cgdconfig.c revision 1.57
1 1.57 riastrad /* $NetBSD: cgdconfig.c,v 1.57 2022/08/12 10:49:35 riastradh Exp $ */ 2 1.1 elric 3 1.1 elric /*- 4 1.5 elric * Copyright (c) 2002, 2003 The NetBSD Foundation, Inc. 5 1.1 elric * All rights reserved. 6 1.1 elric * 7 1.1 elric * This code is derived from software contributed to The NetBSD Foundation 8 1.1 elric * by Roland C. Dowdeswell. 9 1.1 elric * 10 1.1 elric * Redistribution and use in source and binary forms, with or without 11 1.1 elric * modification, are permitted provided that the following conditions 12 1.1 elric * are met: 13 1.1 elric * 1. Redistributions of source code must retain the above copyright 14 1.1 elric * notice, this list of conditions and the following disclaimer. 15 1.1 elric * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 elric * notice, this list of conditions and the following disclaimer in the 17 1.1 elric * documentation and/or other materials provided with the distribution. 18 1.1 elric * 19 1.1 elric * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 elric * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 elric * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 elric * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 elric * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 elric * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 elric * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 elric * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 elric * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 elric * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 elric * POSSIBILITY OF SUCH DAMAGE. 30 1.1 elric */ 31 1.1 elric 32 1.1 elric #include <sys/cdefs.h> 33 1.1 elric #ifndef lint 34 1.24 lukem __COPYRIGHT("@(#) Copyright (c) 2002, 2003\ 35 1.24 lukem The NetBSD Foundation, Inc. All rights reserved."); 36 1.57 riastrad __RCSID("$NetBSD: cgdconfig.c,v 1.57 2022/08/12 10:49:35 riastradh Exp $"); 37 1.1 elric #endif 38 1.1 elric 39 1.53 nia #ifdef HAVE_ARGON2 40 1.53 nia #include <argon2.h> 41 1.53 nia #endif 42 1.56 riastrad #include <assert.h> 43 1.5 elric #include <err.h> 44 1.1 elric #include <errno.h> 45 1.1 elric #include <fcntl.h> 46 1.1 elric #include <libgen.h> 47 1.1 elric #include <stdio.h> 48 1.1 elric #include <stdlib.h> 49 1.1 elric #include <string.h> 50 1.1 elric #include <unistd.h> 51 1.1 elric #include <util.h> 52 1.35 christos #include <paths.h> 53 1.35 christos #include <dirent.h> 54 1.1 elric 55 1.54 riastrad /* base64 gunk */ 56 1.54 riastrad #include <netinet/in.h> 57 1.54 riastrad #include <arpa/nameser.h> 58 1.54 riastrad #include <resolv.h> 59 1.54 riastrad 60 1.1 elric #include <sys/ioctl.h> 61 1.41 christos #include <sys/stat.h> 62 1.37 mlelstv #include <sys/bootblock.h> 63 1.3 elric #include <sys/disklabel.h> 64 1.37 mlelstv #include <sys/disklabel_gpt.h> 65 1.14 elric #include <sys/mman.h> 66 1.1 elric #include <sys/param.h> 67 1.13 elric #include <sys/resource.h> 68 1.34 christos #include <sys/statvfs.h> 69 1.35 christos #include <sys/bitops.h> 70 1.56 riastrad #include <sys/queue.h> 71 1.1 elric 72 1.1 elric #include <dev/cgdvar.h> 73 1.1 elric 74 1.5 elric #include <ufs/ffs/fs.h> 75 1.5 elric 76 1.1 elric #include "params.h" 77 1.1 elric #include "pkcs5_pbkdf2.h" 78 1.1 elric #include "utils.h" 79 1.28 pooka #include "cgdconfig.h" 80 1.32 pooka #include "prog_ops.h" 81 1.56 riastrad #include "hkdf_hmac_sha256.h" 82 1.1 elric 83 1.1 elric #define CGDCONFIG_CFILE CGDCONFIG_DIR "/cgd.conf" 84 1.1 elric 85 1.17 cbiere enum action { 86 1.17 cbiere ACTION_DEFAULT, /* default -> configure */ 87 1.17 cbiere ACTION_CONFIGURE, /* configure, with paramsfile */ 88 1.17 cbiere ACTION_UNCONFIGURE, /* unconfigure */ 89 1.17 cbiere ACTION_GENERATE, /* generate a paramsfile */ 90 1.17 cbiere ACTION_GENERATE_CONVERT, /* generate a ``dup'' paramsfile */ 91 1.17 cbiere ACTION_CONFIGALL, /* configure all from config file */ 92 1.17 cbiere ACTION_UNCONFIGALL, /* unconfigure all from config file */ 93 1.34 christos ACTION_CONFIGSTDIN, /* configure, key from stdin */ 94 1.54 riastrad ACTION_LIST, /* list configured devices */ 95 1.54 riastrad ACTION_PRINTKEY, /* print key to stdout */ 96 1.55 riastrad ACTION_PRINTALLKEYS, /* print all keys to stdout */ 97 1.17 cbiere }; 98 1.1 elric 99 1.1 elric /* if nflag is set, do not configure/unconfigure the cgd's */ 100 1.1 elric 101 1.1 elric int nflag = 0; 102 1.1 elric 103 1.57 riastrad /* if Sflag is set, generate shared keys */ 104 1.57 riastrad 105 1.57 riastrad int Sflag = 0; 106 1.57 riastrad 107 1.22 elric /* if pflag is set to PFLAG_STDIN read from stdin rather than getpass(3) */ 108 1.22 elric 109 1.46 alnsn #define PFLAG_GETPASS 0x01 110 1.46 alnsn #define PFLAG_GETPASS_ECHO 0x02 111 1.46 alnsn #define PFLAG_GETPASS_MASK 0x03 112 1.46 alnsn #define PFLAG_STDIN 0x04 113 1.22 elric int pflag = PFLAG_GETPASS; 114 1.22 elric 115 1.56 riastrad /* 116 1.56 riastrad * When configuring all cgds, save a cache of shared keys for key 117 1.56 riastrad * derivation. 118 1.56 riastrad */ 119 1.56 riastrad 120 1.56 riastrad struct sharedkey { 121 1.56 riastrad int alg; 122 1.56 riastrad string_t *id; 123 1.56 riastrad bits_t *key; 124 1.56 riastrad LIST_ENTRY(sharedkey) list; 125 1.56 riastrad }; 126 1.56 riastrad LIST_HEAD(, sharedkey) sharedkeys; 127 1.56 riastrad 128 1.3 elric static int configure(int, char **, struct params *, int); 129 1.1 elric static int configure_stdin(struct params *, int argc, char **); 130 1.57 riastrad static int generate(struct params *, int, char **, const char *, 131 1.57 riastrad const char *); 132 1.5 elric static int generate_convert(struct params *, int, char **, const char *); 133 1.3 elric static int unconfigure(int, char **, struct params *, int); 134 1.3 elric static int do_all(const char *, int, char **, 135 1.3 elric int (*)(int, char **, struct params *, int)); 136 1.34 christos static int do_list(int, char **); 137 1.55 riastrad static int printkey(const char *, const char *, const char *, ...) 138 1.55 riastrad __printflike(3,4); 139 1.55 riastrad static int printkey1(int, char **, struct params *, int); 140 1.54 riastrad static int do_printkey(int, char **); 141 1.1 elric 142 1.1 elric #define CONFIG_FLAGS_FROMALL 1 /* called from configure_all() */ 143 1.1 elric #define CONFIG_FLAGS_FROMMAIN 2 /* called from main() */ 144 1.1 elric 145 1.2 elric static int configure_params(int, const char *, const char *, 146 1.2 elric struct params *); 147 1.13 elric static void eliminate_cores(void); 148 1.19 christos static bits_t *getkey(const char *, struct keygen *, size_t); 149 1.19 christos static bits_t *getkey_storedkey(const char *, struct keygen *, size_t); 150 1.19 christos static bits_t *getkey_randomkey(const char *, struct keygen *, size_t, int); 151 1.53 nia #ifdef HAVE_ARGON2 152 1.53 nia static bits_t *getkey_argon2id(const char *, struct keygen *, size_t); 153 1.53 nia #endif 154 1.23 elric static bits_t *getkey_pkcs5_pbkdf2(const char *, struct keygen *, size_t, 155 1.23 elric int); 156 1.23 elric static bits_t *getkey_shell_cmd(const char *, struct keygen *, size_t); 157 1.22 elric static char *maybe_getpass(char *); 158 1.17 cbiere static int opendisk_werror(const char *, char *, size_t); 159 1.3 elric static int unconfigure_fd(int); 160 1.3 elric static int verify(struct params *, int); 161 1.5 elric static int verify_disklabel(int); 162 1.5 elric static int verify_ffs(int); 163 1.9 cb static int verify_reenter(struct params *); 164 1.37 