1 /* 2 * Copyright 2008 Sun Microsystems, Inc. All rights reserved. 3 * Use is subject to license terms. 4 */ 5 6 /* 7 * Copyright (c) 1983 Regents of the University of California. 8 * All rights reserved. The Berkeley software License Agreement 9 * specifies the terms and conditions for redistribution. 10 */ 11 12 /* 13 * PTY - Stream "pseudo-tty" device. For each "controller" side 14 * it connects to a "slave" side. 15 */ 16 17 18 #include <sys/param.h> 19 #include <sys/systm.h> 20 #include <sys/filio.h> 21 #include <sys/ioccom.h> 22 #include <sys/termios.h> 23 #include <sys/termio.h> 24 #include <sys/ttold.h> 25 #include <sys/stropts.h> 26 #include <sys/stream.h> 27 #include <sys/tty.h> 28 #include <sys/user.h> 29 #include <sys/conf.h> 30 #include <sys/file.h> 31 #include <sys/vnode.h> /* 1/0 on the vomit meter */ 32 #include <sys/proc.h> 33 #include <sys/uio.h> 34 #include <sys/errno.h> 35 #include <sys/strsubr.h> 36 #include <sys/poll.h> 37 #include <sys/sysmacros.h> 38 #include <sys/debug.h> 39 #include <sys/procset.h> 40 #include <sys/cred.h> 41 #include <sys/ptyvar.h> 42 #include <sys/suntty.h> 43 #include <sys/stat.h> 44 45 #include <sys/conf.h> 46 #include <sys/ddi.h> 47 #include <sys/sunddi.h> 48 49 extern int npty; /* number of pseudo-ttys configured in */ 50 extern struct pty *pty_softc; 51 extern struct pollhead ptcph; /* poll head for ptcpoll() use */ 52 53 int ptcopen(dev_t *, int, int, struct cred *); 54 int ptcclose(dev_t, int, int, struct cred *); 55 int ptcwrite(dev_t, struct uio *, struct cred *); 56 int ptcread(dev_t, struct uio *, struct cred *); 57 int ptcioctl(dev_t, int, intptr_t, int, struct cred *, int *); 58 int ptcpoll(dev_t, short, int, short *, struct pollhead **); 59 60 static int ptc_info(dev_info_t *, ddi_info_cmd_t, void *, void **); 61 static int ptc_attach(dev_info_t *, ddi_attach_cmd_t); 62 static dev_info_t *ptc_dip; /* for dev-to-dip conversions */ 63 64 static void ptc_init(void), ptc_uninit(void); 65 66 static int makemsg(ssize_t count, struct uio *uiop, 67 struct pty *pty, mblk_t **mpp); 68 69 struct cb_ops ptc_cb_ops = { 70 ptcopen, /* open */ 71 ptcclose, /* close */ 72 nodev, /* strategy */ 73 nodev, /* print */ 74 nodev, /* dump */ 75 ptcread, /* read */ 76 ptcwrite, /* write */ 77 ptcioctl, /* ioctl */ 78 nodev, /* devmap */ 79 nodev, /* mmap */ 80 nodev, /* segmap */ 81 ptcpoll, /* poll */ 82 ddi_prop_op, /* prop_op */ 83 0, /* streamtab */ 84 D_NEW | D_MP /* Driver compatibility flag */ 85 }; 86 87 struct dev_ops ptc_ops = { 88 DEVO_REV, /* devo_rev */ 89 0, /* refcnt */ 90 ptc_info, /* info */ 91 nulldev, /* identify */ 92 nulldev, /* probe */ 93 ptc_attach, /* attach */ 94 nodev, /* detach */ 95 nodev, /* reset */ 96 &ptc_cb_ops, /* driver operations */ 97 (struct bus_ops *)0, /* bus operations */ 98 NULL, /* power */ 99 ddi_quiesce_not_supported, /* devo_quiesce */ 100 }; 101 102 #include <sys/types.h> 103 #include <sys/conf.h> 104 #include <sys/param.h> 105 #include <sys/systm.h> 106 #include <sys/errno.h> 107 #include <sys/modctl.h> 108 109 extern int dseekneg_flag; 110 extern struct mod_ops mod_driverops; 111 extern struct dev_ops ptc_ops; 112 113 /* 114 * Module linkage information for the kernel. 