ukfs.c revision 1.48
1 1.48 pooka /* $NetBSD: ukfs.c,v 1.48 2010/03/05 18:49:30 pooka Exp $ */ 2 1.1 pooka 3 1.1 pooka /* 4 1.38 pooka * Copyright (c) 2007, 2008, 2009 Antti Kantee. All Rights Reserved. 5 1.1 pooka * 6 1.1 pooka * Development of this software was supported by the 7 1.1 pooka * Finnish Cultural Foundation. 8 1.1 pooka * 9 1.1 pooka * Redistribution and use in source and binary forms, with or without 10 1.1 pooka * modification, are permitted provided that the following conditions 11 1.1 pooka * are met: 12 1.1 pooka * 1. Redistributions of source code must retain the above copyright 13 1.1 pooka * notice, this list of conditions and the following disclaimer. 14 1.1 pooka * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 pooka * notice, this list of conditions and the following disclaimer in the 16 1.1 pooka * documentation and/or other materials provided with the distribution. 17 1.1 pooka * 18 1.1 pooka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS 19 1.1 pooka * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 20 1.1 pooka * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 21 1.1 pooka * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 22 1.1 pooka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 23 1.1 pooka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 24 1.1 pooka * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 25 1.1 pooka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 26 1.1 pooka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 27 1.1 pooka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28 1.1 pooka * SUCH DAMAGE. 29 1.1 pooka */ 30 1.1 pooka 31 1.1 pooka /* 32 1.1 pooka * This library enables access to files systems directly without 33 1.1 pooka * involving system calls. 34 1.1 pooka */ 35 1.1 pooka 36 1.1 pooka #ifdef __linux__ 37 1.1 pooka #define _XOPEN_SOURCE 500 38 1.1 pooka #define _BSD_SOURCE 39 1.1 pooka #define _FILE_OFFSET_BITS 64 40 1.1 pooka #endif 41 1.1 pooka 42 1.3 pooka #include <sys/param.h> 43 1.3 pooka #include <sys/queue.h> 44 1.1 pooka #include <sys/stat.h> 45 1.4 pooka #include <sys/sysctl.h> 46 1.4 pooka #include <sys/mount.h> 47 1.1 pooka 48 1.1 pooka #include <assert.h> 49 1.3 pooka #include <dirent.h> 50 1.3 pooka #include <dlfcn.h> 51 1.1 pooka #include <err.h> 52 1.1 pooka #include <errno.h> 53 1.11 pooka #include <fcntl.h> 54 1.1 pooka #include <pthread.h> 55 1.1 pooka #include <stdio.h> 56 1.1 pooka #include <stdlib.h> 57 1.1 pooka #include <string.h> 58 1.1 pooka #include <unistd.h> 59 1.1 pooka #include <stdint.h> 60 1.1 pooka 61 1.1 pooka #include <rump/ukfs.h> 62 1.1 pooka 63 1.1 pooka #include <rump/rump.h> 64 1.1 pooka #include <rump/rump_syscalls.h> 65 1.43 pooka #include <rump/rumpuser.h> 66 1.1 pooka 67 1.38 pooka #include "ukfs_int_disklabel.h" 68 1.38 pooka 69 1.1 pooka #define UKFS_MODE_DEFAULT 0555 70 1.1 pooka 71 1.1 pooka struct ukfs { 72 1.1 pooka struct mount *ukfs_mp; 73 1.1 pooka struct vnode *ukfs_rvp; 74 1.37 pooka void *ukfs_specific; 75 1.1 pooka 76 1.1 pooka pthread_spinlock_t ukfs_spin; 77 1.1 pooka pid_t ukfs_nextpid; 78 1.1 pooka struct vnode *ukfs_cdir; 79 1.11 pooka int ukfs_devfd; 80 1.30 pooka char *ukfs_devpath; 81 1.30 pooka char *ukfs_mountpath; 82 1.45 pooka struct ukfs_part *ukfs_part; 83 1.1 pooka }; 84 1.1 pooka 85 1.30 pooka static int builddirs(const char *, mode_t, 86 1.30 pooka int (*mkdirfn)(struct ukfs *, const char *, mode_t), struct ukfs *); 87 1.30 pooka 88 1.1 pooka struct mount * 89 1.1 pooka ukfs_getmp(struct ukfs *ukfs) 90 1.1 pooka { 91 1.1 pooka 92 1.1 pooka return ukfs->ukfs_mp; 93 1.1 pooka } 94 1.1 pooka 95 1.1 pooka struct vnode * 96 1.1 pooka ukfs_getrvp(struct ukfs *ukfs) 97 1.1 pooka { 98 1.1 pooka struct vnode *rvp; 99 1.1 pooka 100 1.1 pooka rvp = ukfs->ukfs_rvp; 101 1.40 pooka rump_pub_vp_incref(rvp); 102 1.1 pooka 103 1.1 pooka return rvp; 104 1.1 pooka } 105 1.1 pooka 106 1.37 pooka void 107 1.37 pooka ukfs_setspecific(struct ukfs *ukfs, void *priv) 108 1.37 pooka { 109 1.37 pooka 110 1.37 pooka ukfs->ukfs_specific = priv; 111 1.37 pooka } 112 1.37 pooka 113 1.37 pooka void * 114 1.37 pooka ukfs_getspecific(struct ukfs *ukfs) 115 1.37 pooka { 116 1.37 pooka 117 1.37 pooka return ukfs->ukfs_specific; 118 1.37 pooka } 119 1.37 pooka 120 1.20 pooka #ifdef DONT_WANT_PTHREAD_LINKAGE 121 1.20 pooka #define pthread_spin_lock(a) 122 1.20 pooka #define pthread_spin_unlock(a) 123 1.20 pooka #define pthread_spin_init(a,b) 124 1.20 pooka #define pthread_spin_destroy(a) 125 1.20 pooka #endif 126 1.20 pooka 127 1.1 pooka static pid_t 128 1.1 pooka nextpid(struct ukfs *ukfs) 129 1.1 pooka { 130 1.1 pooka pid_t npid; 131 1.1 pooka 132 1.1 pooka pthread_spin_lock(&ukfs->ukfs_spin); 133 1.5 pooka if (ukfs->ukfs_nextpid == 0) 134 1.5 pooka ukfs->ukfs_nextpid++; 135 1.1 pooka npid = ukfs->ukfs_nextpid++; 136 1.1 pooka pthread_spin_unlock(&ukfs->ukfs_spin); 137 1.1 pooka 138 1.1 pooka return npid; 139 1.1 pooka } 140 1.1 pooka 141 1.1 pooka static void 142 1.1 pooka precall(struct ukfs *ukfs) 143 1.1 pooka { 144 1.1 pooka struct vnode *rvp, *cvp; 145 1.1 pooka 146 1.41 pooka rump_pub_lwp_alloc_and_switch(nextpid(ukfs), 1); 147 1.1 pooka rvp = ukfs_getrvp(ukfs); 148 