mlelstv static int verify_mbr(int); 165 1.37 mlelstv static int verify_gpt(int); 166 1.1 elric 167 1.33 joerg __dead static void usage(void); 168 1.1 elric 169 1.1 elric /* Verbose Framework */ 170 1.17 cbiere unsigned verbose = 0; 171 1.1 elric 172 1.1 elric #define VERBOSE(x,y) if (verbose >= x) y 173 1.19 christos #define VPRINTF(x,y) if (verbose >= x) (void)printf y 174 1.1 elric 175 1.1 elric static void 176 1.1 elric usage(void) 177 1.1 elric { 178 1.1 elric 179 1.46 alnsn (void)fprintf(stderr, "usage: %s [-enpv] [-V vmeth] cgd dev " 180 1.45 kre "[paramsfile]\n", getprogname()); 181 1.46 alnsn (void)fprintf(stderr, " %s -C [-enpv] [-f configfile]\n", 182 1.1 elric getprogname()); 183 1.46 alnsn (void)fprintf(stderr, " %s -G [-enpv] [-i ivmeth] [-k kgmeth] " 184 1.5 elric "[-o outfile] paramsfile\n", getprogname()); 185 1.57 riastrad (void)fprintf(stderr, " %s -g [-Sv] [-i ivmeth] [-k kgmeth] " 186 1.57 riastrad "[-P paramsfile] [-o outfile] alg [keylen]\n", getprogname()); 187 1.45 kre (void)fprintf(stderr, " %s -l [-v[v]] [cgd]\n", getprogname()); 188 1.19 christos (void)fprintf(stderr, " %s -s [-nv] [-i ivmeth] cgd dev alg " 189 1.1 elric "[keylen]\n", getprogname()); 190 1.54 riastrad (void)fprintf(stderr, " %s -t paramsfile\n", getprogname()); 191 1.55 riastrad (void)fprintf(stderr, " %s -T [-f configfile]\n", getprogname()); 192 1.45 kre (void)fprintf(stderr, " %s -U [-nv] [-f configfile]\n", 193 1.45 kre getprogname()); 194 1.19 christos (void)fprintf(stderr, " %s -u [-nv] cgd\n", getprogname()); 195 1.17 cbiere exit(EXIT_FAILURE); 196 1.17 cbiere } 197 1.17 cbiere 198 1.17 cbiere static int 199 1.19 christos parse_size_t(const char *s, size_t *l) 200 1.17 cbiere { 201 1.17 cbiere char *endptr; 202 1.17 cbiere long v; 203 1.17 cbiere 204 1.17 cbiere errno = 0; 205 1.17 cbiere v = strtol(s, &endptr, 10); 206 1.17 cbiere if ((v == LONG_MIN || v == LONG_MAX) && errno) 207 1.17 cbiere return -1; 208 1.17 cbiere if (v < INT_MIN || v > INT_MAX) { 209 1.17 cbiere errno = ERANGE; 210 1.17 cbiere return -1; 211 1.17 cbiere } 212 1.17 cbiere if (endptr == s) { 213 1.17 cbiere errno = EINVAL; 214 1.17 cbiere return -1; 215 1.17 cbiere } 216 1.19 christos *l = (size_t)v; 217 1.19 christos return 0; 218 1.17 cbiere } 219 1.17 cbiere 220 1.17 cbiere static void 221 1.17 cbiere set_action(enum action *action, enum action value) 222 1.17 cbiere { 223 1.17 cbiere if (*action != ACTION_DEFAULT) 224 1.17 cbiere usage(); 225 1.17 cbiere *action = value; 226 1.1 elric } 227 1.1 elric 228 1.1 elric int 229 1.1 elric main(int argc, char **argv) 230 1.1 elric { 231 1.5 elric struct params *p; 232 1.5 elric struct params *tp; 233 1.5 elric struct keygen *kg; 234 1.17 cbiere enum action action = ACTION_DEFAULT; 235 1.1 elric int ch; 236 1.17 cbiere const char *cfile = NULL; 237 1.17 cbiere const char *outfile = NULL; 238 1.57 riastrad const char *Pfile = NULL; 239 1.1 elric 240 1.15 elric setprogname(*argv); 241 1.56 riastrad if (hkdf_hmac_sha256_selftest()) 242 1.56 riastrad err(EXIT_FAILURE, "Crypto self-test failed"); 243 1.13 elric eliminate_cores(); 244 1.14 elric if (mlockall(MCL_FUTURE)) 245 1.14 elric err(EXIT_FAILURE, "Can't lock memory"); 246 1.5 elric p = params_new(); 247 1.5 elric kg = NULL; 248 1.1 elric 249 1.57 riastrad while ((ch = getopt(argc, argv, "CGP:STUV:b:ef:gi:k:lno:sptuv")) != -1) 250 1.1 elric switch (ch) { 251 1.1 elric case 'C': 252 1.17 cbiere set_action(&action, ACTION_CONFIGALL); 253 1.1 elric break; 254 1.5 elric case 'G': 255 1.17 cbiere set_action(&action, ACTION_GENERATE_CONVERT); 256 1.5 elric break; 257 1.57 riastrad case 'P': 258 1.57 riastrad if (Pfile) 259 1.57 riastrad usage(); 260 1.57 riastrad Pfile = estrdup(optarg); 261 1.57 riastrad break; 262 1.57 riastrad case 'S': 263 1.57 riastrad Sflag = 1; 264 1.57 riastrad break; 265 1.55 riastrad case 'T': 266 1.55 riastrad set_action(&action, ACTION_PRINTALLKEYS); 267 1.55 riastrad break; 268 1.1 elric case 'U': 269 1.17 cbiere set_action(&action, ACTION_UNCONFIGALL); 270 1.1 elric break; 271 1.3 elric case 'V': 272 1.5 elric tp = params_verify_method(string_fromcharstar(optarg)); 273 1.5 elric if (!tp) 274 1.3 elric usage(); 275 1.5 elric p = params_combine(p, tp); 276 1.3 elric break; 277 1.1 elric case 'b': 278 1.17 cbiere { 279 1.19 christos size_t size; 280 1.17 cbiere 281 1.19 christos if (parse_size_t(optarg, &size) == -1) 282 1.17 cbiere usage(); 283 1.17 cbiere tp = params_bsize(size); 284 1.17 cbiere if (!tp) 285 1.17 cbiere usage(); 286 1.17 cbiere p = params_combine(p, tp); 287 1.17 cbiere } 288 1.1 elric break; 289 1.46 alnsn case 'e': 290 1.46 alnsn pflag = PFLAG_GETPASS_ECHO; 291 1.46 alnsn break; 292 1.1 elric case 'f': 293 1.17 cbiere if (cfile) 294 1.17 cbiere usage(); 295 1.17 cbiere cfile = estrdup(optarg); 296 1.1 elric break; 297 1.1 elric case 'g': 298 1.17 cbiere set_action(&action, ACTION_GENERATE); 299 1.1 elric break; 300 1.1 elric case 'i': 301 1.5 elric tp = params_ivmeth(string_fromcharstar(optarg)); 302 1.5 elric p = params_combine(p, tp); 303 1.1 elric break; 304 1.1 elric case 'k': 305 1.5 elric kg = keygen_method(string_fromcharstar(optarg)); 306 1.5 elric if (!kg) 307 1.1 elric usage(); 308 1.5 elric keygen_addlist(&p->keygen, kg); 309 1.1 elric break; 310 1.34 christos case 'l': 311 1.34 christos set_action(&action, ACTION_LIST); 312 1.34 christos break; 313 1.1 elric case 'n': 314 1.1 elric nflag = 1; 315 1.1 elric break; 316 1.1 elric case 'o': 317 1.17 cbiere if (outfile) 318 1.17 cbiere usage(); 319 1.17 cbiere outfile = estrdup(optarg); 320 1.1 elric break; 321 1.22 elric case 'p': 322 1.22 elric pflag = PFLAG_STDIN; 323 1.22 elric break; 324 1.1 elric case 's': 325 1.17 cbiere set_action(&action, ACTION_CONFIGSTDIN); 326 1.1 elric break; 327 1.54 riastrad case 't': 328 1.54 riastrad set_action(&action, ACTION_PRINTKEY); 329 1.54 riastrad break; 330 1.1 elric case 'u': 331 1.17 cbiere set_action(&action, ACTION_UNCONFIGURE); 332 1.1 elric break; 333 1.1 elric case 'v': 334 1.1 elric verbose++; 335 1.1 elric break; 336 1.1 elric default: 337 1.1 elric usage(); 338 1.1 elric /* NOTREACHED */ 339 1.1 elric } 340 1.1 elric 341 1.1 elric argc -= optind; 342 1.1 elric argv += optind; 343 1.1 elric 344 1.17 cbiere if (!outfile) 345 1.17 cbiere outfile = ""; 346 1.17 cbiere if (!cfile) 347 1.17 cbiere cfile = ""; 348 1.17 cbiere 349 1.32 pooka if (prog_init && prog_init() == -1) 350 1.32 pooka err(1, "init failed"); 351 1.32 pooka 352 1.1 elric /* validate the consistency of the arguments */ 353 1.57 riastrad if (Pfile != NULL && action != ACTION_GENERATE) { 354 1.57 riastrad warnx("-P is only for use with -g action"); 355 1.57 riastrad usage(); 356 1.57 riastrad } 357 1.57 riastrad if (Pfile != NULL && !Sflag) { 358 1.57 riastrad warnx("-P only makes sense with -S flag"); 359 1.57 riastrad } 360 1.57 riastrad if (Sflag && action != ACTION_GENERATE) { 361 1.57 riastrad warnx("-S is only for use with -g action"); 362 1.57 riastrad usage(); 363 1.57 riastrad } 364 1.1 elric 365 1.1 elric switch (action) { 366 1.17 cbiere case ACTION_DEFAULT: /* ACTION_CONFIGURE is the default */ 367 1.1 elric case ACTION_CONFIGURE: 368 1.5 elric return configure(argc, argv, p, CONFIG_FLAGS_FROMMAIN); 369 1.1 elric case ACTION_UNCONFIGURE: 370 1.3 elric return unconfigure(argc, argv, NULL, CONFIG_FLAGS_FROMMAIN); 371 1.1 elric case ACTION_GENERATE: 372 1.57 riastrad return generate(p, argc, argv, outfile, Pfile); 373 1.5 elric case ACTION_GENERATE_CONVERT: 374 