sys_bsd.c revision 1.2
1 1.1 cgd /* 2 1.1 cgd * Copyright (c) 1988, 1990 Regents of the University of California. 3 1.1 cgd * All rights reserved. 4 1.1 cgd * 5 1.1 cgd * Redistribution and use in source and binary forms, with or without 6 1.1 cgd * modification, are permitted provided that the following conditions 7 1.1 cgd * are met: 8 1.1 cgd * 1. Redistributions of source code must retain the above copyright 9 1.1 cgd * notice, this list of conditions and the following disclaimer. 10 1.1 cgd * 2. Redistributions in binary form must reproduce the above copyright 11 1.1 cgd * notice, this list of conditions and the following disclaimer in the 12 1.1 cgd * documentation and/or other materials provided with the distribution. 13 1.1 cgd * 3. All advertising materials mentioning features or use of this software 14 1.1 cgd * must display the following acknowledgement: 15 1.1 cgd * This product includes software developed by the University of 16 1.1 cgd * California, Berkeley and its contributors. 17 1.1 cgd * 4. Neither the name of the University nor the names of its contributors 18 1.1 cgd * may be used to endorse or promote products derived from this software 19 1.1 cgd * without specific prior written permission. 20 1.1 cgd * 21 1.1 cgd * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 22 1.1 cgd * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 23 1.1 cgd * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 24 1.1 cgd * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 25 1.1 cgd * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 26 1.1 cgd * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 27 1.1 cgd * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 28 1.1 cgd * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 29 1.1 cgd * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 30 1.1 cgd * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 1.1 cgd * SUCH DAMAGE. 32 1.1 cgd */ 33 1.1 cgd 34 1.1 cgd #ifndef lint 35 1.1 cgd static char sccsid[] = "@(#)sys_bsd.c 5.2 (Berkeley) 3/1/91"; 36 1.1 cgd #endif /* not lint */ 37 1.1 cgd 38 1.1 cgd /* 39 1.1 cgd * The following routines try to encapsulate what is system dependent 40 1.1 cgd * (at least between 4.x and dos) which is used in telnet.c. 41 1.1 cgd */ 42 1.1 cgd 43 1.1 cgd 44 1.1 cgd #include <fcntl.h> 45 1.1 cgd #include <sys/types.h> 46 1.1 cgd #include <sys/time.h> 47 1.1 cgd #include <sys/socket.h> 48 1.1 cgd #include <signal.h> 49 1.1 cgd #include <errno.h> 50 1.1 cgd #include <arpa/telnet.h> 51 1.1 cgd 52 1.1 cgd #include "ring.h" 53 1.1 cgd 54 1.1 cgd #include "fdset.h" 55 1.1 cgd 56 1.1 cgd #include "defines.h" 57 1.1 cgd #include "externs.h" 58 1.1 cgd #include "types.h" 59 1.1 cgd 60 1.1 cgd #if defined(CRAY) || (defined(USE_TERMIO) && !defined(SYSV_TERMIO)) 61 1.1 cgd #define SIG_FUNC_RET void 62 1.1 cgd #else 63 1.1 cgd #define SIG_FUNC_RET int 64 1.1 cgd #endif 65 1.1 cgd 66 1.1 cgd int 67 1.1 cgd tout, /* Output file descriptor */ 68 1.1 cgd tin, /* Input file descriptor */ 69 1.1 cgd net; 70 1.1 cgd 71 1.1 cgd #ifndef USE_TERMIO 72 1.1 cgd struct tchars otc = { 0 }, ntc = { 0 }; 73 1.1 cgd struct ltchars oltc = { 0 }, nltc = { 0 }; 74 1.1 cgd struct sgttyb ottyb = { 0 }, nttyb = { 0 }; 75 1.1 cgd int olmode = 0; 76 1.1 cgd # define cfgetispeed(ptr) (ptr)->sg_ispeed 77 1.1 cgd # define cfgetospeed(ptr) (ptr)->sg_ospeed 78 1.1 cgd # define old_tc ottyb 79 1.1 cgd 80 1.1 cgd #else /* USE_TERMIO */ 81 1.1 cgd struct termio old_tc = { 0 }; 82 1.1 cgd extern struct termio new_tc; 83 1.1 cgd 84 1.1 cgd # ifndef TCSANOW 85 1.1 cgd # ifdef TCSETS 86 1.1 cgd # define TCSANOW TCSETS 87 1.1 cgd # define TCSADRAIN TCSETSW 88 1.1 cgd # define tcgetattr(f, t) ioctl(f, TCGETS, (char *)t) 89 1.1 cgd # else 90 1.1 cgd # ifdef TCSETA 91 1.1 cgd # define TCSANOW TCSETA 92 1.1 cgd # define TCSADRAIN TCSETAW 93 1.1 cgd # define tcgetattr(f, t) ioctl(f, TCGETA, (char *)t) 94 1.1 cgd # else 95 1.1 cgd # define TCSANOW TIOCSETA 96 1.1 cgd # define TCSADRAIN TIOCSETAW 97 1.1 cgd # define tcgetattr(f, t) ioctl(f, TIOCGETA, (char *)t) 98 1.1 cgd # endif 99 1.1 cgd # endif 100 1.1 cgd # define tcsetattr(f, a, t) ioctl(f, a, (char *)t) 101 1.1 cgd # define cfgetospeed(ptr) ((ptr)->c_cflag&CBAUD) 102 1.1 cgd # ifdef CIBAUD 103 1.1 cgd # define cfgetispeed(ptr) (((ptr)->c_cflag&CIBAUD) >> IBSHIFT) 104 1.1 cgd # else 105 1.1 cgd # define cfgetispeed(ptr) cfgetospeed(ptr) 106 1.1 cgd # endif 107 1.1 cgd # endif /* TCSANOW */ 108 1.1 cgd #endif /* USE_TERMIO */ 109 1.1 cgd 110 1.1 cgd