login_cap.c revision 1.11
1 1.11 wiz /* $NetBSD: login_cap.c,v 1.11 2001/07/22 13:34:01 wiz Exp $ */ 2 1.1 mjl 3 1.1 mjl /*- 4 1.1 mjl * Copyright (c) 1995,1997 Berkeley Software Design, Inc. All rights reserved. 5 1.1 mjl * 6 1.1 mjl * Redistribution and use in source and binary forms, with or without 7 1.1 mjl * modification, are permitted provided that the following conditions 8 1.1 mjl * are met: 9 1.1 mjl * 1. Redistributions of source code must retain the above copyright 10 1.1 mjl * notice, this list of conditions and the following disclaimer. 11 1.1 mjl * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 mjl * notice, this list of conditions and the following disclaimer in the 13 1.1 mjl * documentation and/or other materials provided with the distribution. 14 1.1 mjl * 3. All advertising materials mentioning features or use of this software 15 1.1 mjl * must display the following acknowledgement: 16 1.1 mjl * This product includes software developed by Berkeley Software Design, 17 1.1 mjl * Inc. 18 1.1 mjl * 4. The name of Berkeley Software Design, Inc. may not be used to endorse 19 1.1 mjl * or promote products derived from this software without specific prior 20 1.1 mjl * written permission. 21 1.1 mjl * 22 1.1 mjl * THIS SOFTWARE IS PROVIDED BY BERKELEY SOFTWARE DESIGN, INC. ``AS IS'' AND 23 1.1 mjl * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 24 1.1 mjl * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 25 1.1 mjl * ARE DISCLAIMED. IN NO EVENT SHALL BERKELEY SOFTWARE DESIGN, INC. BE LIABLE 26 1.1 mjl * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 27 1.1 mjl * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 28 1.1 mjl * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 29 1.1 mjl * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 30 1.1 mjl * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 31 1.1 mjl * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 32 1.1 mjl * SUCH DAMAGE. 33 1.1 mjl * 34 1.1 mjl * BSDI login_cap.c,v 2.13 1998/02/07 03:17:05 prb Exp 35 1.1 mjl */ 36 1.6 ad 37 1.6 ad #include <sys/cdefs.h> 38 1.6 ad #if defined(LIBC_SCCS) && !defined(lint) 39 1.11 wiz __RCSID("$NetBSD: login_cap.c,v 1.11 2001/07/22 13:34:01 wiz Exp $"); 40 1.6 ad #endif /* LIBC_SCCS and not lint */ 41 1.1 mjl 42 1.1 mjl #include <sys/types.h> 43 1.1 mjl #include <sys/stat.h> 44 1.1 mjl #include <sys/time.h> 45 1.1 mjl #include <sys/resource.h> 46 1.1 mjl 47 1.10 lukem #include <assert.h> 48 1.4 mjl #include <ctype.h> 49 1.1 mjl #include <err.h> 50 1.1 mjl #include <errno.h> 51 1.1 mjl #include <fcntl.h> 52 1.1 mjl #include <limits.h> 53 1.1 mjl #include <login_cap.h> 54 1.1 mjl #include <paths.h> 55 1.1 mjl #include <pwd.h> 56 1.1 mjl #include <stdio.h> 57 1.1 mjl #include <stdlib.h> 58 1.1 mjl #include <string.h> 59 1.1 mjl #include <syslog.h> 60 1.1 mjl #include <unistd.h> 61 1.7 ad #include <util.h> 62 1.1 mjl 63 1.6 ad static void setuserpath(login_cap_t *, char *); 64 1.6 ad static u_quad_t multiply(u_quad_t, u_quad_t); 65 1.6 ad static u_quad_t strtolimit(char *, char **, int); 66 1.6 ad static u_quad_t strtosize(char *, char **, int); 67 1.6 ad static int gsetrl(login_cap_t *, int, char *, int type); 68 1.6 ad static int setuserenv(login_cap_t *); 69 1.6 ad static int isinfinite(const char *); 70 1.1 mjl 71 1.1 mjl login_cap_t * 72 1.6 ad login_getclass(char *class) 73 1.1 mjl { 74 1.9 itojun char *classfiles[2]; 75 1.1 mjl login_cap_t *lc; 76 1.1 mjl int res; 77 1.1 mjl 78 1.10 lukem /* class may be NULL */ 79 1.10 lukem 80 1.9 itojun if (secure_path(_PATH_LOGIN_CONF) == 0) { 81 1.9 itojun classfiles[0] = _PATH_LOGIN_CONF; 82 1.9 itojun classfiles[1] = NULL; 83 1.9 itojun } else { 84 1.9 itojun classfiles[0] = NULL; 85 1.9 itojun } 86 1.1 mjl 87 1.1 mjl if ((lc = malloc(sizeof(login_cap_t))) == NULL) { 88 1.1 mjl syslog(LOG_ERR, "%s:%d malloc: %m", __FILE__, __LINE__); 89 1.1 mjl return (0); 90 1.1 mjl } 91 1.1 mjl 92 1.1 mjl lc->lc_cap = 0; 93 1.1 mjl lc->lc_style = 0; 94 1.1 mjl 95 1.1 mjl if (class == NULL || class[0] == '\0') 96 1.1 mjl class = LOGIN_DEFCLASS; 97 1.1 mjl 98 1.1 mjl if ((lc->lc_class = strdup(class)) == NULL) { 99 1.1 mjl syslog(LOG_ERR, "%s:%d strdup: %m", __FILE__, __LINE__); 100 1.1 mjl free(lc); 101 1.1 mjl return (0); 102 1.1 mjl } 103 1.9 itojun 104 1.9 itojun /* 105 1.9 itojun * Not having a login.conf file is not an error condition. 106 1.9 itojun * The individual routines deal reasonably with missing 107 1.9 itojun * capabilities and use default values. 108 1.9 itojun */ 109 1.9 itojun if (classfiles[0] == NULL) 110 1.9 itojun return(lc); 111 1.1 mjl 112 1.8 itojun if ((res = cgetent(&lc->lc_cap, classfiles, lc->lc_class)) != 0) { 113 1.1 mjl lc->lc_cap = 0; 114 1.1 mjl switch (res) { 115 1.1 mjl case 1: 116 1.1 mjl syslog(LOG_ERR, "%s: couldn't resolve 'tc'", 117 1.1 mjl lc->lc_class); 118 1.1 mjl break; 119 1.1 mjl case -1: 120 1.1 mjl if ((res = open(classfiles[0], 0)) >= 0) 121 1.1 mjl close(res); 122 1.1 mjl if (strcmp(lc->lc_class, LOGIN_DEFCLASS) == NULL && 123 1.1 mjl res < 0) 124 1.1 mjl return (lc); 125 1.1 mjl syslog(LOG_ERR, "%s: unknown class", lc->lc_class); 126 1.1 mjl break; 127 1.1 mjl case -2: 128 1.1 mjl syslog(LOG_ERR, "%s: getting class information: %m", 129 1.1 mjl lc->lc_class); 130 1.1 mjl break; 131 1.1 mjl case -3: 132 1.1 mjl syslog(LOG_ERR, "%s: 'tc' reference loop", 133 1.1 mjl lc->lc_class); 134 1.1 mjl break; 135 1.1 mjl default: 136 1.1 mjl syslog(LOG_ERR, "%s: unexpected cgetent error", 137 1.1 mjl lc->lc_class); 138 1.1 mjl break; 139 1.1 mjl } 140 1.1 mjl free(lc->lc_class); 141 1.1 mjl free(lc); 142 1.1 mjl return (0); 143 1.1 mjl } 144 1.1 mjl return (lc); 145 1.1 mjl } 146 1.1 mjl 147 1.4 mjl login_cap_t * 148 1.6 ad login_getpwclass(const struct passwd *pwd) 149 1.4 mjl { 150 1.10 lukem 151 1.10 lukem /* pwd may be NULL */ 152 1.10 lukem 153 1.4 mjl return login_getclass(pwd ? pwd->pw_class : NULL); 154 1.4 mjl } 155 1.4 mjl 156 1.1 mjl char * 157 1.6 ad login_getcapstr(login_cap_t *lc, char *cap, char *def, char *e) 158 1.1 mjl { 159 1.1 mjl char *res; 160 1.1 mjl int status; 161 1.1 mjl 162 1.1 mjl errno = 0; 163 1.1 mjl 164 1.10 lukem _DIAGASSERT(cap != NULL); 165 1.10 lukem 166 1.2 mjl if (!lc || !lc->lc_cap) 167 1.1 mjl return (def); 168 1.1 mjl 169 1.1 mjl switch (status = cgetstr(lc->lc_cap, cap, &res)) { 170 1.1 mjl case -1: 171 1.1 mjl return (def); 172 1.1 mjl case -2: 173 1.1 mjl syslog(LOG_ERR, "%s: getting capability %s: %m", 174 1.1 mjl lc->lc_class, cap); 175 1.1 mjl return (e); 176 1.1 mjl default: 177 1.1 mjl if (status >= 0) 178 1.1 mjl return (res); 179 1.1 mjl syslog(LOG_ERR, "%s: unexpected error with capability %s", 180 1.1 mjl lc->lc_class, cap); 181 1.1 mjl return (e); 182 1.1 mjl } 183 1.1 mjl } 184 1.1 mjl 185 1.1 mjl quad_t 186 1.6 ad login_getcaptime(login_cap_t *lc, char *cap, quad_t def, quad_t e) 187 1.1 mjl { 188 1.1 mjl char *ep; 189 1.1 mjl char *res, *sres; 190 1.1 mjl int status; 191 1.1 mjl quad_t q, r; 192 1.1 mjl 193 1.10 lukem _DIAGASSERT(cap != NULL); 194 1.10 lukem 195 1.1 mjl errno = 0; 196 1.2 mjl if (!lc || !lc->lc_cap) 197 1.1 mjl return (def); 198 1.1 mjl 199 1.1 mjl switch (status = cgetstr(lc->lc_cap, cap, &res)) { 200 1.1 mjl case -1: 201 1.1 mjl return (def); 202 1.1 mjl case -2: 203 1.1 mjl syslog(LOG_ERR, "%s: getting capability %s: %m", 204 1.1 mjl lc->lc_class, cap); 205 1.1 mjl errno = ERANGE; 206 1.1 mjl return (e); 207 1.1 mjl default: 208 1.1 mjl if (status >= 0) 209 1.1 mjl break; 210 1.1 mjl syslog(LOG_ERR, "%s: unexpected error with capability %s", 211 1.1 mjl lc->lc_class, cap); 212 1.1 mjl errno = ERANGE; 213 1.1 mjl return (e); 214 1.1 mjl } 215 1.1 mjl 216 1.5 mjl if (isinfinite(res)) 217 1.1 mjl return (RLIM_INFINITY); 218 1.1 mjl 219 1.1 mjl errno = 0; 220 1.1 mjl 221 1.1 mjl q = 0; 222 1.1 mjl sres = res; 223 1.1 mjl while (*res) { 224 1.1 mjl r = strtoq(res, &ep, 0); 225 1.1 mjl if (!ep || ep == res || 226 1.1 mjl ((r == QUAD_MIN || r == QUAD_MAX) && errno == ERANGE)) { 227 1.1 mjl invalid: 228 1.1 mjl syslog(LOG_ERR, "%s:%s=%s: invalid time", 229 1.1 mjl lc->lc_class, cap, sres); 230 1.1 mjl errno = ERANGE; 231 1.1 mjl return (e); 232 1.1 mjl } 233 1.1 mjl switch (*ep++) { 234 1.1 mjl case '\0': 235 1.1 mjl --ep; 236 1.1 mjl break; 237 1.1 mjl case 's': case 'S': 238 1.1 mjl break; 239 1.1 mjl case 'm': case 'M': 240 1.1 mjl r *= 60; 241 1.1 mjl break; 242 1.1 mjl case 'h': case 'H': 243 1.1 mjl r *= 60 * 60; 244 1.1 mjl break; 245 1.1 mjl case 'd': case 'D': 246 1.1 mjl r *= 60 * 60 * 24; 247 1.1 mjl break; 248 1.1 mjl case 'w': case 'W': 249 1.1 mjl r *= 60 * 60 * 24 * 7; 250 1.1 mjl break; 251 1.1 mjl case 'y': case 'Y': /* Pretty absurd */ 252 1.1 mjl r *= 60 * 60 * 24 * 365; 253 1.1 mjl break; 254 1.1 mjl default: 255 1.1 mjl goto invalid; 256 1.1 mjl } 257 1.1 mjl res = ep; 258 1.1 mjl q += r; 259 1.1 mjl } 260 1.1 mjl return (q); 261 1.1 mjl } 262 1.1 mjl 263 1.1 mjl quad_t 264 1.6 ad login_getcapnum(login_cap_t *lc, char *cap, quad_t def, quad_t e) 265 1.1 mjl { 266 1.1 mjl char *ep; 267 1.1 mjl char *res; 268 1.1 mjl int status; 269 1.1 mjl quad_t q; 270 1.1 mjl 271 1.10 lukem _DIAGASSERT(cap != NULL); 272 1.10 lukem 273 1.1 mjl errno = 0; 274 1.2 mjl if (!lc || !lc->lc_cap) 275 1.1 mjl return (def); 276 1.1 mjl 277 1.1 mjl switch (status = cgetstr(lc->lc_cap, cap, &res)) { 278 1.1 mjl case -1: 279 1.1 mjl return (def); 280 1.1 mjl case -2: 281 1.1 mjl syslog(LOG_ERR, "%s: getting capability %s: %m", 282 1.1 mjl lc->lc_class, cap); 283 1.1 mjl errno = ERANGE; 284 1.1 mjl return (e); 285 1.1 mjl default: 286 1.1 mjl if (status >= 0) 287 1.1 mjl break; 288 1.1 mjl syslog(LOG_ERR, "%s: unexpected error with capability %s", 289 1.1 mjl lc->lc_class, cap); 290 1.1 mjl errno = ERANGE; 291 1.1 mjl return (e); 292 1.1 mjl } 293 1.1 mjl 294 1.5 mjl if (isinfinite(res)) 295 1.1 mjl return (RLIM_INFINITY); 296 1.1 mjl 297 1.1 mjl errno = 0; 298 1.1 mjl q = strtoq(res, &ep, 0); 299 1.1 mjl if (!ep || ep == res || ep[0] || 300 1.1 mjl ((q == QUAD_MIN || q == QUAD_MAX) && errno == ERANGE)) { 301 1.1 mjl syslog(LOG_ERR, "%s:%s=%s: invalid number", 302 1.1 mjl lc->lc_class, cap, res); 303 1.1 mjl errno = ERANGE; 304 1.1 mjl return (e); 305 1.1 mjl } 306 1.1 mjl return (q); 307 1.1 mjl } 308 1.1 mjl 309 1.1 mjl quad_t 310 1.6 ad login_getcapsize(login_cap_t *lc, char *cap, quad_t def, quad_t e) 311 1.1 mjl { 312 1.1 mjl char *ep; 313 1.1 mjl char *res; 314 1.1 mjl int status; 315 1.1 mjl quad_t q; 316 1.1 mjl 317 1.10 lukem _DIAGASSERT(cap != NULL); 318 1.10 lukem 319 1.1 mjl errno = 0; 320 1.1 mjl 321 1.2 mjl if (!lc || !lc->lc_cap) 322 1.1 mjl return (def); 323 1.1 mjl 324 1.1 mjl switch (status = cgetstr(lc->lc_cap, cap, &res)) { 325 1.1 mjl case -1: 326 1.1 mjl return (def); 327 1.1 mjl case -2: 328 1.1 mjl syslog(LOG_ERR, "%s: getting capability %s: %m", 329 1.1 mjl lc->lc_class, cap); 330 1.1 mjl errno = ERANGE; 331 1.1 mjl return (e); 332 1.1 mjl default: 333 1.1 mjl if (status >= 0) 334 1.1 mjl break; 335 1.1 mjl syslog(LOG_ERR, "%s: unexpected error with capability %s", 336 1.1 mjl lc->lc_class, cap); 337 1.1 mjl errno = ERANGE; 338 1.1 mjl return (e); 339 1.1 mjl } 340 1.1 mjl 341 1.1 mjl errno = 0; 342 1.1 mjl q = strtolimit(res, &ep, 0); 343 1.1 mjl if (!ep || ep == res || (ep[0] && ep[1]) || 344 1.1 mjl ((q == QUAD_MIN || q == QUAD_MAX) && errno == ERANGE)) { 345 1.1 mjl syslog(LOG_ERR, "%s:%s=%s: invalid size", 346 1.1 mjl lc->lc_class, cap, res); 347 1.1 mjl errno = ERANGE; 348 1.1 mjl return (e); 349 1.1 mjl } 350 1.1 mjl return (q); 351 1.1 mjl } 352 1.1 mjl 353 1.1 mjl int 354 1.6 ad login_getcapbool(login_cap_t *lc, char *cap, u_int def) 355 1.1 mjl { 356 1.10 lukem 357 1.10 lukem _DIAGASSERT(cap != NULL); 358 1.10 lukem 359 1.2 mjl if (!lc || !lc->lc_cap) 360 1.1 mjl return (def); 361 1.1 mjl 362 1.1 mjl return (cgetcap(lc->lc_cap, cap, ':') != NULL); 363 1.1 mjl } 364 1.1 mjl 365 1.1 mjl void 366 1.6 ad login_close(login_cap_t *lc) 367 1.1 mjl { 368 1.10 lukem 369 1.1 mjl if (lc) { 370 1.1 mjl if (lc->lc_class) 371 1.1 mjl free(lc->lc_class); 372 1.1 mjl if (lc->lc_cap) 373 1.1 mjl free(lc->lc_cap); 374 1.1 mjl if (lc->lc_style) 375 1.1 mjl free(lc->lc_style); 376 1.1 mjl free(lc); 377 1.1 mjl } 378 1.1 mjl } 379 1.1 mjl 380 1.7 ad #define R_CTIME 1 381 1.7 ad #define R_CSIZE 2 382 1.7 ad #define R_CNUMB 3 383 1.1 mjl 384 1.1 mjl static struct { 385 1.1 mjl int what; 386 1.1 mjl int type; 387 1.1 mjl char * name; 388 1.1 mjl } r_list[] = { 389 1.7 ad { RLIMIT_CPU, R_CTIME, "cputime", }, 390 1.7 ad { RLIMIT_FSIZE, R_CSIZE, "filesize", }, 391 1.7 ad { RLIMIT_DATA, R_CSIZE, "datasize", }, 392 1.7 ad { RLIMIT_STACK, R_CSIZE, "stacksize", }, 393 1.7 ad { RLIMIT_RSS, R_CSIZE, "memoryuse", }, 394 1.7 ad { RLIMIT_MEMLOCK, R_CSIZE, "memorylocked", }, 395 1.7 ad { RLIMIT_NPROC, R_CNUMB, "maxproc", }, 396 1.7 ad { RLIMIT_NOFILE, R_CNUMB, "openfiles", }, 397 1.7 ad { RLIMIT_CORE, R_CSIZE, "coredumpsize", }, 398 1.1 mjl { -1, 0, 0 } 399 1.1 mjl }; 400 1.1 mjl 401 1.1 mjl static int 402 1.6 ad gsetrl(login_cap_t *lc, int what, char *name, int type) 403 1.1 mjl { 404 1.1 mjl struct rlimit rl; 405 1.1 mjl struct rlimit r; 406 1.1 mjl char name_cur[32]; 407 1.1 mjl char name_max[32]; 408 1.1 mjl 409 1.10 lukem _DIAGASSERT(name != NULL); 410 1.10 lukem 411 1.1 mjl sprintf(name_cur, "%s-cur", name); 412 1.1 mjl sprintf(name_max, "%s-max", name); 413 1.1 mjl 414 1.1 mjl if (getrlimit(what, &r)) { 415 1.1 mjl