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1 /*
2 * Copyright (c) 1997-2019 Apple Inc. All rights reserved.
3 *
4 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5 *
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. The rights granted to you under the License
10 * may not be used to create, or enable the creation or redistribution of,
11 * unlawful or unlicensed copies of an Apple operating system, or to
12 * circumvent, violate, or enable the circumvention or violation of, any
13 * terms of an Apple operating system software license agreement.
14 *
15 * Please obtain a copy of the License at
16 * http://www.opensource.apple.com/apsl/ and read it before using this file.
17 *
18 * The Original Code and all software distributed under the License are
19 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23 * Please see the License for the specific language governing rights and
24 * limitations under the License.
25 *
26 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27 */
28 /*
29 * Copyright (c) 1982, 1986, 1989, 1993
30 * The Regents of the University of California. All rights reserved.
31 *
32 * Redistribution and use in source and binary forms, with or without
33 * modification, are permitted provided that the following conditions
34 * are met:
35 * 1. Redistributions of source code must retain the above copyright
36 * notice, this list of conditions and the following disclaimer.
37 * 2. Redistributions in binary form must reproduce the above copyright
38 * notice, this list of conditions and the following disclaimer in the
39 * documentation and/or other materials provided with the distribution.
40 * 3. All advertising materials mentioning features or use of this software
41 * must display the following acknowledgement:
42 * This product includes software developed by the University of
43 * California, Berkeley and its contributors.
44 * 4. Neither the name of the University nor the names of its contributors
45 * may be used to endorse or promote products derived from this software
46 * without specific prior written permission.
47 *
48 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
49 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
50 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
51 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
52 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
53 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
54 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
55 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
56 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
57 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
58 * SUCH DAMAGE.
59 *
60 * @(#)tty_pty.c 8.4 (Berkeley) 2/20/95
61 */
62
63 /*
64 * Pseudo-teletype Driver
65 * (Actually two drivers, requiring two entries in 'cdevsw')
66 */
67 #include "pty.h" /* XXX */
68
69 #include <sys/param.h>
70 #include <sys/systm.h>
71 #include <sys/ioctl.h>
72 #include <sys/proc_internal.h>
73 #include <sys/kauth.h>
74 #include <sys/tty.h>
75 #include <sys/conf.h>
76 #include <sys/file_internal.h>
77 #include <sys/uio_internal.h>
78 #include <sys/kernel.h>
79 #include <sys/vnode.h>
80 #include <sys/user.h>
81 #include <sys/signalvar.h>
82 #include <sys/sysctl.h>
83 #include <miscfs/devfs/devfs.h>
84 #include <miscfs/devfs/devfsdefs.h> /* DEVFS_LOCK()/DEVFS_UNLOCK() */
