1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License, Version 1.0 only 6 * (the "License"). You may not use this file except in compliance 7 * with the License. 8 * 9 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 10 * or http://www.opensolaris.org/os/licensing. 11 * See the License for the specific language governing permissions 12 * and limitations under the License. 13 * 14 * When distributing Covered Code, include this CDDL HEADER in each 15 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 16 * If applicable, add the following below this CDDL HEADER, with the 17 * fields enclosed by brackets "[]" replaced with your own identifying 18 * information: Portions Copyright [yyyy] [name of copyright owner] 19 * 20 * CDDL HEADER END 21 */ 22 /* 23 * Copyright 2014 Gary Mills 24 * Copyright 2005 Sun Microsystems, Inc. All rights reserved. 25 * Use is subject to license terms. 26 */ 27 28 /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ 29 /* All Rights Reserved */ 30 31 /* 32 * interface(label) 33 * provide alternate definitions for the I/O functions through global 34 * interfaces. 35 */ 36 #include "uucp.h" 37 38 #ifdef TLI 39 #include <tiuser.h> 40 char *t_alloc(); 41 int t_bind(), t_close(), t_connect(), t_free(), t_look(), t_open(), t_rcvdis(); 42 int t_getinfo(), t_getstate(), t_look(), t_rcv(), t_snd(), t_sync(), t_unbind(); 43 #endif /* TLI */ 44 45 #ifdef DATAKIT 46 #include "dk.h" 47 48 static int dksetup(); 49 static int dkteardown(); 50 #endif /* DATAKIT */ 51 52 EXTERN void sethup(); 53 EXTERN int restline(); 54 #if defined(__STDC__) 55 extern int ioctl(int, int, ...); 56 #else 57 extern int ioctl(); 58 #endif 59 static int usetup(), uteardown(); 60 61 GLOBAL ssize_t (*Read)() = read, 62 (*Write)() = write; 63 #if defined(__STDC__) 64 GLOBAL int (*Ioctl)(int, int, ...) = ioctl, 65 #else 66 GLOBAL int (*Ioctl)() = ioctl, 67 #endif 68 (*Setup)() = usetup, 69 (*Teardown)() = uteardown; 70 71 #ifdef TLI 72 EXTERN void tfaillog(), show_tlook(); 73 static ssize_t tread(), twrite(); /* TLI i/o */ 74 #ifdef __STDC__ 75 static int tioctl(int, int, ...), 76 #else 77 static int tioctl(), /* TLI i/o control */ 78 #endif 79 tsetup(), /* TLI setup without streams module */ 80 tssetup(), /* TLI setup with streams module */ 81 tteardown(); /* TLI teardown, works with either setup */ 82 #endif /* TLI */ 83 /* 84 * The IN_label in Interface[] imply different caller routines: 85 * e.g. tlicall(). 86 * If so, the names here and the names in callers.c must match. 87 */ 88 89 static 90 struct Interface { 91 char *IN_label; /* interface name */ 92 ssize_t (*IN_read)(); /* read function */ 93 ssize_t (*IN_write)(); /* write function */ 94 #ifdef __STDC__ 95 int (*IN_ioctl)(int, int, ...); 96 #else 97 int (*IN_ioctl)(); /* ioctl function */ 98 #endif 99 int (*IN_setup)(); /* setup function, called before */ 100 /* first i/o operation */ 101 int (*IN_teardown)(); /* teardown function, called after */ 102 /* last i/o operation */ 103 } Interface[] = { 104 /* vanilla UNIX */ 105 { "UNIX", read, write, ioctl, usetup, uteardown }, 106 #ifdef TCP 107 /* TCP over sockets or UNET */ 108 { "TCP", read, write, ioctl, usetup, uteardown }, 109 #endif /* TCP */ 110 #ifdef SYTEK 111 /* Sytek network */ 112 { "Sytek", read, write, ioctl, usetup, uteardown }, 113 #endif /* Sytek network */ 114 #ifdef DIAL801 115 /* 801 auto dialers */ 116 { "801", read, write, ioctl, usetup, uteardown }, 117 #endif /* DIAL801 */ 118 #ifdef DIAL801 119 /* 212 auto dialers */ 120 { "212", read, write, ioctl, usetup, uteardown }, 121 #endif /* DIAL801 */ 122 #ifdef TLI 123 /* AT&T Transport Interface Library WITHOUT streams */ 124 { "TLI", tread, twrite, tioctl, tsetup, tteardown }, 125 #ifdef TLIS 126 /* AT&T Transport Interface Library WITH streams */ 127 { "TLIS", read, write, tioctl, tssetup, uteardown }, 128 #endif /* TLIS */ 129 #endif /* TLI */ 130 #ifdef DATAKIT 131 { "DK", read, write, ioctl, dksetup, dkteardown }, 132 #endif /* DATAKIT */ 133 #ifdef UNET 134 { "Unetserver", read, write, ioctl, usetup, uteardown }, 135 #endif 136 { 0, 0, 0, 0, 0, 0 } 137 }; 138 139 140 GLOBAL int 141 interface(label) 142 char *label; 143 { 144 register int i; 145 146 for (i = 0; Interface[i].IN_label; ++i) { 147 if (0 == strcmp(Interface[i].IN_label, label)) { 148 Read = Interface[i].IN_read; 149 Write = Interface[i].IN_write; 150 Ioctl = Interface[i].IN_ioctl; 151 Setup = Interface[i].IN_setup; 152 Teardown = Interface[i].IN_teardown; 153 DEBUG(5, "set interface %s\n", label); 154 return (0); 155 } 156 } 157 return (FAIL); 158 } 159 160 /* 161 * usetup - vanilla unix setup routine 162 */ 163 static int 164 usetup(role, fdreadp, fdwritep) 165 int *fdreadp, *fdwritep; 166 { 167 if (role == SLAVE) 168 { 169 *fdreadp = 0; 170 *fdwritep = 1; 171 /* 2 has been re-opened to RMTDEBUG in main() */ 172 } 173 return (SUCCESS); 174 } 175 176 /* 177 * uteardown - vanilla unix teardown routine 178 */ 179 static int 180 uteardown(role, fdread, fdwrite) 181 { 182 int ret; 183 char *ttyn; 184 185 if (role == SLAVE) { 186 ret = restline(); 187 DEBUG(4, "ret restline - %d\n", ret); 188 if (fdread != -1) 189 sethup(fdread); 190 } 191 if (fdread != -1) { 192 ttyn = ttyname(fdread); 193 if (ttyn != NULL && Dev_mode != 0) 194 chmod(ttyn, Dev_mode); /* can fail, but who cares? */ 195 (void) close(fdread); 196 (void) close(fdwrite); 197 } 198 return (SUCCESS); 199 } 200 201 #ifdef DATAKIT 202 /* 203 * dksetup - DATAKIT setup routine 204 * 205 * Put line in block mode. 206 */ 207 208 static int 209 dksetup(role, fdreadp, fdwritep) 210 211 int role; 212 int *fdreadp; 213 int *fdwritep; 214 215 { 216 static short dkrmode[3] = { DKR_BLOCK | DKR_TIME, 0, 0 }; 217 int ret; 218 219 (void) usetup(role, fdreadp, fdwritep); 220 if ((ret = (*Ioctl)(*fdreadp, DIOCRMODE, dkrmode)) < 0) { 221 DEBUG(4, "dksetup: failed to set block mode. ret=%d,\n", ret); 222 DEBUG(4, "read fd=%d, ", *fdreadp); 223 DEBUG(4, "errno=%d\n", errno); 224 return (FAIL); 225 } 226 return (SUCCESS); 227 } 228 229 /* 