115 */ 116 117 static struct modldrv modldrv = { 118 &mod_driverops, /* Type of module. This one is a pseudo driver */ 119 "tty pseudo driver control 'ptc'", 120 &ptc_ops, /* driver ops */ 121 }; 122 123 static struct modlinkage modlinkage = { 124 MODREV_1, 125 &modldrv, 126 NULL 127 }; 128 129 int 130 _init() 131 { 132 int rc; 133 134 if ((rc = mod_install(&modlinkage)) == 0) 135 ptc_init(); 136 return (rc); 137 } 138 139 140 int 141 _fini() 142 { 143 int rc; 144 145 if ((rc = mod_remove(&modlinkage)) == 0) 146 ptc_uninit(); 147 return (rc); 148 } 149 150 int 151 _info(struct modinfo *modinfop) 152 { 153 return (mod_info(&modlinkage, modinfop)); 154 } 155 156 static char *pty_banks = PTY_BANKS; 157 static char *pty_digits = PTY_DIGITS; 158 159 /* ARGSUSED */ 160 static int 161 ptc_attach(dev_info_t *devi, ddi_attach_cmd_t cmd) 162 { 163 char name[8]; 164 int pty_num; 165 char *pty_digit = pty_digits; 166 char *pty_bank = pty_banks; 167 168 for (pty_num = 0; pty_num < npty; pty_num++) { 169 (void) sprintf(name, "pty%c%c", *pty_bank, *pty_digit); 170 if (ddi_create_minor_node(devi, name, S_IFCHR, 171 pty_num, DDI_PSEUDO, NULL) == DDI_FAILURE) { 172 ddi_remove_minor_node(devi, NULL); 173 return (-1); 174 } 175 if (*(++pty_digit) == '\0') { 176 pty_digit = pty_digits; 177 if (*(++pty_bank) == '\0') 178 break; 179 } 180 } 181 ptc_dip = devi; 182 return (DDI_SUCCESS); 183 } 184 185 /* ARGSUSED */ 186 static int 187 ptc_info(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result) 188 { 189 int error; 190 191 switch (infocmd) { 192 case DDI_INFO_DEVT2DEVINFO: 193 if (ptc_dip == NULL) { 194 *result = (void *)NULL; 195 error = DDI_FAILURE; 196 } else { 197 *result = (void *) ptc_dip; 198 error = DDI_SUCCESS; 199 } 200 break; 201 case DDI_INFO_DEVT2INSTANCE: 202 *result = (void *)0; 203 error = DDI_SUCCESS; 204 break; 205 default: 206 error = DDI_FAILURE; 207 } 208 return (error); 209 } 210 211 static void 212 ptc_init(void) 213 { 214 minor_t dev; 215 216 for (dev = 0; dev < npty; dev++) { 217 cv_init(&pty_softc[dev].pt_cv_flags, NULL, CV_DEFAULT, NULL); 218 cv_init(&pty_softc[dev].pt_cv_readq, NULL, CV_DEFAULT, NULL); 219 cv_init(&pty_softc[dev].pt_cv_writeq, NULL, CV_DEFAULT, NULL); 220 mutex_init(&pty_softc[dev].ptc_lock, NULL, MUTEX_DEFAULT, NULL); 221 } 222 } 223 224 static void 225 ptc_uninit(void) 226 { 227 minor_t dev; 228 229 for (dev = 0; dev < npty; dev++) { 230 cv_destroy(&pty_softc[dev].pt_cv_flags); 231 cv_destroy(&pty_softc[dev].pt_cv_readq); 232 cv_destroy(&pty_softc[dev].pt_cv_writeq); 233 mutex_destroy(&pty_softc[dev].ptc_lock); 234 } 235 } 236 237 /* 238 * Controller side. This is not, alas, a streams device; there are too 239 * many old features that we must support and that don't work well 240 * with streams. 241 */ 242 243 /*ARGSUSED*/ 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); /* controller 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 slave, 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 /*ARGSUSED1*/ 283 int 284 ptcclose(dev_t dev, int flag, int otyp, struct cred *cred) 285 { 286 struct pty *pty; 287 mblk_t *bp; 288 queue_t *q; 289 290 pty = &pty_softc[getminor(dev)]; 291 292 mutex_enter(&pty->ptc_lock); 293 if ((q = pty->pt_ttycommon.t_readq) != NULL) { 294 /* 295 * Send a hangup to the slave, since "carrier" is dropping. 