85 #include <libkern/section_keywords.h>
86
87 #if CONFIG_MACF
88 #include <security/mac_framework.h>
89 #endif
90
91 #include "tty_dev.h"
92
93 /*
94 * Forward declarations
95 */
96 int ptmx_init(int n_ptys);
97 static struct ptmx_ioctl *ptmx_get_ioctl(int minor, int open_flag);
98 static int ptmx_free_ioctl(int minor, int open_flag);
99 static int ptmx_get_name(int minor, char *buffer, size_t size);
100 static void ptsd_revoke_knotes(int minor, struct tty *tp);
101
102 extern d_open_t ptsopen;
103 extern d_close_t ptsclose;
104 extern d_read_t ptsread;
105 extern d_write_t ptswrite;
106 extern d_ioctl_t ptyioctl;
107 extern d_stop_t ptsstop;
108 extern d_reset_t ptsreset;
109 extern d_select_t ptsselect;
110
111 extern d_open_t ptcopen;
112 extern d_close_t ptcclose;
113 extern d_read_t ptcread;
114 extern d_write_t ptcwrite;
115 extern d_stop_t ptcstop;
116 extern d_reset_t ptcreset;
117 extern d_select_t ptcselect;
118
119 static int ptmx_major; /* dynamically assigned major number */
120 static struct cdevsw ptmx_cdev = {
121 .d_open = ptcopen,
122 .d_close = ptcclose,
123 .d_read = ptcread,
124 .d_write = ptcwrite,
125 .d_ioctl = ptyioctl,
126 .d_stop = ptcstop,
127 .d_reset = ptcreset,
128 .d_ttys = NULL,
129 .d_select = ptcselect,
130 .d_mmap = eno_mmap,
131 .d_strategy = eno_strat,
132 .d_reserved_1 = eno_getc,
133 .d_reserved_2 = eno_putc,
134 .d_type = D_TTY
135 };
136
137 static int ptsd_major; /* dynamically assigned major number */
138 static struct cdevsw ptsd_cdev = {
139 .d_open = ptsopen,
140 .d_close = ptsclose,
141 .d_read = ptsread,
142 .d_write = ptswrite,
143 .d_ioctl = ptyioctl,
144 .d_stop = ptsstop,
145 .d_reset = ptsreset,
146 .d_ttys = NULL,
147 .d_select = ptsselect,
148 .d_mmap = eno_mmap,
149 .d_strategy = eno_strat,
150 .d_reserved_1 = eno_getc,
151 .d_reserved_2 = eno_putc,
152 .d_type = D_TTY
153 };
154
155 /*
156 * ptmx == /dev/ptmx
157 * ptsd == /dev/pts[0123456789]{3}
158 */
159 #define PTMX_TEMPLATE "ptmx"
160 #define PTSD_TEMPLATE "ttys%03d"
161
162 /*
163 * System-wide limit on the max number of cloned ptys
164 */
165 #define PTMX_MAX_DEFAULT 511 /* 512 entries */
166 #define PTMX_MAX_HARD 999 /* 1000 entries, due to PTSD_TEMPLATE */
167
168 static int ptmx_max = PTMX_MAX_DEFAULT; /* default # of clones we allow */
169
170 /* Range enforcement for the sysctl */
171 static int
172 sysctl_ptmx_max(__unused struct sysctl_oid *oidp, __unused void *arg1,
173 __unused int arg2, struct sysctl_req *req)
174 {
175 int new_value, changed;
176 int error = sysctl_io_number(req, ptmx_max, sizeof(int), &new_value, &changed);
177 if (changed) {
178 if (new_value > 0 && new_value <= PTMX_MAX_HARD) {
179 ptmx_max = new_value;
180 } else {
181 error = EINVAL;
182 }
183 }
184 return error;
185 }
186
187 SYSCTL_NODE(_kern, KERN_TTY, tty, CTLFLAG_RW | CTLFLAG_LOCKED, 0, "TTY");
188 SYSCTL_PROC(_kern_tty, OID_AUTO, ptmx_max,
189 CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_LOCKED,
190 &ptmx_max, 0, &sysctl_ptmx_max, "I", "ptmx_max");
191
192 static int ptmx_clone(dev_t dev, int minor);
193
194 static struct tty_dev_t _ptmx_driver;
195
196 int
197 ptmx_init( __unused int config_count)
198 {
199 /*
200 * We start looking at slot 10, since there are inits that will
201 * stomp explicit slots (e.g. vndevice stomps 1) below that.
