ed.term.c revision 59243
1/* $Header: /src/pub/tcsh/ed.term.c,v 1.24 1999/08/12 14:19:23 christos Exp $ */ 2/* 3 * ed.term.c: Low level terminal interface 4 */ 5/*- 6 * Copyright (c) 1980, 1991 The Regents of the University of California. 7 * All rights reserved. 8 * 9 * Redistribution and use in source and binary forms, with or without 10 * modification, are permitted provided that the following conditions 11 * are met: 12 * 1. Redistributions of source code must retain the above copyright 13 * notice, this list of conditions and the following disclaimer. 14 * 2. Redistributions in binary form must reproduce the above copyright 15 * notice, this list of conditions and the following disclaimer in the 16 * documentation and/or other materials provided with the distribution. 17 * 3. All advertising materials mentioning features or use of this software 18 * must display the following acknowledgement: 19 * This product includes software developed by the University of 20 * California, Berkeley and its contributors. 21 * 4. Neither the name of the University nor the names of its contributors 22 * may be used to endorse or promote products derived from this software 23 * without specific prior written permission. 24 * 25 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 26 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 27 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 28 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 29 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 30 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 31 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 32 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 33 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 34 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 35 * SUCH DAMAGE. 36 */ 37#include "sh.h" 38#ifndef WINNT 39 40RCSID("$Id: ed.term.c,v 1.24 1999/08/12 14:19:23 christos Exp $") 41 42#include "ed.h" 43#include "ed.term.h" 44 45int didsetty = 0; 46ttyperm_t ttylist = { 47 { 48#if defined(POSIX) || defined(TERMIO) 49 { "iflag:", ICRNL, (INLCR|IGNCR) }, 50 { "oflag:", (OPOST|ONLCR), ONLRET }, 51 { "cflag:", 0, 0 }, 52 { "lflag:", (ISIG|ICANON|ECHO|ECHOE|ECHOCTL|IEXTEN), 53 (NOFLSH|ECHONL|EXTPROC|FLUSHO|IDEFAULT) }, 54#else /* GSTTY */ 55 { "nrmal:", (ECHO|CRMOD|ANYP), (CBREAK|RAW|LCASE|VTDELAY|ALLDELAY) }, 56 { "local:", (LCRTBS|LCRTERA|LCRTKIL), (LPRTERA|LFLUSHO) }, 57#endif /* POSIX || TERMIO */ 58 { "chars:", 0, 0 }, 59 }, 60 { 61#if defined(POSIX) || defined(TERMIO) 62 { "iflag:", (INLCR|ICRNL), IGNCR }, 63 { "oflag:", (OPOST|ONLCR), ONLRET }, 64 { "cflag:", 0, 0 }, 65 { "lflag:", ISIG, 66 (NOFLSH|ICANON|ECHO|ECHOK|ECHONL|EXTPROC|IEXTEN|FLUSHO| 67 IDEFAULT) }, 68#else /* GSTTY */ 69 { "nrmal:", (CBREAK|CRMOD|ANYP), (RAW|ECHO|LCASE|VTDELAY|ALLDELAY) }, 70 { "local:", (LCRTBS|LCRTERA|LCRTKIL), (LPRTERA|LFLUSHO) }, 71#endif /* POSIX || TERMIO */ 72 { "chars:", (C_SH(C_MIN)|C_SH(C_TIME)|C_SH(C_SWTCH)|C_SH(C_DSWTCH)| 73 C_SH(C_WERASE)|C_SH(C_REPRINT)|C_SH(C_SUSP)|C_SH(C_DSUSP)| 74 C_SH(C_EOF)|C_SH(C_EOL)|C_SH(C_DISCARD)|C_SH(C_PGOFF)| 75 C_SH(C_KILL2)|C_SH(C_PAGE)|C_SH(C_STATUS)|C_SH(C_LNEXT)), 76 0 } 77 }, 78 { 79#if defined(POSIX) || defined(TERMIO) 80 { "iflag:", 0, IXON | IXOFF }, 81 { "oflag:", 0, 0 }, 82 { "cflag:", 0, 0 }, 83 { "lflag:", 0, ISIG | IEXTEN }, 84#else /* GSTTY */ 85 { "nrmal:", RAW, CBREAK }, 86 { "local:", 0, 0 }, 87#endif /* POSIX || TERMIO */ 88 { "chars:", 0, 0 }, 89 } 90}; 91 92static struct tcshmodes { 93 char *m_name; 94#ifdef SOLARIS2 95 unsigned long m_value; 96#else /* !SOLARIS2 */ 97 int m_value; 98#endif /* SOLARIS2 */ 99 int m_type; 100} modelist[] = { 101#if defined(POSIX) || defined(TERMIO) 