296 */ 297 (void) putctl(q, M_HANGUP); 298 } 299 300 /* 301 * Clear out all the controller-side state. This also 302 * clears PF_CARR_ON, which is correct because the 303 * "carrier" is dropping since the controller process 304 * is going away. 305 */ 306 pty->pt_flags &= (PF_WOPEN|PF_STOPPED|PF_NOSTOP); 307 while ((bp = pty->pt_stuffqfirst) != NULL) { 308 if ((pty->pt_stuffqfirst = bp->b_next) == NULL) 309 pty->pt_stuffqlast = NULL; 310 else 311 pty->pt_stuffqfirst->b_prev = NULL; 312 pty->pt_stuffqlen--; 313 bp->b_next = bp->b_prev = NULL; 314 freemsg(bp); 315 } 316 mutex_exit(&pty->ptc_lock); 317 return (0); 318 } 319 320 int 321 ptcread(dev_t dev, struct uio *uio, struct cred *cred) 322 { 323 struct pty *pty = &pty_softc[getminor(dev)]; 324 mblk_t *bp, *nbp; 325 queue_t *q; 326 unsigned char tmp; 327 ssize_t cc; 328 int error; 329 off_t off; 330 331 #ifdef lint 332 cred = cred; 333 #endif 334 335 off = uio->uio_offset; 336 337 mutex_enter(&pty->ptc_lock); 338 339 for (;;) { 340 while (pty->pt_flags & PF_READ) { 341 pty->pt_flags |= PF_WREAD; 342 cv_wait(&pty->pt_cv_flags, &pty->ptc_lock); 343 } 344 pty->pt_flags |= PF_READ; 345 346 /* 347 * If there's a TIOCPKT packet waiting, pass it back. 348 */ 349 while (pty->pt_flags&(PF_PKT|PF_UCNTL) && pty->pt_send) { 350 tmp = pty->pt_send; 351 pty->pt_send = 0; 352 mutex_exit(&pty->ptc_lock); 353 error = ureadc((int)tmp, uio); 354 uio->uio_offset = off; 355 mutex_enter(&pty->ptc_lock); 356 if (error) { 357 pty->pt_send |= tmp; 358 goto out; 359 } 360 if (pty->pt_send == 0) 361 goto out; 362 } 363 364 /* 365 * If there's a user-control packet waiting, pass the 366 * "ioctl" code back. 367 */ 368 while ((pty->pt_flags & (PF_UCNTL|PF_43UCNTL)) && 369 pty->pt_ucntl) { 370 tmp = pty->pt_ucntl; 371 pty->pt_ucntl = 0; 372 mutex_exit(&pty->ptc_lock); 373 error = ureadc((int)tmp, uio); 374 uio->uio_offset = off; 375 mutex_enter(&pty->ptc_lock); 376 if (error) { 377 if (pty->pt_ucntl == 0) 378 pty->pt_ucntl = tmp; 379 goto out; 380 } 381 if (pty->pt_ucntl == 0) 382 goto out; 383 } 384 385 /* 386 * If there's any data waiting, pass it back. 387 */ 388 if ((q = pty->pt_ttycommon.t_writeq) != NULL && 389 q->q_first != NULL && 390 !(pty->pt_flags & PF_STOPPED)) { 391 if (pty->pt_flags & (PF_PKT|PF_UCNTL|PF_43UCNTL)) { 392 /* 393 * We're about to begin a move in packet or 394 * user-control mode; precede the data with a 395 * data header. 396 */ 397 mutex_exit(&pty->ptc_lock); 398 error = ureadc(TIOCPKT_DATA, uio); 399 uio->uio_offset = off; 400 mutex_enter(&pty->ptc_lock); 401 if (error != 0) 402 goto out; 403 if ((q = pty->pt_ttycommon.t_writeq) == NULL) 404 goto out; 405 } 406 if ((bp = getq(q)) == NULL) 407 goto out; 408 while (uio->uio_resid > 0) { 409 while ((cc = bp->b_wptr - bp->b_rptr) == 0) { 410 nbp = bp->b_cont; 411 freeb(bp); 412 if ((bp = nbp) == NULL) { 413 if ((q == NULL) || 414 (bp = getq(q)) == NULL) 415 goto out; 416 } 417 } 418 cc = MIN(cc, uio->uio_resid); 419 mutex_exit(&pty->ptc_lock); 420 error = uiomove((caddr_t)bp->b_rptr, 421 cc, UIO_READ, uio); 422 uio->uio_offset = off; 423 mutex_enter(&pty->ptc_lock); 424 if (error != 0) { 425 freemsg(bp); 426 goto out; 427 } 428 q = pty->pt_ttycommon.t_writeq; 429 bp->b_rptr += cc; 430 } 431 /* 432 * Strip off zero-length blocks from the front of 433 * what we're putting back on the queue. 434 */ 435 while ((bp->b_wptr - bp->b_rptr) == 0) { 436 nbp = bp->b_cont; 437 freeb(bp); 438 if ((bp = nbp) == NULL) 439 goto out; /* nothing left */ 440 } 441 if (q != NULL) 442 (void) putbq(q, bp); 443 else 444 freemsg(bp); 445 goto out; 446 } 447 448 /* 449 * If there's any TIOCSTI-stuffed characters, pass 450 * them back. (They currently arrive after all output; 451 * is this correct?) 