1.1 pooka pthread_spin_lock(&ukfs->ukfs_spin); 149 1.1 pooka cvp = ukfs->ukfs_cdir; 150 1.1 pooka pthread_spin_unlock(&ukfs->ukfs_spin); 151 1.40 pooka rump_pub_rcvp_set(rvp, cvp); /* takes refs */ 152 1.40 pooka rump_pub_vp_rele(rvp); 153 1.1 pooka } 154 1.1 pooka 155 1.1 pooka static void 156 1.1 pooka postcall(struct ukfs *ukfs) 157 1.1 pooka { 158 1.1 pooka struct vnode *rvp; 159 1.1 pooka 160 1.1 pooka rvp = ukfs_getrvp(ukfs); 161 1.40 pooka rump_pub_rcvp_set(NULL, rvp); 162 1.40 pooka rump_pub_vp_rele(rvp); 163 1.41 pooka rump_pub_lwp_release(rump_pub_lwp_curlwp()); 164 1.1 pooka } 165 1.1 pooka 166 1.43 pooka struct ukfs_part { 167 1.47 pooka pthread_spinlock_t part_lck; 168 1.47 pooka int part_refcount; 169 1.47 pooka 170 1.43 pooka int part_type; 171 1.43 pooka char part_labelchar; 172 1.43 pooka off_t part_devoff; 173 1.43 pooka off_t part_devsize; 174 1.43 pooka }; 175 1.43 pooka 176 1.43 pooka enum ukfs_parttype { UKFS_PART_NONE, UKFS_PART_DISKLABEL, UKFS_PART_OFFSET }; 177 1.43 pooka 178 1.43 pooka static struct ukfs_part ukfs__part_none = { 179 1.43 pooka .part_type = UKFS_PART_NONE, 180 1.43 pooka .part_devoff = 0, 181 1.43 pooka .part_devsize = RUMP_ETFS_SIZE_ENDOFF, 182 1.43 pooka }; 183 1.43 pooka static struct ukfs_part ukfs__part_na; 184 1.44 pooka struct ukfs_part *ukfs_part_none = &ukfs__part_none; 185 1.44 pooka struct ukfs_part *ukfs_part_na = &ukfs__part_na; 186 1.43 pooka 187 1.45 pooka #define PART2LOCKSIZE(len) ((len) == RUMP_ETFS_SIZE_ENDOFF ? 0 : (len)) 188 1.45 pooka 189 1.1 pooka int 190 1.10 pooka _ukfs_init(int version) 191 1.1 pooka { 192 1.10 pooka int rv; 193 1.10 pooka 194 1.10 pooka if (version != UKFS_VERSION) { 195 1.10 pooka printf("incompatible ukfs version, %d vs. %d\n", 196 1.10 pooka version, UKFS_VERSION); 197 1.10 pooka errno = EPROGMISMATCH; 198 1.10 pooka return -1; 199 1.10 pooka } 200 1.1 pooka 201 1.10 pooka if ((rv = rump_init()) != 0) { 202 1.10 pooka errno = rv; 203 1.10 pooka return -1; 204 1.10 pooka } 205 1.1 pooka 206 1.1 pooka return 0; 207 1.1 pooka } 208 1.1 pooka 209 1.31 pooka /*ARGSUSED*/ 210 1.30 pooka static int 211 1.30 pooka rumpmkdir(struct ukfs *dummy, const char *path, mode_t mode) 212 1.30 pooka { 213 1.30 pooka 214 1.30 pooka return rump_sys_mkdir(path, mode); 215 1.30 pooka } 216 1.30 pooka 217 1.38 pooka int 218 1.43 pooka ukfs_part_probe(char *devpath, struct ukfs_part **partp) 219 1.38 pooka { 220 1.43 pooka struct ukfs_part *part; 221 1.38 pooka char *p; 222 1.43 pooka int error = 0; 223 1.43 pooka int devfd = -1; 224 1.43 pooka 225 1.43 pooka if ((p = strstr(devpath, UKFS_PARTITION_SCANMAGIC)) != NULL) { 226 1.43 pooka fprintf(stderr, "ukfs: %%PART is deprecated. use " 227 1.43 pooka "%%DISKLABEL instead\n"); 228 1.43 pooka errno = ENODEV; 229 1.43 pooka return -1; 230 1.43 pooka } 231 1.43 pooka 232 1.43 pooka part = malloc(sizeof(*part)); 233 1.43 pooka if (part == NULL) { 234 1.43 pooka errno = ENOMEM; 235 1.43 pooka return -1; 236 1.43 pooka } 237 1.47 pooka if (pthread_spin_init(&part->part_lck, PTHREAD_PROCESS_PRIVATE) == -1) { 238 1.47 pooka error = errno; 239 1.47 pooka free(part); 240 1.47 pooka errno = error; 241 1.47 pooka return -1; 242 1.47 pooka } 243 1.43 pooka part->part_type = UKFS_PART_NONE; 244 1.47 pooka part->part_refcount = 1; 245 1.38 pooka 246 1.38 pooka /* 247 1.43 pooka * Check for magic in pathname: 248 1.43 pooka * disklabel: /regularpath%DISKLABEL:labelchar%\0 249 1.43 pooka * offsets: /regularpath%OFFSET:start,end%\0 250 1.38 pooka */ 251 1.43 pooka #define MAGICADJ_DISKLABEL(p, n) (p+sizeof(UKFS_DISKLABEL_SCANMAGIC)-1+n) 252 1.43 pooka if ((p = strstr(devpath, UKFS_DISKLABEL_SCANMAGIC)) != NULL 253 1.43 pooka && strlen(p) == UKFS_DISKLABEL_MAGICLEN 254 1.43 pooka && *(MAGICADJ_DISKLABEL(p,1)) == '%') { 255 1.43 pooka if (*(MAGICADJ_DISKLABEL(p,0)) >= 'a' && 256 1.43 pooka *(MAGICADJ_DISKLABEL(p,0)) < 'a' + UKFS_MAXPARTITIONS) { 257 1.43 pooka struct ukfs__disklabel dl; 258 1.43 pooka struct ukfs__partition *pp; 259 1.43 pooka char buf[65536]; 260 1.43 pooka char labelchar = *(MAGICADJ_DISKLABEL(p,0)); 261 1.43 pooka int partition = labelchar - 'a'; 262 1.43 pooka 263 1.38 pooka *p = '\0'; 264 1.43 pooka devfd = open(devpath, O_RDONLY); 265 1.43 pooka if (devfd == -1) { 266 1.43 pooka error = errno; 267 1.43 pooka goto out; 268 1.43 pooka } 269 1.43 pooka 270 1.43 pooka /* Locate the disklabel and find the partition. */ 271 1.43 pooka if (pread(devfd, buf, sizeof(buf), 0) == -1) { 272 1.43 pooka error = errno; 273 1.43 pooka goto out; 274 1.43 pooka } 275 1.43 pooka 276 1.43 pooka if (ukfs__disklabel_scan(&dl, buf, sizeof(buf)) != 0) { 277 1.43 pooka error = ENOENT; 278 1.43 pooka goto out; 279 1.43 pooka } 280 1.43 pooka 281 1.43 pooka if (dl.d_npartitions < partition) { 282 1.43 pooka error = ENOENT; 283 1.43 pooka goto out; 284 1.43 pooka } 285 1.43 pooka 286 1.43 pooka pp = &dl.d_partitions[partition]; 287 1.43 pooka part->part_type = UKFS_PART_DISKLABEL; 288 1.43 pooka part->part_labelchar = labelchar; 289 1.43 pooka part->part_devoff = pp->p_offset << DEV_BSHIFT; 290 1.43 pooka part->part_devsize = pp->p_size << DEV_BSHIFT; 291 1.38 pooka } else { 292 1.43 pooka error = EINVAL; 293 1.43 pooka } 294 1.43 