102 103# ifdef IGNBRK 104 { "ignbrk", IGNBRK, M_INPUT }, 105# endif /* IGNBRK */ 106# ifdef BRKINT 107 { "brkint", BRKINT, M_INPUT }, 108# endif /* BRKINT */ 109# ifdef IGNPAR 110 { "ignpar", IGNPAR, M_INPUT }, 111# endif /* IGNPAR */ 112# ifdef PARMRK 113 { "parmrk", PARMRK, M_INPUT }, 114# endif /* PARMRK */ 115# ifdef INPCK 116 { "inpck", INPCK, M_INPUT }, 117# endif /* INPCK */ 118# ifdef ISTRIP 119 { "istrip", ISTRIP, M_INPUT }, 120# endif /* ISTRIP */ 121# ifdef INLCR 122 { "inlcr", INLCR, M_INPUT }, 123# endif /* INLCR */ 124# ifdef IGNCR 125 { "igncr", IGNCR, M_INPUT }, 126# endif /* IGNCR */ 127# ifdef ICRNL 128 { "icrnl", ICRNL, M_INPUT }, 129# endif /* ICRNL */ 130# ifdef IUCLC 131 { "iuclc", IUCLC, M_INPUT }, 132# endif /* IUCLC */ 133# ifdef IXON 134 { "ixon", IXON, M_INPUT }, 135# endif /* IXON */ 136# ifdef IXANY 137 { "ixany", IXANY, M_INPUT }, 138# endif /* IXANY */ 139# ifdef IXOFF 140 { "ixoff", IXOFF, M_INPUT }, 141# endif /* IXOFF */ 142# ifdef IMAXBEL 143 { "imaxbel",IMAXBEL,M_INPUT }, 144# endif /* IMAXBEL */ 145# ifdef IDELETE 146 { "idelete",IDELETE,M_INPUT }, 147# endif /* IDELETE */ 148 149# ifdef OPOST 150 { "opost", OPOST, M_OUTPUT }, 151# endif /* OPOST */ 152# ifdef OLCUC 153 { "olcuc", OLCUC, M_OUTPUT }, 154# endif /* OLCUC */ 155# ifdef ONLCR 156 { "onlcr", ONLCR, M_OUTPUT }, 157# endif /* ONLCR */ 158# ifdef OCRNL 159 { "ocrnl", OCRNL, M_OUTPUT }, 160# endif /* OCRNL */ 161# ifdef ONOCR 162 { "onocr", ONOCR, M_OUTPUT }, 163# endif /* ONOCR */ 164# ifdef ONOEOT 165 { "onoeot", ONOEOT, M_OUTPUT }, 166# endif /* ONOEOT */ 167# ifdef ONLRET 168 { "onlret", ONLRET, M_OUTPUT }, 169# endif /* ONLRET */ 170# ifdef OFILL 171 { "ofill", OFILL, M_OUTPUT }, 172# endif /* OFILL */ 173# ifdef OFDEL 174 { "ofdel", OFDEL, M_OUTPUT }, 175# endif /* OFDEL */ 176# ifdef NLDLY 177 { "nldly", NLDLY, M_OUTPUT }, 178# endif /* NLDLY */ 179# ifdef CRDLY 180 { "crdly", CRDLY, M_OUTPUT }, 181# endif /* CRDLY */ 182# ifdef TABDLY 183 { "tabdly", TABDLY, M_OUTPUT }, 184# endif /* TABDLY */ 185# ifdef XTABS 186 { "xtabs", XTABS, M_OUTPUT }, 187# endif /* XTABS */ 188# ifdef BSDLY 189 { "bsdly", BSDLY, M_OUTPUT }, 190# endif /* BSDLY */ 191# ifdef VTDLY 192 { "vtdly", VTDLY, M_OUTPUT }, 193# endif /* VTDLY */ 194# ifdef FFDLY 195 { "ffdly", FFDLY, M_OUTPUT }, 196# endif /* FFDLY */ 197# ifdef PAGEOUT 198 { "pageout",PAGEOUT,M_OUTPUT }, 199# endif /* PAGEOUT */ 200# ifdef WRAP 201 { "wrap", WRAP, M_OUTPUT }, 202# endif /* WRAP */ 203 204# ifdef CIGNORE 205 { "cignore",CIGNORE,M_CONTROL }, 206# endif /* CBAUD */ 207# ifdef CBAUD 208 { "cbaud", CBAUD, M_CONTROL }, 209# endif /* CBAUD */ 210# ifdef CSTOPB 211 { "cstopb", CSTOPB, M_CONTROL }, 212# endif /* CSTOPB */ 213# ifdef CREAD 214 { "cread", CREAD, M_CONTROL }, 215# endif /* CREAD */ 216# ifdef PARENB 217 { "parenb", PARENB, M_CONTROL }, 218# endif /* PARENB */ 219# ifdef PARODD 220 { "parodd", PARODD, M_CONTROL }, 221# endif /* PARODD */ 222# ifdef HUPCL 223 { "hupcl", HUPCL, M_CONTROL }, 224# endif /* HUPCL */ 225# ifdef CLOCAL 226 { "clocal", CLOCAL, M_CONTROL }, 227# endif /* CLOCAL */ 228# ifdef LOBLK 229 { "loblk", LOBLK, M_CONTROL }, 230# endif /* LOBLK */ 231# ifdef CIBAUD 232 { "cibaud", CIBAUD, M_CONTROL }, 233# endif /* CIBAUD */ 234# ifdef CRTSCTS 235# ifdef CCTS_OFLOW 236 { "ccts_oflow",CCTS_OFLOW,M_CONTROL }, 237# else 238 { "crtscts",CRTSCTS,M_CONTROL }, 239# endif /* CCTS_OFLOW */ 240# endif /* CRTSCTS */ 241# ifdef CRTS_IFLOW 242 { "crts_iflow",CRTS_IFLOW,M_CONTROL }, 243# endif /* CRTS_IFLOW */ 244# ifdef MDMBUF 245 { "mdmbuf", MDMBUF, M_CONTROL }, 246# endif /* MDMBUF */ 247# ifdef RCV1EN 248 { "rcv1en", RCV1EN, M_CONTROL }, 249# endif /* RCV1EN */ 250# ifdef XMT1EN 251 { "xmt1en", XMT1EN, M_CONTROL }, 252# endif /* XMT1EN */ 253 254# ifdef ISIG 255 { "isig", ISIG, M_LINED }, 256# endif /* ISIG */ 257# ifdef ICANON 258 { "icanon", ICANON, M_LINED }, 259# endif /* ICANON */ 260# ifdef XCASE 261 { "xcase", XCASE, M_LINED }, 262# endif /* XCASE */ 263# ifdef ECHO 264 { "echo", ECHO, M_LINED }, 265# endif /* ECHO */ 266# ifdef ECHOE 267 { "echoe", ECHOE, M_LINED }, 268# endif /* ECHOE */ 269# ifdef ECHOK 270 { "echok", ECHOK, M_LINED }, 271# endif /* ECHOK */ 272# ifdef ECHONL 273 { "echonl", ECHONL, M_LINED }, 274# endif /* ECHONL */ 275# ifdef NOFLSH 276 { "noflsh", NOFLSH, M_LINED }, 277# endif /* NOFLSH */ 278# ifdef TOSTOP 279 { "tostop", TOSTOP, M_LINED }, 280# endif /* TOSTOP */ 281# ifdef ECHOCTL 282 { "echoctl",ECHOCTL,M_LINED }, 283# endif /* ECHOCTL */ 284# ifdef ECHOPRT 285 { "echoprt",ECHOPRT,M_LINED }, 286# endif /* ECHOPRT */ 287# ifdef ECHOKE 288 { "echoke", ECHOKE, M_LINED }, 289# endif /* ECHOKE */ 290# ifdef DEFECHO 291 { "defecho",DEFECHO,M_LINED }, 292# endif /* DEFECHO */ 293# ifdef FLUSHO 294 { "flusho", FLUSHO, M_LINED }, 295# endif /* FLUSHO */ 296# ifdef PENDIN 297 { "pendin", PENDIN, M_LINED }, 298# endif /* PENDIN */ 299# ifdef IEXTEN 300 { "iexten", IEXTEN, M_LINED }, 301# endif /* IEXTEN */ 302# ifdef NOKERNINFO 303 { "nokerninfo",NOKERNINFO,M_LINED }, 304# endif /* NOKERNINFO */ 305# ifdef ALTWERASE 306 { "altwerase",ALTWERASE,M_LINED }, 307# endif /* ALTWERASE */ 308# ifdef EXTPROC 309 { "extproc",EXTPROC,M_LINED }, 310# endif /* EXTPROC */ 311# ifdef IDEFAULT 312 { "idefault",IDEFAULT,M_LINED }, 313# endif /* IDEFAULT */ 314 315#else /* GSTTY */ 316 317# ifdef TANDEM 318 { "tandem", TANDEM, M_CONTROL }, 319# endif /* TANDEM */ 320# ifdef CBREAK 321 { "cbreak", CBREAK, M_CONTROL }, 322# endif /* CBREAK */ 323# ifdef LCASE 324 { "lcase", LCASE, M_CONTROL }, 325# endif /* LCASE */ 326# ifdef ECHO 327 { "echo", ECHO, M_CONTROL }, 328# endif /* ECHO */ 329# ifdef CRMOD 330 { "crmod", CRMOD, M_CONTROL }, 331# endif /* CRMOD */ 332# ifdef RAW 333 { "raw", RAW, M_CONTROL }, 334# endif /* RAW */ 335# ifdef ODDP 336 { "oddp", ODDP, M_CONTROL }, 337# endif /* ODDP */ 338# ifdef EVENP 339 { "evenp", EVENP, M_CONTROL }, 340# endif /* EVENP */ 341# ifdef ANYP 342 { "anyp", ANYP, M_CONTROL }, 343# endif /* ANYP */ 344# ifdef NLDELAY 345 { "nldelay",NLDELAY,M_CONTROL }, 346# endif /* NLDELAY */ 347# ifdef TBDELAY 348 { "tbdelay",TBDELAY,M_CONTROL }, 349# endif /* TBDELAY */ 350# ifdef XTABS 351 { "xtabs", XTABS, M_CONTROL }, 352# endif /* XTABS */ 353# ifdef CRDELAY 354 { "crdelay",CRDELAY,M_CONTROL }, 355# endif /* CRDELAY */ 356# ifdef VTDELAY 357 { "vtdelay",VTDELAY,M_CONTROL }, 358# endif /* VTDELAY */ 359# ifdef BSDELAY 360 { "bsdelay",BSDELAY,M_CONTROL }, 361# endif /* BSDELAY */ 362# ifdef CRTBS 363 { "crtbs", CRTBS, M_CONTROL }, 364# endif /* CRTBS */ 365# ifdef PRTERA 366 { "prtera", PRTERA, M_CONTROL }, 367# endif /* PRTERA */ 368# ifdef CRTERA 369 { "crtera", CRTERA, M_CONTROL }, 370# endif /* CRTERA */ 371# ifdef TILDE 372 { "tilde", TILDE, M_CONTROL }, 373# endif /* TILDE */ 374# ifdef MDMBUF 375 { "mdmbuf", MDMBUF, M_CONTROL }, 376# endif /* MDMBUF */ 377# ifdef LITOUT 378 { "litout", LITOUT, M_CONTROL }, 379# endif /* LITOUT */ 380# ifdef TOSTOP 381 { "tostop", TOSTOP, M_CONTROL }, 382# endif /* TOSTOP */ 383# ifdef FLUSHO 384 { "flusho", FLUSHO, M_CONTROL }, 385# endif /* FLUSHO */ 386# ifdef NOHANG 387 { "nohang", NOHANG, M_CONTROL }, 388# endif /* NOHANG */ 389# ifdef L001000 390 { "l001000",L001000,M_CONTROL }, 391# endif /* L001000 */ 392# ifdef CRTKIL 393 { "crtkil", CRTKIL, M_CONTROL }, 394# endif /* CRTKIL */ 395# ifdef PASS8 396 { "pass8", PASS8, M_CONTROL }, 397# endif /* PASS8 */ 398# ifdef CTLECH 399 { "ctlech", CTLECH, M_CONTROL }, 400# endif /* CTLECH */ 401# ifdef PENDIN 402 { "pendin", PENDIN, M_CONTROL }, 403# endif /* PENDIN */ 404# ifdef DECCTQ 405 { "decctq", DECCTQ, M_CONTROL }, 406# endif /* DECCTQ */ 407# ifdef NOFLSH 408 { "noflsh", NOFLSH, M_CONTROL }, 409# endif /* NOFLSH */ 410 411# ifdef LCRTBS 412 { "lcrtbs", LCRTBS, M_LOCAL }, 413# endif /* LCRTBS */ 414# ifdef LPRTERA 415 { "lprtera",LPRTERA,M_LOCAL }, 416# endif /* LPRTERA */ 417# ifdef LCRTERA 418 { "lcrtera",LCRTERA,M_LOCAL }, 419# endif /* LCRTERA */ 420# ifdef LTILDE 421 { "ltilde", LTILDE, M_LOCAL }, 422# endif /* LTILDE */ 423# ifdef LMDMBUF 424 { "lmdmbuf",LMDMBUF,M_LOCAL }, 425# endif /* LMDMBUF */ 426# ifdef LLITOUT 427 { "llitout",LLITOUT,M_LOCAL }, 428# endif /* LLITOUT */ 429# ifdef LTOSTOP 430 { "ltostop",LTOSTOP,M_LOCAL }, 431# endif /* LTOSTOP */ 432# ifdef LFLUSHO 433 { "lflusho",LFLUSHO,M_LOCAL }, 434# endif /* LFLUSHO */ 435# ifdef LNOHANG 436 { "lnohang",LNOHANG,M_LOCAL }, 437# endif /* LNOHANG */ 438# ifdef LCRTKIL 439 { "lcrtkil",LCRTKIL,M_LOCAL }, 440# endif /* LCRTKIL */ 441# ifdef LPASS8 442 { "lpass8", LPASS8, M_LOCAL }, 443# endif /* LPASS8 */ 444# ifdef LCTLECH 445 { "lctlech",LCTLECH,M_LOCAL }, 446# endif /* LCTLECH */ 447# ifdef LPENDIN 448 { "lpendin",LPENDIN,M_LOCAL }, 449# endif /* LPENDIN */ 450# ifdef LDECCTQ 451 { "ldecctq",LDECCTQ,M_LOCAL }, 452# endif /* LDECCTQ */ 453# ifdef LNOFLSH 454 { "lnoflsh",LNOFLSH,M_LOCAL }, 455# endif /* LNOFLSH */ 456 457#endif /* POSIX || TERMIO */ 458# if defined(VINTR) || defined(TIOCGETC) 459 { "intr", C_SH(C_INTR), M_CHAR }, 460# endif /* VINTR */ 461# if defined(VQUIT) || defined(TIOCGETC) 462 { "quit", C_SH(C_QUIT), M_CHAR }, 463# endif /* VQUIT */ 464# if defined(VERASE) || defined(TIOCGETP) 465 { "erase", C_SH(C_ERASE), M_CHAR }, 466# endif /* VERASE */ 467# if defined(VKILL) || defined(TIOCGETP) 468 { "kill", C_SH(C_KILL), M_CHAR }, 469# endif /* VKILL */ 470# if defined(VEOF) || defined(TIOCGETC) 471 { "eof", C_SH(C_EOF), M_CHAR }, 472# endif /* VEOF */ 473# if defined(VEOL) 474 { "eol", C_SH(C_EOL), M_CHAR }, 475# endif /* VEOL */ 476# if defined(VEOL2) 477 { "eol2", C_SH(C_EOL2), M_CHAR }, 478# endif /* VEOL2 */ 479# if defined(VSWTCH) 480 { "swtch", C_SH(C_SWTCH), M_CHAR }, 481# endif /* VSWTCH */ 482# if defined(VDSWTCH) 483 { "dswtch", C_SH(C_DSWTCH), M_CHAR }, 484# endif /* VDSWTCH */ 485# if defined(VERASE2) 486 { "erase2", C_SH(C_ERASE2), M_CHAR }, 487# endif /* VERASE2 */ 488# if defined(VSTART) || defined(TIOCGETC) 489 { "start", C_SH(C_START), M_CHAR }, 490# endif /* VSTART */ 491# if defined(VSTOP) || defined(TIOCGETC) 492 { "stop", C_SH(C_STOP), M_CHAR }, 493# endif /* VSTOP */ 494# if defined(VWERASE) || defined(TIOCGLTC) 495 { "werase", C_SH(C_WERASE), M_CHAR }, 496# endif /* VWERASE */ 497# if defined(VSUSP) || defined(TIOCGLTC) 498 { "susp", C_SH(C_SUSP), M_CHAR }, 499# endif /* VSUSP */ 500# if defined(VDSUSP) || defined(TIOCGLTC) 501 { "dsusp", C_SH(C_DSUSP), M_CHAR }, 502# endif /* VDSUSP */ 503# if defined(VREPRINT) || defined(TIOCGLTC) 504 { "reprint", C_SH(C_REPRINT),M_CHAR }, 505# endif /* WREPRINT */ 506# if defined(VDISCARD) || defined(TIOCGLTC) 507 { "discard", C_SH(C_DISCARD),M_CHAR }, 508# endif /* VDISCARD */ 509# if defined(VLNEXT) || defined(TIOCGLTC) 510 { "lnext", C_SH(C_LNEXT), M_CHAR }, 511# endif /* VLNEXT */ 512# if defined(VSTATUS) || defined(TIOCGPAGE) 513 { "status", C_SH(C_STATUS), M_CHAR }, 514# endif /* VSTATUS */ 515# if defined(VPAGE) || defined(TIOCGPAGE) 516 { "page", C_SH(C_PAGE), M_CHAR }, 517# endif /* VPAGE */ 518# if defined(VPGOFF) || defined(TIOCGPAGE) 