452 */ 453 if (pty->pt_flags&PF_UCNTL && pty->pt_stuffqfirst != NULL) { 454 mutex_exit(&pty->ptc_lock); 455 error = ureadc(TIOCSTI&0xff, uio); 456 mutex_enter(&pty->ptc_lock); 457 while (error == 0 && 458 (bp = pty->pt_stuffqfirst) != NULL && 459 uio->uio_resid > 0) { 460 pty->pt_stuffqlen--; 461 if ((pty->pt_stuffqfirst = bp->b_next) == NULL) 462 pty->pt_stuffqlast = NULL; 463 else 464 pty->pt_stuffqfirst->b_prev = NULL; 465 mutex_exit(&pty->ptc_lock); 466 error = ureadc((int)*bp->b_rptr, uio); 467 bp->b_next = bp->b_prev = NULL; 468 freemsg(bp); 469 mutex_enter(&pty->ptc_lock); 470 } 471 uio->uio_offset = off; 472 goto out; 473 } 474 475 /* 476 * There's no data available. 477 * We want to block until the slave is open, and there's 478 * something to read; but if we lost the slave or we're NBIO, 479 * then return the appropriate error instead. POSIX-style 480 * non-block has top billing and gives -1 with errno = EAGAIN, 481 * BSD-style comes next and gives -1 with errno = EWOULDBLOCK, 482 * SVID-style comes last and gives 0. 483 */ 484 if (pty->pt_flags & PF_SLAVEGONE) { 485 error = EIO; 486 goto out; 487 } 488 if (uio->uio_fmode & FNONBLOCK) { 489 error = EAGAIN; 490 goto out; 491 } 492 if (pty->pt_flags & PF_NBIO) { 493 error = EWOULDBLOCK; 494 goto out; 495 } 496 if (uio->uio_fmode & FNDELAY) 497 goto out; 498 499 if (pty->pt_flags & PF_WREAD) 500 cv_broadcast(&pty->pt_cv_flags); 501 502 pty->pt_flags &= ~(PF_READ | PF_WREAD); 503 504 505 if (!cv_wait_sig(&pty->pt_cv_writeq, &pty->ptc_lock)) { 506 mutex_exit(&pty->ptc_lock); 507 return (EINTR); 508 } 509 } 510 511 out: 512 if (pty->pt_flags & PF_WREAD) 513 cv_broadcast(&pty->pt_cv_flags); 514 515 pty->pt_flags &= ~(PF_READ | PF_WREAD); 516 517 mutex_exit(&pty->ptc_lock); 518 return (error); 519 } 520 521 int 522 ptcwrite(dev_t dev, struct uio *uio, struct cred *cred) 523 { 524 struct pty *pty = &pty_softc[getminor(dev)]; 525 queue_t *q; 526 int written; 527 mblk_t *mp; 528 int fmode = 0; 529 int error = 0; 530 531 off_t off; 532 off = uio->uio_offset; 533 534 #ifdef lint 535 cred = cred; 536 #endif 537 538 539 mutex_enter(&pty->ptc_lock); 540 541 again: 542 while (pty->pt_flags & PF_WRITE) { 543 pty->pt_flags |= PF_WWRITE; 544 cv_wait(&pty->pt_cv_flags, &pty->ptc_lock); 545 } 546 547 pty->pt_flags |= PF_WRITE; 548 549 if ((q = pty->pt_ttycommon.t_readq) == NULL) { 550 551 /* 552 * Wait for slave to open. 553 */ 554 if (pty->pt_flags & PF_SLAVEGONE) { 555 error = EIO; 556 goto out; 557 } 558 if (uio->uio_fmode & FNONBLOCK) { 559 error = EAGAIN; 560 goto out; 561 } 562 if (pty->pt_flags & PF_NBIO) { 563 error = EWOULDBLOCK; 564 goto out; 565 } 566 if (uio->uio_fmode & FNDELAY) 567 goto out; 568 569 if (pty->pt_flags & PF_WWRITE) 570 cv_broadcast(&pty->pt_cv_flags); 571 572 pty->pt_flags &= ~(PF_WRITE | PF_WWRITE); 573 574 if (!cv_wait_sig(&pty->pt_cv_readq, &pty->ptc_lock)) { 575 mutex_exit(&pty->ptc_lock); 576 return (EINTR); 577 } 578 579 goto again; 580 } 581 582 /* 583 * If in remote mode, even zero-length writes generate messages. 584 */ 585 written = 0; 586 if ((pty->pt_flags & PF_REMOTE) || uio->uio_resid > 0) { 587 do { 588 while (!canput(q)) { 589 /* 590 * Wait for slave's read queue to unclog. 