static fd_set ibits, obits, xbits; 111 1.1 cgd 112 1.1 cgd 113 1.1 cgd void 114 1.1 cgd init_sys() 115 1.1 cgd { 116 1.1 cgd tout = fileno(stdout); 117 1.1 cgd tin = fileno(stdin); 118 1.1 cgd FD_ZERO(&ibits); 119 1.1 cgd FD_ZERO(&obits); 120 1.1 cgd FD_ZERO(&xbits); 121 1.1 cgd 122 1.1 cgd errno = 0; 123 1.1 cgd } 124 1.1 cgd 125 1.1 cgd 126 1.1 cgd int 127 1.1 cgd TerminalWrite(buf, n) 128 1.1 cgd char *buf; 129 1.1 cgd int n; 130 1.1 cgd { 131 1.1 cgd return write(tout, buf, n); 132 1.1 cgd } 133 1.1 cgd 134 1.1 cgd int 135 1.1 cgd TerminalRead(buf, n) 136 1.1 cgd char *buf; 137 1.1 cgd int n; 138 1.1 cgd { 139 1.1 cgd return read(tin, buf, n); 140 1.1 cgd } 141 1.1 cgd 142 1.1 cgd /* 143 1.1 cgd * 144 1.1 cgd */ 145 1.1 cgd 146 1.1 cgd int 147 1.1 cgd TerminalAutoFlush() 148 1.1 cgd { 149 1.1 cgd #if defined(LNOFLSH) 150 1.1 cgd int flush; 151 1.1 cgd 152 1.1 cgd ioctl(0, TIOCLGET, (char *)&flush); 153 1.1 cgd return !(flush&LNOFLSH); /* if LNOFLSH, no autoflush */ 154 1.1 cgd #else /* LNOFLSH */ 155 1.1 cgd return 1; 156 1.1 cgd #endif /* LNOFLSH */ 157 1.1 cgd } 158 1.1 cgd 159 1.1 cgd #ifdef KLUDGELINEMODE 160 1.1 cgd extern int kludgelinemode; 161 1.1 cgd #endif 162 1.1 cgd /* 163 1.1 cgd * TerminalSpecialChars() 164 1.1 cgd * 165 1.1 cgd * Look at an input character to see if it is a special character 166 1.1 cgd * and decide what to do. 167 1.1 cgd * 168 1.1 cgd * Output: 169 1.1 cgd * 170 1.1 cgd * 0 Don't add this character. 171 1.1 cgd * 1 Do add this character 172 1.1 cgd */ 173 1.1 cgd 174 1.2 mycroft void intp(), sendbrk(), sendabort(); 175 1.2 mycroft 176 1.1 cgd int 177 1.1 cgd TerminalSpecialChars(c) 178 1.1 cgd int c; 179 1.1 cgd { 180 1.2 mycroft void xmitAO(), xmitEL(), xmitEC(); 181 1.1 cgd 182 1.1 cgd if (c == termIntChar) { 183 1.1 cgd intp(); 184 1.1 cgd return 0; 185 1.1 cgd } else if (c == termQuitChar) { 186 1.1 cgd #ifdef KLUDGELINEMODE 187 1.1 cgd if (kludgelinemode) 188 1.1 cgd sendbrk(); 189 1.1 cgd else 190 1.1 cgd #endif 191 1.1 cgd sendabort(); 192 1.1 cgd return 0; 193 1.1 cgd } else if (c == termEofChar) { 194 1.1 cgd if (my_want_state_is_will(TELOPT_LINEMODE)) { 195 1.1 cgd sendeof(); 196 1.1 cgd return 0; 197 1.1 cgd } 198 1.1 cgd return 1; 199 1.1 cgd } else if (c == termSuspChar) { 200 1.1 cgd sendsusp(); 201 1.1 cgd return(0); 202 1.1 cgd } else if (c == termFlushChar) { 203 1.1 cgd xmitAO(); /* Transmit Abort Output */ 204 1.1 cgd return 0; 205 1.1 cgd } else if (!MODE_LOCAL_CHARS(globalmode)) { 206 1.1 cgd if (c == termKillChar) { 207 1.1 cgd xmitEL(); 208 1.1 cgd return 0; 209 1.1 cgd } else if (c == termEraseChar) { 210 1.1 cgd xmitEC(); /* Transmit Erase Character */ 211 1.1 cgd return 0; 212 1.1 cgd } 213 1.1 cgd } 214 1.1 cgd return 1; 215 1.1 cgd } 216 1.1 cgd 217 1.1 cgd 218 1.1 cgd /* 219 1.1 cgd * Flush output to the terminal 220 1.1 cgd */ 221 1.1 cgd 222 1.1 cgd void 223 1.1 cgd TerminalFlushOutput() 224 1.1 cgd { 225 1.1 cgd #ifdef TIOCFLUSH 226 1.1 cgd (void) ioctl(fileno(stdout), TIOCFLUSH, (char *) 0); 227 1.1 cgd #else 228 1.1 cgd (void) ioctl(fileno(stdout), TCFLSH, (char *) 0); 229 1.1 cgd #endif 230 1.1 cgd } 231 1.1 cgd 232 1.1 cgd void 233 1.1 cgd TerminalSaveState() 234 1.1 cgd { 235 1.1 cgd #ifndef USE_TERMIO 236 1.1 cgd ioctl(0, TIOCGETP, (char *)&ottyb); 237 1.1 cgd ioctl(0, TIOCGETC, (char *)&otc); 238 1.1 cgd ioctl(0, TIOCGLTC, (char *)&oltc); 239 1.1 cgd ioctl(0, TIOCLGET, (char *)&olmode); 240 1.1 cgd 241 1.1 cgd ntc = otc; 242 1.1 cgd nltc = oltc; 243 1.1 cgd nttyb = ottyb; 244 1.1 cgd 245 1.1 cgd #else /* USE_TERMIO */ 246 1.1 cgd tcgetattr(0, &old_tc); 247 1.1 cgd 248 1.1 cgd new_tc = old_tc; 249 1.1 cgd 250 1.1 cgd #ifndef VDISCARD 251 1.1 cgd termFlushChar = CONTROL('O'); 252 1.1 cgd #endif 253 1.1 cgd #ifndef VWERASE 254 1.1 cgd termWerasChar = CONTROL('W'); 255 1.1 cgd #endif 256 1.1 cgd #ifndef VREPRINT 257 1.1 cgd termRprntChar = CONTROL('R'); 258 1.1 cgd #endif 259 1.1 cgd #ifndef VLNEXT 260 1.1 cgd termLiteralNextChar = CONTROL('V'); 261 1.1 cgd #endif 262 1.1 cgd #ifndef VSTART 263 1.1 cgd termStartChar = CONTROL('Q'); 264 1.1 cgd #endif 265 1.1 cgd #ifndef VSTOP 266 1.1 cgd termStopChar = CONTROL('S'); 267 1.1 cgd #endif 268 1.1 cgd #ifndef VSTATUS 269 1.1 cgd termAytChar = CONTROL('T'); 270 1.1 cgd #endif 271 1.1 cgd #endif /* USE_TERMIO */ 272 1.1 cgd } 273 1.1 cgd 274 1.1 cgd cc_t * 275 1.1 cgd tcval(func) 276 1.1 cgd register int func; 277 1.1 cgd { 278 1.1 cgd switch(func) { 279 1.1 cgd case SLC_IP: return(&termIntChar); 280 1.1 cgd case SLC_ABORT: return(&termQuitChar); 281 1.1 cgd case SLC_EOF: return(&termEofChar); 282 1.1 cgd case SLC_EC: return(&termEraseChar); 283 1.1 cgd case SLC_EL: return(&termKillChar); 284 1.1 cgd case SLC_XON: return(&termStartChar); 285 1.1 cgd case SLC_XOFF: return(&termStopChar); 286 1.1 cgd case SLC_FORW1: return(&termForw1Char); 287 1.1 cgd #ifdef USE_TERMIO 288 1.1 cgd case SLC_FORW2: return(&termForw2Char); 289 1.1 cgd # ifdef VDISCARD 290 1.1 cgd case SLC_AO: return(&termFlushChar); 291 1.1 cgd # endif 292 1.1 cgd # ifdef VSUSP 293 1.1 cgd case SLC_SUSP: return(&termSuspChar); 294 1.1 cgd # endif 295 1.1 cgd # ifdef VWERASE 296 1.1 cgd case SLC_EW: return(&termWerasChar); 297 1.1 cgd # endif 298 1.1 cgd # ifdef VREPRINT 299 1.1 cgd case SLC_RP: return(&termRprntChar); 300 1.1 cgd # endif 301 1.1 cgd # ifdef VLNEXT 302 1.1 cgd case SLC_LNEXT: return(&termLiteralNextChar); 303 1.1 cgd # endif 304 1.1 cgd # ifdef VSTATUS 305 1.1 cgd case SLC_AYT: return(&termAytChar); 306 1.1 cgd # endif 307 1.1 cgd #endif 308 1.1 cgd 309 1.1 cgd case SLC_SYNCH: 310 1.1 cgd case SLC_BRK: 311 1.1 cgd case SLC_EOR: 312 1.1 cgd default: 313 1.1 cgd return((cc_t *)0); 314 1.1 cgd } 315 1.1 cgd } 316 1.1 cgd 317 1.1 cgd void 318 1.1 cgd TerminalDefaultChars() 319 1.1 cgd { 320 1.1 cgd #ifndef USE_TERMIO 321 1.1 cgd ntc = otc; 322 1.1 cgd nltc = oltc; 323 1.1 cgd nttyb.sg_kill = ottyb.sg_kill; 324 1.1 cgd nttyb.sg_erase = ottyb.sg_erase; 325 1.1 cgd #else /* USE_TERMIO */ 326 1.1 cgd memcpy(new_tc.c_cc, old_tc.c_cc, sizeof(old_tc.c_cc)); 327 1.1 cgd # ifndef VDISCARD 328 1.1 cgd termFlushChar = CONTROL('O'); 329 1.1 cgd # endif 330 1.1 cgd # ifndef VWERASE 331 1.1 cgd termWerasChar = CONTROL('W'); 332 1.1 cgd # endif 333 1.1 cgd # ifndef VREPRINT 334 1.1 cgd termRprntChar = CONTROL('R'); 335 1.1 cgd # endif 336 1.1 cgd # ifndef VLNEXT 337 1.1 cgd termLiteralNextChar = CONTROL('V'); 338 1.1 cgd # endif 339 1.1 cgd # ifndef VSTART 340 1.1 cgd termStartChar = CONTROL('Q'); 341 1.1 cgd # endif 342 1.1 cgd # ifndef VSTOP 343 1.1 cgd termStopChar = CONTROL('S'); 344 1.1 cgd # endif 345 1.1 cgd # ifndef VSTATUS 346 1.1 cgd termAytChar = CONTROL('T'); 347 1.1 cgd # endif 348 1.1 cgd #endif /* USE_TERMIO */ 349 1.1 cgd } 350 1.1 cgd 351 1.1 cgd #ifdef notdef 352 1.1 cgd void 353 1.1 cgd TerminalRestoreState() 354 1.1 cgd { 355 1.1 cgd } 356 1.1 cgd #endif 357 1.1 cgd 358 1.1 cgd /* 359 1.1 cgd * TerminalNewMode - set up terminal to a specific mode. 360 1.1 cgd * MODE_ECHO: do local terminal echo 361 1.1 cgd * MODE_FLOW: do local flow control 362 1.1 cgd * MODE_TRAPSIG: do local mapping to TELNET IAC sequences 363 1.1 cgd * MODE_EDIT: do local line editing 364 1.1 cgd * 365 1.1 cgd * Command mode: 366 1.1 cgd * MODE_ECHO|MODE_EDIT|MODE_FLOW|MODE_TRAPSIG 367 1.1 cgd * local echo 368 1.1 cgd * local editing 369 1.1 cgd * local xon/xoff 370 1.1 cgd * local signal mapping 371 1.1 cgd * 372 1.1 cgd * Linemode: 373 1.1 cgd * local/no editing 374 1.1 cgd * Both Linemode and Single Character mode: 375 1.1 cgd * local/remote echo 376 1.1 cgd * local/no xon/xoff 377 1.1 cgd * local/no signal mapping 378 1.1 cgd */ 379 1.1 cgd 380 1.2 mycroft SIG_FUNC_RET ayt_status(); 381 1.1 cgd 382 1.1 cgd void 383 1.1 cgd TerminalNewMode(f) 384 1.1 cgd register int f; 385 1.1 cgd { 386 1.1 cgd static int prevmode = 0; 387 1.1 cgd #ifndef USE_TERMIO 388 1.1 cgd struct tchars tc; 389 1.1 cgd struct ltchars ltc; 390 1.1 cgd struct sgttyb sb; 391 1.1 cgd int lmode; 392 1.1 cgd #else /* USE_TERMIO */ 393 1.1 cgd struct termio tmp_tc; 394 1.1 cgd #endif /* USE_TERMIO */ 395 1.1 cgd int onoff; 396 1.1 cgd int old; 397 1.1 cgd cc_t esc; 398 1.1 cgd 399 1.1 cgd globalmode = f&~MODE_FORCE; 400 1.1 cgd if (prevmode == f) 401 1.1 cgd return; 402 1.1 cgd 403 1.1 cgd /* 404 1.1 cgd * Write any outstanding data before switching modes 405 1.1 cgd * ttyflush() returns 0 only when there is no more data 406 1.1 cgd * left to write out, it returns -1 if it couldn't do 407 1.1 cgd * anything at all, otherwise it returns 1 + the number 408 1.1 cgd * of characters left to write. 409 1.1 cgd #ifndef USE_TERMIO 410 1.1 cgd * We would really like ask the kernel to wait for the output 411 1.1 cgd * to drain, like we can do with the TCSADRAIN, but we don't have 412 1.1 cgd * that option. The only ioctl that waits for the output to 413 1.1 cgd * drain, TIOCSETP, also flushes the input queue, which is NOT 414 1.1 cgd * what we want (TIOCSETP is like TCSADFLUSH). 