttycommon.t_size.ws_row;
899 		tty_arg.ts_cols = pty->pt_ttycommon.t_size.ws_col;
900 		mutex_exit(&pty->ptc_lock);
901 		if (copyout(&tty_arg, (caddr_t)data,
902 		    sizeof (struct ttysize)) != 0)
903 			return (EFAULT);
904 		break;
905 
906 	/*
907 	 * XXX These should not be here.  The only reason why an
908 	 * "ioctl" on the manager side should get the
909 	 * subsidiary side's process group is so that the process on
910 	 * the manager side can send a signal to the subsidiary
911 	 * side's process group; however, this is better done
912 	 * with TIOCSIGNAL, both because it doesn't require us
913 	 * to know about the subsidiary side's process group and because
914 	 * the manager side process may not have permission to
915 	 * send that signal to the entire process group.
916 	 *
917 	 * However, since vanilla 4BSD doesn't provide TIOCSIGNAL,
918 	 * we can't just get rid of them.
919 	 */
920 	case TIOCGPGRP:
921 	case TIOCSPGRP:
922 	/*
923 	 * This is amazingly disgusting, but the stupid semantics of
924 	 * 4BSD pseudo-ttys makes us do it.  If we do one of these guys
925 	 * on the manager side, it really applies to the subsidiary-side
926 	 * stream.  It should NEVER have been possible to do ANY sort
927 	 * of tty operations on the manager side, but it's too late
928 	 * to fix that now.  However, we won't waste our time implementing
929 	 * anything that the original pseudo-tty driver didn't handle.
930 	 */
931 	case TIOCGETP:
932 	case TIOCSETP:
933 	case TIOCSETN:
934 	case TIOCGETC:
935 	case TIOCSETC:
936 	case TIOCGLTC:
937 	case TIOCSLTC:
938 	case TIOCLGET:
939 	case TIOCLSET:
940 	case TIOCLBIS:
941 	case TIOCLBIC:
942 		mutex_enter(&pty->ptc_lock);
943 		if (pty->pt_vnode == NULL) {
944 			mutex_exit(&pty->ptc_lock);
945 			return (EIO);
946 		}
947 		pty->pt_flags |= PF_IOCTL;
948 		mutex_exit(&pty->ptc_lock);
949 		err = strioctl(pty->pt_vnode, cmd, data, flag,
950 		    U_TO_K, cred, rvalp);
951 		mutex_enter(&pty->ptc_lock);
952 		if (pty->pt_flags & PF_WAIT)
953 			cv_signal(&pty->pt_cv_flags);
954 		pty->pt_flags &= ~(PF_IOCTL|PF_WAIT);
955 		mutex_exit(&pty->ptc_lock);
956 		return (err);
957 
958 	default:
959 		return (ENOTTY);
960 	}
961 
962 	return (0);
963 }
964 
965 
966 int
967 ptcpoll(dev_t dev, short events, int anyyet, short *reventsp,
968     struct pollhead **phpp)
969 {
970 	struct pty *pty = &pty_softc[getminor(dev)];
971 	pollhead_t *php = &ptcph;
972 	queue_t *q;
973 	int pos = 0;
974 
975 	if (polllock(php, &pty->ptc_lock) != 0) {
976 		*reventsp = POLLNVAL;
977 		return (0);
978 	}
979 
980 	ASSERT(MUTEX_HELD(&pty->ptc_lock));
981 
982 	*reventsp = 0;
983 	if (pty->pt_flags & PF_SUBSIDGONE) {
984 		if (events & (POLLIN|POLLRDNORM))
985 			*reventsp |= (events & (POLLIN|POLLRDNORM));
986 		if (events & (POLLOUT|POLLWRNORM))
987 			*reventsp |= (events & (POLLOUT|POLLWRNORM));
988 		mutex_exit(&pty->ptc_lock);
989 		/*
990 		 * A non NULL pollhead pointer should be returned in case
991 		 * user polls for 0 events.
992 		 */
993 		*phpp = !anyyet && !*reventsp ? php : (struct pollhead *)NULL;
994 		return (0);
995 	}
996 	if (events & (POLLIN|POLLRDNORM)) {
997 		if ((q = pty->pt_ttycommon.t_writeq) != NULL &&
998 		    q->q_first != NULL && !(pty->pt_flags & PF_STOPPED)) {
999 			/*
1000 			 * Regular data is available.