591 */ 592 if (pty->pt_flags & PF_SLAVEGONE) { 593 error = EIO; 594 goto out; 595 } 596 if (uio->uio_fmode & FNONBLOCK) { 597 if (!written) 598 error = EAGAIN; 599 goto out; 600 } 601 if (pty->pt_flags & PF_NBIO) { 602 if (!written) 603 error = EWOULDBLOCK; 604 goto out; 605 } 606 if (uio->uio_fmode & FNDELAY) 607 goto out; 608 609 if (pty->pt_flags & PF_WWRITE) 610 cv_broadcast(&pty->pt_cv_flags); 611 612 pty->pt_flags &= ~(PF_WRITE | PF_WWRITE); 613 614 if (!cv_wait_sig(&pty->pt_cv_readq, 615 &pty->ptc_lock)) { 616 mutex_exit(&pty->ptc_lock); 617 return (EINTR); 618 } 619 620 while (pty->pt_flags & PF_WRITE) { 621 pty->pt_flags |= PF_WWRITE; 622 cv_wait(&pty->pt_cv_flags, 623 &pty->ptc_lock); 624 } 625 626 pty->pt_flags |= PF_WRITE; 627 } 628 629 if ((pty->pt_flags & PF_NBIO) && 630 !(uio->uio_fmode & FNONBLOCK)) { 631 fmode = uio->uio_fmode; 632 uio->uio_fmode |= FNONBLOCK; 633 } 634 635 error = makemsg(uio->uio_resid, uio, pty, &mp); 636 uio->uio_offset = off; 637 if (fmode) 638 uio->uio_fmode = fmode; 639 if (error != 0) { 640 if (error != EAGAIN && error != EWOULDBLOCK) 641 goto out; 642 if (uio->uio_fmode & FNONBLOCK) { 643 if (!written) 644 error = EAGAIN; 645 goto out; 646 } 647 if (pty->pt_flags & PF_NBIO) { 648 if (!written) 649 error = EWOULDBLOCK; 650 goto out; 651 } 652 if (uio->uio_fmode & FNDELAY) 653 goto out; 654 cmn_err(CE_PANIC, 655 "ptcwrite: non null return from" 656 " makemsg"); 657 } 658 659 /* 660 * Check again for safety; since "uiomove" can take a 661 * page fault, there's no guarantee that "pt_flags" 662 * didn't change while it was happening. 663 */ 664 if ((q = pty->pt_ttycommon.t_readq) == NULL) { 665 if (mp) 666 freemsg(mp); 667 error = EIO; 668 goto out; 669 } 670 if (mp) 671 (void) putq(q, mp); 672 written = 1; 673 } while (uio->uio_resid > 0); 674 } 675 out: 676 if (pty->pt_flags & PF_WWRITE) 677 cv_broadcast(&pty->pt_cv_flags); 678 679 pty->pt_flags &= ~(PF_WRITE | PF_WWRITE); 680 681 mutex_exit(&pty->ptc_lock); 682 return (error); 683 } 684 685 #define copy_in(data, d_arg) \ 686 if (copyin((caddr_t)data, &d_arg, sizeof (int)) != 0) \ 687 return (EFAULT) 688 689 #define copy_out(d_arg, data) \ 690 if (copyout(&d_arg, (caddr_t)data, sizeof (int)) != 0) \ 691 return (EFAULT) 692 693 int 694 ptcioctl(dev_t dev, int cmd, intptr_t data, int flag, struct cred *cred, 695 int *rvalp) 696 { 697 struct pty *pty = &pty_softc[getminor(dev)]; 698 queue_t *q; 699 struct ttysize tty_arg; 700 struct winsize win_arg; 701 int d_arg; 702 int err; 703 704 switch (cmd) { 705 706 case TIOCPKT: 707 copy_in(data, d_arg); 708 mutex_enter(&pty->ptc_lock); 709 if (d_arg) { 710 if (pty->pt_flags & (PF_UCNTL|PF_43UCNTL)) { 711 mutex_exit(&pty->ptc_lock); 712 return (EINVAL); 713 } 714 pty->pt_flags |= PF_PKT; 715 } else 716 pty->pt_flags &= ~PF_PKT; 717 mutex_exit(&pty->ptc_lock); 718 break; 719 720 case TIOCUCNTL: 721 copy_in(data, d_arg); 722 mutex_enter(&pty->ptc_lock); 723 if (d_arg) { 724 if (pty->pt_flags & (PF_PKT|PF_UCNTL)) { 725 mutex_exit(&pty->ptc_lock); 726 return (EINVAL); 727 } 728 pty->pt_flags |= PF_43UCNTL; 729 } else 730 pty->pt_flags &= ~PF_43UCNTL; 731 mutex_exit(&pty->ptc_lock); 732 break; 733 734 case TIOCTCNTL: 735 copy_in(data, d_arg); 736 mutex_enter(&pty->ptc_lock); 737 if (d_arg) { 738 if (pty->pt_flags & PF_PKT) { 739 mutex_exit(&pty->ptc_lock); 