415 1.1 cgd #endif 416 1.1 cgd */ 417 1.1 cgd old = ttyflush(SYNCHing|flushout); 418 1.1 cgd if (old < 0 || old > 1) { 419 1.1 cgd #ifdef USE_TERMIO 420 1.1 cgd tcgetattr(tin, &tmp_tc); 421 1.1 cgd #endif /* USE_TERMIO */ 422 1.1 cgd do { 423 1.1 cgd /* 424 1.1 cgd * Wait for data to drain, then flush again. 425 1.1 cgd */ 426 1.1 cgd #ifdef USE_TERMIO 427 1.1 cgd tcsetattr(tin, TCSADRAIN, &tmp_tc); 428 1.1 cgd #endif /* USE_TERMIO */ 429 1.1 cgd old = ttyflush(SYNCHing|flushout); 430 1.1 cgd } while (old < 0 || old > 1); 431 1.1 cgd } 432 1.1 cgd 433 1.1 cgd old = prevmode; 434 1.1 cgd prevmode = f&~MODE_FORCE; 435 1.1 cgd #ifndef USE_TERMIO 436 1.1 cgd sb = nttyb; 437 1.1 cgd tc = ntc; 438 1.1 cgd ltc = nltc; 439 1.1 cgd lmode = olmode; 440 1.1 cgd #else 441 1.1 cgd tmp_tc = new_tc; 442 1.1 cgd #endif 443 1.1 cgd 444 1.1 cgd if (f&MODE_ECHO) { 445 1.1 cgd #ifndef USE_TERMIO 446 1.1 cgd sb.sg_flags |= ECHO; 447 1.1 cgd #else 448 1.1 cgd tmp_tc.c_lflag |= ECHO; 449 1.1 cgd tmp_tc.c_oflag |= ONLCR; 450 1.1 cgd if (crlf) 451 1.1 cgd tmp_tc.c_iflag |= ICRNL; 452 1.1 cgd #endif 453 1.1 cgd } else { 454 1.1 cgd #ifndef USE_TERMIO 455 1.1 cgd sb.sg_flags &= ~ECHO; 456 1.1 cgd #else 457 1.1 cgd tmp_tc.c_lflag &= ~ECHO; 458 1.1 cgd tmp_tc.c_oflag &= ~ONLCR; 459 1.1 cgd # ifdef notdef 460 1.1 cgd if (crlf) 461 1.1 cgd tmp_tc.c_iflag &= ~ICRNL; 462 1.1 cgd # endif 463 1.1 cgd #endif 464 1.1 cgd } 465 1.1 cgd 466 1.1 cgd if ((f&MODE_FLOW) == 0) { 467 1.1 cgd #ifndef USE_TERMIO 468 1.1 cgd tc.t_startc = _POSIX_VDISABLE; 469 1.1 cgd tc.t_stopc = _POSIX_VDISABLE; 470 1.1 cgd #else 471 1.1 cgd tmp_tc.c_iflag &= ~(IXANY|IXOFF|IXON); 472 1.1 cgd } else { 473 1.1 cgd tmp_tc.c_iflag |= IXANY|IXOFF|IXON; 474 1.1 cgd #endif 475 1.1 cgd } 476 1.1 cgd 477 1.1 cgd if ((f&MODE_TRAPSIG) == 0) { 478 1.1 cgd #ifndef USE_TERMIO 479 1.1 cgd tc.t_intrc = _POSIX_VDISABLE; 480 1.1 cgd tc.t_quitc = _POSIX_VDISABLE; 481 1.1 cgd tc.t_eofc = _POSIX_VDISABLE; 482 1.1 cgd ltc.t_suspc = _POSIX_VDISABLE; 483 1.1 cgd ltc.t_dsuspc = _POSIX_VDISABLE; 484 1.1 cgd #else 485 1.1 cgd tmp_tc.c_lflag &= ~ISIG; 486 1.1 cgd #endif 487 1.1 cgd localchars = 0; 488 1.1 cgd } else { 489 1.1 cgd #ifdef USE_TERMIO 490 1.1 cgd tmp_tc.c_lflag |= ISIG; 491 1.1 cgd #endif 492 1.1 cgd localchars = 1; 493 1.1 cgd } 494 1.1 cgd 495 1.1 cgd if (f&MODE_EDIT) { 496 1.1 cgd #ifndef USE_TERMIO 497 1.1 cgd sb.sg_flags &= ~CBREAK; 498 1.1 cgd sb.sg_flags |= CRMOD; 499 1.1 cgd #else 500 1.1 cgd tmp_tc.c_lflag |= ICANON; 501 1.1 cgd #endif 502 1.1 cgd } else { 503 1.1 cgd #ifndef USE_TERMIO 504 1.1 cgd sb.sg_flags |= CBREAK; 505 1.1 cgd if (f&MODE_ECHO) 506 1.1 cgd sb.sg_flags |= CRMOD; 507 1.1 cgd else 508 1.1 cgd sb.sg_flags &= ~CRMOD; 509 1.1 cgd #else 510 1.1 cgd tmp_tc.c_lflag &= ~ICANON; 511 1.1 cgd tmp_tc.c_iflag &= ~ICRNL; 512 1.1 cgd tmp_tc.c_cc[VMIN] = 1; 513 1.1 cgd tmp_tc.c_cc[VTIME] = 0; 514 1.1 cgd #endif 515 1.1 cgd } 516 1.1 cgd 517 1.1 cgd if ((f&(MODE_EDIT|MODE_TRAPSIG)) == 0) { 518 1.1 cgd #ifndef USE_TERMIO 519 1.1 cgd ltc.t_lnextc = _POSIX_VDISABLE; 520 1.1 cgd #else 521 1.1 cgd # ifdef VLNEXT 522 1.1 cgd tmp_tc.c_cc[VLNEXT] = (cc_t)(_POSIX_VDISABLE); 523 1.1 cgd # endif 524 1.1 cgd #endif 525 1.1 cgd } 526 1.1 cgd 527 1.1 cgd if (f&MODE_SOFT_TAB) { 528 1.1 cgd #ifndef USE_TERMIO 529 1.1 cgd sb.sg_flags |= XTABS; 530 1.1 cgd #else 531 1.1 cgd # ifdef OXTABS 532 1.1 cgd tmp_tc.c_oflag |= OXTABS; 533 1.1 cgd # endif 534 1.1 cgd # ifdef TABDLY 535 1.1 cgd tmp_tc.c_oflag &= ~TABDLY; 536 1.1 cgd tmp_tc.c_oflag |= TAB3; 537 1.1 cgd # endif 538 1.1 cgd #endif 539 1.1 cgd } else { 540 1.1 cgd #ifndef USE_TERMIO 541 1.1 cgd sb.sg_flags &= ~XTABS; 542 1.1 cgd #else 543 1.1 cgd # ifdef OXTABS 544 1.1 cgd tmp_tc.c_oflag &= ~OXTABS; 545 1.1 cgd # endif 546 1.1 cgd # ifdef TABDLY 547 1.1 cgd tmp_tc.c_oflag &= ~TABDLY; 548 1.1 cgd # endif 549 1.1 cgd #endif 550 1.1 cgd } 551 1.1 cgd 552 1.1 cgd if (f&MODE_LIT_ECHO) { 553 1.1 cgd #ifndef USE_TERMIO 554 1.1 cgd lmode &= ~LCTLECH; 555 1.1 cgd #else 556 1.1 cgd # ifdef ECHOCTL 557 1.1 cgd tmp_tc.c_lflag &= ~ECHOCTL; 558 1.1 cgd # endif 559 1.1 cgd #endif 560 1.1 cgd } else { 561 1.1 cgd #ifndef USE_TERMIO 562 1.1 cgd lmode |= LCTLECH; 563 1.1 cgd #else 564 1.1 cgd # ifdef ECHOCTL 565 1.1 cgd tmp_tc.c_lflag |= ECHOCTL; 566 1.1 cgd # endif 567 1.1 cgd #endif 568 1.1 cgd } 569 1.1 cgd 570 1.1 cgd if (f == -1) { 571 1.1 cgd onoff = 0; 572 1.1 cgd } else { 573 1.1 cgd #ifndef USE_TERMIO 574 1.1 cgd if (f & MODE_OUTBIN) 575 1.1 cgd lmode |= LLITOUT; 576 1.1 cgd else 577 1.1 cgd lmode &= ~LLITOUT; 578 1.1 cgd 579 1.1 cgd if (f & MODE_INBIN) 580 1.1 cgd lmode |= LPASS8; 