202 */
203
204 /* Get a major number for /dev/ptmx */
205 if ((ptmx_major = cdevsw_add(-15, &ptmx_cdev)) == -1) {
206 printf("ptmx_init: failed to obtain /dev/ptmx major number\n");
207 return ENOENT;
208 }
209
210 if (cdevsw_setkqueueok(ptmx_major, &ptmx_cdev, CDEVSW_IS_PTC) == -1) {
211 panic("Failed to set flags on ptmx cdevsw entry.");
212 }
213
214 /* Get a major number for /dev/pts/nnn */
215 if ((ptsd_major = cdevsw_add(-15, &ptsd_cdev)) == -1) {
216 (void)cdevsw_remove(ptmx_major, &ptmx_cdev);
217 printf("ptmx_init: failed to obtain /dev/ptmx major number\n");
218 return ENOENT;
219 }
220
221 if (cdevsw_setkqueueok(ptsd_major, &ptsd_cdev, CDEVSW_IS_PTS) == -1) {
222 panic("Failed to set flags on ptmx cdevsw entry.");
223 }
224
225 /* Create the /dev/ptmx device {<major>,0} */
226 (void)devfs_make_node_clone(makedev(ptmx_major, 0),
227 DEVFS_CHAR, UID_ROOT, GID_TTY, 0666,
228 ptmx_clone, PTMX_TEMPLATE);
229
230 _ptmx_driver.master = ptmx_major;
231 _ptmx_driver.slave = ptsd_major;
232 _ptmx_driver.fix_7828447 = 1;
233 _ptmx_driver.fix_7070978 = 1;
234 #if CONFIG_MACF
235 _ptmx_driver.mac_notify = 1;
236 #endif
237 _ptmx_driver.open = &ptmx_get_ioctl;
238 _ptmx_driver.free = &ptmx_free_ioctl;
239 _ptmx_driver.name = &ptmx_get_name;
240 _ptmx_driver.revoke = &ptsd_revoke_knotes;
241 tty_dev_register(&_ptmx_driver);
242
243 return 0;
244 }
245
246
247 static struct _ptmx_ioctl_state {
248 struct ptmx_ioctl **pis_ioctl_list; /* pointer vector */
249 int pis_total; /* total slots */
250 int pis_free; /* free slots */
251 } _state;
252 #define PTMX_GROW_VECTOR 16 /* Grow by this many slots at a time */
253
254 /*
255 * Given a minor number, return the corresponding structure for that minor
256 * number. If there isn't one, and the create flag is specified, we create
257 * one if possible.
258 *
259 * Parameters: minor Minor number of ptmx device
260 * open_flag PF_OPEN_M First open of master
261 * PF_OPEN_S First open of slave
262 * 0 Just want ioctl struct
263 *
264 * Returns: NULL Did not exist/could not create
265 * !NULL structure corresponding minor number
266 *
267 * Locks: tty_lock() on ptmx_ioctl->pt_tty NOT held on entry or exit.
268 */
269 static struct ptmx_ioctl *
270 ptmx_get_ioctl(int minor, int open_flag)
271 {
272 struct ptmx_ioctl *new_ptmx_ioctl;
273
274 if (open_flag & PF_OPEN_M) {
275 /*
276 * If we are about to allocate more memory, but we have
277 * already hit the administrative limit, then fail the
278 * operation.
279 *
280 * Note: Subtract free from total when making this
281 * check to allow unit increments, rather than
282 * snapping to the nearest PTMX_GROW_VECTOR...
283 */
284 if ((_state.pis_total - _state.pis_free) >= ptmx_max) {
285 return NULL;
286 }
287
288 MALLOC(new_ptmx_ioctl, struct ptmx_ioctl *, sizeof(struct ptmx_ioctl), M_TTYS, M_WAITOK | M_ZERO);
289 if (new_ptmx_ioctl == NULL) {
290 return NULL;
291 }
292
293 if ((new_ptmx_ioctl->pt_tty = ttymalloc()) == NULL) {
294 FREE(new_ptmx_ioctl, M_TTYS);
295 return NULL;
296 }
297
298 /*
299 * Hold the DEVFS_LOCK() over this whole operation; devfs
300 * itself does this over malloc/free as well, so this should
301 * be safe to do. We hold it longer than we want to, but
302 * doing so avoids a reallocation race on the minor number.