pooka #define MAGICADJ_OFFSET(p, n) (p+sizeof(UKFS_OFFSET_SCANMAGIC)-1+n) 295 1.43 pooka } else if (((p = strstr(devpath, UKFS_OFFSET_SCANMAGIC)) != NULL) 296 1.43 pooka && (strlen(p) >= UKFS_OFFSET_MINLEN)) { 297 1.43 pooka char *comma, *pers, *ep, *nptr; 298 1.43 pooka u_quad_t val; 299 1.43 pooka 300 1.43 pooka comma = strchr(p, ','); 301 1.43 pooka if (comma == NULL) { 302 1.43 pooka error = EINVAL; 303 1.43 pooka goto out; 304 1.43 pooka } 305 1.43 pooka pers = strchr(comma, '%'); 306 1.43 pooka if (pers == NULL) { 307 1.43 pooka error = EINVAL; 308 1.43 pooka goto out; 309 1.43 pooka } 310 1.43 pooka *comma = '\0'; 311 1.43 pooka *pers = '\0'; 312 1.43 pooka *p = '\0'; 313 1.43 pooka 314 1.43 pooka nptr = MAGICADJ_OFFSET(p,0); 315 1.43 pooka /* check if string is negative */ 316 1.43 pooka if (*nptr == '-') { 317 1.43 pooka error = ERANGE; 318 1.43 pooka goto out; 319 1.43 pooka } 320 1.43 pooka val = strtouq(nptr, &ep, 10); 321 1.43 pooka if (val == UQUAD_MAX) { 322 1.43 pooka error = ERANGE; 323 1.43 pooka goto out; 324 1.43 pooka } 325 1.43 pooka if (*ep != '\0') { 326 1.43 pooka error = EADDRNOTAVAIL; /* creative ;) */ 327 1.43 pooka goto out; 328 1.43 pooka } 329 1.43 pooka part->part_devoff = val; 330 1.43 pooka 331 1.43 pooka /* omstart */ 332 1.43 pooka 333 1.43 pooka nptr = comma+1; 334 1.43 pooka /* check if string is negative */ 335 1.43 pooka if (*nptr == '-') { 336 1.43 pooka error = ERANGE; 337 1.43 pooka goto out; 338 1.43 pooka } 339 1.43 pooka val = strtouq(nptr, &ep, 10); 340 1.43 pooka if (val == UQUAD_MAX) { 341 1.43 pooka error = ERANGE; 342 1.43 pooka goto out; 343 1.43 pooka } 344 1.43 pooka if (*ep != '\0') { 345 1.43 pooka error = EADDRNOTAVAIL; /* creative ;) */ 346 1.43 pooka goto out; 347 1.38 pooka } 348 1.43 pooka part->part_devsize = val; 349 1.43 pooka part->part_type = UKFS_PART_OFFSET; 350 1.38 pooka } else { 351 1.47 pooka ukfs_part_release(part); 352 1.43 pooka part = ukfs_part_none; 353 1.43 pooka } 354 1.43 pooka 355 1.43 pooka out: 356 1.43 pooka if (devfd != -1) 357 1.43 pooka close(devfd); 358 1.43 pooka if (error) { 359 1.43 pooka free(part); 360 1.43 pooka errno = error; 361 1.43 pooka } else { 362 1.43 pooka *partp = part; 363 1.43 pooka } 364 1.43 pooka 365 1.43 pooka return error ? -1 : 0; 366 1.43 pooka } 367 1.43 pooka 368 1.43 pooka int 369 1.43 pooka ukfs_part_tostring(struct ukfs_part *part, char *str, size_t strsize) 370 1.43 pooka { 371 1.43 pooka int rv; 372 1.43 pooka 373 1.43 pooka *str = '\0'; 374 1.43 pooka /* "pseudo" values */ 375 1.43 pooka if (part == ukfs_part_na) { 376 1.43 pooka errno = EINVAL; 377 1.43 pooka return -1; 378 1.43 pooka } 379 1.43 pooka if (part == ukfs_part_none) 380 1.43 pooka return 0; 381 1.43 pooka 382 1.43 pooka rv = 0; 383 1.43 pooka switch (part->part_type) { 384 1.43 pooka case UKFS_PART_NONE: 385 1.43 pooka break; 386 1.43 pooka 387 1.43 pooka case UKFS_PART_DISKLABEL: 388 1.43 pooka snprintf(str, strsize, "%%DISKLABEL:%c%%",part->part_labelchar); 389 1.43 pooka rv = 1; 390 1.43 pooka break; 391 1.43 pooka 392 1.43 pooka case UKFS_PART_OFFSET: 393 1.43 pooka snprintf(str, strsize, "[%llu,%llu]", 394 1.43 pooka (unsigned long long)part->part_devoff, 395 1.43 pooka (unsigned long long)(part->part_devoff+part->part_devsize)); 396 1.43 pooka rv = 1; 397 1.43 pooka break; 398 1.38 pooka } 399 1.38 pooka 400 1.38 pooka return rv; 401 1.38 pooka } 402 1.38 pooka 403 1.45 pooka static void 404 1.45 pooka unlockdev(int fd, struct ukfs_part *part) 405 1.45 pooka { 406 1.45 pooka struct flock flarg; 407 1.45 pooka 408 1.47 pooka if (part == ukfs_part_na) 409 1.47 pooka return; 410 1.47 pooka 411 1.45 pooka memset(&flarg, 0, sizeof(flarg)); 412 1.45 pooka flarg.l_type = F_UNLCK; 413 1.45 pooka flarg.l_whence = SEEK_SET; 414 1.45 pooka flarg.l_start = part->part_devoff; 415 1.45 pooka flarg.l_len = PART2LOCKSIZE(part->part_devsize); 416 1.45 pooka if (fcntl(fd, F_SETLK, &flarg) == -1) 417 1.45 pooka warn("ukfs: cannot unlock device file"); 418 1.45 pooka } 419 1.45 pooka 420 1.38 pooka /* 421 1.38 pooka * Open the disk file and flock it. Also, if we are operation on 422 1.38 pooka * an embedded partition, find the partition offset and size from 423 1.38 pooka * the disklabel. 424 1.38 pooka * 425 1.38 pooka * We hard-fail only in two cases: 426 1.38 pooka * 1) we failed to get the partition info out (don't know what offset 427 1.38 pooka * to mount from) 428 1.45 pooka * 2) we failed to flock the source device (i.e. fcntl() fails, 429 1.38 pooka * not e.g. open() before it) 430 1.38 pooka * 431 1.38 pooka * Otherwise we let the code proceed to mount and let the file system 432 1.38 pooka * throw the proper error. The only questionable bit is that if we 433 1.45 pooka * soft-fail before flock and mount does succeed... 