syslog(LOG_ERR, "getting resource limit: %m"); 416 1.1 mjl return (-1); 417 1.1 mjl } 418 1.1 mjl 419 1.1 mjl #define RCUR r.rlim_cur 420 1.1 mjl #define RMAX r.rlim_max 421 1.1 mjl 422 1.1 mjl switch (type) { 423 1.7 ad case R_CTIME: 424 1.1 mjl RCUR = login_getcaptime(lc, name, RCUR, RCUR); 425 1.1 mjl RMAX = login_getcaptime(lc, name, RMAX, RMAX); 426 1.1 mjl rl.rlim_cur = login_getcaptime(lc, name_cur, RCUR, RCUR); 427 1.1 mjl rl.rlim_max = login_getcaptime(lc, name_max, RMAX, RMAX); 428 1.1 mjl break; 429 1.7 ad case R_CSIZE: 430 1.1 mjl RCUR = login_getcapsize(lc, name, RCUR, RCUR); 431 1.1 mjl RMAX = login_getcapsize(lc, name, RMAX, RMAX); 432 1.1 mjl rl.rlim_cur = login_getcapsize(lc, name_cur, RCUR, RCUR); 433 1.1 mjl rl.rlim_max = login_getcapsize(lc, name_max, RMAX, RMAX); 434 1.1 mjl break; 435 1.7 ad case R_CNUMB: 436 1.1 mjl RCUR = login_getcapnum(lc, name, RCUR, RCUR); 437 1.1 mjl RMAX = login_getcapnum(lc, name, RMAX, RMAX); 438 1.1 mjl rl.rlim_cur = login_getcapnum(lc, name_cur, RCUR, RCUR); 439 1.1 mjl rl.rlim_max = login_getcapnum(lc, name_max, RMAX, RMAX); 440 1.1 mjl break; 441 1.1 mjl default: 442 1.1 mjl return (-1); 443 1.1 mjl } 444 1.1 mjl 445 1.1 mjl if (setrlimit(what, &rl)) { 446 1.1 mjl syslog(LOG_ERR, "%s: setting resource limit %s: %m", 447 1.1 mjl lc->lc_class, name); 448 1.1 mjl return (-1); 449 1.1 mjl } 450 1.1 mjl #undef RCUR 451 1.1 mjl #undef RMAX 452 1.1 mjl return (0); 453 1.1 mjl } 454 1.1 mjl 455 1.4 mjl static int 456 1.6 ad setuserenv(login_cap_t *lc) 457 1.4 mjl { 458 1.4 mjl char *stop = ", \t"; 459 1.4 mjl int i, count; 460 1.4 mjl char *ptr; 461 1.4 mjl char **res; 462 1.4 mjl char *str = login_getcapstr(lc, "setenv", NULL, NULL); 463 1.4 mjl 464 1.8 itojun if (str == NULL || *str == '\0') 465 1.4 mjl return 0; 466 1.4 mjl 467 1.4 mjl /* count the sub-strings */ 468 1.4 mjl for (i = 1, ptr = str; *ptr; i++) { 469 1.4 mjl ptr += strcspn(ptr, stop); 470 1.4 mjl if (*ptr) 471 1.4 mjl ptr++; 472 1.8 itojun } 473 1.4 mjl 474 1.4 mjl /* allocate ptr array and string */ 475 1.4 mjl count = i; 476 1.8 itojun res = malloc(count * sizeof(char *) + strlen(str) + 1); 477 1.4 mjl 478 1.8 itojun if (!res) 479 1.4 mjl return -1; 480 1.4 mjl 481 1.4 mjl ptr = (char *)res + count * sizeof(char *); 482 1.4 mjl strcpy(ptr, str); 483 1.4 mjl 484 1.4 mjl /* split string */ 485 1.4 mjl for (i = 0; *ptr && i < count; i++) { 486 1.4 mjl res[i] = ptr; 487 1.4 mjl ptr += strcspn(ptr, stop); 488 1.4 mjl if (*ptr) 489 1.4 mjl *ptr++ = '\0'; 490 1.8 itojun } 491 1.4 mjl 492 1.4 mjl res[i] = NULL; 493 1.4 mjl 494 1.4 mjl for (i = 0; i < count && res[i]; i++) { 495 1.4 mjl if (*res[i] != '\0') { 496 1.6 ad if ((ptr = strchr(res[i], '=')) != NULL) 497 1.4 mjl *ptr++ = '\0'; 498 1.4 mjl else 499 1.4 mjl ptr = ""; 500 1.4 mjl setenv(res[i], ptr, 1); 501 1.4 mjl } 502 1.4 mjl } 503 1.4 mjl 504 1.5 mjl free(res); 505 1.4 mjl return 0; 506 1.4 mjl } 507 1.4 mjl 508 1.1 mjl int 509 1.6 ad setclasscontext(char *class, u_int flags) 510 1.1 mjl { 511 1.1 mjl int ret; 512 1.1 mjl login_cap_t *lc; 513 1.1 mjl 514 1.1 mjl flags &= LOGIN_SETRESOURCES | LOGIN_SETPRIORITY | LOGIN_SETUMASK | 515 1.1 mjl LOGIN_SETPATH; 516 1.1 mjl 517 1.1 mjl lc = login_getclass(class); 518 1.1 mjl ret = lc ? setusercontext(lc, NULL, 0, flags) : -1; 519 1.1 mjl login_close(lc); 520 1.1 mjl return (ret); 521 1.1 mjl } 522 1.1 mjl 