581 1.1 cgd else 582 1.1 cgd lmode &= ~LPASS8; 583 1.1 cgd #else 584 1.1 cgd if (f & MODE_INBIN) 585 1.1 cgd tmp_tc.c_iflag &= ~ISTRIP; 586 1.1 cgd else 587 1.1 cgd tmp_tc.c_iflag |= ISTRIP; 588 1.1 cgd if (f & MODE_OUTBIN) { 589 1.1 cgd tmp_tc.c_cflag &= ~(CSIZE|PARENB); 590 1.1 cgd tmp_tc.c_cflag |= CS8; 591 1.1 cgd tmp_tc.c_oflag &= ~OPOST; 592 1.1 cgd } else { 593 1.1 cgd tmp_tc.c_cflag &= ~(CSIZE|PARENB); 594 1.1 cgd tmp_tc.c_cflag |= old_tc.c_cflag & (CSIZE|PARENB); 595 1.1 cgd tmp_tc.c_oflag |= OPOST; 596 1.1 cgd } 597 1.1 cgd #endif 598 1.1 cgd onoff = 1; 599 1.1 cgd } 600 1.1 cgd 601 1.1 cgd if (f != -1) { 602 1.1 cgd #ifdef SIGTSTP 603 1.1 cgd static SIG_FUNC_RET susp(); 604 1.1 cgd #endif /* SIGTSTP */ 605 1.1 cgd #ifdef SIGINFO 606 1.1 cgd static SIG_FUNC_RET ayt(); 607 1.1 cgd #endif SIGINFO 608 1.1 cgd 609 1.1 cgd #ifdef SIGTSTP 610 1.1 cgd (void) signal(SIGTSTP, susp); 611 1.1 cgd #endif /* SIGTSTP */ 612 1.1 cgd #ifdef SIGINFO 613 1.1 cgd (void) signal(SIGINFO, ayt); 614 1.1 cgd #endif SIGINFO 615 1.1 cgd #if defined(USE_TERMIO) && defined(NOKERNINFO) 616 1.1 cgd tmp_tc.c_lflag |= NOKERNINFO; 617 1.1 cgd #endif 618 1.1 cgd /* 619 1.1 cgd * We don't want to process ^Y here. It's just another 620 1.1 cgd * character that we'll pass on to the back end. It has 621 1.1 cgd * to process it because it will be processed when the 622 1.1 cgd * user attempts to read it, not when we send it. 623 1.1 cgd */ 624 1.1 cgd #ifndef USE_TERMIO 625 1.1 cgd ltc.t_dsuspc = _POSIX_VDISABLE; 626 1.1 cgd #else 627 1.1 cgd # ifdef VDSUSP 628 1.1 cgd tmp_tc.c_cc[VDSUSP] = (cc_t)(_POSIX_VDISABLE); 629 1.1 cgd # endif 630 1.1 cgd #endif 631 1.1 cgd #ifdef USE_TERMIO 632 1.1 cgd /* 633 1.1 cgd * If the VEOL character is already set, then use VEOL2, 634 1.1 cgd * otherwise use VEOL. 635 1.1 cgd */ 636 1.1 cgd esc = (rlogin != _POSIX_VDISABLE) ? rlogin : escape; 637 1.1 cgd if ((tmp_tc.c_cc[VEOL] != esc) 638 1.1 cgd # ifdef VEOL2 639 1.1 cgd && (tmp_tc.c_cc[VEOL2] != esc) 640 1.1 cgd # endif 641 1.1 cgd ) { 642 1.1 cgd if (tmp_tc.c_cc[VEOL] == (cc_t)(_POSIX_VDISABLE)) 643 1.1 cgd tmp_tc.c_cc[VEOL] = esc; 644 1.1 cgd # ifdef VEOL2 645 1.1 cgd else if (tmp_tc.c_cc[VEOL2] == (cc_t)(_POSIX_VDISABLE)) 646 1.1 cgd tmp_tc.c_cc[VEOL2] = esc; 647 1.1 cgd # endif 648 1.1 cgd } 649 1.1 cgd #else 650 1.1 cgd if (tc.t_brkc == (cc_t)(_POSIX_VDISABLE)) 651 1.1 cgd tc.t_brkc = esc; 652 1.1 cgd #endif 653 1.1 cgd } else { 654 1.1 cgd #ifdef SIGINFO 655 1.1 cgd (void) signal(SIGINFO, ayt_status); 656 1.1 cgd #endif SIGINFO 657 1.1 cgd #ifdef SIGTSTP 658 1.1 cgd (void) signal(SIGTSTP, SIG_DFL); 659 1.1 cgd (void) sigsetmask(sigblock(0) & ~(1<<(SIGTSTP-1))); 660 1.1 cgd #endif /* SIGTSTP */ 661 1.1 cgd #ifndef USE_TERMIO 662 1.1 cgd ltc = oltc; 663 1.1 cgd tc = otc; 664 1.1 cgd sb = ottyb; 665 1.1 cgd lmode = olmode; 666 1.1 cgd #else 667 1.1 cgd tmp_tc = old_tc; 668 1.1 cgd #endif 669 1.1 cgd } 670 1.1 cgd #ifndef USE_TERMIO 671 1.1 cgd ioctl(tin, TIOCLSET, (char *)&lmode); 672 1.1 cgd ioctl(tin, TIOCSLTC, (char *)<c); 673 1.1 cgd ioctl(tin, TIOCSETC, (char *)&tc); 674 1.1 cgd ioctl(tin, TIOCSETN, (char *)&sb); 675 1.1 cgd #else 676 1.1 cgd if (tcsetattr(tin, TCSADRAIN, &tmp_tc) < 0) 677 1.1 cgd tcsetattr(tin, TCSANOW, &tmp_tc); 678 1.1 cgd #endif 679 1.1 cgd 680 1.1 cgd #if (!defined(TN3270)) || ((!defined(NOT43)) || defined(PUTCHAR)) 681 1.1 cgd ioctl(tin, FIONBIO, (char *)&onoff); 682 1.1 cgd ioctl(tout, FIONBIO, (char *)&onoff); 683 1.1 cgd #endif /* (!defined(TN3270)) || ((!defined(NOT43)) || defined(PUTCHAR)) */ 684 1.1 cgd #if defined(TN3270) 685 1.1 cgd if (noasynchtty == 0) { 686 1.1 cgd ioctl(tin, FIOASYNC, (char *)&onoff); 687 1.1 cgd } 688 1.1 cgd #endif /* defined(TN3270) */ 689 1.1 cgd 690 1.1 cgd } 691 1.1 cgd 692 1.1 cgd #ifndef B19200 693 1.1 cgd # define B19200 B9600 694 1.1 cgd #endif 695 1.1 cgd 696 1.1 cgd #ifndef B38400 697 1.1 cgd # define B38400 B19200 698 1.1 cgd #endif 699 1.1 cgd 700 1.1 cgd /* 701 1.1 cgd * This code assumes that the values B0, B50, B75... 702 1.1 cgd * are in ascending order. They do not have to be 703 1.1 cgd * contiguous. 