434 1.38 pooka * 435 1.38 pooka * Returns: -1 error (errno reports error code) 436 1.38 pooka * 0 success 437 1.38 pooka * 438 1.38 pooka * dfdp: -1 device is not open 439 1.38 pooka * n device is open 440 1.38 pooka */ 441 1.38 pooka static int 442 1.43 pooka process_diskdevice(const char *devpath, struct ukfs_part *part, int rdonly, 443 1.43 pooka int *dfdp) 444 1.1 pooka { 445 1.22 pooka struct stat sb; 446 1.38 pooka int rv = 0, devfd; 447 1.38 pooka 448 1.38 pooka /* defaults */ 449 1.38 pooka *dfdp = -1; 450 1.38 pooka 451 1.38 pooka devfd = open(devpath, rdonly ? O_RDONLY : O_RDWR); 452 1.38 pooka if (devfd == -1) { 453 1.43 pooka rv = errno; 454 1.38 pooka goto out; 455 1.38 pooka } 456 1.38 pooka 457 1.38 pooka if (fstat(devfd, &sb) == -1) { 458 1.38 pooka rv = errno; 459 1.38 pooka goto out; 460 1.38 pooka } 461 1.1 pooka 462 1.11 pooka /* 463 1.38 pooka * We do this only for non-block device since the 464 1.38 pooka * (NetBSD) kernel allows block device open only once. 465 1.38 pooka * We also need to close the device for fairly obvious reasons. 466 1.11 pooka */ 467 1.38 pooka if (!S_ISBLK(sb.st_mode)) { 468 1.45 pooka struct flock flarg; 469 1.45 pooka 470 1.45 pooka memset(&flarg, 0, sizeof(flarg)); 471 1.45 pooka flarg.l_type = rdonly ? F_RDLCK : F_WRLCK; 472 1.45 pooka flarg.l_whence = SEEK_SET; 473 1.45 pooka flarg.l_start = part->part_devoff; 474 1.45 pooka flarg.l_len = PART2LOCKSIZE(part->part_devsize); 475 1.45 pooka if (fcntl(devfd, F_SETLK, &flarg) == -1) { 476 1.45 pooka pid_t holder; 477 1.45 pooka int sverrno; 478 1.45 pooka 479 1.45 pooka sverrno = errno; 480 1.45 pooka if (fcntl(devfd, F_GETLK, &flarg) != 1) 481 1.45 pooka holder = flarg.l_pid; 482 1.45 pooka else 483 1.45 pooka holder = -1; 484 1.45 pooka warnx("ukfs_mount: cannot lock device. held by pid %d", 485 1.45 pooka holder); 486 1.45 pooka rv = sverrno; 487 1.11 pooka goto out; 488 1.11 pooka } 489 1.38 pooka } else { 490 1.38 pooka close(devfd); 491 1.38 pooka devfd = -1; 492 1.38 pooka } 493 1.38 pooka *dfdp = devfd; 494 1.22 pooka 495 1.38 pooka out: 496 1.38 pooka if (rv) { 497 1.38 pooka if (devfd != -1) 498 1.22 pooka close(devfd); 499 1.11 pooka } 500 1.1 pooka 501 1.38 pooka return rv; 502 1.38 pooka } 503 1.38 pooka 504 1.38 pooka static struct ukfs * 505 1.43 pooka doukfsmount(const char *vfsname, const char *devpath, struct ukfs_part *part, 506 1.38 pooka const char *mountpath, int mntflags, void *arg, size_t alen) 507 1.38 pooka { 508 1.38 pooka struct ukfs *fs = NULL; 509 1.39 pooka int rv = 0, devfd = -1; 510 1.38 pooka int mounted = 0; 511 1.38 pooka int regged = 0; 512 1.38 pooka 513 1.47 pooka pthread_spin_lock(&part->part_lck); 514 1.47 pooka part->part_refcount++; 515 1.47 pooka pthread_spin_unlock(&part->part_lck); 516 1.43 pooka if (part != ukfs_part_na) { 517 1.43 pooka if ((rv = process_diskdevice(devpath, part, 518 1.43 pooka mntflags & MNT_RDONLY, &devfd)) != 0) 519 1.43 pooka goto out; 520 1.43 pooka } 521 1.38 pooka 522 1.1 pooka fs = malloc(sizeof(struct ukfs)); 523 1.1 pooka if (fs == NULL) { 524 1.1 pooka rv = ENOMEM; 525 1.1 pooka goto out; 526 1.1 pooka } 527 1.1 pooka memset(fs, 0, sizeof(struct ukfs)); 528 1.30 pooka 529 1.30 pooka /* create our mountpoint. this is never removed. */ 530 1.30 pooka if (builddirs(mountpath, 0777, rumpmkdir, NULL) == -1) { 531 1.30 pooka if (errno != EEXIST) { 532 1.30 pooka rv = errno; 533 1.30 pooka goto out; 534 1.30 pooka } 535 1.30 pooka } 536 1.1 pooka 537 1.43 pooka if (part != ukfs_part_na) { 538 1.43 pooka /* LINTED */ 539 1.40 pooka rv = rump_pub_etfs_register_withsize(devpath, devpath, 540 1.43 pooka RUMP_ETFS_BLK, part->part_devoff, part->part_devsize); 541 1.33 pooka if (rv) { 542 1.33 pooka goto out; 543 1.33 pooka } 544 1.33 pooka regged = 1; 545 1.33 pooka } 546 1.38 pooka 547 1.30 pooka rv = rump_sys_mount(vfsname, mountpath, mntflags, arg, alen); 548 1.1 pooka if (rv) { 549 1.34 pooka rv = errno; 550 1.1 pooka goto out; 551 1.1 pooka } 552 1.30 pooka mounted = 1; 553 1.40 pooka rv = rump_pub_vfs_getmp(mountpath, &fs->ukfs_mp); 554 1.11 pooka if (rv) { 555 1.11 pooka goto out; 556 1.11 pooka } 557 1.40 pooka rv = rump_pub_vfs_root(fs->ukfs_mp, &fs->ukfs_rvp, 0); 558 1.30 pooka if (rv) { 559 1.30 pooka goto out; 560 1.30 pooka } 561 1.30 pooka 562 1.33 pooka if (regged) { 563 1.33 pooka fs->ukfs_devpath = strdup(devpath); 564 1.33 pooka } 565 1.30 pooka fs->ukfs_mountpath = strdup(mountpath); 566 1.11 pooka fs->ukfs_cdir = ukfs_getrvp(fs); 567 1.11 pooka pthread_spin_init(&fs->ukfs_spin, PTHREAD_PROCESS_SHARED); 568 1.11 pooka fs->ukfs_devfd = devfd; 569 1.45 pooka fs->ukfs_part = part; 570 1.11 pooka assert(rv == 0); 571 1.1 pooka 572 1.1 pooka out: 573 1.1 pooka if (rv) { 574 1.30 pooka if (fs) { 575 1.30 pooka if (fs->ukfs_rvp) 576 1.40 pooka rump_pub_vp_rele(fs->ukfs_rvp); 577 1.1 pooka free(fs); 578 1.30 pooka fs = NULL; 579 1.30 pooka } 580 1.30 pooka if (mounted) 581 1.30 pooka rump_sys_unmount(mountpath, MNT_FORCE); 582 1.33 pooka if (regged) 583 1.40 pooka rump_pub_etfs_remove(devpath); 584 1.11 pooka if (devfd != -1) { 585 1.46 pooka unlockdev(devfd, part); 586 1.11 pooka close(devfd); 587 1.11 pooka } 588 1.45 pooka ukfs_part_release(part); 589 1.34 pooka errno = rv; 590 1.1 pooka } 591 1.1 pooka 592 1.1 pooka return fs; 593 1.1 pooka } 594 1.1 pooka 595 1.38 pooka struct ukfs * 596 1.38 pooka ukfs_mount(const char *vfsname, const char *devpath, 597 1.38 pooka const char *mountpath, int mntflags, void *arg, size_t alen) 598 1.38 pooka { 599 1.38 pooka 600 1.43 pooka return doukfsmount(vfsname, devpath, ukfs_part_na, 601 1.38 pooka mountpath, mntflags, arg, alen); 