519 { "pgoff", C_SH(C_PGOFF), M_CHAR }, 520# endif /* VPGOFF */ 521# if defined(VKILL2) 522 { "kill2", C_SH(C_KILL2), M_CHAR }, 523# endif /* VKILL2 */ 524# if defined(VBRK) || defined(TIOCGETC) 525 { "brk", C_SH(C_BRK), M_CHAR }, 526# endif /* VBRK */ 527# if defined(VMIN) 528 { "min", C_SH(C_MIN), M_CHAR }, 529# endif /* VMIN */ 530# if defined(VTIME) 531 { "time", C_SH(C_TIME), M_CHAR }, 532# endif /* VTIME */ 533 { NULL, 0, -1 }, 534}; 535 536/* 537 * If EAGAIN and/or EWOULDBLOCK are defined, we can't just return -1 in all 538 * situations where ioctl() does. 539 * 540 * On AIX 4.1.5 (and presumably some other versions and OSes), as you 541 * perform the manual test suite in the README, if you 'bg' vi immediately 542 * after suspending it, all is well, but if you wait a few seconds, 543 * usually ioctl() will return -1, which previously caused tty_setty() to 544 * return -1, causing Rawmode() to return -1, causing Inputl() to return 545 * 0, causing bgetc() to return -1, causing readc() to set doneinp to 1, 546 * causing process() to break out of the main loop, causing tcsh to exit 547 * prematurely. 548 * 549 * If ioctl()'s errno is EAGAIN/EWOULDBLOCK ("Resource temporarily 550 * unavailable"), apparently the tty is being messed with by the OS and we 551 * need to try again. In my testing, ioctl() was never called more than 552 * twice in a row. 553 * 554 * -- Dan Harkless <dan@wave.eng.uci.edu> 555 * 556 * So, I retry all ioctl's in case others happen to fail too (christos) 557 */ 558 559#if defined(EAGAIN) && defined(EWOULDBLOCK) && (EWOULDBLOCK != EAGAIN) 560# define OKERROR(e) (((e) == EAGAIN) || ((e) == EWOULDBLOCK) || ((e) == EINTR)) 561#elif defined(EGAIN) 562# define OKERROR(e) (((e) == EAGAIN) || ((e) == EINTR)) 563#elif defined(EWOULDBLOCK) 564# define OKERROR(e) (((e) == EWOULDBLOCK) || ((e) == EINTR)) 565#else 566# define OKERROR(e) ((e) == EINTR) 567#endif 568 569/* Retry a system call */ 570#define RETRY(x) \ 571 for (;;) \ 572 if ((x) == -1) { \ 573 if (OKERROR(errno)) \ 574 continue; \ 575 else \ 576 return -1; \ 577 } \ 578 else \ 579 break \ 580 581/*ARGSUSED*/ 582void 583dosetty(v, t) 584 Char **v; 585 struct command *t; 586{ 587 struct tcshmodes *m; 588 char x, *d; 589 int aflag = 0; 590 Char *s; 591 int z = EX_IO; 592 char cmdname[BUFSIZE]; 593 594 USE(t); 595 setname(strcpy(cmdname, short2str(*v++))); 596 597 while (v && *v && v[0][0] == '-' && v[0][2] == '\0') 598 switch (v[0][1]) { 599 case 'a': 600 aflag++; 601 v++; 602 break; 603 case 'd': 604 v++; 605 z = ED_IO; 606 break; 607 case 'x': 608 v++; 609 z = EX_IO; 610 break; 611 case 'q': 612 v++; 613 z = QU_IO; 614 break; 615 default: 616 stderror(ERR_NAME | ERR_SYSTEM, short2str(v[0]), 617 CGETS(8, 1, "Unknown switch")); 618 break; 619 } 620 621 didsetty = 1; 622 if (!v || !*v) { 623 int i = -1; 624 int len = 0, st = 0, cu; 625 for (m = modelist; m->m_name; m++) { 626 if (m->m_type != i) { 627 xprintf("%s%s", i != -1 ? "\n" : "", 628 ttylist[z][m->m_type].t_name); 629 i = m->m_type; 630 st = len = strlen(ttylist[z][m->m_type].t_name); 631 } 632 633 x = (ttylist[z][i].t_setmask & m->m_value) ? '+' : '\0'; 634 x = (ttylist[z][i].t_clrmask & m->m_value) ? '-' : x; 635 636 if (x != '\0' || aflag) { 637 cu = strlen(m->m_name) + (x != '\0') + 1; 638 if (len + cu >= T_Cols) { 639 xprintf("\n%*s", st, ""); 640 len = st + cu; 641 } 642 else 643 len += cu; 644 if (x != '\0') 645 xprintf("%c%s ", x, m->m_name); 646 else 647 xprintf("%s ", m->m_name); 648 } 649 } 650 xputchar('\n'); 651 return; 652 } 653 while (v && (s = *v++)) { 654 switch (*s) { 655 case '+': 656 case '-': 657 x = *s++; 658 break; 659 default: 660 x = '\0'; 661 break; 662 } 663 d = short2str(s); 