1.5 elric return generate_convert(p, argc, argv, outfile); 375 1.1 elric case ACTION_CONFIGALL: 376 1.1 elric return do_all(cfile, argc, argv, configure); 377 1.1 elric case ACTION_UNCONFIGALL: 378 1.1 elric return do_all(cfile, argc, argv, unconfigure); 379 1.1 elric case ACTION_CONFIGSTDIN: 380 1.5 elric return configure_stdin(p, argc, argv); 381 1.34 christos case ACTION_LIST: 382 1.34 christos return do_list(argc, argv); 383 1.54 riastrad case ACTION_PRINTKEY: 384 1.54 riastrad return do_printkey(argc, argv); 385 1.55 riastrad case ACTION_PRINTALLKEYS: 386 1.55 riastrad return do_all(cfile, argc, argv, printkey1); 387 1.19 christos default: 388 1.19 christos errx(EXIT_FAILURE, "undefined action"); 389 1.19 christos /* NOTREACHED */ 390 1.1 elric } 391 1.1 elric } 392 1.1 elric 393 1.5 elric static bits_t * 394 1.56 riastrad getsubkey_hkdf_hmac_sha256(bits_t *key, bits_t *info, size_t subkeylen) 395 1.56 riastrad { 396 1.56 riastrad bits_t *ret = NULL; 397 1.56 riastrad uint8_t *tmp; 398 1.56 riastrad 399 1.56 riastrad tmp = emalloc(BITS2BYTES(subkeylen)); 400 1.56 riastrad if (hkdf_hmac_sha256(tmp, BITS2BYTES(subkeylen), 401 1.56 riastrad bits_getbuf(key), BITS2BYTES(bits_len(key)), 402 1.56 riastrad bits_getbuf(info), BITS2BYTES(bits_len(info)))) { 403 1.56 riastrad warnx("failed to derive HKDF-HMAC-SHA256 subkey"); 404 1.56 riastrad goto out; 405 1.56 riastrad } 406 1.56 riastrad 407 1.56 riastrad ret = bits_new(tmp, subkeylen); 408 1.56 riastrad 409 1.56 riastrad out: free(tmp); 410 1.56 riastrad return ret; 411 1.56 riastrad } 412 1.56 riastrad 413 1.56 riastrad static bits_t * 414 1.56 riastrad getsubkey(int alg, bits_t *key, bits_t *info, size_t subkeylen) 415 1.56 riastrad { 416 1.56 riastrad 417 1.56 riastrad switch (alg) { 418 1.56 riastrad case SHARED_ALG_HKDF_HMAC_SHA256: 419 1.56 riastrad return getsubkey_hkdf_hmac_sha256(key, info, subkeylen); 420 1.56 riastrad default: 421 1.56 riastrad warnx("unrecognised shared key derivation method %d", alg); 422 1.56 riastrad return NULL; 423 1.56 riastrad } 424 1.56 riastrad } 425 1.56 riastrad 426 1.56 riastrad static bits_t * 427 1.56 riastrad getkey(const char *dev, struct keygen *kg, size_t len0) 428 1.1 elric { 429 1.5 elric bits_t *ret = NULL; 430 1.5 elric bits_t *tmp; 431 1.1 elric 432 1.56 riastrad VPRINTF(3, ("getkey(\"%s\", %p, %zu) called\n", dev, kg, len0)); 433 1.5 elric for (; kg; kg=kg->next) { 434 1.56 riastrad struct sharedkey *sk = NULL; 435 1.56 riastrad size_t len = len0; 436 1.56 riastrad 437 1.56 riastrad /* 438 1.56 riastrad * If shared, determine the shared key's length and 439 1.56 riastrad * probe the cache of shared keys. 440 1.56 riastrad */ 441 1.56 riastrad if (kg->kg_sharedid) { 442 1.56 riastrad const char *id = string_tocharstar(kg->kg_sharedid); 443 1.56 riastrad 444 1.56 riastrad len = kg->kg_sharedlen; 445 1.56 riastrad LIST_FOREACH(sk, &sharedkeys, list) { 446 1.56 riastrad if (kg->kg_sharedalg == sk->alg && 447 1.56 riastrad kg->kg_sharedlen == bits_len(sk->key) && 448 1.56 riastrad strcmp(id, string_tocharstar(sk->id)) == 0) 449 1.56 riastrad break; 450 1.56 riastrad } 451 1.56 riastrad if (sk) { 452 1.56 riastrad tmp = sk->key; 453 1.56 riastrad goto derive; 454 1.56 riastrad } 455 1.56 riastrad } 456 1.56 riastrad 457 1.5 elric switch (kg->kg_method) { 458 1.5 elric case KEYGEN_STOREDKEY: 459 1.5 elric tmp = getkey_storedkey(dev, kg, len); 460 1.5 elric break; 461 1.5 elric case KEYGEN_RANDOMKEY: 462 1.12 tv tmp = getkey_randomkey(dev, kg, len, 1); 463 1.12 tv break; 464 1.12 tv case KEYGEN_URANDOMKEY: 465 1.12 tv tmp = getkey_randomkey(dev, kg, len, 0); 466 1.5 elric break; 467 1.53 nia #ifdef HAVE_ARGON2 468 1.53 nia case KEYGEN_ARGON2ID: 469 1.53 nia tmp = getkey_argon2id(dev, kg, len); 470 1.53 nia break; 471 1.53 nia #endif 472 1.10 dan case KEYGEN_PKCS5_PBKDF2_SHA1: 473 1.10 dan tmp = getkey_pkcs5_pbkdf2(dev, kg, len, 0); 474 1.10 dan break; 475 1.10 dan /* provide backwards compatibility for old config files */ 476 1.10 dan case KEYGEN_PKCS5_PBKDF2_OLD: 477 1.10 dan tmp = getkey_pkcs5_pbkdf2(dev, kg, len, 1); 478 1.5 elric break; 479 1.23 elric case KEYGEN_SHELL_CMD: 480 1.23 elric tmp = getkey_shell_cmd(dev, kg, len); 481 1.23 elric break; 482 1.5 elric default: 483 1.5 elric warnx("unrecognised keygen method %d in getkey()", 484 1.5 elric kg->kg_method); 485 1.5 elric if (ret) 486 1.5 elric bits_free(ret); 487 1.5 elric return NULL; 488 1.5 elric } 489 1.5 elric 490 1.56 riastrad /* 491 1.56 riastrad * If shared, cache the key. 492 1.56 riastrad */ 493 1.56 riastrad if (kg->kg_sharedid) { 494 1.56 riastrad assert(sk == NULL); 495 1.56 riastrad sk = ecalloc(1, sizeof(*sk)); 496 1.56 riastrad sk->alg = kg->kg_sharedalg; 497 1.56 riastrad sk->id = string_dup(kg->kg_sharedid); 498 1.56 riastrad sk->key = tmp; 499 1.56 riastrad LIST_INSERT_HEAD(&sharedkeys, sk, list); 500 1.56 riastrad } 501 1.56 riastrad 502 1.56 riastrad derive: if (kg->kg_sharedid) { 503 1.56 riastrad /* 504 1.56 riastrad * tmp holds the master key, owned by the 505 1.56 riastrad * struct sharedkey record; replace it by the 506 1.56 riastrad * derived subkey. 507 1.56 riastrad */ 508 1.56 riastrad tmp = getsubkey(kg->kg_sharedalg, tmp, 509 1.56 riastrad kg->kg_sharedinfo, len0); 510 1.56 riastrad if (tmp == NULL) { 511 1.56 riastrad if (ret) 512 1.56 riastrad bits_free(ret); 513 1.56 riastrad return NULL; 514 1.56 riastrad } 515 1.56 riastrad } 516 1.5 elric if (ret) 517 1.5 elric ret = bits_xor_d(tmp, ret); 518 1.5 elric else 519 1.5 elric ret = tmp; 520 1.1 elric } 521 1.5 elric 522 1.5 elric return ret; 523 1.5 elric } 524 1.5 elric 525 1.5 elric /*ARGSUSED*/ 526 1.5 elric static bits_t * 527 1.19 christos getkey_storedkey(const char *target, struct keygen *kg, size_t keylen) 528 1.5 elric { 529 1.5 elric return bits_dup(kg->kg_key); 530 1.1 elric } 531 1.1 elric 532 1.5 elric /*ARGSUSED*/ 533 1.5 elric static bits_t * 534 1.19 christos getkey_randomkey(const char *target, struct keygen *kg, size_t keylen, int hard) 535 1.1 elric { 536 1.12 tv return bits_getrandombits(keylen, hard); 537 1.1 elric } 538 1.1 elric 539 1.22 elric static char * 540 1.22 elric maybe_getpass(char *prompt) 541 1.22 elric { 542 1.22 elric char buf[1024]; 543 1.46 alnsn char *p = NULL; 544 1.46 alnsn char *tmp, *pass; 545 1.22 elric 546 1.22 elric switch (pflag) { 547 1.22 elric case PFLAG_GETPASS: 548 1.46 alnsn p = getpass_r(prompt, buf, sizeof(buf)); 549 1.46 alnsn break; 550 1.46 alnsn 551 1.46 alnsn case PFLAG_GETPASS_ECHO: 552 1.46 alnsn p = getpassfd(prompt, buf, sizeof(buf), NULL, 553 1.46 alnsn GETPASS_ECHO|GETPASS_ECHO_NL|GETPASS_NEED_TTY, 0); 554 1.22 elric break; 555 1.22 elric 556 1.22 elric case PFLAG_STDIN: 557 1.22 elric p = fgets(buf, sizeof(buf), stdin); 558 1.22 elric if (p) { 559 1.22 elric tmp = strchr(p, '\n'); 560 1.22 elric if (tmp) 561 1.22 elric *tmp = '\0'; 562 1.22 elric } 563 1.22 elric break; 564 1.22 elric 565 1.22 elric default: 566 1.22 elric errx(EXIT_FAILURE, "pflag set inappropriately?"); 567 1.22 elric } 568 1.22 elric 569 1.22 elric if (!p) 570 1.22 elric err(EXIT_FAILURE, "failed to read passphrase"); 571 1.22 elric 572 1.46 alnsn pass = estrdup(p); 573 1.48 alnsn explicit_memset(buf, 0, sizeof(buf)); 574 1.46 alnsn 575 1.46 alnsn return pass; 576 1.22 elric } 577 1.22 elric 578 1.5 elric /*ARGSUSED*/ 579 1.29 elric /* 580 1.10 dan * XXX take, and pass through, a compat flag that indicates whether we 581 1.10 dan * provide backwards compatibility with a previous bug. The previous 582 1.10 dan * behaviour is indicated by the keygen method pkcs5_pbkdf2, and a 583 1.10 dan * non-zero compat flag. The new default, and correct keygen method is 584 1.10 dan * called pcks5_pbkdf2/sha1. When the old method is removed, so will 585 1.10 dan * be the compat argument. 