740 return (EINVAL); 741 } 742 pty->pt_flags |= PF_UCNTL; 743 } else 744 pty->pt_flags &= ~PF_UCNTL; 745 mutex_exit(&pty->ptc_lock); 746 break; 747 748 case TIOCREMOTE: 749 copy_in(data, d_arg); 750 mutex_enter(&pty->ptc_lock); 751 if (d_arg) { 752 if ((q = pty->pt_ttycommon.t_readq) != NULL) 753 (void) putctl1(q, M_CTL, MC_NOCANON); 754 pty->pt_flags |= PF_REMOTE; 755 } else { 756 if ((q = pty->pt_ttycommon.t_readq) != NULL) 757 (void) putctl1(q, M_CTL, MC_DOCANON); 758 pty->pt_flags &= ~PF_REMOTE; 759 } 760 mutex_exit(&pty->ptc_lock); 761 break; 762 763 case TIOCSIGNAL: 764 /* 765 * Blast a M_PCSIG message up the slave stream; the 766 * signal number is the argument to the "ioctl". 767 */ 768 copy_in(data, d_arg); 769 mutex_enter(&pty->ptc_lock); 770 if ((q = pty->pt_ttycommon.t_readq) != NULL) 771 (void) putctl1(q, M_PCSIG, (int)d_arg); 772 mutex_exit(&pty->ptc_lock); 773 break; 774 775 case FIONBIO: 776 copy_in(data, d_arg); 777 mutex_enter(&pty->ptc_lock); 778 if (d_arg) 779 pty->pt_flags |= PF_NBIO; 780 else 781 pty->pt_flags &= ~PF_NBIO; 782 mutex_exit(&pty->ptc_lock); 783 break; 784 785 case FIOASYNC: 786 copy_in(data, d_arg); 787 mutex_enter(&pty->ptc_lock); 788 if (d_arg) 789 pty->pt_flags |= PF_ASYNC; 790 else 791 pty->pt_flags &= ~PF_ASYNC; 792 mutex_exit(&pty->ptc_lock); 793 break; 794 795 /* 796 * These, at least, can work on the controller-side process 797 * group. 798 */ 799 case FIOGETOWN: 800 mutex_enter(&pty->ptc_lock); 801 d_arg = -pty->pt_pgrp; 802 mutex_exit(&pty->ptc_lock); 803 copy_out(d_arg, data); 804 break; 805 806 case FIOSETOWN: 807 copy_in(data, d_arg); 808 mutex_enter(&pty->ptc_lock); 809 pty->pt_pgrp = (short)(-d_arg); 810 mutex_exit(&pty->ptc_lock); 811 break; 812 813 case FIONREAD: { 814 /* 815 * Return the total number of bytes of data in all messages 816 * in slave write queue, which is master read queue, unless a 817 * special message would be read. 818 */ 819 mblk_t *mp; 820 size_t count = 0; 821 822 mutex_enter(&pty->ptc_lock); 823 if (pty->pt_flags&(PF_PKT|PF_UCNTL) && pty->pt_send) 824 count = 1; /* will return 1 byte */ 825 else if ((pty->pt_flags & (PF_UCNTL|PF_43UCNTL)) && 826 pty->pt_ucntl) 827 count = 1; /* will return 1 byte */ 828 else if ((q = pty->pt_ttycommon.t_writeq) != NULL && 829 q->q_first != NULL && !(pty->pt_flags & PF_STOPPED)) { 830 /* 831 * Will return whatever data is queued up. 832 */ 833 for (mp = q->q_first; mp != NULL; mp = mp->b_next) 834 count += msgdsize(mp); 835 } else if ((pty->pt_flags & PF_UCNTL) && 836 pty->pt_stuffqfirst != NULL) { 837 /* 838 * Will return STI'ed data. 839 */ 840 count = pty->pt_stuffqlen + 1; 841 } 842 843 /* 844 * Under LP64 we could have more than INT_MAX bytes to report, 845 * but the interface is defined in terms of int, so we cap it. 846 */ 847 d_arg = MIN(count, INT_MAX); 848 mutex_exit(&pty->ptc_lock); 849 copy_out(d_arg, data); 850 break; 851 } 852 853 case TIOCSWINSZ: 854 /* 855 * Unfortunately, TIOCSWINSZ and the old TIOCSSIZE "ioctl"s 856 * share the same code. If the upper 16 bits of the number 857 * of lines is non-zero, it was probably a TIOCSWINSZ, 858 * with both "ws_row" and "ws_col" non-zero. 859 */ 860 if (copyin((caddr_t)data, 861 &tty_arg, sizeof (struct ttysize)) != 0) 862 return (EFAULT); 863 864 if ((tty_arg.ts_lines & 0xffff0000) != 0) { 865 /* 866 * It's a TIOCSWINSZ. 