303 */
304 DEVFS_LOCK();
305 /* Need to allocate a larger vector? */
306 if (_state.pis_free == 0) {
307 struct ptmx_ioctl **new_pis_ioctl_list;
308 struct ptmx_ioctl **old_pis_ioctl_list = NULL;
309
310 /* Yes. */
311 MALLOC(new_pis_ioctl_list, struct ptmx_ioctl **, sizeof(struct ptmx_ioctl *) * (_state.pis_total + PTMX_GROW_VECTOR), M_TTYS, M_WAITOK | M_ZERO);
312 if (new_pis_ioctl_list == NULL) {
313 ttyfree(new_ptmx_ioctl->pt_tty);
314 DEVFS_UNLOCK();
315 FREE(new_ptmx_ioctl, M_TTYS);
316 return NULL;
317 }
318
319 /* If this is not the first time, copy the old over */
320 bcopy(_state.pis_ioctl_list, new_pis_ioctl_list, sizeof(struct ptmx_ioctl *) * _state.pis_total);
321 old_pis_ioctl_list = _state.pis_ioctl_list;
322 _state.pis_ioctl_list = new_pis_ioctl_list;
323 _state.pis_free += PTMX_GROW_VECTOR;
324 _state.pis_total += PTMX_GROW_VECTOR;
325 if (old_pis_ioctl_list) {
326 FREE(old_pis_ioctl_list, M_TTYS);
327 }
328 }
329
330 /* is minor in range now? */
331 if (minor < 0 || minor >= _state.pis_total) {
332 ttyfree(new_ptmx_ioctl->pt_tty);
333 DEVFS_UNLOCK();
334 FREE(new_ptmx_ioctl, M_TTYS);
335 return NULL;
336 }
337
338 if (_state.pis_ioctl_list[minor] != NULL) {
339 ttyfree(new_ptmx_ioctl->pt_tty);
340 DEVFS_UNLOCK();
341 FREE(new_ptmx_ioctl, M_TTYS);
342
343 /* Special error value so we know to redrive the open, we've been raced */
344 return (struct ptmx_ioctl*)-1;
345 }
346
347 /* Vector is large enough; grab a new ptmx_ioctl */
348
349 /* Now grab a free slot... */
350 _state.pis_ioctl_list[minor] = new_ptmx_ioctl;
351
352 /* reduce free count */
353 _state.pis_free--;
354
355 _state.pis_ioctl_list[minor]->pt_flags |= PF_OPEN_M;
356 DEVFS_UNLOCK();
357
358 /* Create the /dev/ttysXXX device {<major>,XXX} */
359 _state.pis_ioctl_list[minor]->pt_devhandle = devfs_make_node(
360 makedev(ptsd_major, minor),
361 DEVFS_CHAR, UID_ROOT, GID_TTY, 0620,
362 PTSD_TEMPLATE, minor);
363 if (_state.pis_ioctl_list[minor]->pt_devhandle == NULL) {
364 printf("devfs_make_node() call failed for ptmx_get_ioctl()!!!!\n");
365 }
366 }
367
368 if (minor < 0 || minor >= _state.pis_total) {
369 return NULL;
370 }
371
372 return _state.pis_ioctl_list[minor];
373 }
374
375 /*
376 * Locks: tty_lock() of old_ptmx_ioctl->pt_tty NOT held for this call.
377 */
378 static int
379 ptmx_free_ioctl(int minor, int open_flag)
380 {
381 struct ptmx_ioctl *old_ptmx_ioctl = NULL;
382
383 DEVFS_LOCK();
384
385 if (minor < 0 || minor >= _state.pis_total) {
386 DEVFS_UNLOCK();
387 return -1;
388 }
389
390 _state.pis_ioctl_list[minor]->pt_flags &= ~(open_flag);
391
392 /*
393 * Was this the last close? We will recognize it because we only get
394 * a notification on the last close of a device, and we will have
395 * cleared both the master and the slave open bits in the flags.
396 */
397 if (!(_state.pis_ioctl_list[minor]->pt_flags & (PF_OPEN_M | PF_OPEN_S))) {
398 /* Mark as free so it can be reallocated later */
399 old_ptmx_ioctl = _state.pis_ioctl_list[minor];
400 _state.pis_ioctl_list[minor] = NULL;
401 _state.pis_free++;
402 }
403 DEVFS_UNLOCK();
404
405 /* Free old after dropping lock */
406 if (old_ptmx_ioctl != NULL) {
407 /*
408 * XXX See <rdar://5348651> and <rdar://4854638>
409 *
410 * XXX Conditional to be removed when/if tty/pty reference
411 * XXX counting and mutex implemented.