586 1.10 dan */ 587 1.5 elric static bits_t * 588 1.19 christos getkey_pkcs5_pbkdf2(const char *target, struct keygen *kg, size_t keylen, 589 1.19 christos int compat) 590 1.1 elric { 591 1.5 elric bits_t *ret; 592 1.25 dholland char *passp; 593 1.5 elric char buf[1024]; 594 1.5 elric u_int8_t *tmp; 595 1.1 elric 596 1.46 alnsn snprintf(buf, sizeof(buf), "%s's passphrase%s:", target, 597 1.46 alnsn pflag & PFLAG_GETPASS_ECHO ? " (echo)" : ""); 598 1.25 dholland passp = maybe_getpass(buf); 599 1.25 dholland if (pkcs5_pbkdf2(&tmp, BITS2BYTES(keylen), (uint8_t *)passp, 600 1.25 dholland strlen(passp), 601 1.5 elric bits_getbuf(kg->kg_salt), BITS2BYTES(bits_len(kg->kg_salt)), 602 1.10 dan kg->kg_iterations, compat)) { 603 1.5 elric warnx("failed to generate PKCS#5 PBKDF2 key"); 604 1.5 elric return NULL; 605 1.5 elric } 606 1.5 elric 607 1.5 elric ret = bits_new(tmp, keylen); 608 1.9 cb kg->kg_key = bits_dup(ret); 609 1.48 alnsn explicit_memset(passp, 0, strlen(passp)); 610 1.22 elric free(passp); 611 1.5 elric free(tmp); 612 1.1 elric return ret; 613 1.1 elric } 614 1.1 elric 615 1.53 nia #ifdef HAVE_ARGON2 616 1.53 nia static bits_t * 617 1.53 nia getkey_argon2id(const char *target, struct keygen *kg, size_t keylen) 618 1.53 nia { 619 1.53 nia bits_t *ret; 620 1.53 nia char *passp; 621 1.53 nia char buf[1024]; 622 1.53 nia uint8_t raw[256]; 623 1.53 nia int err; 624 1.53 nia 625 1.53 nia snprintf(buf, sizeof(buf), "%s's passphrase%s:", target, 626 1.53 nia pflag & PFLAG_GETPASS_ECHO ? " (echo)" : ""); 627 1.53 nia passp = maybe_getpass(buf); 628 1.53 nia if ((err = argon2_hash(kg->kg_iterations, kg->kg_memory, 629 1.53 nia kg->kg_parallelism, 630 1.53 nia passp, strlen(passp), 631 1.53 nia bits_getbuf(kg->kg_salt), 632 1.53 nia BITS2BYTES(bits_len(kg->kg_salt)), 633 1.53 nia raw, sizeof(raw), 634 1.53 nia NULL, 0, 635 1.53 nia Argon2_id, kg->kg_version)) != ARGON2_OK) { 636 1.53 nia warnx("failed to generate Argon2id key, error code %d", err); 637 1.53 nia return NULL; 638 1.53 nia } 639 1.53 nia 640 1.53 nia ret = bits_new(raw, keylen); 641 1.53 nia kg->kg_key = bits_dup(ret); 642 1.53 nia explicit_memset(passp, 0, strlen(passp)); 643 1.53 nia explicit_memset(raw, 0, sizeof(raw)); 644 1.53 nia free(passp); 645 1.53 nia return ret; 646 1.53 nia } 647 1.53 nia #endif 648 1.53 nia 649 1.5 elric /*ARGSUSED*/ 650 1.23 elric static bits_t * 651 1.23 elric getkey_shell_cmd(const char *target, struct keygen *kg, size_t keylen) 652 1.23 elric { 653 1.23 elric FILE *f; 654 1.23 elric bits_t *ret; 655 1.52 riastrad int status; 656 1.23 elric 657 1.52 riastrad if ((f = popen(string_tocharstar(kg->kg_cmd), "r")) == NULL) 658 1.52 riastrad errx(1, "command failed"); 659 1.52 riastrad if ((ret = bits_fget(f, keylen)) == NULL) 660 1.52 riastrad errx(1, "command output too short"); 661 1.52 riastrad if ((status = pclose(f)) != 0) 662 1.52 riastrad err(1, "command failed with status %d", status); 663 1.23 elric 664 1.23 elric return ret; 665 1.23 elric } 666 1.23 elric 667 1.23 elric /*ARGSUSED*/ 668 1.1 elric static int 669 1.3 elric unconfigure(int argc, char **argv, struct params *inparams, int flags) 670 1.1 elric { 671 1.1 elric int fd; 672 1.1 elric int ret; 673 1.1 elric char buf[MAXPATHLEN] = ""; 674 1.1 elric 675 1.1 elric /* only complain about additional arguments, if called from main() */ 676 1.1 elric if (flags == CONFIG_FLAGS_FROMMAIN && argc != 1) 677 1.1 elric usage(); 678 1.1 elric 679 1.1 elric /* if called from do_all(), then ensure that 2 or 3 args exist */ 680 1.1 elric if (flags == CONFIG_FLAGS_FROMALL && (argc < 2 || argc > 3)) 681 1.1 elric return -1; 682 1.1 elric 683 1.32 pooka fd = opendisk1(*argv, O_RDWR, buf, sizeof(buf), 1, prog_open); 684 1.1 elric if (fd == -1) { 685 1.17 cbiere int saved_errno = errno; 686 1.17 cbiere 687 1.5 elric warn("can't open cgd \"%s\", \"%s\"", *argv, buf); 688 1.1 elric 689 1.1 elric /* this isn't fatal with nflag != 0 */ 690 1.1 elric if (!nflag) 691 1.17 cbiere return saved_errno; 692 1.1 elric } 693 1.1 elric 694 1.1 elric VPRINTF(1, ("%s (%s): clearing\n", *argv, buf)); 695 1.1 elric 696 1.1 elric if (nflag) 697 1.1 elric return 0; 698 1.1 elric 699 1.3 elric ret = unconfigure_fd(fd); 700 1.32 pooka (void)prog_close(fd); 701 1.3 elric return ret; 702 1.3 elric } 703 1.3 elric 704 1.3 elric static int 705 1.3 elric unconfigure_fd(int fd) 706 1.3 elric { 707 1.3 elric struct cgd_ioctl ci; 708 1.3 elric 709 1.32 pooka if (prog_ioctl(fd, CGDIOCCLR, &ci) == -1) { 710 1.17 cbiere warn("ioctl"); 711 1.3 elric return -1; 712 1.1 elric } 713 1.1 elric 714 1.1 elric return 0; 715 1.1 elric } 716 1.1 elric 717 1.5 elric /*ARGSUSED*/ 718 1.1 elric static int 719 1.3 elric configure(int argc, char **argv, struct params *inparams, int flags) 720 1.1 elric { 721 1.5 elric struct params *p; 722 1.22 elric struct keygen *kg; 723 1.5 elric int fd; 724 1.22 elric int loop = 0; 725 1.5 elric int ret; 726 1.5 elric char cgdname[PATH_MAX]; 727 1.38 christos char devicename[PATH_MAX]; 728 1.39 christos const char *dev = NULL; /* XXX: gcc */ 729 1.36 mlelstv 730 1.44 kre if (argc < 2 || argc > 3) { 731 1.44 kre /* print usage and exit, only if called from main() */ 732 1.44 kre if (flags == CONFIG_FLAGS_FROMMAIN) { 733 1.44 kre warnx("wrong number of args"); 734 1.44 kre usage(); 735 1.44 kre } 736 1.44 kre return -1; 737 1.44 kre } 738 1.44 kre 739 1.42 kre if (( 740 1.42 kre fd = opendisk1(*argv, O_RDWR, cgdname, sizeof(cgdname), 1, prog_open) 741 1.42 kre ) != -1) { 742 1.42 kre struct cgd_user cgu; 743 1.42 kre 744 1.42 kre cgu.cgu_unit = -1; 745 1.42 kre if (prog_ioctl(fd, CGDIOCGET, &cgu) != -1 && cgu.cgu_dev != 0) { 746 1.42 kre warnx("device %s already in use", *argv); 747 1.43 kre prog_close(fd); 748 1.42 kre return -1; 749 1.42 kre } 750 1.43 kre prog_close(fd); 751 1.42 kre } 752 1.42 kre 753 1.44 kre dev = getfsspecname(devicename, sizeof(devicename), argv[1]); 754 1.44 kre if (dev == NULL) { 755 1.44 kre warnx("getfsspecname failed: %s", devicename); 756 1.44 kre return -1; 757 1.36 mlelstv } 758 1.1 elric 759 1.34 christos if (argc == 2) { 760 1.40 christos char pfile[MAXPATHLEN]; 761 1.36 mlelstv 762 1.36 mlelstv /* make string writable for basename */ 763 1.40 christos strlcpy(pfile, dev, sizeof(pfile)); 764 1.40 christos p = params_cget(basename(pfile)); 765 1.44 kre } else 766 1.17 cbiere p = params_cget(argv[2]); 767 1.1 elric 768 1.5 elric if (!p) 769 1.5 elric return -1; 770 1.2 elric 771 1.3 elric /* 772 1.5 elric * over-ride with command line specifications and fill in default 773 1.5 elric * values. 774 1.3 elric */ 775 1.3 elric 776 1.5 elric p = params_combine(p, inparams); 777 1.5 elric ret = params_filldefaults(p); 778 1.5 elric if (ret) { 779 1.5 elric params_free(p); 780 1.5 elric return ret; 781 1.5 elric } 782 1.5 elric 783 1.5 elric if (!params_verify(p)) { 784 1.5 elric warnx("params invalid"); 785 1.5 elric return -1; 786 1.5 elric } 787 1.3 elric 788 1.3 elric /* 789 1.3 elric * loop over configuring the disk and checking to see if it 790 1.3 elric * verifies properly. We open and close the disk device each 791 1.3 elric * time, because if the user passes us the block device we 792 1.3 elric * need to flush the buffer cache. 