867 */ 868 win_arg = *(struct winsize *)&tty_arg; 869 870 mutex_enter(&pty->ptc_lock); 871 /* 872 * If the window size changed, send a SIGWINCH. 873 */ 874 if (bcmp(&pty->pt_ttycommon.t_size, 875 &win_arg, sizeof (struct winsize))) { 876 pty->pt_ttycommon.t_size = win_arg; 877 if ((q = pty->pt_ttycommon.t_readq) != NULL) 878 (void) putctl1(q, M_PCSIG, SIGWINCH); 879 } 880 mutex_exit(&pty->ptc_lock); 881 break; 882 } 883 /* FALLTHROUGH */ 884 885 case TIOCSSIZE: 886 if (copyin((caddr_t)data, 887 &tty_arg, sizeof (struct ttysize)) != 0) 888 return (EFAULT); 889 mutex_enter(&pty->ptc_lock); 890 pty->pt_ttycommon.t_size.ws_row = (ushort_t)tty_arg.ts_lines; 891 pty->pt_ttycommon.t_size.ws_col = (ushort_t)tty_arg.ts_cols; 892 pty->pt_ttycommon.t_size.ws_xpixel = 0; 893 pty->pt_ttycommon.t_size.ws_ypixel = 0; 894 mutex_exit(&pty->ptc_lock); 895 break; 896 897 case TIOCGWINSZ: 898 mutex_enter(&pty->ptc_lock); 899 win_arg = pty->pt_ttycommon.t_size; 900 mutex_exit(&pty->ptc_lock); 901 if (copyout(&win_arg, (caddr_t)data, 902 sizeof (struct winsize)) != 0) 903 return (EFAULT); 904 break; 905 906 case TIOCGSIZE: 907 mutex_enter(&pty->ptc_lock); 908 tty_arg.ts_lines = pty->pt_ttycommon.t_size.ws_row; 909 tty_arg.ts_cols = pty->pt_ttycommon.t_size.ws_col; 910 mutex_exit(&pty->ptc_lock); 911 if (copyout(&tty_arg, (caddr_t)data, 912 sizeof (struct ttysize)) != 0) 913 return (EFAULT); 914 break; 915 916 /* 917 * XXX These should not be here. The only reason why an 918 * "ioctl" on the controller side should get the 919 * slave side's process group is so that the process on 920 * the controller side can send a signal to the slave 921 * side's process group; however, this is better done 922 * with TIOCSIGNAL, both because it doesn't require us 923 * to know about the slave side's process group and because 924 * the controller side process may not have permission to 925 * send that signal to the entire process group. 926 * 927 * However, since vanilla 4BSD doesn't provide TIOCSIGNAL, 928 * we can't just get rid of them. 929 */ 930 case TIOCGPGRP: 931 case TIOCSPGRP: 932 /* 933 * This is amazingly disgusting, but the stupid semantics of 934 * 4BSD pseudo-ttys makes us do it. If we do one of these guys 935 * on the controller side, it really applies to the slave-side 936 * stream. It should NEVER have been possible to do ANY sort 937 * of tty operations on the controller side, but it's too late 938 * to fix that now. However, we won't waste our time implementing 939 * anything that the original pseudo-tty driver didn't handle. 940 */ 941 case TIOCGETP: 942 case TIOCSETP: 943 case TIOCSETN: 944 case TIOCGETC: 945 case TIOCSETC: 946 case TIOCGLTC: 947 case TIOCSLTC: 948 case TIOCLGET: 949 case TIOCLSET: 950 case TIOCLBIS: 951 case TIOCLBIC: 952 mutex_enter(&pty->ptc_lock); 953 if (pty->pt_vnode == NULL) { 954 mutex_exit(&pty->ptc_lock); 955 return (EIO); 956 } 957 pty->pt_flags |= PF_IOCTL; 958 mutex_exit(&pty->ptc_lock); 959 err = strioctl(pty->pt_vnode, cmd, data, flag, 960 U_TO_K, cred, rvalp); 961 mutex_enter(&pty->ptc_lock); 962 if (pty->pt_flags & PF_WAIT) 963 cv_signal(&pty->pt_cv_flags); 964 pty->pt_flags &= ~(PF_IOCTL|PF_WAIT); 965 mutex_exit(&pty->ptc_lock); 966 return (err); 967 968 default: 969 return (ENOTTY); 970 } 971 972 return (0); 973 } 974 975 976 int 977 ptcpoll(dev_t dev, 978 short events, 979 int anyyet, 980 short *reventsp, 