664 for (m = modelist; m->m_name; m++) 665 if (strcmp(m->m_name, d) == 0) 666 break; 667 if (!m->m_name) 668 stderror(ERR_NAME | ERR_SYSTEM, d, CGETS(8, 2, "Invalid argument")); 669 670 switch (x) { 671 case '+': 672 ttylist[z][m->m_type].t_setmask |= m->m_value; 673 ttylist[z][m->m_type].t_clrmask &= ~m->m_value; 674 break; 675 case '-': 676 ttylist[z][m->m_type].t_setmask &= ~m->m_value; 677 ttylist[z][m->m_type].t_clrmask |= m->m_value; 678 break; 679 default: 680 ttylist[z][m->m_type].t_setmask &= ~m->m_value; 681 ttylist[z][m->m_type].t_clrmask &= ~m->m_value; 682 break; 683 } 684 } 685} /* end dosetty */ 686 687int 688tty_getty(fd, td) 689 int fd; 690 ttydata_t *td; 691{ 692#ifdef POSIX 693 RETRY(tcgetattr(fd, &td->d_t)); 694#else /* TERMIO || GSTTY */ 695# ifdef TERMIO 696 RETRY(ioctl(fd, TCGETA, (ioctl_t) &td->d_t)); 697# else /* GSTTY */ 698# ifdef TIOCGETP 699 RETRY(ioctl(fd, TIOCGETP, (ioctl_t) &td->d_t)); 700# endif /* TIOCGETP */ 701# ifdef TIOCGETC 702 RETRY(ioctl(fd, TIOCGETC, (ioctl_t) &td->d_tc)); 703# endif /* TIOCGETC */ 704# ifdef TIOCGPAGE 705 RETRY(ioctl(fd, TIOCGPAGE, (ioctl_t) &td->d_pc)); 706# endif /* TIOCGPAGE */ 707# ifdef TIOCLGET 708 RETRY(ioctl(fd, TIOCLGET, (ioctl_t) &td->d_lb)); 709# endif /* TIOCLGET */ 710# endif /* TERMIO */ 711#endif /* POSIX */ 712 713#ifdef TIOCGLTC 714 RETRY(ioctl(fd, TIOCGLTC, (ioctl_t) &td->d_ltc)); 715#endif /* TIOCGLTC */ 716 717 return 0; 718} 719 720int 721tty_setty(fd, td) 722 int fd; 723 ttydata_t *td; 724{ 725#ifdef POSIX 726 RETRY(tcsetattr(fd, TCSADRAIN, &td->d_t)); 727#else 728# ifdef TERMIO 729 RETRY(ioctl(fd, TCSETAW, (ioctl_t) &td->d_t)); 730# else 731# ifdef TIOCSETN 732 RETRY(ioctl(fd, TIOCSETN, (ioctl_t) &td->d_t)); 733# endif /* TIOCSETN */ 734# ifdef TIOCGETC 735 RETRY(ioctl(fd, TIOCSETC, (ioctl_t) &td->d_tc)); 736# endif /* TIOCGETC */ 737# ifdef TIOCGPAGE 738 RETRY(ioctl(fd, TIOCSPAGE, (ioctl_t) &td->d_pc)); 739# endif /* TIOCGPAGE */ 740# ifdef TIOCLGET 741 RETRY(ioctl(fd, TIOCLSET, (ioctl_t) &td->d_lb)); 742# endif /* TIOCLGET */ 743# endif /* TERMIO */ 744#endif /* POSIX */ 745 746#ifdef TIOCGLTC 747 RETRY(ioctl(fd, TIOCSLTC, (ioctl_t) &td->d_ltc)); 748#endif /* TIOCGLTC */ 749 750 return 0; 751} 752 753void 754tty_getchar(td, s) 755 ttydata_t *td; 756 unsigned char *s; 757{ 758#ifdef TIOCGLTC 759 { 760 struct ltchars *n = &td->d_ltc; 761 762 s[C_SUSP] = n->t_suspc; 763 s[C_DSUSP] = n->t_dsuspc; 764 s[C_REPRINT] = n->t_rprntc; 765 s[C_DISCARD] = n->t_flushc; 766 s[C_WERASE] = n->t_werasc; 767 s[C_LNEXT] = n->t_lnextc; 768 } 769#endif /* TIOCGLTC */ 770 771#if defined(POSIX) || defined(TERMIO) 772 { 773# ifdef POSIX 774 struct termios *n = &td->d_t; 775# else 776 struct termio *n = &td->d_t; 777# endif /* POSIX */ 778 779# ifdef VINTR 780 s[C_INTR] = n->c_cc[VINTR]; 781# endif /* VINTR */ 782# ifdef VQUIT 783 s[C_QUIT] = n->c_cc[VQUIT]; 784# endif /* VQUIT */ 785# ifdef VERASE 786 s[C_ERASE] = n->c_cc[VERASE]; 787# endif /* VERASE */ 788# ifdef VKILL 789 s[C_KILL] = n->c_cc[VKILL]; 790# endif /* VKILL */ 791# ifdef VEOF 792 s[C_EOF] = n->c_cc[VEOF]; 793# endif /* VEOF */ 794# ifdef VEOL 795 s[C_EOL] = n->c_cc[VEOL]; 796# endif /* VEOL */ 797# ifdef VEOL2 798 s[C_EOL2] = n->c_cc[VEOL2]; 799# endif /* VEOL2 */ 800# ifdef VSWTCH 801 s[C_SWTCH] = n->c_cc[VSWTCH]; 802# endif /* VSWTCH */ 803# ifdef VDSWTCH 804 s[C_DSWTCH] = n->c_cc[VDSWTCH]; 805# endif /* VDSWTCH */ 806# ifdef VERASE2 807 s[C_ERASE2] = n->c_cc[VERASE2]; 808# endif /* VERASE2 */ 809# ifdef VSTART 810 s[C_START] = n->c_cc[VSTART]; 811# endif /* VSTART */ 812# ifdef VSTOP 813 s[C_STOP] = n->c_cc[VSTOP]; 814# endif /* VSTOP */ 815# ifdef VWERASE 816 s[C_WERASE] = n->c_cc[VWERASE]; 