602 1.38 pooka } 603 1.38 pooka 604 1.38 pooka struct ukfs * 605 1.43 pooka ukfs_mount_disk(const char *vfsname, const char *devpath, 606 1.43 pooka struct ukfs_part *part, const char *mountpath, int mntflags, 607 1.43 pooka void *arg, size_t alen) 608 1.38 pooka { 609 1.38 pooka 610 1.43 pooka return doukfsmount(vfsname, devpath, part, 611 1.38 pooka mountpath, mntflags, arg, alen); 612 1.38 pooka } 613 1.38 pooka 614 1.30 pooka int 615 1.1 pooka ukfs_release(struct ukfs *fs, int flags) 616 1.1 pooka { 617 1.1 pooka 618 1.1 pooka if ((flags & UKFS_RELFLAG_NOUNMOUNT) == 0) { 619 1.37 pooka int rv, mntflag, error; 620 1.9 pooka 621 1.30 pooka ukfs_chdir(fs, "/"); 622 1.30 pooka mntflag = 0; 623 1.30 pooka if (flags & UKFS_RELFLAG_FORCE) 624 1.30 pooka mntflag = MNT_FORCE; 625 1.41 pooka rump_pub_lwp_alloc_and_switch(nextpid(fs), 1); 626 1.40 pooka rump_pub_vp_rele(fs->ukfs_rvp); 627 1.37 pooka fs->ukfs_rvp = NULL; 628 1.30 pooka rv = rump_sys_unmount(fs->ukfs_mountpath, mntflag); 629 1.37 pooka if (rv == -1) { 630 1.37 pooka error = errno; 631 1.40 pooka rump_pub_vfs_root(fs->ukfs_mp, &fs->ukfs_rvp, 0); 632 1.41 pooka rump_pub_lwp_release(rump_pub_lwp_curlwp()); 633 1.30 pooka ukfs_chdir(fs, fs->ukfs_mountpath); 634 1.37 pooka errno = error; 635 1.30 pooka return -1; 636 1.30 pooka } 637 1.41 pooka rump_pub_lwp_release(rump_pub_lwp_curlwp()); 638 1.1 pooka } 639 1.1 pooka 640 1.33 pooka if (fs->ukfs_devpath) { 641 1.40 pooka rump_pub_etfs_remove(fs->ukfs_devpath); 642 1.33 pooka free(fs->ukfs_devpath); 643 1.33 pooka } 644 1.30 pooka free(fs->ukfs_mountpath); 645 1.1 pooka 646 1.1 pooka pthread_spin_destroy(&fs->ukfs_spin); 647 1.16 stacktic if (fs->ukfs_devfd != -1) { 648 1.45 pooka unlockdev(fs->ukfs_devfd, fs->ukfs_part); 649 1.16 stacktic close(fs->ukfs_devfd); 650 1.16 stacktic } 651 1.47 pooka ukfs_part_release(fs->ukfs_part); 652 1.1 pooka free(fs); 653 1.30 pooka 654 1.30 pooka return 0; 655 1.1 pooka } 656 1.1 pooka 657 1.43 pooka void 658 1.43 pooka ukfs_part_release(struct ukfs_part *part) 659 1.43 pooka { 660 1.47 pooka int release; 661 1.43 pooka 662 1.47 pooka if (part != ukfs_part_none && part != ukfs_part_na) { 663 1.47 pooka pthread_spin_lock(&part->part_lck); 664 1.47 pooka release = --part->part_refcount == 0; 665 1.47 pooka pthread_spin_unlock(&part->part_lck); 666 1.47 pooka if (release) { 667 1.47 pooka pthread_spin_destroy(&part->part_lck); 668 1.47 pooka free(part); 669 1.47 pooka } 670 1.47 pooka } 671 1.43 pooka } 672 1.43 pooka 673 1.1 pooka #define STDCALL(ukfs, thecall) \ 674 1.1 pooka int rv = 0; \ 675 1.1 pooka \ 676 1.1 pooka precall(ukfs); \ 677 1.21 pooka rv = thecall; \ 678 1.1 pooka postcall(ukfs); \ 679 1.21 pooka return rv; 680 1.1 pooka 681 1.1 pooka int 682 1.24 pooka ukfs_opendir(struct ukfs *ukfs, const char *dirname, struct ukfs_dircookie **c) 683 1.1 pooka { 684 1.1 pooka struct vnode *vp; 685 1.24 pooka int rv; 686 1.1 pooka 687 1.1 pooka precall(ukfs); 688 1.40 pooka rv = rump_pub_namei(RUMP_NAMEI_LOOKUP, RUMP_NAMEI_LOCKLEAF, dirname, 689 1.1 pooka NULL, &vp, NULL); 690 1.1 pooka postcall(ukfs); 691 1.24 pooka 692 1.24 pooka if (rv == 0) { 693 1.24 pooka RUMP_VOP_UNLOCK(vp, 0); 694 1.24 pooka } else { 695 1.24 pooka errno = rv; 696 1.24 pooka rv = -1; 697 1.24 pooka } 698 1.24 pooka 699 1.24 pooka /*LINTED*/ 700 1.24 pooka *c = (struct ukfs_dircookie *)vp; 701 1.24 pooka return rv; 702 1.24 pooka } 703 1.24 pooka 704 1.24 pooka static int 705 1.24 pooka getmydents(struct vnode *vp, off_t *off, uint8_t *buf, size_t bufsize) 706 1.24 pooka { 707 1.24 pooka struct uio *uio; 708 1.24 pooka size_t resid; 709 1.24 pooka int rv, eofflag; 710 1.24 pooka kauth_cred_t cred; 711 1.24 pooka 712 1.40 pooka uio = rump_pub_uio_setup(buf, bufsize, *off, RUMPUIO_READ); 713 1.40 pooka cred = rump_pub_cred_suserget(); 714 1.9 pooka rv = RUMP_VOP_READDIR(vp, uio, cred, &eofflag, NULL, NULL); 715 1.40 pooka rump_pub_cred_put(cred); 716 1.17 pooka RUMP_VOP_UNLOCK(vp, 0); 717 1.40 pooka *off = rump_pub_uio_getoff(uio); 718 1.40 pooka resid = rump_pub_uio_free(uio); 719 1.1 pooka 720 1.1 pooka if (rv) { 721 1.1 pooka errno = rv; 722 1.1 pooka return -1; 723 1.1 pooka } 724 1.1 pooka 725 1.1 pooka /* LINTED: not totally correct return type, but follows syscall */ 726 1.1 pooka return bufsize - resid; 727 1.1 pooka } 728 1.1 pooka 729 1.24 pooka /*ARGSUSED*/ 730 1.24 pooka int 731 1.24 pooka ukfs_getdents_cookie(struct ukfs *ukfs, struct ukfs_dircookie *c, off_t *off, 732 1.24 pooka uint8_t *buf, size_t bufsize) 733 1.24 pooka { 734 1.24 pooka /*LINTED*/ 735 1.24 pooka struct vnode *vp = (struct vnode *)c; 736 1.24 pooka 737 1.24 pooka RUMP_VOP_LOCK(vp, RUMP_LK_SHARED); 738 1.24 pooka return getmydents(vp, off, buf, bufsize); 739 1.24 pooka } 740 1.24 pooka 741 1.24 pooka int 742 1.24 pooka ukfs_getdents(struct ukfs *ukfs, const char *dirname, off_t *off, 743 1.24 pooka uint8_t *buf, size_t bufsize) 744 1.24 pooka { 745 1.24 pooka struct vnode *vp; 746 1.24 pooka int rv; 747 1.24 pooka 748 1.24 pooka precall(ukfs); 749 1.40 pooka rv = rump_pub_namei(RUMP_NAMEI_LOOKUP, RUMP_NAMEI_LOCKLEAF, dirname, 750 1.24 pooka NULL, &vp, NULL); 751 1.24 pooka postcall(ukfs); 752 1.24 pooka if (rv) { 753 1.24 pooka