704 1.1 cgd */ 705 1.1 cgd struct termspeeds { 706 1.1 cgd long speed; 707 1.1 cgd long value; 708 1.1 cgd } termspeeds[] = { 709 1.1 cgd { 0, B0 }, { 50, B50 }, { 75, B75 }, 710 1.1 cgd { 110, B110 }, { 134, B134 }, { 150, B150 }, 711 1.1 cgd { 200, B200 }, { 300, B300 }, { 600, B600 }, 712 1.1 cgd { 1200, B1200 }, { 1800, B1800 }, { 2400, B2400 }, 713 1.1 cgd { 4800, B4800 }, { 9600, B9600 }, { 19200, B19200 }, 714 1.1 cgd { 38400, B38400 }, { -1, B38400 } 715 1.1 cgd }; 716 1.1 cgd 717 1.1 cgd void 718 1.1 cgd TerminalSpeeds(ispeed, ospeed) 719 1.1 cgd long *ispeed; 720 1.1 cgd long *ospeed; 721 1.1 cgd { 722 1.1 cgd register struct termspeeds *tp; 723 1.1 cgd register long in, out; 724 1.1 cgd 725 1.1 cgd out = cfgetospeed(&old_tc); 726 1.1 cgd in = cfgetispeed(&old_tc); 727 1.1 cgd if (in == 0) 728 1.1 cgd in = out; 729 1.1 cgd 730 1.1 cgd tp = termspeeds; 731 1.1 cgd while ((tp->speed != -1) && (tp->value < in)) 732 1.1 cgd tp++; 733 1.1 cgd *ispeed = tp->speed; 734 1.1 cgd 735 1.1 cgd tp = termspeeds; 736 1.1 cgd while ((tp->speed != -1) && (tp->value < out)) 737 1.1 cgd tp++; 738 1.1 cgd *ospeed = tp->speed; 739 1.1 cgd } 740 1.1 cgd 741 1.1 cgd int 742 1.1 cgd TerminalWindowSize(rows, cols) 743 1.1 cgd long *rows, *cols; 744 1.1 cgd { 745 1.1 cgd #ifdef TIOCGWINSZ 746 1.1 cgd struct winsize ws; 747 1.1 cgd 748 1.1 cgd if (ioctl(fileno(stdin), TIOCGWINSZ, (char *)&ws) >= 0) { 749 1.1 cgd *rows = ws.ws_row; 750 1.1 cgd *cols = ws.ws_col; 751 1.1 cgd return 1; 752 1.1 cgd } 753 1.1 cgd #endif /* TIOCGWINSZ */ 754 1.1 cgd return 0; 755 1.1 cgd } 756 1.1 cgd 757 1.1 cgd int 758 1.1 cgd NetClose(fd) 759 1.1 cgd int fd; 760 1.1 cgd { 761 1.1 cgd return close(fd); 762 1.1 cgd } 763 1.1 cgd 764 1.1 cgd 765 1.1 cgd void 766 1.1 cgd NetNonblockingIO(fd, onoff) 767 1.1 cgd int fd; 768 1.1 cgd int onoff; 769 1.1 cgd { 770 1.1 cgd ioctl(fd, FIONBIO, (char *)&onoff); 771 1.1 cgd } 772 1.1 cgd 773 1.1 cgd #if defined(TN3270) 774 1.1 cgd void 775 1.1 cgd NetSigIO(fd, onoff) 776 1.1 cgd int fd; 777 1.1 cgd int onoff; 778 1.1 cgd { 779 1.1 cgd ioctl(fd, FIOASYNC, (char *)&onoff); /* hear about input */ 780 1.1 cgd } 781 1.1 cgd 782 1.1 cgd void 783 1.1 cgd NetSetPgrp(fd) 784 1.1 cgd int fd; 785 1.1 cgd { 786 1.1 cgd int myPid; 787 1.1 cgd 788 1.1 cgd myPid = getpid(); 789 1.1 cgd fcntl(fd, F_SETOWN, myPid); 790 1.1 cgd } 791 1.1 cgd #endif /*defined(TN3270)*/ 792 1.1 cgd 793 1.1 cgd /* 795 1.1 cgd * Various signal handling routines. 796 1.1 cgd */ 797 1.1 cgd 798 1.1 cgd /* ARGSUSED */ 799 1.1 cgd static SIG_FUNC_RET 800 1.1 cgd deadpeer(sig) 801 1.1 cgd int sig; 802 1.1 cgd { 803 1.1 cgd setcommandmode(); 804 1.1 cgd longjmp(peerdied, -1); 805 1.1 cgd } 806 1.1 cgd 807 1.1 cgd /* ARGSUSED */ 808 1.1 cgd static SIG_FUNC_RET 809 1.1 cgd intr(sig) 810 1.1 cgd int sig; 811 1.1 cgd { 812 1.1 cgd if (localchars) { 813 1.1 cgd intp(); 814 1.1 cgd return; 815 1.1 cgd } 816 1.1 cgd setcommandmode(); 817 1.1 cgd longjmp(toplevel, -1); 818 1.1 cgd } 819 1.1 cgd 820 1.1 cgd /* ARGSUSED */ 821 1.1 cgd static SIG_FUNC_RET 822 1.1 cgd intr2(sig) 823 1.1 cgd int sig; 824 1.1 cgd { 825 1.1 cgd if (localchars) { 826 1.1 cgd #ifdef KLUDGELINEMODE 827 1.1 cgd if (kludgelinemode) 828 1.1 cgd sendbrk(); 829 1.1 cgd else 830 1.1 cgd #endif 831 1.1 cgd sendabort(); 832 1.1 cgd return; 833 1.1 cgd } 834 1.1 cgd } 835 1.1 cgd 836 1.1 cgd #ifdef SIGTSTP 837 1.1 cgd /* ARGSUSED */ 838 1.1 cgd static SIG_FUNC_RET 839 1.1 cgd susp(sig) 840 1.1 cgd int sig; 841 1.1 cgd { 842 1.1 cgd if ((rlogin != _POSIX_VDISABLE) && rlogin_susp()) 843 1.1 cgd return; 844 1.1 cgd if (localchars) 845 1.1 cgd sendsusp(); 846 1.1 cgd } 847 1.1 cgd #endif 848 1.1 cgd 849 1.1 cgd #ifdef SIGWINCH 850 1.1 cgd /* ARGSUSED */ 851 1.1 cgd static SIG_FUNC_RET 852 1.1 cgd sendwin(sig) 853 1.1 cgd int sig; 854 1.1 cgd { 855 1.1 cgd if (connected) { 856 1.1 cgd sendnaws(); 857 1.1 cgd } 858 1.1 cgd } 859 1.1 cgd #endif 860 1.1 cgd 861 1.1 cgd #ifdef SIGINFO 862 1.1 cgd /* ARGSUSED */ 863 1.1 cgd static SIG_FUNC_RET 864 1.1 cgd ayt(sig) 865 1.1 cgd int sig; 866 1.1 cgd { 867 1.1 cgd if (connected) 868 1.1 cgd sendayt(); 869 1.1 cgd else 870 1.1 cgd ayt_status(); 871 1.1 cgd } 872 1.1 cgd #endif 873 1.1 cgd 874 1.1 cgd 875 1.1 cgd void 877 1.1 cgd sys_telnet_init() 878 1.1 cgd { 879 1.1 cgd (void) signal(SIGINT, intr); 880 1.1 cgd (void) signal(SIGQUIT, intr2); 881 1.1 cgd (void) signal(SIGPIPE, deadpeer); 882 1.1 cgd #ifdef SIGWINCH 883 1.1 cgd (void) signal(SIGWINCH, sendwin); 884 1.1 cgd #endif 885 1.1 cgd #ifdef SIGTSTP 886 1.1 cgd (void) signal(SIGTSTP, susp); 887 1.1 cgd #endif 888 1.1 cgd #ifdef SIGINFO 889 1.1 cgd (void) signal(SIGINFO, ayt); 890 1.1 cgd #endif 891 1.1 cgd 892 1.1 cgd setconnmode(0); 893 1.1 cgd 894 1.1 cgd NetNonblockingIO(net, 1); 895 1.1 cgd 896 1.1 cgd #if defined(TN3270) 897 1.1 cgd if (noasynchnet == 0) { /* DBX can't handle! */ 898 1.1 cgd NetSigIO(net, 1); 899 1.1 cgd NetSetPgrp(net); 900 1.1 cgd } 901 1.1 cgd #endif /* defined(TN3270) */ 902 1.1 cgd 903 1.1 cgd #if defined(SO_OOBINLINE) 904 1.1 cgd if (SetSockOpt(net, SOL_SOCKET, SO_OOBINLINE, 1) == -1) { 905 1.1 cgd perror("SetSockOpt"); 906 1.1 cgd } 907 1.1 cgd #endif /* defined(SO_OOBINLINE) */ 908 1.1 cgd } 909 1.1 cgd 910 1.1 cgd /* 911 1.1 cgd * Process rings - 912 1.1 cgd * 913 1.1 cgd * This routine tries to fill up/empty our various rings. 