817# endif /* VWERASE */ 818# ifdef VSUSP 819 s[C_SUSP] = n->c_cc[VSUSP]; 820# endif /* VSUSP */ 821# ifdef VDSUSP 822 s[C_DSUSP] = n->c_cc[VDSUSP]; 823# endif /* VDSUSP */ 824# ifdef VREPRINT 825 s[C_REPRINT] = n->c_cc[VREPRINT]; 826# endif /* WREPRINT */ 827# ifdef VDISCARD 828 s[C_DISCARD] = n->c_cc[VDISCARD]; 829# endif /* VDISCARD */ 830# ifdef VLNEXT 831 s[C_LNEXT] = n->c_cc[VLNEXT]; 832# endif /* VLNEXT */ 833# ifdef VSTATUS 834 s[C_STATUS] = n->c_cc[VSTATUS]; 835# endif /* VSTATUS */ 836# ifdef VPAGE 837 s[C_PAGE] = n->c_cc[VPAGE]; 838# endif /* VPAGE */ 839# ifdef VPGOFF 840 s[C_PGOFF] = n->c_cc[VPGOFF]; 841# endif /* VPGOFF */ 842# ifdef VKILL2 843 s[C_KILL2] = n->c_cc[VKILL2]; 844# endif /* KILL2 */ 845# ifdef VMIN 846 s[C_MIN] = n->c_cc[VMIN]; 847# endif /* VMIN */ 848# ifdef VTIME 849 s[C_TIME] = n->c_cc[VTIME]; 850# endif /* VTIME */ 851 } 852 853#else /* SGTTY */ 854 855# ifdef TIOCGPAGE 856 { 857 struct ttypagestat *n = &td->d_pc; 858 859 s[C_STATUS] = n->tps_statc; 860 s[C_PAGE] = n->tps_pagec; 861 s[C_PGOFF] = n->tps_pgoffc; 862 } 863# endif /* TIOCGPAGE */ 864 865# ifdef TIOCGETC 866 { 867 struct tchars *n = &td->d_tc; 868 869 s[C_INTR] = n->t_intrc; 870 s[C_QUIT] = n->t_quitc; 871 s[C_START] = n->t_startc; 872 s[C_STOP] = n->t_stopc; 873 s[C_EOF] = n->t_eofc; 874 s[C_BRK] = n->t_brkc; 875 } 876# endif /* TIOCGETC */ 877 878# ifdef TIOCGETP 879 { 880 struct sgttyb *n = &td->d_t; 881 882 s[C_ERASE] = n->sg_erase; 883 s[C_KILL] = n->sg_kill; 884 } 885# endif /* TIOCGETP */ 886#endif /* !POSIX || TERMIO */ 887 888} /* tty_getchar */ 889 890 891void 892tty_setchar(td, s) 893 ttydata_t *td; 894 unsigned char *s; 895{ 896#ifdef TIOCGLTC 897 { 898 struct ltchars *n = &td->d_ltc; 899 900 n->t_suspc = s[C_SUSP]; 901 n->t_dsuspc = s[C_DSUSP]; 902 n->t_rprntc = s[C_REPRINT]; 903 n->t_flushc = s[C_DISCARD]; 904 n->t_werasc = s[C_WERASE]; 905 n->t_lnextc = s[C_LNEXT]; 906 } 907#endif /* TIOCGLTC */ 908 909#if defined(POSIX) || defined(TERMIO) 910 { 911# ifdef POSIX 912 struct termios *n = &td->d_t; 913# else 914 struct termio *n = &td->d_t; 915# endif /* POSIX */ 916 917# ifdef VINTR 918 n->c_cc[VINTR] = s[C_INTR]; 919# endif /* VINTR */ 920# ifdef VQUIT 921 n->c_cc[VQUIT] = s[C_QUIT]; 922# endif /* VQUIT */ 923# ifdef VERASE 924 n->c_cc[VERASE] = s[C_ERASE]; 925# endif /* VERASE */ 926# ifdef VKILL 927 n->c_cc[VKILL] = s[C_KILL]; 928# endif /* VKILL */ 929# ifdef VEOF 930 n->c_cc[VEOF] = s[C_EOF]; 931# endif /* VEOF */ 932# ifdef VEOL 933 n->c_cc[VEOL] = s[C_EOL]; 934# endif /* VEOL */ 935# ifdef VEOL2 936 n->c_cc[VEOL2] = s[C_EOL2]; 937# endif /* VEOL2 */ 938# ifdef VSWTCH 939 n->c_cc[VSWTCH] = s[C_SWTCH]; 940# endif /* VSWTCH */ 941# ifdef VDSWTCH 942 n->c_cc[VDSWTCH] = s[C_DSWTCH]; 943# endif /* VDSWTCH */ 944# ifdef VERASE2 945 n->c_cc[VERASE2] = s[C_ERASE2]; 946# endif /* VERASE2 */ 947# ifdef VSTART 948 n->c_cc[VSTART] = s[C_START]; 949# endif /* VSTART */ 950# ifdef VSTOP 951 n->c_cc[VSTOP] = s[C_STOP]; 952# endif /* VSTOP */ 953# ifdef VWERASE 954 n->c_cc[VWERASE] = s[C_WERASE]; 955# endif /* VWERASE */ 956# ifdef VSUSP 957 n->c_cc[VSUSP] = s[C_SUSP]; 958# endif /* VSUSP */ 959# ifdef VDSUSP 960 n->c_cc[VDSUSP] = s[C_DSUSP]; 961# endif /* VDSUSP */ 962# ifdef VREPRINT 963 n->c_cc[VREPRINT] = s[C_REPRINT]; 964# endif /* WREPRINT */ 965# ifdef VDISCARD 966 n->c_cc[VDISCARD] = s[C_DISCARD]; 967# endif /* VDISCARD */ 968# ifdef VLNEXT 969 n->c_cc[VLNEXT] = s[C_LNEXT]; 970# endif /* VLNEXT */ 971# ifdef VSTATUS 972 n->c_cc[VSTATUS] = s[C_STATUS]; 973# endif /* VSTATUS */ 974# ifdef VPAGE 975 n->c_cc[VPAGE] = s[C_PAGE]; 976# endif /* VPAGE */ 977# ifdef VPGOFF 978 n->c_cc[VPGOFF] = s[C_PGOFF]; 979# endif /* VPGOFF */ 