981 struct pollhead **phpp) 982 { 983 struct pty *pty = &pty_softc[getminor(dev)]; 984 pollhead_t *php = &ptcph; 985 queue_t *q; 986 int pos = 0; 987 988 #ifdef lint 989 anyyet = anyyet; 990 #endif 991 polllock(php, &pty->ptc_lock); 992 993 ASSERT(MUTEX_HELD(&pty->ptc_lock)); 994 995 *reventsp = 0; 996 if (pty->pt_flags & PF_SLAVEGONE) { 997 if (events & (POLLIN|POLLRDNORM)) 998 *reventsp |= (events & (POLLIN|POLLRDNORM)); 999 if (events & (POLLOUT|POLLWRNORM)) 1000 *reventsp |= (events & (POLLOUT|POLLWRNORM)); 1001 mutex_exit(&pty->ptc_lock); 1002 /* 1003 * A non NULL pollhead pointer should be returned in case 1004 * user polls for 0 events. 1005 */ 1006 *phpp = !anyyet && !*reventsp ? php : (struct pollhead *)NULL; 1007 return (0); 1008 } 1009 if (events & (POLLIN|POLLRDNORM)) { 1010 if ((q = pty->pt_ttycommon.t_writeq) != NULL && 1011 q->q_first != NULL && !(pty->pt_flags & PF_STOPPED)) { 1012 /* 1013 * Regular data is available. 1014 */ 1015 *reventsp |= (events & (POLLIN|POLLRDNORM)); 1016 pos++; 1017 } 1018 if (pty->pt_flags & (PF_PKT|PF_UCNTL) && pty->pt_send) { 1019 /* 1020 * A control packet is available. 1021 */ 1022 *reventsp |= (events & (POLLIN|POLLRDNORM)); 1023 pos++; 1024 } 1025 if ((pty->pt_flags & PF_UCNTL) && 1026 (pty->pt_ucntl || pty->pt_stuffqfirst != NULL)) { 1027 /* 1028 * "ioctl" or TIOCSTI data is available. 1029 */ 1030 *reventsp |= (events & (POLLIN|POLLRDNORM)); 1031 pos++; 1032 } 1033 if ((pty->pt_flags & PF_43UCNTL) && pty->pt_ucntl) { 1034 *reventsp |= (events & (POLLIN|POLLRDNORM)); 1035 pos++; 1036 } 1037 } 1038 if (events & (POLLOUT|POLLWRNORM)) { 1039 if ((q = pty->pt_ttycommon.t_readq) != NULL && 1040 canput(q)) { 1041 *reventsp |= (events & (POLLOUT|POLLWRNORM)); 1042 pos++; 1043 } 1044 } 1045 if (events & POLLERR) { 1046 *reventsp |= POLLERR; 1047 pos++; 1048 } 1049 if (events == 0) { /* "exceptional conditions" */ 1050 if (((pty->pt_flags & (PF_PKT|PF_UCNTL)) && pty->pt_send) || 1051 ((pty->pt_flags & PF_UCNTL) && 1052 (pty->pt_ucntl || pty->pt_stuffqfirst != NULL))) { 1053 pos++; 1054 } 1055 if ((pty->pt_flags & PF_43UCNTL) && pty->pt_ucntl) { 1056 pos++; 1057 } 1058 } 1059 1060 /* 1061 * Arrange to have poll waken up when event occurs. 1062 * if (!anyyet) 1063 */ 1064 if (!pos) { 1065 *phpp = php; 1066 *reventsp = 0; 1067 } 1068 1069 mutex_exit(&pty->ptc_lock); 1070 return (0); 1071 } 1072 1073 void 1074 gsignal(int pid, int sig) 1075 { 1076 procset_t set; 1077 sigsend_t v; 1078 1079 bzero(&v, sizeof (v)); 1080 v.sig = sig; 1081 v.perm = 0; 1082 v.checkperm = 1; 1083 v.value.sival_ptr = NULL; 1084 1085 setprocset(&set, POP_AND, P_PGID, -pid, P_ALL, P_MYID); 1086 (void) sigsendset(&set, &v); 1087 } 1088 1089 static int 1090 makemsg(ssize_t count, struct uio *uiop, struct pty *pty, mblk_t **mpp) 1091 { 1092 int pri = BPRI_LO; 1093 int error; 1094 mblk_t *bp = NULL; 1095 1096 ASSERT(MUTEX_HELD(&pty->ptc_lock)); 1097 1098 *mpp = NULL; 1099 1100 /* 1101 * Create data part of message, if any. 1102 */ 1103 if (count >= 0) { 1104 if ((bp = allocb(count, pri)) == NULL) 1105 return (ENOSR); 1106 1107 mutex_exit(&pty->ptc_lock); 1108 error = uiomove((caddr_t)bp->b_wptr, count, UIO_WRITE, uiop); 1109 mutex_enter(&pty->ptc_lock); 1110 if (error) { 1111 freeb(bp); 1112 return (error); 1113 } 1114 1115 bp->b_wptr += count; 1116 } 1117 1118 *mpp = bp; 1119 return (0); 1120 } 1121