errno = rv; 754 1.24 pooka return -1; 755 1.24 pooka } 756 1.24 pooka 757 1.24 pooka rv = getmydents(vp, off, buf, bufsize); 758 1.40 pooka rump_pub_vp_rele(vp); 759 1.24 pooka return rv; 760 1.24 pooka } 761 1.24 pooka 762 1.24 pooka /*ARGSUSED*/ 763 1.24 pooka int 764 1.24 pooka ukfs_closedir(struct ukfs *ukfs, struct ukfs_dircookie *c) 765 1.24 pooka { 766 1.24 pooka 767 1.24 pooka /*LINTED*/ 768 1.40 pooka rump_pub_vp_rele((struct vnode *)c); 769 1.24 pooka return 0; 770 1.24 pooka } 771 1.24 pooka 772 1.24 pooka int 773 1.24 pooka ukfs_open(struct ukfs *ukfs, const char *filename, int flags) 774 1.24 pooka { 775 1.24 pooka int fd; 776 1.24 pooka 777 1.24 pooka precall(ukfs); 778 1.24 pooka fd = rump_sys_open(filename, flags, 0); 779 1.24 pooka postcall(ukfs); 780 1.24 pooka if (fd == -1) 781 1.24 pooka return -1; 782 1.24 pooka 783 1.24 pooka return fd; 784 1.24 pooka } 785 1.24 pooka 786 1.1 pooka ssize_t 787 1.1 pooka ukfs_read(struct ukfs *ukfs, const char *filename, off_t off, 788 1.1 pooka uint8_t *buf, size_t bufsize) 789 1.1 pooka { 790 1.21 pooka int fd; 791 1.1 pooka ssize_t xfer = -1; /* XXXgcc */ 792 1.1 pooka 793 1.1 pooka precall(ukfs); 794 1.21 pooka fd = rump_sys_open(filename, RUMP_O_RDONLY, 0); 795 1.21 pooka if (fd == -1) 796 1.1 pooka goto out; 797 1.1 pooka 798 1.27 pooka xfer = rump_sys_pread(fd, buf, bufsize, off); 799 1.21 pooka rump_sys_close(fd); 800 1.1 pooka 801 1.1 pooka out: 802 1.1 pooka postcall(ukfs); 803 1.21 pooka if (fd == -1) { 804 1.1 pooka return -1; 805 1.1 pooka } 806 1.1 pooka return xfer; 807 1.1 pooka } 808 1.1 pooka 809 1.24 pooka /*ARGSUSED*/ 810 1.24 pooka ssize_t 811 1.24 pooka ukfs_read_fd(struct ukfs *ukfs, int fd, off_t off, uint8_t *buf, size_t buflen) 812 1.24 pooka { 813 1.24 pooka 814 1.27 pooka return rump_sys_pread(fd, buf, buflen, off); 815 1.24 pooka } 816 1.24 pooka 817 1.1 pooka ssize_t 818 1.1 pooka ukfs_write(struct ukfs *ukfs, const char *filename, off_t off, 819 1.1 pooka uint8_t *buf, size_t bufsize) 820 1.1 pooka { 821 1.21 pooka int fd; 822 1.1 pooka ssize_t xfer = -1; /* XXXgcc */ 823 1.1 pooka 824 1.1 pooka precall(ukfs); 825 1.21 pooka fd = rump_sys_open(filename, RUMP_O_WRONLY, 0); 826 1.21 pooka if (fd == -1) 827 1.1 pooka goto out; 828 1.1 pooka 829 1.1 pooka /* write and commit */ 830 1.27 pooka xfer = rump_sys_pwrite(fd, buf, bufsize, off); 831 1.21 pooka if (xfer > 0) 832 1.21 pooka rump_sys_fsync(fd); 833 1.1 pooka 834 1.21 pooka rump_sys_close(fd); 835 1.1 pooka 836 1.1 pooka out: 837 1.1 pooka postcall(ukfs); 838 1.21 pooka if (fd == -1) { 839 1.1 pooka return -1; 840 1.1 pooka } 841 1.1 pooka return xfer; 842 1.1 pooka } 843 1.1 pooka 844 1.24 pooka /*ARGSUSED*/ 845 1.24 pooka ssize_t 846 1.24 pooka ukfs_write_fd(struct ukfs *ukfs, int fd, off_t off, uint8_t *buf, size_t buflen, 847 1.24 pooka int dosync) 848 1.24 pooka { 849 1.24 pooka ssize_t xfer; 850 1.24 pooka 851 1.27 pooka xfer = rump_sys_pwrite(fd, buf, buflen, off); 852 1.24 pooka if (xfer > 0 && dosync) 853 1.24 pooka rump_sys_fsync(fd); 854 1.24 pooka 855 1.24 pooka return xfer; 856 1.24 pooka } 857 1.24 pooka 858 1.24 pooka /*ARGSUSED*/ 859 1.24 pooka int 860 1.24 pooka ukfs_close(struct ukfs *ukfs, int fd) 861 1.24 pooka { 862 1.24 pooka 863 1.24 pooka rump_sys_close(fd); 864 1.24 pooka return 0; 865 1.24 pooka } 866 1.24 pooka 867 1.1 pooka int 868 1.1 pooka ukfs_create(struct ukfs *ukfs, const char *filename, mode_t mode) 869 1.1 pooka { 870 1.21 pooka int fd; 871 1.1 pooka 872 1.1 pooka precall(ukfs); 873 1.21 pooka fd = rump_sys_open(filename, RUMP_O_WRONLY | RUMP_O_CREAT, mode); 874 1.21 pooka if (fd == -1) 875 1.21 pooka return -1; 876 1.21 pooka rump_sys_close(fd); 877 1.1 pooka 878 1.1 pooka postcall(ukfs); 879 1.1 pooka return 0; 880 1.1 pooka } 881 1.1 pooka 882 1.1 pooka int 883 1.1 pooka ukfs_mknod(struct ukfs *ukfs, const char *path, mode_t mode, dev_t dev) 884 1.1 pooka { 885 1.1 pooka 886 1.21 pooka STDCALL(ukfs, rump_sys_mknod(path, mode, dev)); 887 1.1 pooka } 888 1.1 pooka 889 1.1 pooka int 890 1.1 pooka ukfs_mkfifo(struct ukfs *ukfs, const char *path, mode_t mode) 891 1.1 pooka { 892 1.1 pooka 893 1.21 pooka STDCALL(ukfs, rump_sys_mkfifo(path, mode)); 894 1.1 pooka } 895 1.1 pooka 896 1.1 pooka int 897 1.1 pooka ukfs_mkdir(struct ukfs *ukfs, const char *filename, mode_t mode) 898 1.1 pooka { 899 1.1 pooka 900 1.21 pooka STDCALL(ukfs, rump_sys_mkdir(filename, mode)); 901 1.1 pooka } 902 1.1 pooka 903 1.1 pooka int 904 1.1 pooka ukfs_remove(struct ukfs *ukfs, const char *filename) 905 1.1 pooka { 906 1.1 pooka 907 1.21 pooka STDCALL(ukfs, rump_sys_unlink(filename)); 908 1.1 pooka } 909 1.1 pooka 910 1.1 pooka int 911 1.1 pooka ukfs_rmdir(struct ukfs *ukfs, const char *filename) 912 1.1 pooka { 913 1.1 pooka 914 1.21 pooka STDCALL(ukfs, rump_sys_rmdir(filename)); 915 1.1 pooka } 916 1.1 pooka 917 1.1 pooka int 918 1.1 pooka ukfs_link(struct ukfs *ukfs, const char *filename, const char *f_create) 919 1.1 pooka { 920 1.1 pooka 921 1.21 pooka STDCALL(ukfs, rump_sys_link(filename, f_create)); 922 1.1 pooka } 923 1.1 pooka 924 1.1 pooka int 925 1.1 pooka ukfs_symlink(struct ukfs *ukfs, const char *filename, const char *linkname) 926 1.1 pooka { 927 1.1 pooka 