523 1.1 mjl int 524 1.6 ad setusercontext(login_cap_t *lc, struct passwd *pwd, uid_t uid, u_int flags) 525 1.1 mjl { 526 1.1 mjl login_cap_t *flc; 527 1.1 mjl quad_t p; 528 1.1 mjl int i; 529 1.1 mjl 530 1.1 mjl flc = NULL; 531 1.1 mjl 532 1.3 mjl if (!lc) 533 1.3 mjl flc = lc = login_getclass(pwd ? pwd->pw_class : NULL); 534 1.1 mjl 535 1.1 mjl /* 536 1.1 mjl * Without the pwd entry being passed we cannot set either 537 1.1 mjl * the group or the login. We could complain about it. 538 1.1 mjl */ 539 1.1 mjl if (pwd == NULL) 540 1.1 mjl flags &= ~(LOGIN_SETGROUP|LOGIN_SETLOGIN); 541 1.1 mjl 542 1.1 mjl if (flags & LOGIN_SETRESOURCES) 543 1.1 mjl for (i = 0; r_list[i].name; ++i) 544 1.1 mjl if (gsetrl(lc, r_list[i].what, r_list[i].name, 545 1.1 mjl r_list[i].type)) 546 1.1 mjl /* XXX - call syslog()? */; 547 1.1 mjl 548 1.1 mjl if (flags & LOGIN_SETPRIORITY) { 549 1.1 mjl p = login_getcapnum(lc, "priority", 0LL, 0LL); 550 1.1 mjl 551 1.1 mjl if (setpriority(PRIO_PROCESS, 0, (int)p) < 0) 552 1.1 mjl syslog(LOG_ERR, "%s: setpriority: %m", lc->lc_class); 553 1.1 mjl } 554 1.1 mjl 555 1.1 mjl if (flags & LOGIN_SETUMASK) { 556 1.1 mjl p = login_getcapnum(lc, "umask", (quad_t) LOGIN_DEFUMASK, 557 1.1 mjl (quad_t) LOGIN_DEFUMASK); 558 1.1 mjl umask((mode_t)p); 559 1.1 mjl } 560 1.1 mjl 561 1.1 mjl if (flags & LOGIN_SETGROUP) { 562 1.1 mjl if (setgid(pwd->pw_gid) < 0) { 563 1.1 mjl syslog(LOG_ERR, "setgid(%d): %m", pwd->pw_gid); 564 1.1 mjl login_close(flc); 565 1.1 mjl return (-1); 566 1.1 mjl } 567 1.1 mjl 568 1.1 mjl if (initgroups(pwd->pw_name, pwd->pw_gid) < 0) { 569 1.1 mjl syslog(LOG_ERR, "initgroups(%s,%d): %m", 570 1.1 mjl pwd->pw_name, pwd->pw_gid); 571 1.1 mjl login_close(flc); 572 1.1 mjl return (-1); 573 1.1 mjl } 574 1.1 mjl } 575 1.1 mjl 576 1.1 mjl if (flags & LOGIN_SETLOGIN) 577 1.1 mjl if (setlogin(pwd->pw_name) < 0) { 578 1.1 mjl syslog(LOG_ERR, "setlogin(%s) failure: %m", 579 1.1 mjl pwd->pw_name); 580 1.1 mjl login_close(flc); 581 1.1 mjl return (-1); 582 1.1 mjl } 583 1.1 mjl 584 1.1 mjl if (flags & LOGIN_SETUSER) 585 1.1 mjl if (setuid(uid) < 0) { 586 1.1 mjl syslog(LOG_ERR, "setuid(%d): %m", uid); 587 1.1 mjl login_close(flc); 588 1.1 mjl return (-1); 589 1.1 mjl } 590 1.4 mjl 591 1.4 mjl if (flags & LOGIN_SETENV) 592 1.4 mjl setuserenv(lc); 593 1.1 mjl 594 1.1 mjl if (flags & LOGIN_SETPATH) 595 1.1 mjl setuserpath(lc, pwd ? pwd->pw_dir : ""); 596 1.1 mjl 597 1.1 mjl login_close(flc); 598 1.1 mjl return (0); 599 1.1 mjl } 600 1.1 mjl 601 1.1 mjl static void 602 1.6 ad setuserpath(login_cap_t *lc, char *home) 603 1.1 mjl { 604 1.1 mjl size_t hlen, plen; 605 1.1 mjl int cnt = 0; 606 1.1 mjl char *path; 607 1.1 mjl char *p, *q; 608 1.1 mjl 609 1.10 lukem _DIAGASSERT(home != NULL); 610 1.10 lukem 611 1.1 mjl hlen = strlen(home); 612 1.1 mjl 613 1.1 mjl p = path = login_getcapstr(lc, "path", NULL, NULL); 614 1.1 mjl if (p) { 615 1.1 mjl while (*p) 616 1.1 mjl if (*p++ == '~') 617 1.1 mjl ++cnt; 618 1.1 mjl plen = (p - path) + cnt * (hlen + 1) + 1; 619 1.1 mjl p = path; 620 1.1 mjl q = path = malloc(plen); 621 1.1 mjl if (q) { 622 1.1 mjl while (*p) { 623 1.1 mjl p += strspn(p, " \t"); 624 1.1 mjl if (*p == '\0') 625 1.1 mjl break; 626 1.1 mjl plen = strcspn(p, " \t"); 627 1.1 mjl if (hlen == 0 && *p == '~') { 628 1.1 mjl p += plen; 629 1.1 mjl continue; 630 1.1 mjl } 631 1.1 mjl if (q != path) 