412 */
413 if (old_ptmx_ioctl->pt_devhandle != NULL) {
414 devfs_remove(old_ptmx_ioctl->pt_devhandle);
415 }
416 ttyfree(old_ptmx_ioctl->pt_tty);
417 FREE(old_ptmx_ioctl, M_TTYS);
418 }
419
420 return 0; /* Success */
421 }
422
423 static int
424 ptmx_get_name(int minor, char *buffer, size_t size)
425 {
426 return snprintf(buffer, size, "/dev/" PTSD_TEMPLATE, minor);
427 }
428
429
430
431 /*
432 * Given the dev entry that's being opened, we clone the device. This driver
433 * doesn't actually use the dev entry, since we alreaqdy know who we are by
434 * being called from this code. This routine is a callback registered from
435 * devfs_make_node_clone() in ptmx_init(); it's purpose is to provide a new
436 * minor number, or to return -1, if one can't be provided.
437 *
438 * Parameters: dev The device we are cloning from
439 *
440 * Returns: >= 0 A new minor device number
441 * -1 Error: ENOMEM ("Can't alloc device")
442 *
443 * NOTE: Called with DEVFS_LOCK() held
444 */
445 static int
446 ptmx_clone(__unused dev_t dev, int action)
447 {
448 int i;
449
450 if (action == DEVFS_CLONE_ALLOC) {
451 /* First one */
452 if (_state.pis_total == 0) {
453 return 0;
454 }
455
456 /*
457 * Note: We can add hinting on free slots, if this linear search
458 * ends up being a performance bottleneck...
459 */
460 for (i = 0; i < _state.pis_total; i++) {
461 if (_state.pis_ioctl_list[i] == NULL) {
462 break;
463 }
464 }
465
466 /*
467 * XXX We fall off the end here; if we did this twice at the
468 * XXX same time, we could return the same minor to two
469 * XXX callers; we should probably exand the pointer vector
470 * XXX here, but I need more information on the MALLOC/FREE
471 * XXX locking to ensure against a deadlock. Maybe we can
472 * XXX just high watermark it at 1/2 of PTMX_GROW_VECTOR?
473 * XXX That would require returning &minor as implict return
474 * XXX and an error code ("EAGAIN/ERESTART") or 0 as our
475 * XXX explicit return.
476 */
477
478 return i; /* empty slot or next slot */
479 }
480 return -1;
481 }
482
483
484 /*
485 * kqueue support.
486 */
487 int ptsd_kqfilter(dev_t dev, struct knote *kn);
488 static void ptsd_kqops_detach(struct knote *);
489 static int ptsd_kqops_event(struct knote *, long);
490 static int ptsd_kqops_touch(struct knote *kn, struct kevent_qos_s *kev);
491 static int ptsd_kqops_process(struct knote *kn, struct kevent_qos_s *kev);
492
493 SECURITY_READ_ONLY_EARLY(struct filterops) ptsd_kqops = {
494 .f_isfd = 1,
495 /* attach is handled by ptsd_kqfilter -- the dev node must be passed in */
496 .f_detach = ptsd_kqops_detach,
497 .f_event = ptsd_kqops_event,
498 .f_touch = ptsd_kqops_touch,
499 .f_process = ptsd_kqops_process,
500 };
501
502 /*
503 * In the normal case, by the time the driver_close() routine is called
504 * on the slave, all knotes have been detached. However in the revoke(2)
505 * case, the driver's close routine is called while there are knotes active
506 * that reference the handlers below. And we have no obvious means to
507 * reach from the driver out to the kqueue's that reference them to get
508 * them to stop.
509 */
510
511 static void
512 ptsd_kqops_detach(struct knote *kn)
513 {
514 struct tty *tp = kn->kn_hook;
515
516 tty_lock(tp);
517
518 /*
519 * Only detach knotes from open ttys -- ttyclose detaches all knotes
520 * under the lock and unsets TS_ISOPEN.
521 */
522 if (tp->t_state & TS_ISOPEN) {
523 switch (kn->kn_filter) {
524 case EVFILT_READ:
525 KNOTE_DETACH(&tp->t_rsel.si_note, kn);
526 break;
527 case EVFILT_WRITE:
528 KNOTE_DETACH(&tp->t_wsel.si_note, kn);
529 break;
530 default:
531 panic("invalid knote %p detach, filter: %d", kn, kn->kn_filter);
532 break;
533 }
534 }
535
536 tty_unlock(tp);
537 ttyfree(tp);
538 }
539
540 static int
541 ptsd_kqops_common(struct knote *kn, struct kevent_qos_s *kev, struct tty *tp)
542 {
543 int retval = 0;
544 int64_t data = 0;
545
546 TTY_LOCK_OWNED(tp);
547
548 switch (kn->kn_filter) {
549 case EVFILT_READ:
550 /*
551 * ttnread can change the tty state,
552 * hence must be done upfront, before any other check.