914 1.1 cgd * 915 1.1 cgd * The parameter specifies whether this is a poll operation, 916 1.1 cgd * or a block-until-something-happens operation. 917 1.1 cgd * 918 1.1 cgd * The return value is 1 if something happened, 0 if not. 919 1.1 cgd */ 920 1.1 cgd 921 1.1 cgd int 922 1.1 cgd process_rings(netin, netout, netex, ttyin, ttyout, poll) 923 1.1 cgd int poll; /* If 0, then block until something to do */ 924 1.1 cgd { 925 1.1 cgd register int c; 926 1.1 cgd /* One wants to be a bit careful about setting returnValue 927 1.1 cgd * to one, since a one implies we did some useful work, 928 1.1 cgd * and therefore probably won't be called to block next 929 1.1 cgd * time (TN3270 mode only). 930 1.1 cgd */ 931 1.1 cgd int returnValue = 0; 932 1.1 cgd static struct timeval TimeValue = { 0 }; 933 1.1 cgd 934 1.1 cgd if (netout) { 935 1.1 cgd FD_SET(net, &obits); 936 1.1 cgd } 937 1.1 cgd if (ttyout) { 938 1.1 cgd FD_SET(tout, &obits); 939 1.1 cgd } 940 1.1 cgd #if defined(TN3270) 941 1.1 cgd if (ttyin) { 942 1.1 cgd FD_SET(tin, &ibits); 943 1.1 cgd } 944 1.1 cgd #else /* defined(TN3270) */ 945 1.1 cgd if (ttyin) { 946 1.1 cgd FD_SET(tin, &ibits); 947 1.1 cgd } 948 1.1 cgd #endif /* defined(TN3270) */ 949 1.1 cgd #if defined(TN3270) 950 1.1 cgd if (netin) { 951 1.1 cgd FD_SET(net, &ibits); 952 1.1 cgd } 953 1.1 cgd # else /* !defined(TN3270) */ 954 1.1 cgd if (netin) { 955 1.1 cgd FD_SET(net, &ibits); 956 1.1 cgd } 957 1.1 cgd # endif /* !defined(TN3270) */ 958 1.1 cgd if (netex) { 959 1.1 cgd FD_SET(net, &xbits); 960 1.1 cgd } 961 1.1 cgd if ((c = select(16, &ibits, &obits, &xbits, 962 1.1 cgd (poll == 0)? (struct timeval *)0 : &TimeValue)) < 0) { 963 1.1 cgd if (c == -1) { 964 1.1 cgd /* 965 1.1 cgd * we can get EINTR if we are in line mode, 966 1.1 cgd * and the user does an escape (TSTP), or 967 1.1 cgd * some other signal generator. 968 1.1 cgd */ 969 1.1 cgd if (errno == EINTR) { 970 1.1 cgd return 0; 971 1.1 cgd } 972 1.1 cgd # if defined(TN3270) 973 1.1 cgd /* 974 1.1 cgd * we can get EBADF if we were in transparent 975 1.1 cgd * mode, and the transcom process died. 976 1.1 cgd */ 977 1.1 cgd if (errno == EBADF) { 978 1.1 cgd /* 979 1.1 cgd * zero the bits (even though kernel does it) 980 1.1 cgd * to make sure we are selecting on the right 981 1.1 cgd * ones. 982 1.1 cgd */ 983 1.1 cgd FD_ZERO(&ibits); 984 1.1 cgd FD_ZERO(&obits); 985 1.1 cgd FD_ZERO(&xbits); 986 1.1 cgd return 0; 987 1.1 cgd } 988 1.1 cgd # endif /* defined(TN3270) */ 989 1.1 cgd /* I don't like this, does it ever happen? */ 990 1.1 cgd printf("sleep(5) from telnet, after select\r\n"); 991 1.1 cgd sleep(5); 992 1.1 cgd } 993 1.1 cgd return 0; 994 1.1 cgd } 995 1.1 cgd 996 1.1 cgd /* 997 1.1 cgd * Any urgent data? 998 1.1 cgd */ 999 1.1 cgd if (FD_ISSET(net, &xbits)) { 1000 1.1 cgd FD_CLR(net, &xbits); 1001 1.1 cgd SYNCHing = 1; 1002 1.1 cgd (void) ttyflush(1); /* flush already enqueued data */ 1003 1.1 cgd } 1004 1.1 cgd 1005 1.1 cgd /* 1006 1.1 cgd * Something to read from the network... 1007 1.1 cgd */ 1008 1.1 cgd if (FD_ISSET(net, &ibits)) { 1009 1.1 cgd int canread; 1010 1.1 cgd 1011 1.1 cgd FD_CLR(net, &ibits); 1012 1.1 cgd canread = ring_empty_consecutive(&netiring); 1013 1.1 cgd #if !defined(SO_OOBINLINE) 1014 1.1 cgd /* 1015 1.1 cgd * In 4.2 (and some early 4.3) systems, the 1016 1.1 cgd * OOB indication and data handling in the kernel 1017 1.1 cgd * is such that if two separate TCP Urgent requests 1018 1.1 cgd * come in, one byte of TCP data will be overlaid. 1019 1.1 cgd * This is fatal for Telnet, but we try to live 1020 1.1 cgd * with it. 1021 1.1 cgd * 1022 1.1 cgd * In addition, in 4.2 (and...), a special protocol 1023 1.1 cgd * is needed to pick up the TCP Urgent data in 1024 1.1 cgd * the correct sequence. 1025 1.1 cgd * 1026 1.1 cgd * What we do is: if we think we are in urgent 1027 1.1 cgd * mode, we look to see if we are "at the mark". 1028 1.1 cgd * If we are, we do an OOB receive. If we run 1029 1.1 cgd * this twice, we will do the OOB receive twice, 1030 1.1 cgd * but the second will fail, since the second 1031 1.1 cgd * time we were "at the mark", but there wasn't 1032 1.1 cgd * any data there (the kernel doesn't reset 1033 1.1 cgd * "at the mark" until we do a normal read). 