928 1.21 pooka STDCALL(ukfs, rump_sys_symlink(filename, linkname)); 929 1.1 pooka } 930 1.1 pooka 931 1.1 pooka ssize_t 932 1.1 pooka ukfs_readlink(struct ukfs *ukfs, const char *filename, 933 1.1 pooka char *linkbuf, size_t buflen) 934 1.1 pooka { 935 1.1 pooka ssize_t rv; 936 1.1 pooka 937 1.1 pooka precall(ukfs); 938 1.21 pooka rv = rump_sys_readlink(filename, linkbuf, buflen); 939 1.1 pooka postcall(ukfs); 940 1.1 pooka return rv; 941 1.1 pooka } 942 1.1 pooka 943 1.1 pooka int 944 1.1 pooka ukfs_rename(struct ukfs *ukfs, const char *from, const char *to) 945 1.1 pooka { 946 1.1 pooka 947 1.21 pooka STDCALL(ukfs, rump_sys_rename(from, to)); 948 1.1 pooka } 949 1.1 pooka 950 1.1 pooka int 951 1.1 pooka ukfs_chdir(struct ukfs *ukfs, const char *path) 952 1.1 pooka { 953 1.1 pooka struct vnode *newvp, *oldvp; 954 1.1 pooka int rv; 955 1.1 pooka 956 1.1 pooka precall(ukfs); 957 1.21 pooka rv = rump_sys_chdir(path); 958 1.21 pooka if (rv == -1) 959 1.1 pooka goto out; 960 1.1 pooka 961 1.40 pooka newvp = rump_pub_cdir_get(); 962 1.1 pooka pthread_spin_lock(&ukfs->ukfs_spin); 963 1.1 pooka oldvp = ukfs->ukfs_cdir; 964 1.1 pooka ukfs->ukfs_cdir = newvp; 965 1.1 pooka pthread_spin_unlock(&ukfs->ukfs_spin); 966 1.1 pooka if (oldvp) 967 1.40 pooka rump_pub_vp_rele(oldvp); 968 1.1 pooka 969 1.1 pooka out: 970 1.1 pooka postcall(ukfs); 971 1.21 pooka return rv; 972 1.1 pooka } 973 1.1 pooka 974 1.28 pooka /* 975 1.28 pooka * If we want to use post-time_t file systems on pre-time_t hosts, 976 1.28 pooka * we must translate the stat structure. Since we don't currently 977 1.28 pooka * have a general method for making compat calls in rump, special-case 978 1.28 pooka * this one. 979 1.28 pooka * 980 1.28 pooka * Note that this does not allow making system calls to older rump 981 1.28 pooka * kernels from newer hosts. 982 1.28 pooka */ 983 1.28 pooka #define VERS_TIMECHANGE 599000700 984 1.28 pooka 985 1.28 pooka static int 986 1.28 pooka needcompat(void) 987 1.28 pooka { 988 1.28 pooka 989 1.28 pooka #ifdef __NetBSD__ 990 1.30 pooka /*LINTED*/ 991 1.28 pooka return __NetBSD_Version__ < VERS_TIMECHANGE 992 1.40 pooka && rump_pub_getversion() >= VERS_TIMECHANGE; 993 1.28 pooka #else 994 1.28 pooka return 0; 995 1.28 pooka #endif 996 1.28 pooka } 997 1.28 pooka 998 1.1 pooka int 999 1.1 pooka ukfs_stat(struct ukfs *ukfs, const char *filename, struct stat *file_stat) 1000 1.1 pooka { 1001 1.28 pooka int rv; 1002 1.1 pooka 1003 1.28 pooka precall(ukfs); 1004 1.28 pooka if (needcompat()) 1005 1.40 pooka rv = rump_pub_sys___stat30(filename, file_stat); 1006 1.28 pooka else 1007 1.28 pooka rv = rump_sys_stat(filename, file_stat); 1008 1.28 pooka postcall(ukfs); 1009 1.28 pooka 1010 1.28 pooka return rv; 1011 1.1 pooka } 1012 1.1 pooka 1013 1.1 pooka int 1014 1.1 pooka ukfs_lstat(struct ukfs *ukfs, const char *filename, struct stat *file_stat) 1015 1.1 pooka { 1016 1.28 pooka int rv; 1017 1.1 pooka 1018 1.28 pooka precall(ukfs); 1019 1.28 pooka if (needcompat()) 1020 1.40 pooka rv = rump_pub_sys___lstat30(filename, file_stat); 1021 1.28 pooka else 1022 1.28 pooka rv = rump_sys_lstat(filename, file_stat); 1023 1.28 pooka postcall(ukfs); 1024 1.28 pooka 1025 1.28 pooka return rv; 1026 1.1 pooka } 1027 1.1 pooka 1028 1.1 pooka int 1029 1.1 pooka ukfs_chmod(struct ukfs *ukfs, const char *filename, mode_t mode) 1030 1.1 pooka { 1031 1.1 pooka 1032 1.21 pooka STDCALL(ukfs, rump_sys_chmod(filename, mode)); 1033 1.1 pooka } 1034 1.1 pooka 1035 1.1 pooka int 1036 1.1 pooka ukfs_lchmod(struct ukfs *ukfs, const char *filename, mode_t mode) 1037 1.1 pooka { 1038 1.1 pooka 1039 1.21 pooka STDCALL(ukfs, rump_sys_lchmod(filename, mode)); 1040 1.1 pooka } 1041 1.1 pooka 1042 1.1 pooka int 1043 1.1 pooka ukfs_chown(struct ukfs *ukfs, const char *filename, uid_t uid, gid_t gid) 1044 1.1 pooka { 1045 1.1 pooka 1046 1.21 pooka STDCALL(ukfs, rump_sys_chown(filename, uid, gid)); 1047 1.1 pooka } 1048 1.1 pooka 1049 1.1 pooka int 1050 1.1 pooka ukfs_lchown(struct ukfs *ukfs, const char *filename, uid_t uid, gid_t gid) 1051 1.1 pooka { 1052 1.1 pooka 1053 1.21 pooka STDCALL(ukfs, rump_sys_lchown(filename, uid, gid)); 1054 1.1 pooka } 1055 1.1 pooka 1056 1.1 pooka int 1057 1.1 pooka ukfs_chflags(struct ukfs *ukfs, const char *filename, u_long flags) 1058 1.1 pooka { 1059 1.1 pooka 1060 1.21 pooka STDCALL(ukfs, rump_sys_chflags(filename, flags)); 1061 1.1 pooka } 1062 1.1 pooka 1063 1.1 pooka int 1064 1.1 pooka ukfs_lchflags(struct ukfs *ukfs, const char *filename, u_long flags) 1065 1.1 pooka { 1066 1.1 pooka 1067 1.21 pooka STDCALL(ukfs, rump_sys_lchflags(filename, flags)); 1068 1.1 pooka } 1069 1.1 pooka 1070 1.1 pooka int 1071 1.1 pooka ukfs_utimes(struct ukfs *ukfs, const char *filename, const struct timeval *tptr) 1072 1.1 pooka { 1073 1.1 pooka 1074 1.21 pooka STDCALL(ukfs, rump_sys_utimes(filename, tptr)); 1075 1.1 pooka } 1076 1.1 pooka 1077 1.1 pooka int 1078 1.1 pooka ukfs_lutimes(struct ukfs *ukfs, const char *filename, 1079 1.1 pooka const struct timeval *tptr) 1080 1.1 pooka { 1081 1.1 pooka 1082 1.21 pooka STDCALL(ukfs, rump_sys_lutimes(filename, tptr)); 1083 1.1 pooka } 1084 1.1 pooka 1085 1.3 pooka /* 1086 1.3 pooka * Dynamic module support 1087 