553 */
554 data = ttnread(tp);
555 retval = (data > 0);
556 break;
557
558 case EVFILT_WRITE:
559 if ((tp->t_outq.c_cc <= tp->t_lowat) &&
560 (tp->t_state & TS_CONNECTED)) {
561 data = tp->t_outq.c_cn - tp->t_outq.c_cc;
562 retval = 1;
563 }
564 break;
565
566 default:
567 panic("ptsd kevent: unexpected filter: %d, kn = %p, tty = %p",
568 kn->kn_filter, kn, tp);
569 break;
570 }
571
572 if (tp->t_state & TS_ZOMBIE) {
573 kn->kn_flags |= EV_EOF;
574 }
575 if (kn->kn_flags & EV_EOF) {
576 retval = 1;
577 }
578 if (retval && kev) {
579 knote_fill_kevent(kn, kev, data);
580 }
581 return retval;
582 }
583
584 static int
585 ptsd_kqops_event(struct knote *kn, long hint)
586 {
587 struct tty *tp = kn->kn_hook;
588 int ret;
589
590 TTY_LOCK_OWNED(tp);
591
592 if (hint & NOTE_REVOKE) {
593 kn->kn_flags |= EV_EOF | EV_ONESHOT;
594 ret = 1;
595 } else {
596 ret = ptsd_kqops_common(kn, NULL, tp);
597 }
598
599 return ret;
600 }
601
602 static int
603 ptsd_kqops_touch(struct knote *kn, struct kevent_qos_s *kev)
604 {
605 struct tty *tp = kn->kn_hook;
606 int ret;
607
608 tty_lock(tp);
609
610 /* accept new kevent state */
611 kn->kn_sfflags = kev->fflags;
612 kn->kn_sdata = kev->data;
613
614 /* recapture fired state of knote */
615 ret = ptsd_kqops_common(kn, NULL, tp);
616
617 tty_unlock(tp);
618
619 return ret;
620 }
621
622 static int
623 ptsd_kqops_process(struct knote *kn, struct kevent_qos_s *kev)
624 {
625 struct tty *tp = kn->kn_hook;
626 int ret;
627
628 tty_lock(tp);
629 ret = ptsd_kqops_common(kn, kev, tp);
630 tty_unlock(tp);
631
632 return ret;
633 }
634
635 int
636 ptsd_kqfilter(dev_t dev, struct knote *kn)
637 {
638 struct tty *tp = NULL;
639 struct ptmx_ioctl *pti = NULL;
640 int ret;
641
642 /* make sure we're talking about the right device type */
643 if (cdevsw[major(dev)].d_open != ptsopen) {
644 knote_set_error(kn, ENODEV);
645 return 0;
646 }
647
648 if ((pti = ptmx_get_ioctl(minor(dev), 0)) == NULL) {
649 knote_set_error(kn, ENXIO);
650 return 0;
651 }
652
653 tp = pti->pt_tty;
654 tty_lock(tp);
655
656 assert(tp->t_state & TS_ISOPEN);
657
658 kn->kn_filtid = EVFILTID_PTSD;
659 /* the tty will be freed when detaching the knote */
660 ttyhold(tp);
661 kn->kn_hook = tp;
662
663 switch (kn->kn_filter) {
664 case EVFILT_READ:
665 KNOTE_ATTACH(&tp->t_rsel.si_note, kn);
666 break;
667 case EVFILT_WRITE:
668 KNOTE_ATTACH(&tp->t_wsel.si_note, kn);
669 break;
670 default:
671 panic("ptsd kevent: unexpected filter: %d, kn = %p, tty = %p",
672 kn->kn_filter, kn, tp);
673 break;
674 }
675
676 /* capture current event state */
677 ret = ptsd_kqops_common(kn, NULL, tp);
678
679 tty_unlock(tp);
680
681 return ret;
682 }
683
684 /*
685 * Support for revoke(2).