793 1.22 elric * 794 1.22 elric * We only loop if one of the verification methods prompts for 795 1.22 elric * a password. 796 1.3 elric */ 797 1.3 elric 798 1.47 alnsn for (kg = p->keygen; 799 1.47 alnsn (pflag & PFLAG_GETPASS_MASK) && kg; 800 1.47 alnsn kg = kg->next) 801 1.53 nia if (kg->kg_method == KEYGEN_ARGON2ID || 802 1.53 nia kg->kg_method == KEYGEN_PKCS5_PBKDF2_SHA1 || 803 1.53 nia kg->kg_method == KEYGEN_PKCS5_PBKDF2_OLD) { 804 1.22 elric loop = 1; 805 1.22 elric break; 806 1.22 elric } 807 1.22 elric 808 1.3 elric for (;;) { 809 1.3 elric fd = opendisk_werror(argv[0], cgdname, sizeof(cgdname)); 810 1.3 elric if (fd == -1) 811 1.3 elric return -1; 812 1.3 elric 813 1.5 elric if (p->key) 814 1.5 elric bits_free(p->key); 815 1.5 elric 816 1.5 elric p->key = getkey(argv[1], p->keygen, p->keylen); 817 1.5 elric if (!p->key) 818 1.3 elric goto bail_err; 819 1.3 elric 820 1.36 mlelstv ret = configure_params(fd, cgdname, dev, p); 821 1.3 elric if (ret) 822 1.3 elric goto bail_err; 823 1.3 elric 824 1.5 elric ret = verify(p, fd); 825 1.49 kre if (ret == -1) { 826 1.49 kre (void)unconfigure_fd(fd); 827 1.3 elric goto bail_err; 828 1.49 kre } 829 1.50 kre if (ret == 0) /* success */ 830 1.3 elric break; 831 1.2 elric 832 1.19 christos (void)unconfigure_fd(fd); 833 1.32 pooka (void)prog_close(fd); 834 1.22 elric 835 1.22 elric if (!loop) { 836 1.22 elric warnx("verification failed permanently"); 837 1.22 elric goto bail_err; 838 1.22 elric } 839 1.22 elric 840 1.22 elric warnx("verification failed, please reenter passphrase"); 841 1.3 elric } 842 1.2 elric 843 1.5 elric params_free(p); 844 1.32 pooka (void)prog_close(fd); 845 1.3 elric return 0; 846 1.50 kre 847 1.50 kre bail_err:; 848 1.5 elric params_free(p); 849 1.32 pooka (void)prog_close(fd); 850 1.3 elric return -1; 851 1.1 elric } 852 1.1 elric 853 1.1 elric static int 854 1.1 elric configure_stdin(struct params *p, int argc, char **argv) 855 1.1 elric { 856 1.36 mlelstv int fd; 857 1.36 mlelstv int ret; 858 1.36 mlelstv char cgdname[PATH_MAX]; 859 1.38 christos char devicename[PATH_MAX]; 860 1.36 mlelstv const char *dev; 861 1.1 elric 862 1.1 elric if (argc < 3 || argc > 4) 863 1.1 elric usage(); 864 1.1 elric 865 1.38 christos dev = getfsspecname(devicename, sizeof(devicename), argv[1]); 866 1.36 mlelstv if (dev == NULL) { 867 1.38 christos warnx("getfsspecname failed: %s", devicename); 868 1.36 mlelstv return -1; 869 1.36 mlelstv } 870 1.36 mlelstv 871 1.5 elric p->algorithm = string_fromcharstar(argv[2]); 872 1.17 cbiere if (argc > 3) { 873 1.19 christos size_t keylen; 874 1.17 cbiere 875 1.19 christos if (parse_size_t(argv[3], &keylen) == -1) { 876 1.17 cbiere warn("failed to parse key length"); 877 1.17 cbiere return -1; 878 1.17 cbiere } 879 1.17 cbiere p->keylen = keylen; 880 1.17 cbiere } 881 1.1 elric 882 1.1 elric ret = params_filldefaults(p); 883 1.1 elric if (ret) 884 1.1 elric return ret; 885 1.1 elric 886 1.2 elric fd = opendisk_werror(argv[0], cgdname, sizeof(cgdname)); 887 1.2 elric if (fd == -1) 888 1.2 elric return -1; 889 1.2 elric 890 1.5 elric p->key = bits_fget(stdin, p->keylen); 891 1.5 elric if (!p->key) { 892 1.5 elric warnx("failed to read key from stdin"); 893 1.1 elric return -1; 894 1.5 elric } 895 1.1 elric 896 1.36 mlelstv return configure_params(fd, cgdname, dev, p); 897 1.1 elric } 898 1.1 elric 899 1.1 elric static int 900 1.17 cbiere opendisk_werror(const char *cgd, char *buf, size_t buflen) 901 1.2 elric { 902 1.2 elric int fd; 903 1.2 elric 904 1.50 kre VPRINTF(3, ("opendisk_werror(%s, %s, %zu) called.\n", cgd,buf,buflen)); 905 1.5 elric 906 1.2 elric /* sanity */ 907 1.2 elric if (!cgd || !buf) 908 1.2 elric return -1; 909 1.2 elric 910 1.2 elric if (nflag) { 911 1.17 cbiere if (strlcpy(buf, cgd, buflen) >= buflen) 912 1.17 cbiere return -1; 913 1.2 elric return 0; 914 1.2 elric } 915 1.2 elric 916 1.32 pooka fd = opendisk1(cgd, O_RDWR, buf, buflen, 0, prog_open); 917 1.2 elric if (fd == -1) 918 1.5 elric warnx("can't open cgd \"%s\", \"%s\"", cgd, buf); 919 1.5 elric 920 1.2 elric return fd; 921 1.2 elric } 922 1.2 elric 923 1.2 elric static int 924 1.2 elric configure_params(int fd, const char *cgd, const char *dev, struct params *p) 925 1.1 elric { 926 1.1 elric struct cgd_ioctl ci; 927 1.1 elric 928 1.1 elric /* sanity */ 929 1.1 elric if (!cgd || !dev) 930 1.1 elric return -1; 931 1.1 elric 932 1.19 christos (void)memset(&ci, 0x0, sizeof(ci)); 933 1.16 christos ci.ci_disk = dev; 934 1.16 christos ci.ci_alg = string_tocharstar(p->algorithm); 935 1.16 christos ci.ci_ivmethod = string_tocharstar(p->ivmeth); 936 1.16 christos ci.ci_key = bits_getbuf(p->key); 937 1.1 elric ci.ci_keylen = p->keylen; 938 1.1 elric ci.ci_blocksize = p->bsize; 939 1.1 elric 940 1.20 martin VPRINTF(1, (" with alg %s keylen %zu blocksize %zu ivmethod %s\n", 941 1.5 elric string_tocharstar(p->algorithm), p->keylen, p->bsize, 942 1.5 elric string_tocharstar(p->ivmeth))); 943 1.5 elric VPRINTF(2, ("key: ")); 944 1.5 elric VERBOSE(2, bits_fprint(stdout, p->key)); 945 1.5 elric VPRINTF(2, ("\n")); 946 1.1 elric 947 1.1 elric if (nflag) 948 1.1 elric return 0; 949 1.1 elric 950 1.32 pooka if (prog_ioctl(fd, CGDIOCSET, &ci) == -1) { 951 1.17 cbiere int saved_errno = errno; 952 1.17 cbiere warn("ioctl"); 953 1.17 cbiere return saved_errno; 954 1.1 elric } 955 1.1 elric 956 1.1 elric return 0; 957 1.1 elric } 958 1.1 elric 959 1.3 elric /* 960 1.3 elric * verify returns 0 for success, -1 for unrecoverable error, or 1 for retry. 961 1.3 elric */ 962 1.3 elric 963 1.3 elric #define SCANSIZE 8192 964 1.3 elric 965 1.3 elric static int 966 1.3 elric verify(struct params *p, int fd) 967 1.3 elric { 968 1.3 elric 969 1.3 elric switch (p->verify_method) { 970 1.3 elric case VERIFY_NONE: 971 1.3 elric return 0; 972 1.3 elric case VERIFY_DISKLABEL: 973 1.5 elric return verify_disklabel(fd); 974 1.5 elric case VERIFY_FFS: 975 1.5 elric return verify_ffs(fd); 976 1.9 cb case VERIFY_REENTER: 977 1.9 cb return verify_reenter(p); 978 1.37 mlelstv case VERIFY_MBR: 979 1.37 mlelstv return verify_mbr(fd); 980 1.37 mlelstv case VERIFY_GPT: 981 1.37 mlelstv return verify_gpt(fd); 982 1.3 elric default: 983 1.5 elric warnx("unimplemented verification method"); 984 1.3 elric return -1; 985 1.3 elric } 986 1.5 elric } 987 1.5 elric 988 1.5 elric static int 989 1.5 elric verify_disklabel(int fd) 990 1.5 elric { 991 1.5 elric struct disklabel l; 992 1.17 cbiere ssize_t ret; 993 1.5 elric char buf[SCANSIZE]; 994 1.3 elric 995 1.3 elric /* 996 1.3 elric * we simply scan the first few blocks for a disklabel, ignoring 997 1.3 elric * any MBR/filecore sorts of logic. MSDOS and RiscOS can't read 998 1.3 elric * a cgd, anyway, so it is unlikely that there will be non-native 999 1.3 elric * partition information. 