1001 			 */
1002 			*reventsp |= (events & (POLLIN|POLLRDNORM));
1003 			pos++;
1004 		}
1005 		if (pty->pt_flags & (PF_PKT|PF_UCNTL) && pty->pt_send) {
1006 			/*
1007 			 * A control packet is available.
1008 			 */
1009 			*reventsp |= (events & (POLLIN|POLLRDNORM));
1010 			pos++;
1011 		}
1012 		if ((pty->pt_flags & PF_UCNTL) &&
1013 		    (pty->pt_ucntl || pty->pt_stuffqfirst != NULL)) {
1014 			/*
1015 			 * "ioctl" or TIOCSTI data is available.
1016 			 */
1017 			*reventsp |= (events & (POLLIN|POLLRDNORM));
1018 			pos++;
1019 		}
1020 		if ((pty->pt_flags & PF_43UCNTL) && pty->pt_ucntl) {
1021 			*reventsp |= (events & (POLLIN|POLLRDNORM));
1022 			pos++;
1023 		}
1024 	}
1025 	if (events & (POLLOUT|POLLWRNORM)) {
1026 		if ((q = pty->pt_ttycommon.t_readq) != NULL &&
1027 		    canput(q)) {
1028 			*reventsp |= (events & (POLLOUT|POLLWRNORM));
1029 			pos++;
1030 		}
1031 	}
1032 	if (events & POLLERR) {
1033 		*reventsp |= POLLERR;
1034 		pos++;
1035 	}
1036 	if (events == 0) {	/* "exceptional conditions" */
1037 		if (((pty->pt_flags & (PF_PKT|PF_UCNTL)) && pty->pt_send) ||
1038 		    ((pty->pt_flags & PF_UCNTL) &&
1039 		    (pty->pt_ucntl || pty->pt_stuffqfirst != NULL))) {
1040 			pos++;
1041 		}
1042 		if ((pty->pt_flags & PF_43UCNTL) && pty->pt_ucntl) {
1043 			pos++;
1044 		}
1045 	}
1046 
1047 	/*
1048 	 * Arrange to have poll waken up when event occurs.
1049 	 * if (!anyyet)
1050 	 */
1051 	if (!pos) {
1052 		*phpp = php;
1053 		*reventsp = 0;
1054 	}
1055 
1056 	mutex_exit(&pty->ptc_lock);
1057 	return (0);
1058 }
1059 
1060 void
1061 gsignal(int pid, int sig)
1062 {
1063 	procset_t set;
1064 	sigsend_t v;
1065 
1066 	bzero(&v, sizeof (v));
1067 	v.sig = sig;
1068 	v.perm = 0;
1069 	v.checkperm = 1;
1070 	v.value.sival_ptr = NULL;
1071 
1072 	setprocset(&set, POP_AND, P_PGID, -pid, P_ALL, P_MYID);
1073 	(void) sigsendset(&set, &v);
1074 }
1075 
1076 static int
1077 makemsg(ssize_t count, struct uio *uiop, struct pty *pty, mblk_t **mpp)
1078 {
1079 	int pri = BPRI_LO;
1080 	int error;
1081 	mblk_t *bp = NULL;
1082 
1083 	ASSERT(MUTEX_HELD(&pty->ptc_lock));
1084 
1085 	*mpp = NULL;
1086 
1087 	/*
1088 	 * Create data part of message, if any.
1089 	 */
1090 	if (count >= 0) {
1091 		if ((bp = allocb(count, pri)) == NULL)
1092 			return (ENOSR);
1093 
1094 		mutex_exit(&pty->ptc_lock);
1095 		error = uiomove((caddr_t)bp->b_wptr, count, UIO_WRITE, uiop);
1096 		mutex_enter(&pty->ptc_lock);
1097 		if (error) {
1098 			freeb(bp);
1099 			return (error);
1100 		}
1101 
1102 		bp->b_wptr += count;
1103 	}
1104 
1105 	*mpp = bp;
1106 	return (0);
1107 }
1108