686 */
687 static void
688 ptsd_revoke_knotes(__unused int minor, struct tty *tp)
689 {
690 tty_lock(tp);
691
692 ttwakeup(tp);
693 assert((tp->t_rsel.si_flags & SI_KNPOSTING) == 0);
694 KNOTE(&tp->t_rsel.si_note, NOTE_REVOKE);
695
696 ttwwakeup(tp);
697 assert((tp->t_wsel.si_flags & SI_KNPOSTING) == 0);
698 KNOTE(&tp->t_wsel.si_note, NOTE_REVOKE);
699
700 tty_unlock(tp);
701 }
702
703 /*
704 * kevent filter routines for the master side of a pty, a ptmx.
705 *
706 * Stuff the ptmx_ioctl structure into the hook for ptmx knotes. Use the
707 * embedded tty's lock for synchronization.
708 */
709
710 int ptmx_kqfilter(dev_t dev, struct knote *kn);
711 static void ptmx_kqops_detach(struct knote *);
712 static int ptmx_kqops_event(struct knote *, long);
713 static int ptmx_kqops_touch(struct knote *kn, struct kevent_qos_s *kev);
714 static int ptmx_kqops_process(struct knote *kn, struct kevent_qos_s *kev);
715 static int ptmx_kqops_common(struct knote *kn, struct kevent_qos_s *kev,
716 struct ptmx_ioctl *pti, struct tty *tp);
717
718 SECURITY_READ_ONLY_EARLY(struct filterops) ptmx_kqops = {
719 .f_isfd = 1,
720 /* attach is handled by ptmx_kqfilter -- the dev node must be passed in */
721 .f_detach = ptmx_kqops_detach,
722 .f_event = ptmx_kqops_event,
723 .f_touch = ptmx_kqops_touch,
724 .f_process = ptmx_kqops_process,
725 };
726
727 static struct ptmx_ioctl *
728 ptmx_knote_ioctl(struct knote *kn)
729 {
730 return (struct ptmx_ioctl *)kn->kn_hook;
731 }
732
733 static struct tty *
734 ptmx_knote_tty(struct knote *kn)
735 {
736 return ptmx_knote_ioctl(kn)->pt_tty;
737 }
738
739 int
740 ptmx_kqfilter(dev_t dev, struct knote *kn)
741 {
742 struct tty *tp = NULL;
743 struct ptmx_ioctl *pti = NULL;
744 int ret;
745
746 /* make sure we're talking about the right device type */
747 if (cdevsw[major(dev)].d_open != ptcopen) {
748 knote_set_error(kn, ENODEV);
749 return 0;
750 }
751
752 if ((pti = ptmx_get_ioctl(minor(dev), 0)) == NULL) {
753 knote_set_error(kn, ENXIO);
754 return 0;
755 }
756
757 tp = pti->pt_tty;
758 tty_lock(tp);
759
760 kn->kn_filtid = EVFILTID_PTMX;
761 /* the tty will be freed when detaching the knote */
762 ttyhold(tp);
763 kn->kn_hook = pti;
764
765 /*
766 * Attach to the ptmx's selinfo structures. This is the major difference
767 * to the ptsd filtops, which use the selinfo structures in the tty
768 * structure.