1000 1.3 elric */ 1001 1.3 elric 1002 1.37 mlelstv ret = prog_pread(fd, buf, SCANSIZE, 0); 1003 1.17 cbiere if (ret < 0) { 1004 1.5 elric warn("can't read disklabel area"); 1005 1.3 elric return -1; 1006 1.3 elric } 1007 1.3 elric 1008 1.3 elric /* now scan for the disklabel */ 1009 1.3 elric 1010 1.17 cbiere return disklabel_scan(&l, buf, (size_t)ret); 1011 1.3 elric } 1012 1.3 elric 1013 1.37 mlelstv static int 1014 1.37 mlelstv verify_mbr(int fd) 1015 1.37 mlelstv { 1016 1.37 mlelstv struct mbr_sector mbr; 1017 1.37 mlelstv ssize_t ret; 1018 1.37 mlelstv char buf[SCANSIZE]; 1019 1.37 mlelstv 1020 1.37 mlelstv /* 1021 1.37 mlelstv * we read the first blocks to avoid sector size issues and 1022 1.37 mlelstv * verify the MBR in the beginning 1023 1.37 mlelstv */ 1024 1.37 mlelstv 1025 1.37 mlelstv ret = prog_pread(fd, buf, SCANSIZE, 0); 1026 1.37 mlelstv if (ret < 0) { 1027 1.37 mlelstv warn("can't read mbr area"); 1028 1.37 mlelstv return -1; 1029 1.37 mlelstv } 1030 1.37 mlelstv 1031 1.37 mlelstv memcpy(&mbr, buf, sizeof(mbr)); 1032 1.37 mlelstv if (le16toh(mbr.mbr_magic) != MBR_MAGIC) 1033 1.49 kre return 1; 1034 1.37 mlelstv 1035 1.37 mlelstv return 0; 1036 1.37 mlelstv } 1037 1.37 mlelstv 1038 1.37 mlelstv static uint32_t crc32_tab[] = { 1039 1.37 mlelstv 0x00000000, 0x77073096, 0xee0e612c, 0x990951ba, 0x076dc419, 0x706af48f, 1040 1.37 mlelstv 0xe963a535, 0x9e6495a3, 0x0edb8832, 0x79dcb8a4, 0xe0d5e91e, 0x97d2d988, 1041 1.37 mlelstv 0x09b64c2b, 0x7eb17cbd, 0xe7b82d07, 0x90bf1d91, 0x1db71064, 0x6ab020f2, 1042 1.37 mlelstv 0xf3b97148, 0x84be41de, 0x1adad47d, 0x6ddde4eb, 0xf4d4b551, 0x83d385c7, 1043 1.37 mlelstv 0x136c9856, 0x646ba8c0, 0xfd62f97a, 0x8a65c9ec, 0x14015c4f, 0x63066cd9, 1044 1.37 mlelstv 0xfa0f3d63, 0x8d080df5, 0x3b6e20c8, 0x4c69105e, 0xd56041e4, 0xa2677172, 1045 1.37 mlelstv 0x3c03e4d1, 0x4b04d447, 0xd20d85fd, 0xa50ab56b, 0x35b5a8fa, 0x42b2986c, 1046 1.37 mlelstv 0xdbbbc9d6, 0xacbcf940, 0x32d86ce3, 0x45df5c75, 0xdcd60dcf, 0xabd13d59, 1047 1.37 mlelstv 0x26d930ac, 0x51de003a, 0xc8d75180, 0xbfd06116, 0x21b4f4b5, 0x56b3c423, 1048 1.37 mlelstv 0xcfba9599, 0xb8bda50f, 0x2802b89e, 0x5f058808, 0xc60cd9b2, 0xb10be924, 1049 1.37 mlelstv 0x2f6f7c87, 0x58684c11, 0xc1611dab, 0xb6662d3d, 0x76dc4190, 0x01db7106, 1050 1.37 mlelstv 0x98d220bc, 0xefd5102a, 0x71b18589, 0x06b6b51f, 0x9fbfe4a5, 0xe8b8d433, 1051 1.37 mlelstv 0x7807c9a2, 0x0f00f934, 0x9609a88e, 0xe10e9818, 0x7f6a0dbb, 0x086d3d2d, 1052 1.37 mlelstv 0x91646c97, 0xe6635c01, 0x6b6b51f4, 0x1c6c6162, 0x856530d8, 0xf262004e, 1053 1.37 mlelstv 0x6c0695ed, 0x1b01a57b, 0x8208f4c1, 0xf50fc457, 0x65b0d9c6, 0x12b7e950, 1054 1.37 mlelstv 0x8bbeb8ea, 0xfcb9887c, 0x62dd1ddf, 0x15da2d49, 0x8cd37cf3, 0xfbd44c65, 1055 1.37 mlelstv 0x4db26158, 0x3ab551ce, 0xa3bc0074, 0xd4bb30e2, 0x4adfa541, 0x3dd895d7, 1056 1.37 mlelstv 0xa4d1c46d, 0xd3d6f4fb, 0x4369e96a, 0x346ed9fc, 0xad678846, 0xda60b8d0, 1057 1.37 mlelstv 0x44042d73, 0x33031de5, 0xaa0a4c5f, 0xdd0d7cc9, 0x5005713c, 0x270241aa, 1058 1.37 mlelstv 0xbe0b1010, 0xc90c2086, 0x5768b525, 0x206f85b3, 0xb966d409, 0xce61e49f, 1059 1.37 mlelstv 0x5edef90e, 0x29d9c998, 0xb0d09822, 0xc7d7a8b4, 0x59b33d17, 0x2eb40d81, 1060 1.37 mlelstv 0xb7bd5c3b, 0xc0ba6cad, 0xedb88320, 0x9abfb3b6, 0x03b6e20c, 0x74b1d29a, 1061 1.37 mlelstv 0xead54739, 0x9dd277af, 0x04db2615, 0x73dc1683, 0xe3630b12, 0x94643b84, 1062 1.37 mlelstv 0x0d6d6a3e, 0x7a6a5aa8, 0xe40ecf0b, 0x9309ff9d, 0x0a00ae27, 0x7d079eb1, 1063 1.37 mlelstv 0xf00f9344, 0x8708a3d2, 0x1e01f268, 0x6906c2fe, 0xf762575d, 0x806567cb, 1064 1.37 mlelstv 0x196c3671, 0x6e6b06e7, 0xfed41b76, 0x89d32be0, 0x10da7a5a, 0x67dd4acc, 1065 1.37 mlelstv 0xf9b9df6f, 0x8ebeeff9, 0x17b7be43, 0x60b08ed5, 0xd6d6a3e8, 0xa1d1937e, 1066 1.37 mlelstv 0x38d8c2c4, 0x4fdff252, 0xd1bb67f1, 0xa6bc5767, 0x3fb506dd, 0x48b2364b, 1067 1.37 mlelstv 0xd80d2bda, 0xaf0a1b4c, 0x36034af6, 0x41047a60, 0xdf60efc3, 0xa867df55, 1068 1.37 mlelstv 0x316e8eef, 0x4669be79, 0xcb61b38c, 0xbc66831a, 0x256fd2a0, 0x5268e236, 1069 1.37 mlelstv 0xcc0c7795, 0xbb0b4703, 0x220216b9, 0x5505262f, 0xc5ba3bbe, 0xb2bd0b28, 1070 1.37 mlelstv 0x2bb45a92, 0x5cb36a04, 0xc2d7ffa7, 0xb5d0cf31, 0x2cd99e8b, 0x5bdeae1d, 1071 1.37 mlelstv 0x9b64c2b0, 0xec63f226, 0x756aa39c, 0x026d930a, 0x9c0906a9, 0xeb0e363f, 1072 1.37 mlelstv 0x72076785, 0x05005713, 0x95bf4a82, 0xe2b87a14, 0x7bb12bae, 0x0cb61b38, 1073 1.37 mlelstv 0x92d28e9b, 0xe5d5be0d, 0x7cdcefb7, 0x0bdbdf21, 0x86d3d2d4, 0xf1d4e242, 1074 1.37 mlelstv 0x68ddb3f8, 0x1fda836e, 0x81be16cd, 0xf6b9265b, 0x6fb077e1, 0x18b74777, 1075 1.37 mlelstv 0x88085ae6, 0xff0f6a70, 0x66063bca, 0x11010b5c, 0x8f659eff, 0xf862ae69, 1076 1.37 mlelstv 0x616bffd3, 0x166ccf45, 0xa00ae278, 0xd70dd2ee, 0x4e048354, 0x3903b3c2, 1077 1.37 mlelstv 0xa7672661, 0xd06016f7, 0x4969474d, 0x3e6e77db, 0xaed16a4a, 0xd9d65adc, 1078 1.37 mlelstv 0x40df0b66, 0x37d83bf0, 0xa9bcae53, 0xdebb9ec5, 0x47b2cf7f, 0x30b5ffe9, 1079 1.37 mlelstv 0xbdbdf21c, 0xcabac28a, 0x53b39330, 0x24b4a3a6, 0xbad03605, 0xcdd70693, 1080 1.37 mlelstv 0x54de5729, 0x23d967bf, 0xb3667a2e, 0xc4614ab8, 0x5d681b02, 0x2a6f2b94, 1081 1.37 mlelstv 0xb40bbe37, 0xc30c8ea1, 0x5a05df1b, 0x2d02ef8d 1082 1.37 mlelstv }; 1083 1.37 mlelstv 1084 1.37 mlelstv static uint32_t 1085 1.37 mlelstv crc32(const void *buf, size_t size) 1086 1.37 mlelstv { 1087 1.37 mlelstv const uint8_t *p; 1088 1.37 mlelstv uint32_t crc; 1089 1.37 mlelstv 1090 1.37 mlelstv p = buf; 1091 1.37 mlelstv crc = ~0U; 1092 1.37 mlelstv 1093 1.37 mlelstv while (size--) 1094 1.37 mlelstv crc = crc32_tab[(crc ^ *p++) & 0xFF] ^ (crc >> 8); 1095 1.37 mlelstv 1096 1.37 mlelstv return crc ^ ~0U; 1097 1.37 mlelstv } 1098 1.37 mlelstv 1099 1.37 mlelstv static int 1100 1.37 mlelstv verify_gpt(int fd) 1101 1.37 mlelstv { 1102 1.37 mlelstv struct gpt_hdr hdr; 1103 1.37 mlelstv ssize_t ret; 1104 1.37 mlelstv char buf[SCANSIZE]; 1105 1.37 mlelstv unsigned blksize; 1106 1.37 mlelstv size_t off; 1107 1.37 mlelstv 1108 1.37 mlelstv /* 1109 1.37 mlelstv * we read the first blocks to avoid sector size issues and 1110 1.37 mlelstv * verify the GPT header. 1111 1.37 mlelstv */ 1112 1.37 mlelstv 1113 1.37 mlelstv ret = prog_pread(fd, buf, SCANSIZE, 0); 1114 1.37 mlelstv if (ret < 0) { 1115 1.37 mlelstv warn("can't read gpt area"); 1116 1.37 mlelstv return -1; 1117 1.37 mlelstv } 1118 1.37 mlelstv 1119 1.49 kre ret = 1; 1120 1.50 kre for (blksize = DEV_BSIZE; 1121 1.50 kre (off = (blksize * GPT_HDR_BLKNO)) <= SCANSIZE - sizeof(hdr); 1122 1.37 mlelstv blksize <<= 1) { 1123 1.37 mlelstv 1124 1.37 mlelstv memcpy(&hdr, &buf[off], sizeof(hdr)); 1125 1.50 kre if (memcmp(hdr.hdr_sig, GPT_HDR_SIG, sizeof(hdr.hdr_sig)) == 0 1126 1.50 kre && le32toh(hdr.hdr_revision) == GPT_HDR_REVISION 1127 1.50 kre && le32toh(hdr.hdr_size) == GPT_HDR_SIZE) { 1128 1.37 mlelstv 1129 1.37 mlelstv hdr.hdr_crc_self = 0; 1130 1.37 mlelstv if (crc32(&hdr, sizeof(hdr))) { 1131 1.37 mlelstv ret = 0; 1132 1.37 mlelstv break; 1133 1.37 mlelstv } 1134 1.37 mlelstv } 1135 1.37 mlelstv } 1136 1.37 mlelstv 1137 1.37 mlelstv return ret; 1138 1.37 mlelstv } 1139 1.37 mlelstv 1140 1.7 fvdl static off_t sblock_try[] = SBLOCKSEARCH; 1141 1.7 fvdl 1142 1.1 elric static int 1143 1.5 elric verify_ffs(int fd) 1144 1.5 elric { 1145 1.19 christos size_t i; 1146 1.5 elric 1147 1.7 fvdl for (i = 0; sblock_try[i] != -1; i++) { 1148 1.19 christos union { 1149 1.19 christos char buf[SBLOCKSIZE]; 1150 1.19 christos struct fs fs; 1151 1.19 christos } u; 1152 1.17 cbiere ssize_t ret; 1153 1.17 cbiere 1154 1.32 pooka ret = prog_pread(fd, &u, sizeof(u), sblock_try[i]); 1155 1.17 cbiere if (ret < 0) { 1156 1.7 fvdl warn("pread"); 1157 1.17 cbiere break; 1158 1.19 christos } else if ((size_t)ret < sizeof(u)) { 1159 1.17 cbiere warnx("pread: incomplete block"); 1160 1.17 cbiere break; 1161 1.7 fvdl } 1162 1.19 christos switch (u.fs.fs_magic) { 1163 1.7 fvdl case FS_UFS1_MAGIC: 1164 1.7 fvdl case FS_UFS2_MAGIC: 1165 1.7 fvdl case FS_UFS1_MAGIC_SWAPPED: 1166 1.7 fvdl case FS_UFS2_MAGIC_SWAPPED: 1167 1.7 fvdl return 0; 1168 1.7 fvdl default: 1169 1.7 fvdl continue; 1170 1.7 fvdl } 1171 1.5 elric } 1172 1.17 cbiere 1173 1.17 cbiere return 1; /* failure */ 1174 1.9 cb } 1175 1.9 cb 1176 1.9 cb static int 1177 1.9 cb verify_reenter(struct params *p) 1178 