230 * dkteardown - DATAKIT teardown routine 231 */ 232 static int 233 dkteardown(role, fdread, fdwrite) 234 int role, fdread, fdwrite; 235 { 236 char *ttyn; 237 238 if (role == MASTER) { 239 ttyn = ttyname(fdread); 240 if (ttyn != NULL && Dev_mode != 0) 241 chmod(ttyn, Dev_mode); /* can fail, but who cares? */ 242 } 243 244 /* must flush fd's for datakit */ 245 /* else close can hang */ 246 if (ioctl(fdread, DIOCFLUSH, NULL) != 0) 247 DEBUG(4, "dkteardown: DIOCFLUSH of input fd %d failed", 248 fdread); 249 if (ioctl(fdwrite, DIOCFLUSH, NULL) != 0) 250 DEBUG(4, "dkteardown: DIOCFLUSH of output fd %d failed", 251 fdwrite); 252 253 (void) close(fdread); 254 (void) close(fdwrite); 255 return (SUCCESS); 256 } 257 #endif /* DATAKIT */ 258 259 260 #ifdef TLI 261 /* 262 * tread - tli read routine 263 */ 264 static ssize_t 265 tread(fd, buf, nbytes) 266 int fd; 267 char *buf; 268 unsigned nbytes; 269 { 270 int rcvflags; 271 272 return ((ssize_t)t_rcv(fd, buf, nbytes, &rcvflags)); 273 } 274 275 /* 276 * twrite - tli write routine 277 */ 278 #define N_CHECK 100 279 static ssize_t 280 twrite(fd, buf, nbytes) 281 int fd; 282 char *buf; 283 unsigned nbytes; 284 { 285 register int i, ret; 286 static int n_writ, got_info; 287 static struct t_info info; 288 289 if (got_info == 0) { 290 if (t_getinfo(fd, &info) != 0) { 291 tfaillog(fd, "twrite: t_getinfo\n"); 292 return (FAIL); 293 } 294 got_info = 1; 295 } 296 297 /* on every N_CHECKth call, check that are still in DATAXFER state */ 298 if (++n_writ == N_CHECK) { 299 n_writ = 0; 300 if (t_getstate(fd) != T_DATAXFER) 301 return (FAIL); 302 } 303 304 if (info.tsdu <= 0 || nbytes <= info.tsdu) 305 return (t_snd(fd, buf, nbytes, 0)); 306 307 /* if get here, then there is a limit on transmit size */ 308 /* (info.tsdu > 0) and buf exceeds it */ 309 i = ret = 0; 310 while (nbytes >= info.tsdu) { 311 if ((ret = t_snd(fd, &buf[i], info.tsdu, 0)) != info.tsdu) 312 return ((ret >= 0 ? (i + ret) : ret)); 313 i += info.tsdu; 314 nbytes -= info.tsdu; 315 } 316 if (nbytes != 0) { 317 if ((ret = t_snd(fd, &buf[i], nbytes, 0)) != nbytes) 318 return ((ssize_t)(ret >= 0 ? (i + ret) : ret)); 319 i += nbytes; 320 } 321 return ((ssize_t)i); 322 } 323 324 325 /* 326 * tioctl - stub for tli ioctl routine 327 */ 328 /*ARGSUSED*/ 329 static int 330 #ifdef __STDC__ 331 tioctl(int fd, int request, ...) 332 #else 333 tioctl(fd, request, arg) 334 int fd, request; 335 #endif 336 { 337 return (SUCCESS); 338 } 339 340 /* 341 * tsetup - tli setup routine 342 * note blatant assumption that *fdreadp == *fdwritep == 0 343 */ 344 static int 345 tsetup(role, fdreadp, fdwritep) 346 int *fdreadp, *fdwritep; 347 { 348 349 if (role == SLAVE) { 350 *fdreadp = 0; 351 *fdwritep = 1; 352 /* 2 has been re-opened to RMTDEBUG in main() */ 353 errno = t_errno = 0; 354 if (t_sync(*fdreadp) == -1 || t_sync(*fdwritep) == -1) { 355 tfaillog(*fdreadp, "tsetup: t_sync\n"); 356 return (FAIL); 357 } 358 } 359 return (SUCCESS); 360 } 361 362 /* 363 * tteardown - tli shutdown routine 364 */ 