980# ifdef VKILL2 981 n->c_cc[VKILL2] = s[C_KILL2]; 982# endif /* VKILL2 */ 983# ifdef VMIN 984 n->c_cc[VMIN] = s[C_MIN]; 985# endif /* VMIN */ 986# ifdef VTIME 987 n->c_cc[VTIME] = s[C_TIME]; 988# endif /* VTIME */ 989 } 990 991#else /* GSTTY */ 992 993# ifdef TIOCGPAGE 994 { 995 struct ttypagestat *n = &td->d_pc; 996 997 n->tps_length = 0; 998 n->tps_lpos = 0; 999 n->tps_statc = s[C_STATUS]; 1000 n->tps_pagec = s[C_PAGE]; 1001 n->tps_pgoffc = s[C_PGOFF]; 1002 n->tps_flag = 0; 1003 } 1004# endif /* TIOCGPAGE */ 1005 1006# ifdef TIOCGETC 1007 { 1008 struct tchars *n = &td->d_tc; 1009 n->t_intrc = s[C_INTR]; 1010 n->t_quitc = s[C_QUIT]; 1011 n->t_startc = s[C_START]; 1012 n->t_stopc = s[C_STOP]; 1013 n->t_eofc = s[C_EOF]; 1014 n->t_brkc = s[C_BRK]; 1015 } 1016# endif /* TIOCGETC */ 1017 1018# ifdef TIOCGETP 1019 { 1020 struct sgttyb *n = &td->d_t; 1021 1022 n->sg_erase = s[C_ERASE]; 1023 n->sg_kill = s[C_KILL]; 1024 } 1025# endif /* TIOCGETP */ 1026#endif /* !POSIX || TERMIO */ 1027 1028} /* tty_setchar */ 1029 1030speed_t 1031tty_getspeed(td) 1032 ttydata_t *td; 1033{ 1034 speed_t spd; 1035 1036#ifdef POSIX 1037 if ((spd = cfgetispeed(&td->d_t)) == 0) 1038 spd = cfgetospeed(&td->d_t); 1039#else /* ! POSIX */ 1040# ifdef TERMIO 1041# ifdef CBAUD 1042 spd = td->d_t.c_cflag & CBAUD; 1043# else 1044 spd = 0; 1045# endif 1046# else /* SGTTY */ 1047 spd = td->d_t.sg_ispeed; 1048# endif /* TERMIO */ 1049#endif /* POSIX */ 1050 1051 return spd; 1052} /* end tty_getspeed */ 1053 1054int 1055tty_gettabs(td) 1056 ttydata_t *td; 1057{ 1058#if defined(POSIX) || defined(TERMIO) 1059 return ((td->d_t.c_oflag & TAB3) == TAB3) ? 0 : 1; 1060#else /* SGTTY */ 1061 return (td->d_t.sg_flags & XTABS) == XTABS ? 0 : 1; 1062#endif /* POSIX || TERMIO */ 1063} /* end tty_gettabs */ 1064 1065int 1066tty_geteightbit(td) 1067 ttydata_t *td; 1068{ 1069#if defined(POSIX) || defined(TERMIO) 1070 return (td->d_t.c_cflag & CSIZE) == CS8; 1071#else /* SGTTY */ 1072 return td->d_lb & (LPASS8 | LLITOUT); 1073#endif /* POSIX || TERMIO */ 1074} /* end tty_geteightbit */ 1075 1076int 1077tty_cooked_mode(td) 1078 ttydata_t *td; 1079{ 1080#if defined(POSIX) || defined(TERMIO) 1081 return (td->d_t.c_lflag & ICANON); 1082#else /* SGTTY */ 1083 return !(td->d_t.sg_flags & (RAW | CBREAK)); 1084#endif /* POSIX || TERMIO */ 1085} /* end tty_cooked_mode */ 1086 1087#ifdef _IBMR2 1088void 1089tty_setdisc(fd, dis) 1090 int fd; 1091 int dis; 1092{ 1093 static bool edit_discipline = 0; 1094 static union txname tx_disc; 1095 extern char strPOSIX[]; 1096 1097 switch (dis) { 1098 case EX_IO: 1099 if (edit_discipline) { 1100 if (ioctl(fd, TXSETLD, (ioctl_t) & tx_disc) == -1) 1101 return; 1102 edit_discipline = 0; 1103 } 1104 return; 1105 1106 case ED_IO: 1107 tx_disc.tx_which = 0; 1108 if (ioctl(fd, TXGETLD, (ioctl_t) & tx_disc) == -1) 1109 return; 1110 if (strcmp(tx_disc.tx_name, strPOSIX) != 0) { 1111 edit_discipline = 1; 1112 if (ioctl(fd, TXSETLD, (ioctl_t) strPOSIX) == -1) 1113 return; 1114 } 1115 return; 1116 1117 default: 1118 return; 1119 } 1120} /* end tty_setdisc */ 1121#endif /* _IBMR2 */ 1122 1123#ifdef DEBUG_TTY 1124static void 1125tty_printchar(s) 1126 unsigned char *s; 1127{ 1128 struct tcshmodes *m; 1129 int i; 1130 1131 for (i = 0; i < C_NCC; i++) { 1132 for (m = modelist; m->m_name; m++) 1133 if (m->m_type == M_CHAR && C_SH(i) == m->m_value) 1134 break; 1135 if (m->m_name) 1136 xprintf("%s ^%c ", m->m_name, s[i] + 'A' - 1); 1137 if (i % 5 == 0) 1138 xputchar('\n'); 1139 } 1140 xputchar('\n'); 1141} 1142#endif /* DEBUG_TTY */ 1143#else /* WINNT */ 1144int 1145tty_cooked_mode(td) 1146 void *td; 1147{ 1148 return do_nt_check_cooked_mode(); 1149} 1150#endif /* !WINNT */ 1151