1.9 cb { 1179 1.9 cb struct keygen *kg; 1180 1.53 nia bits_t *orig_key, *key = NULL; 1181 1.9 cb int ret; 1182 1.9 cb 1183 1.9 cb ret = 0; 1184 1.9 cb for (kg = p->keygen; kg && !ret; kg = kg->next) { 1185 1.53 nia if (kg->kg_method != KEYGEN_ARGON2ID && 1186 1.53 nia kg->kg_method != KEYGEN_PKCS5_PBKDF2_SHA1 && 1187 1.53 nia kg->kg_method != KEYGEN_PKCS5_PBKDF2_OLD) 1188 1.9 cb continue; 1189 1.9 cb 1190 1.9 cb orig_key = kg->kg_key; 1191 1.9 cb kg->kg_key = NULL; 1192 1.9 cb 1193 1.53 nia switch (kg->kg_method) { 1194 1.53 nia #ifdef HAVE_ARGON2 1195 1.53 nia case KEYGEN_ARGON2ID: 1196 1.53 nia key = getkey_argon2id("re-enter device", kg, 1197 1.53 nia bits_len(orig_key)); 1198 1.53 nia break; 1199 1.53 nia #endif 1200 1.53 nia case KEYGEN_PKCS5_PBKDF2_SHA1: 1201 1.53 nia key = getkey_pkcs5_pbkdf2("re-enter device", kg, 1202 1.53 nia bits_len(orig_key), 0); 1203 1.53 nia break; 1204 1.53 nia case KEYGEN_PKCS5_PBKDF2_OLD: 1205 1.53 nia key = getkey_pkcs5_pbkdf2("re-enter device", kg, 1206 1.53 nia bits_len(orig_key), 1); 1207 1.53 nia break; 1208 1.53 nia default: 1209 1.53 nia warnx("unsupported keygen method"); 1210 1.53 nia kg->kg_key = orig_key; 1211 1.53 nia return -1; 1212 1.53 nia } 1213 1.50 kre 1214 1.9 cb ret = !bits_match(key, orig_key); 1215 1.9 cb 1216 1.9 cb bits_free(key); 1217 1.9 cb bits_free(kg->kg_key); 1218 1.9 cb kg->kg_key = orig_key; 1219 1.9 cb } 1220 1.9 cb 1221 1.9 cb return ret; 1222 1.5 elric } 1223 1.5 elric 1224 1.5 elric static int 1225 1.57 riastrad generate(struct params *p, int argc, char **argv, const char *outfile, 1226 1.57 riastrad const char *Pfile) 1227 1.1 elric { 1228 1.1 elric int ret; 1229 1.1 elric 1230 1.1 elric if (argc < 1 || argc > 2) 1231 1.1 elric usage(); 1232 1.1 elric 1233 1.5 elric p->algorithm = string_fromcharstar(argv[0]); 1234 1.17 cbiere if (argc > 1) { 1235 1.19 christos size_t keylen; 1236 1.17 cbiere 1237 1.19 christos if (parse_size_t(argv[1], &keylen) == -1) { 1238 1.17 cbiere warn("Failed to parse key length"); 1239 1.17 cbiere return -1; 1240 1.17 cbiere } 1241 1.17 cbiere p->keylen = keylen; 1242 1.17 cbiere } 1243 1.5 elric 1244 1.5 elric ret = params_filldefaults(p); 1245 1.1 elric if (ret) 1246 1.1 elric return ret; 1247 1.5 elric 1248 1.57 riastrad if (Pfile) { 1249 1.57 riastrad struct params *pp; 1250 1.57 riastrad 1251 1.57 riastrad pp = params_cget(Pfile); 1252 1.57 riastrad if (pp == NULL) 1253 1.57 riastrad return -1; 1254 1.57 riastrad if (!params_verify(pp)) { 1255 1.57 riastrad params_free(pp); 1256 1.57 riastrad warnx("invalid parameters file \"%s\"", Pfile); 1257 1.57 riastrad return -1; 1258 1.57 riastrad } 1259 1.57 riastrad p = params_combine(pp, p); 1260 1.57 riastrad keygen_stripstored(&p->keygen); 1261 1.57 riastrad if (!p->keygen) { 1262 1.57 riastrad warnx("no keygen in parameters file \"%s\"", Pfile); 1263 1.57 riastrad return -1; 1264 1.57 riastrad } 1265 1.57 riastrad } else { 1266 1.57 riastrad if (!p->keygen) { 1267 1.57 riastrad p->keygen = keygen_generate(KEYGEN_PKCS5_PBKDF2_SHA1); 1268 1.57 riastrad if (!p->keygen) 1269 1.57 riastrad return -1; 1270 1.57 riastrad } 1271 1.57 riastrad 1272 1.57 riastrad if (keygen_filldefaults(p->keygen, p->keylen)) { 1273 1.57 riastrad warnx("Failed to generate defaults for keygen"); 1274 1.5 elric return -1; 1275 1.57 riastrad } 1276 1.5 elric } 1277 1.5 elric 1278 1.57 riastrad if (Sflag) { 1279 1.57 riastrad if (Pfile) 1280 1.57 riastrad ret = keygen_tweakshared(p->keygen); 1281 1.57 riastrad else 1282 1.57 riastrad ret = keygen_makeshared(p->keygen); 1283 1.57 riastrad if (ret) 1284 1.57 riastrad return ret; 1285 1.5 elric } 1286 1.5 elric 1287 1.5 elric if (!params_verify(p)) { 1288 1.5 elric warnx("invalid parameters generated"); 1289 1.5 elric return -1; 1290 1.5 elric } 1291 1.5 elric 1292 1.5 elric return params_cput(p, outfile); 1293 1.5 elric } 1294 1.5 elric 1295 1.5 elric static int 1296 1.5 elric generate_convert(struct params *p, int argc, char **argv, const char *outfile) 1297 1.5 elric { 1298 1.5 elric struct params *oldp; 1299 1.5 elric struct keygen *kg; 1300 1.5 elric 1301 1.5 elric if (argc != 1) 1302 1.5 elric usage(); 1303 1.5 elric 1304 1.5 elric oldp = params_cget(*argv); 1305 1.5 elric if (!oldp) 1306 1.5 elric return -1; 1307 1.5 elric 1308 1.5 elric /* for sanity, we ensure that none of the keygens are randomkey */ 1309 1.5 elric for (kg=p->keygen; kg; kg=kg->next) 1310 1.30 elric if ((kg->kg_method == KEYGEN_RANDOMKEY) || 1311 1.30 elric (kg->kg_method == KEYGEN_URANDOMKEY)) { 1312 1.30 elric warnx("can't preserve randomly generated key"); 1313 1.5 elric goto bail; 1314 1.30 elric } 1315 1.5 elric for (kg=oldp->keygen; kg; kg=kg->next) 1316 1.30 elric if ((kg->kg_method == KEYGEN_RANDOMKEY) || 1317 1.30 elric (kg->kg_method == KEYGEN_URANDOMKEY)) { 1318 1.30 elric warnx("can't preserve randomly generated key"); 1319 1.5 elric goto bail; 1320 1.30 elric } 1321 1.5 elric 1322 1.5 elric if (!params_verify(oldp)) { 1323 1.5 elric warnx("invalid old parameters file \"%s\"", *argv); 1324 1.5 elric return -1; 1325 1.1 elric } 1326 1.1 elric 1327 1.5 elric oldp->key = getkey("old file", oldp->keygen, oldp->keylen); 1328 1.5 elric 1329 1.5 elric /* we copy across the non-keygen info, here. */ 1330 1.5 elric 1331 1.5 elric string_free(p->algorithm); 1332 1.5 elric string_free(p->ivmeth); 1333 1.5 elric 1334 1.5 elric p->algorithm = string_dup(oldp->algorithm); 1335 1.5 elric p->ivmeth = string_dup(oldp->ivmeth); 1336 1.5 elric p->keylen = oldp->keylen; 1337 1.5 elric p->bsize = oldp->bsize; 1338 1.5 elric if (p->verify_method == VERIFY_UNKNOWN) 1339 1.5 elric p->verify_method = oldp->verify_method; 1340 1.5 elric 1341 1.5 elric params_free(oldp); 1342 1.1 elric 1343 1.5 elric if (!p->keygen) { 1344 1.10 dan p->keygen = keygen_generate(KEYGEN_PKCS5_PBKDF2_SHA1); 1345 1.5 elric if (!p->keygen) 1346 1.1 elric return -1; 1347 1.5 elric } 1348 1.19 christos (void)params_filldefaults(p); 1349 1.19 christos (void)keygen_filldefaults(p->keygen, p->keylen); 1350 1.5 elric p->key = getkey("new file", p->keygen, p->keylen); 1351 1.5 elric 1352 1.5 elric kg = keygen_generate(KEYGEN_STOREDKEY); 1353 1.5 elric kg->kg_key = bits_xor(p->key, oldp->key); 1354 1.5 elric keygen_addlist(&p->keygen, kg); 1355 1.5 elric 1356 1.5 elric if (!params_verify(p)) { 1357 1.5 elric warnx("can't generate new parameters file"); 1358 1.5 elric return -1; 1359 1.1 elric } 1360 1.1 elric 1361 1.5 elric return params_cput(p, outfile); 1362 1.50 kre bail:; 1363 1.5 elric params_free(oldp); 1364 1.5 elric return -1; 1365 1.1 elric } 1366 1.1 elric 1367 1.1 elric static int 1368 1.19 christos /*ARGSUSED*/ 1369 1.1 elric do_all(const char *cfile, int argc, char **argv, 1370 1.3 elric int (*conf)(int, char **, struct params *, int)) 1371 1.1 elric { 1372 1.1 elric FILE *f; 1373 1.1 elric size_t len; 1374 1.1 elric size_t lineno; 1375 1.1 elric int my_argc; 1376 1.1 elric int ret; 1377 1.1 elric const char *fn; 1378 1.1 elric char *line; 1379 1.1 elric char **my_argv; 1380 1.1 elric 1381 1.1 elric if (argc > 0) 1382 1.1 elric usage(); 1383 1.1 elric 1384 1.1 elric if (!cfile[0]) 1385 1.1 elric fn = CGDCONFIG_CFILE; 1386 1.1 elric else 1387 1.1 elric fn = cfile; 1388 1.1 elric 1389 1.1 elric f = fopen(fn, "r"); 1390 1.50 kre if (f == NULL) { 1391 1.5 elric warn("could not open config file \"%s\"", fn); 1392 1.1 elric return -1; 1393 1.1 elric } 1394 1.1 elric 1395 1.1 elric ret = 0; 1396 1.1 elric lineno = 0; 1397 1.1 elric for (;;) { 1398 1.1 elric line = fparseln(f, &len, &lineno, "\\\\#", FPARSELN_UNESCALL); 1399 1.1 elric if (!line) 1400 1.1 elric break; 1401 1.1 elric if (!