632 1.1 mjl *q++ = ':'; 633 1.1 mjl if (*p == '~') { 634 1.1 mjl strcpy(q, home); 635 1.1 mjl q += hlen; 636 1.1 mjl ++p; 637 1.1 mjl --plen; 638 1.1 mjl } 639 1.1 mjl memcpy(q, p, plen); 640 1.1 mjl p += plen; 641 1.1 mjl q += plen; 642 1.1 mjl } 643 1.1 mjl *q = '\0'; 644 1.1 mjl } else 645 1.1 mjl path = _PATH_DEFPATH; 646 1.1 mjl } else 647 1.1 mjl path = _PATH_DEFPATH; 648 1.1 mjl if (setenv("PATH", path, 1)) 649 1.1 mjl warn("could not set PATH"); 650 1.1 mjl } 651 1.1 mjl 652 1.1 mjl /* 653 1.1 mjl * Convert an expression of the following forms 654 1.1 mjl * 1) A number. 655 1.1 mjl * 2) A number followed by a b (mult by 512). 656 1.1 mjl * 3) A number followed by a k (mult by 1024). 657 1.1 mjl * 5) A number followed by a m (mult by 1024 * 1024). 658 1.1 mjl * 6) A number followed by a g (mult by 1024 * 1024 * 1024). 659 1.1 mjl * 7) A number followed by a t (mult by 1024 * 1024 * 1024 * 1024). 660 1.1 mjl * 8) Two or more numbers (with/without k,b,m,g, or t). 661 1.11 wiz * separated by x (also * for backwards compatibility), specifying 662 1.1 mjl * the product of the indicated values. 663 1.1 mjl */ 664 1.6 ad static u_quad_t 665 1.6 ad strtosize(char *str, char **endptr, int radix) 666 1.1 mjl { 667 1.1 mjl u_quad_t num, num2; 668 1.1 mjl char *expr, *expr2; 669 1.1 mjl 670 1.10 lukem _DIAGASSERT(str != NULL); 671 1.10 lukem /* endptr may be NULL */ 672 1.10 lukem 673 1.1 mjl errno = 0; 674 1.1 mjl num = strtouq(str, &expr, radix); 675 1.1 mjl if (errno || expr == str) { 676 1.1 mjl if (endptr) 677 1.1 mjl *endptr = expr; 678 1.1 mjl return (num); 679 1.1 mjl } 680 1.1 mjl 681 1.1 mjl switch(*expr) { 682 1.1 mjl case 'b': case 'B': 683 1.1 mjl num = multiply(num, (u_quad_t)512); 684 1.1 mjl ++expr; 685 1.1 mjl break; 686 1.1 mjl case 'k': case 'K': 687 1.1 mjl num = multiply(num, (u_quad_t)1024); 688 1.1 mjl ++expr; 689 1.1 mjl break; 690 1.1 mjl case 'm': case 'M': 691 1.1 mjl num = multiply(num, (u_quad_t)1024 * 1024); 692 1.1 mjl ++expr; 693 1.1 mjl break; 694 1.1 mjl case 'g': case 'G': 695 1.1 mjl num = multiply(num, (u_quad_t)1024 * 1024 * 1024); 696 1.1 mjl ++expr; 697 1.1 mjl break; 698 1.1 mjl case 't': case 'T': 699 1.1 mjl num = multiply(num, (u_quad_t)1024 * 1024); 700 1.1 mjl num = multiply(num, (u_quad_t)1024 * 1024); 701 1.1 mjl ++expr; 702 1.1 mjl break; 703 1.1 mjl } 704 1.1 mjl 705 1.1 mjl if (errno) 706 1.1 mjl goto erange; 707 1.1 mjl 708 1.1 mjl switch(*expr) { 709 1.1 mjl case '*': /* Backward compatible. */ 710 1.1 mjl case 'x': 711 1.1 mjl num2 = strtosize(expr+1, &expr2, radix); 712 1.1 mjl if (errno) { 713 1.1 mjl expr = expr2; 714 1.1 mjl goto erange; 715 1.1 mjl } 716 1.1 mjl 717 1.1 mjl if (expr2 == expr + 1) { 718 1.1 mjl if (endptr) 719 1.1 mjl *endptr = expr; 720 1.1 mjl return (num); 721 1.1 mjl } 722 1.1 mjl expr = expr2; 723 1.1 mjl num = multiply(num, num2); 724 1.1 mjl if (errno) 725 1.1 mjl goto erange; 726 1.1 mjl break; 727 1.1 mjl } 728 1.1 mjl if (endptr) 729 1.1 mjl *endptr = expr; 730 1.1 mjl return (num); 731 1.1 mjl erange: 732 1.1 mjl if (endptr) 733 1.1 mjl *endptr = expr; 734 1.1 mjl errno = ERANGE; 735 1.1 mjl return (UQUAD_MAX); 736 1.1 mjl } 737 1.1 mjl 738 1.6 ad static u_quad_t 739 1.6 ad strtolimit(char *str, char **endptr, int radix) 740 1.1 mjl { 741 1.10 lukem 742 1.10 lukem _DIAGASSERT(str != NULL); 743 1.10 lukem /* endptr may be NULL */ 744 1.10 lukem 745 1.5 mjl if (isinfinite(str)) { 746 1.1 mjl if (endptr) 747 1.1 mjl *endptr = str + strlen(str); 748 1.1 mjl return ((u_quad_t)RLIM_INFINITY); 749 1.1 mjl } 750 1.1 mjl return (strtosize(str, endptr, radix)); 751 1.5 mjl } 752 1.5 mjl 753 1.5 mjl static int 754 1.5 mjl isinfinite(const char *s) 755 1.5 mjl { 756 1.5 mjl static const char *infs[] = { 757 1.5 mjl "infinity", 758 1.5 mjl "inf", 759 1.5 mjl "unlimited", 760 1.5 mjl "unlimit", 761 1.5 mjl NULL 762 1.5 mjl }; 763 1.5 mjl const char **i; 764 1.10 lukem 765 1.10 lukem _DIAGASSERT(s != NULL); 766 1.5 mjl 767 1.8 itojun for (i = infs; *i; i++) { 768 1.5 mjl if (!strcasecmp(s, *i)) 769 1.5 mjl return 1; 770 1.5 mjl } 771 1.5 mjl return 0; 772 1.1 mjl } 773 1.1 mjl 774 1.1 mjl static u_quad_t 775 1.6 ad multiply(u_quad_t n1, u_quad_t n2) 776 1.1 mjl { 777 1.1 mjl static int bpw = 0; 778 1.1 mjl u_quad_t m; 779 1.1 mjl u_quad_t r; 780 1.1 mjl int b1, b2; 781 1.1 mjl 782 1.1 mjl /* 783 1.1 mjl * Get rid of the simple cases 784 1.1 mjl */ 785 1.1 mjl if (n1 == 0 || n2 == 0) 786 1.1 mjl return (0); 787 1.1 mjl if (n1 == 1) 788 1.1 mjl return (n2); 789 1.1 mjl if (n2 == 1) 790 1.1 mjl return (n1); 791 1.1 mjl 792 1.1 mjl /* 793 1.1 mjl * sizeof() returns number of bytes needed for storage. 794 1.1 mjl * This may be different from the actual number of useful bits. 795 1.1 mjl */ 796 1.1 mjl if (!bpw) { 797 1.1 mjl bpw = sizeof(u_quad_t) * 8; 798 1.1 mjl while (((u_quad_t)1 << (bpw-1)) == 0) 799 1.1 mjl --bpw; 800 1.1 mjl } 801 1.1 mjl 802 1.1 mjl /* 803 1.1 mjl * First check the magnitude of each number. If the sum of the 804 1.1 mjl * magnatude is way to high, reject the number. (If this test 805 1.1 mjl * is not done then the first multiply below may overflow.) 806 1.1 mjl */ 807 1.1 mjl for (b1 = bpw; (((u_quad_t)1 << (b1-1)) & n1) == 0; --b1) 808 1.1 mjl ; 809 1.1 mjl for (b2 = bpw; (((u_quad_t)1 << (b2-1)) & n2) == 0; --b2) 810 1.1 mjl ; 811 1.1 mjl if (b1 + b2 - 2 > bpw) { 812 1.1 mjl errno = ERANGE; 813 1.1 mjl return (UQUAD_MAX); 814 1.1 mjl } 815 1.1 mjl 816 1.1 mjl /* 817 1.1 mjl * Decompose the multiplication to be: 818 1.1 mjl * h1 = n1 & ~1 819 1.1 mjl * h2 = n2 & ~1 820 1.1 mjl * l1 = n1 & 1 821 1.1 mjl * l2 = n2 & 1 822 1.1 mjl * (h1 + l1) * (h2 + l2) 823 1.1 mjl * (h1 * h2) + (h1 * l2) + (l1 * h2) + (l1 * l2) 824 1.1 mjl * 825 1.1 mjl * Since h1 && h2 do not have the low bit set, we can then say: 826 1.1 mjl * 827 1.1 mjl * (h1>>1 * h2>>1 * 4) + ... 828 1.1 mjl * 829 1.1 mjl * So if (h1>>1 * h2>>1) > (1<<(bpw - 2)) then the result will 830 1.1 mjl * overflow. 831 1.1 mjl * 832 1.1 mjl * Finally, if MAX - ((h1 * l2) + (l1 * h2) + (l1 * l2)) < (h1*h2) 833 1.1 mjl * then adding in residual amout will cause an overflow. 834 1.1 mjl */ 835 1.1 mjl 836 1.1 mjl m = (n1 >> 1) * (n2 >> 1); 837 1.1 mjl 838 1.1 mjl if (m >= ((u_quad_t)1 << (bpw-2))) { 839 1.1 mjl errno = ERANGE; 840 1.1 mjl return (UQUAD_MAX); 841 1.1 mjl } 842 1.1 mjl 843 1.1 mjl m *= 4; 844 1.1 mjl 845 1.1 mjl r = (n1 & n2 & 1) 846 1.1 mjl + (n2 & 1) * (n1 & ~(u_quad_t)1) 847 1.1 mjl + (n1 & 1) * (n2 & ~(u_quad_t)1); 848 1.1 mjl 849 1.1 mjl if ((u_quad_t)(m + r) < m) { 850 1.1 mjl errno = ERANGE; 851 1.1 mjl return (UQUAD_MAX); 852 1.1 mjl } 853 1.1 mjl m += r; 854 1.1 mjl 855 1.1 mjl return (m); 856 1.1 mjl } 857
Indexes created Mon Sep 22 13:09:51 GMT 2025