1034 1.1 cgd * Once we've read the OOB data, we go ahead 1035 1.1 cgd * and do normal reads. 1036 1.1 cgd * 1037 1.1 cgd * There is also another problem, which is that 1038 1.1 cgd * since the OOB byte we read doesn't put us 1039 1.1 cgd * out of OOB state, and since that byte is most 1040 1.1 cgd * likely the TELNET DM (data mark), we would 1041 1.1 cgd * stay in the TELNET SYNCH (SYNCHing) state. 1042 1.1 cgd * So, clocks to the rescue. If we've "just" 1043 1.1 cgd * received a DM, then we test for the 1044 1.1 cgd * presence of OOB data when the receive OOB 1045 1.1 cgd * fails (and AFTER we did the normal mode read 1046 1.1 cgd * to clear "at the mark"). 1047 1.1 cgd */ 1048 1.1 cgd if (SYNCHing) { 1049 1.1 cgd int atmark; 1050 1.1 cgd static int bogus_oob = 0, first = 1; 1051 1.1 cgd 1052 1.1 cgd ioctl(net, SIOCATMARK, (char *)&atmark); 1053 1.1 cgd if (atmark) { 1054 1.1 cgd c = recv(net, netiring.supply, canread, MSG_OOB); 1055 1.1 cgd if ((c == -1) && (errno == EINVAL)) { 1056 1.1 cgd c = recv(net, netiring.supply, canread, 0); 1057 1.1 cgd if (clocks.didnetreceive < clocks.gotDM) { 1058 1.1 cgd SYNCHing = stilloob(net); 1059 1.1 cgd } 1060 1.1 cgd } else if (first && c > 0) { 1061 1.1 cgd /* 1062 1.1 cgd * Bogosity check. Systems based on 4.2BSD 1063 1.1 cgd * do not return an error if you do a second 1064 1.1 cgd * recv(MSG_OOB). So, we do one. If it 1065 1.1 cgd * succeeds and returns exactly the same 1066 1.1 cgd * data, then assume that we are running 1067 1.1 cgd * on a broken system and set the bogus_oob 1068 1.1 cgd * flag. (If the data was different, then 1069 1.1 cgd * we probably got some valid new data, so 1070 1.1 cgd * increment the count...) 1071 1.1 cgd */ 1072 1.1 cgd int i; 1073 1.1 cgd i = recv(net, netiring.supply + c, canread - c, MSG_OOB); 1074 1.1 cgd if (i == c && 1075 1.1 cgd bcmp(netiring.supply, netiring.supply + c, i) == 0) { 1076 1.1 cgd bogus_oob = 1; 1077 1.1 cgd first = 0; 1078 1.1 cgd } else if (i < 0) { 1079 1.1 cgd bogus_oob = 0; 1080 1.1 cgd first = 0; 1081 1.1 cgd } else 1082 1.1 cgd c += i; 1083 1.1 cgd } 1084 1.1 cgd if (bogus_oob && c > 0) { 1085 1.1 cgd int i; 1086 1.1 cgd /* 1087 1.1 cgd * Bogosity. We have to do the read 1088 1.1 cgd * to clear the atmark to get out of 1089 1.1 cgd * an infinate loop. 1090 1.1 cgd */ 1091 1.1 cgd i = read(net, netiring.supply + c, canread - c); 1092 1.1 cgd if (i > 0) 1093 1.1 cgd c += i; 1094 1.1 cgd } 1095 1.1 cgd } else { 1096 1.1 cgd c = recv(net, netiring.supply, canread, 0); 1097 1.1 cgd } 1098 1.1 cgd } else { 1099 1.1 cgd c = recv(net, netiring.supply, canread, 0); 1100 1.1 cgd } 1101 1.1 cgd settimer(didnetreceive); 1102 1.1 cgd #else /* !defined(SO_OOBINLINE) */ 1103 1.1 cgd c = recv(net, netiring.supply, canread, 0); 1104 1.1 cgd #endif /* !defined(SO_OOBINLINE) */ 1105 1.1 cgd if (c < 0 && errno == EWOULDBLOCK) { 1106 1.1 cgd c = 0; 1107 1.1 cgd } else if (c <= 0) { 1108 1.1 cgd return -1; 1109 1.1 cgd } 1110 1.1 cgd if (netdata) { 1111 1.1 cgd Dump('<', netiring.supply, c); 1112 1.1 cgd } 1113 1.1 cgd if (c) 1114 1.1 cgd ring_supplied(&netiring, c); 1115 1.1 cgd returnValue = 1; 1116 1.1 cgd } 1117 1.1 cgd 1118 1.1 cgd /* 1119 1.1 cgd * Something to read from the tty... 1120 1.1 cgd */ 1121 1.1 cgd if (FD_ISSET(tin, &ibits)) { 1122 1.1 cgd FD_CLR(tin, &ibits); 1123 1.1 cgd c = TerminalRead(ttyiring.supply, ring_empty_consecutive(&ttyiring)); 1124 1.1 cgd if (c < 0 && errno == EWOULDBLOCK) { 1125 1.1 cgd c = 0; 1126 1.1 cgd } else { 1127 1.1 cgd /* EOF detection for line mode!!!! */ 1128 1.1 cgd if ((c == 0) && MODE_LOCAL_CHARS(globalmode) && isatty(tin)) { 1129 1.1 cgd /* must be an EOF... */ 1130 1.1 cgd *ttyiring.supply = termEofChar; 1131 1.1 cgd c = 1; 1132 1.1 cgd } 1133 1.1 cgd if (c <= 0) { 1134 1.1 cgd return -1; 1135 1.1 cgd } 1136 1.1 cgd if (termdata) { 1137 1.1 cgd Dump('<', ttyiring.supply, c); 1138 1.1 cgd } 1139 1.1 cgd ring_supplied(&ttyiring, c); 1140 1.1 cgd } 1141 1.1 cgd returnValue = 1; /* did something useful */ 1142 1.1 cgd } 1143 1.1 cgd 1144 1.1 cgd if (FD_ISSET(net, &obits)) { 1145 1.1 cgd FD_CLR(net, &obits); 1146 1.1 cgd returnValue |= netflush(); 1147 1.1 cgd } 1148 1.1 cgd if (FD_ISSET(tout, &obits)) { 1149 1.1 cgd FD_CLR(tout, &obits); 1150 1.1 cgd returnValue |= (ttyflush(SYNCHing|flushout) > 0); 1151 1.1 cgd } 1152 1.1 cgd 1153 return returnValue; 1154 } 1155
Indexes created Mon Sep 22 21:09:42 GMT 2025