*line) 1402 1.1 elric continue; 1403 1.1 elric 1404 1.1 elric my_argv = words(line, &my_argc); 1405 1.3 elric ret = conf(my_argc, my_argv, NULL, CONFIG_FLAGS_FROMALL); 1406 1.1 elric if (ret) { 1407 1.5 elric warnx("action failed on \"%s\" line %lu", fn, 1408 1.1 elric (u_long)lineno); 1409 1.1 elric break; 1410 1.1 elric } 1411 1.1 elric words_free(my_argv, my_argc); 1412 1.1 elric } 1413 1.1 elric return ret; 1414 1.1 elric } 1415 1.13 elric 1416 1.34 christos static const char * 1417 1.34 christos iv_method(int mode) 1418 1.34 christos { 1419 1.34 christos 1420 1.34 christos switch (mode) { 1421 1.34 christos case CGD_CIPHER_CBC_ENCBLKNO8: 1422 1.34 christos return "encblkno8"; 1423 1.34 christos case CGD_CIPHER_CBC_ENCBLKNO1: 1424 1.34 christos return "encblkno1"; 1425 1.34 christos default: 1426 1.34 christos return "unknown"; 1427 1.34 christos } 1428 1.34 christos } 1429 1.34 christos 1430 1.35 christos 1431 1.35 christos static void 1432 1.35 christos show(const char *dev) { 1433 1.35 christos char path[64]; 1434 1.35 christos struct cgd_user cgu; 1435 1.35 christos int fd; 1436 1.35 christos 1437 1.35 christos fd = opendisk(dev, O_RDONLY, path, sizeof(path), 0); 1438 1.35 christos if (fd == -1) { 1439 1.35 christos warn("open: %s", dev); 1440 1.35 christos return; 1441 1.35 christos } 1442 1.35 christos 1443 1.35 christos cgu.cgu_unit = -1; 1444 1.35 christos if (prog_ioctl(fd, CGDIOCGET, &cgu) == -1) { 1445 1.35 christos close(fd); 1446 1.35 christos err(1, "CGDIOCGET"); 1447 1.35 christos } 1448 1.35 christos 1449 1.35 christos printf("%s: ", dev); 1450 1.35 christos 1451 1.35 christos if (cgu.cgu_dev == 0) { 1452 1.35 christos printf("not in use"); 1453 1.35 christos goto out; 1454 1.35 christos } 1455 1.35 christos 1456 1.35 christos dev = devname(cgu.cgu_dev, S_IFBLK); 1457 1.35 christos if (dev != NULL) 1458 1.35 christos printf("%s ", dev); 1459 1.35 christos else 1460 1.35 christos printf("dev %llu,%llu ", (unsigned long long)major(cgu.cgu_dev), 1461 1.35 christos (unsigned long long)minor(cgu.cgu_dev)); 1462 1.35 christos 1463 1.35 christos if (verbose) 1464 1.35 christos printf("%s ", cgu.cgu_alg); 1465 1.35 christos if (verbose > 1) { 1466 1.35 christos printf("keylen %d ", cgu.cgu_keylen); 1467 1.35 christos printf("blksize %zd ", cgu.cgu_blocksize); 1468 1.35 christos printf("%s ", iv_method(cgu.cgu_mode)); 1469 1.35 christos } 1470 1.35 christos 1471 1.50 kre out:; 1472 1.35 christos putchar('\n'); 1473 1.35 christos close(fd); 1474 1.35 christos } 1475 1.35 christos 1476 1.34 christos static int 1477 1.34 christos do_list(int argc, char **argv) 1478 1.34 christos { 1479 1.34 christos 1480 1.34 christos if (argc != 0 && argc != 1) 1481 1.34 christos usage(); 1482 1.34 christos 1483 1.35 christos if (argc) { 1484 1.35 christos show(argv[0]); 1485 1.35 christos return 0; 1486 1.35 christos } 1487 1.34 christos 1488 1.35 christos DIR *dirp; 1489 1.35 christos struct dirent *dp; 1490 1.35 christos __BITMAP_TYPE(, uint32_t, 65536) bm; 1491 1.35 christos 1492 1.35 christos __BITMAP_ZERO(&bm); 1493 1.35 christos 1494 1.35 christos if ((dirp = opendir(_PATH_DEV)) == NULL) 1495 1.35 christos err(1, "opendir: %s", _PATH_DEV); 1496 1.35 christos 1497 1.35 christos while ((dp = readdir(dirp)) != NULL) { 1498 1.35 christos char *ep; 1499 1.35 christos if (strncmp(dp->d_name, "rcgd", 4) != 0) 1500 1.35 christos continue; 1501 1.35 christos errno = 0; 1502 1.35 christos int n = (int)strtol(dp->d_name + 4, &ep, 0); 1503 1.35 christos if (ep == dp->d_name + 4 || errno != 0) { 1504 1.35 christos warnx("bad name %s", dp->d_name); 1505 1.35 christos continue; 1506 1.34 christos } 1507 1.35 christos *ep = '\0'; 1508 1.35 christos if (__BITMAP_ISSET(n, &bm)) 1509 1.35 christos continue; 1510 1.35 christos __BITMAP_SET(n, &bm); 1511 1.35 christos show(dp->d_name + 1); 1512 1.34 christos } 1513 1.34 christos 1514 1.35 christos closedir(dirp); 1515 1.34 christos return 0; 1516 1.34 christos } 1517 1.34 christos 1518 1.54 riastrad static int 1519 1.55 riastrad printkey(const char *dev, const char *paramsfile, const char *fmt, ...) 1520 1.54 riastrad { 1521 1.55 riastrad va_list va; 1522 1.54 riastrad struct params *p; 1523 1.54 riastrad const uint8_t *raw; 1524 1.54 riastrad size_t nbits, nbytes; 1525 1.54 riastrad size_t nb64; 1526 1.54 riastrad char *b64; 1527 1.54 riastrad int ret; 1528 1.54 riastrad 1529 1.55 riastrad p = params_cget(paramsfile); 1530 1.54 riastrad if (p == NULL) 1531 1.54 riastrad return -1; 1532 1.54 riastrad if (!params_verify(p)) { 1533 1.55 riastrad warnx("invalid parameters file \"%s\"", paramsfile); 1534 1.54 riastrad return -1; 1535 1.54 riastrad } 1536 1.55 riastrad p->key = getkey(dev, p->keygen, p->keylen); 1537 1.54 riastrad raw = bits_getbuf(p->key); 1538 1.54 riastrad nbits = bits_len(p->key); 1539 1.54 riastrad assert(nbits <= INT_MAX - 7); 1540 1.54 riastrad nbytes = BITS2BYTES(nbits); 1541 1.54 riastrad assert(nbytes <= 3*(INT_MAX/4) - 2); 1542 1.54 riastrad 1543 1.54 riastrad nb64 = 4*((nbytes + 2)/3); 1544 1.54 riastrad b64 = emalloc(nb64 + 2); 1545 1.54 riastrad ret = __b64_ntop(raw, nbytes, b64, nb64 + 1); 1546 1.54 riastrad assert(ret == (int)nb64); 1547 1.54 riastrad b64[nb64] = '\n'; 1548 1.54 riastrad b64[nb64 + 1] = '\0'; 1549 1.54 riastrad 1550 1.55 riastrad va_start(va, fmt); 1551 1.55 riastrad vprintf(fmt, va); 1552 1.55 riastrad va_end(va); 1553 1.54 riastrad if (fwrite(b64, nb64 + 1, 1, stdout) != 1) 1554 1.54 riastrad err(1, "fwrite"); 1555 1.54 riastrad fflush(stdout); 1556 1.54 riastrad return ferror(stdout); 1557 1.54 riastrad } 1558 1.54 riastrad 1559 1.55 riastrad static int 1560 1.55 riastrad printkey1(int argc, char **argv, struct params *inparams, int flags) 1561 1.55 riastrad { 1562 1.55 riastrad char devicename[PATH_MAX], paramsfilebuf[PATH_MAX]; 1563 1.55 riastrad const char *dev, *paramsfile; 1564 1.55 riastrad 1565 1.55 riastrad assert(flags == CONFIG_FLAGS_FROMALL); 1566 1.55 riastrad 1567 1.55 riastrad if (argc < 2 || argc > 3) 1568 1.55 riastrad return -1; 1569 1.55 riastrad 1570 1.55 riastrad dev = getfsspecname(devicename, sizeof(devicename), argv[1]); 1571 1.55 riastrad if (dev == NULL) { 1572 1.55 riastrad warnx("getfsspecname failed: %s", devicename); 1573 1.55 riastrad return -1; 1574 1.55 riastrad } 1575 1.55 riastrad 1576 1.55 riastrad if (argc == 2) { 1577 1.55 riastrad strlcpy(paramsfilebuf, dev, sizeof(paramsfilebuf)); 1578 1.55 riastrad paramsfile = basename(paramsfilebuf); 1579 1.55 riastrad } else { 1580 1.55 riastrad paramsfile = argv[2]; 1581 1.55 riastrad } 1582 1.55 riastrad 1583 1.55 riastrad return printkey(dev, paramsfile, "%s: ", dev); 1584 1.55 riastrad } 1585 1.55 riastrad 1586 1.55 riastrad static int 1587 1.55 riastrad do_printkey(int argc, char **argv) 1588 1.55 riastrad { 1589 1.55 riastrad 1590 1.55 riastrad if (argc != 1) 1591 1.55 riastrad usage(); 1592 1.55 riastrad return printkey("key", argv[0], ""); 1593 1.55 riastrad } 1594 1.55 riastrad 1595 1.13 elric static void 1596 1.13 elric eliminate_cores(void) 1597 1.13 elric { 1598 1.13 elric struct rlimit rlp; 1599 1.13 elric 1600 1.13 elric rlp.rlim_cur = 0; 1601 1.13 elric rlp.rlim_max = 0; 1602 1.17 cbiere if (setrlimit(RLIMIT_CORE, &rlp) == -1) 1603 1.13 elric err(EXIT_FAILURE, "Can't disable cores"); 1604 1.13 elric } 1605
Indexes created Tue Sep 30 20:09:53 GMT 2025