365 /*ARGSUSED*/ 366 static int 367 tteardown(role, fdread, fdwrite) 368 { 369 (void) t_unbind(fdread); 370 (void) t_close(fdread); 371 return (SUCCESS); 372 } 373 374 #ifdef TLIS 375 /* 376 * tssetup - tli, with streams module, setup routine 377 * note blatant assumption that *fdreadp == *fdwritep 378 */ 379 static int 380 tssetup(role, fdreadp, fdwritep) 381 int role; 382 int *fdreadp; 383 int *fdwritep; 384 { 385 if (role == SLAVE) { 386 *fdreadp = 0; 387 *fdwritep = 1; 388 /* 2 has been re-opened to RMTDEBUG in main() */ 389 DEBUG(5, "tssetup: SLAVE mode: leaving ok\n%s", ""); 390 return (SUCCESS); 391 } 392 393 DEBUG(4, "tssetup: MASTER mode: leaving ok\n%s", ""); 394 return (SUCCESS); 395 } 396 397 /* 398 * Report why a TLI call failed. 399 */ 400 GLOBAL void 401 tfaillog(fd, s) 402 int fd; 403 char *s; 404 { 405 char fmt[ BUFSIZ ]; 406 407 if (0 < t_errno && t_errno < t_nerr) { 408 sprintf(fmt, "%s: %%s\n", s); 409 DEBUG(5, fmt, t_errlist[t_errno]); 410 logent(s, t_errlist[t_errno]); 411 if (t_errno == TSYSERR) { 412 strcpy(fmt, "tlicall: system error: %s\n"); 413 DEBUG(5, fmt, strerror(errno)); 414 } else if (t_errno == TLOOK) { 415 show_tlook(fd); 416 } 417 } else { 418 sprintf(fmt, "unknown tli error %d", t_errno); 419 logent(s, fmt); 420 sprintf(fmt, "%s: unknown tli error %d", s, t_errno); 421 DEBUG(5, fmt, 0); 422 sprintf(fmt, "%s: %%s\n", s); 423 DEBUG(5, fmt, strerror(errno)); 424 } 425 } 426 427 GLOBAL void 428 show_tlook(fd) 429 int fd; 430 { 431 register int reason; 432 register char *msg; 433 extern int t_errno; 434 /* 435 * Find out the current state of the interface. 436 */ 437 errno = t_errno = 0; 438 switch (reason = t_getstate(fd)) { 439 case T_UNBND: msg = "T_UNBIND"; break; 440 case T_IDLE: msg = "T_IDLE"; break; 441 case T_OUTCON: msg = "T_OUTCON"; break; 442 case T_INCON: msg = "T_INCON"; break; 443 case T_DATAXFER: msg = "T_DATAXFER"; break; 444 case T_OUTREL: msg = "T_OUTREL"; break; 445 case T_INREL: msg = "T_INREL"; break; 446 default: msg = NULL; break; 447 } 448 if (msg == NULL) 449 return; 450 451 DEBUG(5, "state is %s", msg); 452 switch (reason = t_look(fd)) { 453 case -1: msg = ""; break; 454 case 0: msg = "NO ERROR"; break; 455 case T_LISTEN: msg = "T_LISTEN"; break; 456 case T_CONNECT: msg = "T_CONNECT"; break; 457 case T_DATA: msg = "T_DATA"; break; 458 case T_EXDATA: msg = "T_EXDATA"; break; 459 case T_DISCONNECT: msg = "T_DISCONNECT"; break; 460 case T_ORDREL: msg = "T_ORDREL"; break; 461 case T_UDERR: msg = "T_UDERR"; break; 462 default: msg = "UNKNOWN ERROR"; break; 463 } 464 DEBUG(4, " reason is %s\n", msg); 465 466 if (reason == T_DISCONNECT) 467 { 468 struct t_discon *dropped; 469 if (((dropped = 470 (struct t_discon *)t_alloc(fd, T_DIS, T_ALL)) == 0) || 471 (t_rcvdis(fd, dropped) == -1)) { 472 if (dropped) 473 t_free((char *)dropped, T_DIS); 474 return; 475 } 476 DEBUG(5, "disconnect reason #%d\n", dropped->reason); 477 t_free((char *)dropped, T_DIS); 478 } 479 } 480 481 #endif /* TLIS */ 482 483 #endif /* TLI */ 484