769 */
770 switch (kn->kn_filter) {
771 case EVFILT_READ:
772 KNOTE_ATTACH(&pti->pt_selr.si_note, kn);
773 break;
774 case EVFILT_WRITE:
775 KNOTE_ATTACH(&pti->pt_selw.si_note, kn);
776 break;
777 default:
778 panic("ptmx kevent: unexpected filter: %d, kn = %p, tty = %p",
779 kn->kn_filter, kn, tp);
780 break;
781 }
782
783 /* capture current event state */
784 ret = ptmx_kqops_common(kn, NULL, pti, tp);
785
786 tty_unlock(tp);
787
788 return ret;
789 }
790
791 static void
792 ptmx_kqops_detach(struct knote *kn)
793 {
794 struct ptmx_ioctl *pti = kn->kn_hook;
795 struct tty *tp = pti->pt_tty;
796
797 tty_lock(tp);
798
799 switch (kn->kn_filter) {
800 case EVFILT_READ:
801 KNOTE_DETACH(&pti->pt_selr.si_note, kn);
802 break;
803 case EVFILT_WRITE:
804 KNOTE_DETACH(&pti->pt_selw.si_note, kn);
805 break;
806 default:
807 panic("invalid knote %p detach, filter: %d", kn, kn->kn_filter);
808 break;
809 }
810
811 tty_unlock(tp);
812 ttyfree(tp);
813 }
814
815 static int
816 ptmx_kqops_common(struct knote *kn, struct kevent_qos_s *kev,
817 struct ptmx_ioctl *pti, struct tty *tp)
818 {
819 int retval = 0;
820 int64_t data = 0;
821
822 TTY_LOCK_OWNED(tp);
823
824 switch (kn->kn_filter) {
825 case EVFILT_READ:
826 /* there's data on the TTY and it's not stopped */
827 if (tp->t_outq.c_cc && !(tp->t_state & TS_TTSTOP)) {
828 data = tp->t_outq.c_cc;
829 retval = data > 0;
830 } else if (((pti->pt_flags & PF_PKT) && pti->pt_send) ||
831 ((pti->pt_flags & PF_UCNTL) && pti->pt_ucntl)) {
832 retval = 1;
833 }
834 break;
835
836 case EVFILT_WRITE:
837 if (pti->pt_flags & PF_REMOTE) {
838 if (tp->t_canq.c_cc == 0) {
839 retval = TTYHOG - 1;
840 }
841 } else {
842 retval = (TTYHOG - 2) - (tp->t_rawq.c_cc + tp->t_canq.c_cc);
843 if (tp->t_canq.c_cc == 0 && (tp->t_lflag & ICANON)) {
844 retval = 1;
845 }
846 if (retval < 0) {
847 retval = 0;
848 }
849 }
850 break;
851
852 default:
853 panic("ptmx kevent: unexpected filter: %d, kn = %p, tty = %p",
854 kn->kn_filter, kn, tp);
855 break;
856 }
857
858 /* disconnects should force a wakeup (EOF) */
859 if (!(tp->t_state & TS_CONNECTED) || (tp->t_state & TS_ZOMBIE)) {
860 kn->kn_flags |= EV_EOF;
861 }
862 if (kn->kn_flags & EV_EOF) {
863 retval = 1;
864 }
865 if (retval && kev) {
866 knote_fill_kevent(kn, kev, data);
867 }
868 return retval;
869 }
870
871 static int
872 ptmx_kqops_event(struct knote *kn, long hint)
873 {
874 struct ptmx_ioctl *pti = ptmx_knote_ioctl(kn);
875 struct tty *tp = ptmx_knote_tty(kn);
876 int ret;
877
878 TTY_LOCK_OWNED(tp);
879
880 if (hint & NOTE_REVOKE) {
881 kn->kn_flags |= EV_EOF | EV_ONESHOT;
882 ret = 1;
883 } else {
884 ret = ptmx_kqops_common(kn, NULL, pti, tp);
885 }
886
887 return ret;
888 }
889
890 static int
891 ptmx_kqops_touch(struct knote *kn, struct kevent_qos_s *kev)
892 {
893 struct ptmx_ioctl *pti = ptmx_knote_ioctl(kn);
894 struct tty *tp = ptmx_knote_tty(kn);
895 int ret;
896
897 tty_lock(tp);
898
899 /* accept new kevent state */
900 kn->kn_sfflags = kev->fflags;
901 kn->kn_sdata = kev->data;
902
903 /* recapture fired state of knote */
904 ret = ptmx_kqops_common(kn, NULL, pti, tp);
905
906 tty_unlock(tp);
907
908 return ret;
909 }
910
911 static int
912 ptmx_kqops_process(struct knote *kn, struct kevent_qos_s *kev)
913 {
914 struct ptmx_ioctl *pti = ptmx_knote_ioctl(kn);
915 struct tty *tp = ptmx_knote_tty(kn);
916 int ret;
917
918 tty_lock(tp);
919 ret = ptmx_kqops_common(kn, kev, pti, tp);
920 tty_unlock(tp);
921
922 return ret;
923 }