1.3 pooka */ 1088 1.3 pooka 1089 1.3 pooka /* load one library */ 1090 1.3 pooka 1091 1.3 pooka /* 1092 1.3 pooka * XXX: the dlerror stuff isn't really threadsafe, but then again I 1093 1.3 pooka * can't protect against other threads calling dl*() outside of ukfs, 1094 1.3 pooka * so just live with it being flimsy 1095 1.3 pooka */ 1096 1.3 pooka int 1097 1.3 pooka ukfs_modload(const char *fname) 1098 1.3 pooka { 1099 1.26 pooka void *handle; 1100 1.48 pooka const struct modinfo *const *mi_start, *const *mi_end; 1101 1.3 pooka int error; 1102 1.3 pooka 1103 1.42 njoly handle = dlopen(fname, RTLD_LAZY|RTLD_GLOBAL); 1104 1.3 pooka if (handle == NULL) { 1105 1.13 pooka const char *dlmsg = dlerror(); 1106 1.13 pooka if (strstr(dlmsg, "Undefined symbol")) 1107 1.3 pooka return 0; 1108 1.13 pooka warnx("dlopen %s failed: %s\n", fname, dlmsg); 1109 1.3 pooka /* XXXerrno */ 1110 1.3 pooka return -1; 1111 1.3 pooka } 1112 1.3 pooka 1113 1.48 pooka mi_start = dlsym(handle, "__start_link_set_modules"); 1114 1.48 pooka mi_end = dlsym(handle, "__stop_link_set_modules"); 1115 1.48 pooka if (mi_start && mi_end) { 1116 1.48 pooka error = rump_pub_module_init(mi_start, 1117 1.48 pooka (size_t)(mi_end-mi_start)); 1118 1.3 pooka if (error) 1119 1.3 pooka goto errclose; 1120 1.3 pooka return 1; 1121 1.3 pooka } 1122 1.3 pooka error = EINVAL; 1123 1.3 pooka 1124 1.3 pooka errclose: 1125 1.3 pooka dlclose(handle); 1126 1.3 pooka errno = error; 1127 1.3 pooka return -1; 1128 1.3 pooka } 1129 1.3 pooka 1130 1.3 pooka struct loadfail { 1131 1.3 pooka char *pname; 1132 1.3 pooka 1133 1.3 pooka LIST_ENTRY(loadfail) entries; 1134 1.3 pooka }; 1135 1.3 pooka 1136 1.3 pooka #define RUMPFSMOD_PREFIX "librumpfs_" 1137 1.3 pooka #define RUMPFSMOD_SUFFIX ".so" 1138 1.3 pooka 1139 1.3 pooka int 1140 1.3 pooka ukfs_modload_dir(const char *dir) 1141 1.3 pooka { 1142 1.3 pooka char nbuf[MAXPATHLEN+1], *p; 1143 1.3 pooka struct dirent entry, *result; 1144 1.3 pooka DIR *libdir; 1145 1.3 pooka struct loadfail *lf, *nlf; 1146 1.3 pooka int error, nloaded = 0, redo; 1147 1.3 pooka LIST_HEAD(, loadfail) lfs; 1148 1.3 pooka 1149 1.3 pooka libdir = opendir(dir); 1150 1.3 pooka if (libdir == NULL) 1151 1.3 pooka return -1; 1152 1.3 pooka 1153 1.3 pooka LIST_INIT(&lfs); 1154 1.3 pooka for (;;) { 1155 1.3 pooka if ((error = readdir_r(libdir, &entry, &result)) != 0) 1156 1.3 pooka break; 1157 1.3 pooka if (!result) 1158 1.3 pooka break; 1159 1.3 pooka if (strncmp(result->d_name, RUMPFSMOD_PREFIX, 1160 1.3 pooka strlen(RUMPFSMOD_PREFIX)) != 0) 1161 1.3 pooka continue; 1162 1.3 pooka if (((p = strstr(result->d_name, RUMPFSMOD_SUFFIX)) == NULL) 1163 1.3 pooka || strlen(p) != strlen(RUMPFSMOD_SUFFIX)) 1164 1.3 pooka continue; 1165 1.3 pooka strlcpy(nbuf, dir, sizeof(nbuf)); 1166 1.3 pooka strlcat(nbuf, "/", sizeof(nbuf)); 1167 1.3 pooka strlcat(nbuf, result->d_name, sizeof(nbuf)); 1168 1.3 pooka switch (ukfs_modload(nbuf)) { 1169 1.3 pooka case 0: 1170 1.3 pooka lf = malloc(sizeof(*lf)); 1171 1.3 pooka if (lf == NULL) { 1172 1.3 pooka error = ENOMEM; 1173 1.3 pooka break; 1174 1.3 pooka } 1175 1.3 pooka lf->pname = strdup(nbuf); 1176 1.3 pooka if (lf->pname == NULL) { 1177 1.3 pooka free(lf); 1178 1.3 pooka error = ENOMEM; 1179 1.3 pooka break; 1180 1.3 pooka } 1181 1.3 pooka LIST_INSERT_HEAD(&lfs, lf, entries); 1182 1.3 pooka break; 1183 1.3 pooka case 1: 1184 1.3 pooka nloaded++; 1185 1.3 pooka break; 1186 1.3 pooka default: 1187 1.3 pooka /* ignore errors */ 1188 1.3 pooka break; 1189 1.3 pooka } 1190 1.3 pooka } 1191 1.3 pooka closedir(libdir); 1192 1.3 pooka if (error && nloaded != 0) 1193 1.3 pooka error = 0; 1194 1.3 pooka 1195 1.3 pooka /* 1196 1.3 pooka * El-cheapo dependency calculator. Just try to load the 1197 1.3 pooka * modules n times in a loop 1198 1.3 pooka */ 1199 1.3 pooka for (redo = 1; redo;) { 1200 1.3 pooka redo = 0; 1201 1.3 pooka nlf = LIST_FIRST(&lfs); 1202 1.3 pooka while ((lf = nlf) != NULL) { 1203 1.3 pooka nlf = LIST_NEXT(lf, entries); 1204 1.3 pooka if (ukfs_modload(lf->pname) == 1) { 1205 1.3 pooka nloaded++; 1206 1.3 pooka redo = 1; 1207 1.3 pooka LIST_REMOVE(lf, entries); 1208 1.3 pooka free(lf->pname); 1209 1.3 pooka free(lf); 1210 1.3 pooka } 1211 1.3 pooka } 1212 1.3 pooka } 1213 1.3 pooka 1214 1.3 pooka while ((lf = LIST_FIRST(&lfs)) != NULL) { 1215 1.3 pooka LIST_REMOVE(lf, entries); 1216 1.3 pooka free(lf->pname); 1217 1.3 pooka free(lf); 1218 1.3 pooka } 1219 1.3 pooka 1220 1.3 pooka if (error && nloaded == 0) { 1221 1.3 pooka errno = error; 1222 1.3 pooka return -1; 1223 1.3 pooka } 1224 1.3 pooka 1225 1.3 pooka return nloaded; 1226 1.3 pooka } 1227 1.3 pooka 1228 1.4 pooka /* XXX: this code uses definitions from NetBSD, needs rumpdefs */ 1229 1.4 pooka ssize_t 1230 1.4 pooka ukfs_vfstypes(char *buf, size_t buflen) 1231 1.4 pooka { 1232 1.4 pooka int mib[3]; 1233 1.4 pooka struct sysctlnode q, ans[128]; 1234 1.4 pooka size_t alen; 1235 1.21 pooka int i; 1236 1.4 pooka 1237 1.4 pooka mib[0] = CTL_VFS; 1238 1.4 pooka mib[1] = VFS_GENERIC; 1239 1.4 pooka mib[2] = CTL_QUERY; 1240 1.4 pooka alen = sizeof(ans); 1241 1.4 pooka 1242 1.4 pooka memset(&q, 0, sizeof(q)); 1243 1.4 pooka q.sysctl_flags = SYSCTL_VERSION; 1244 1.4 pooka 1245 1.21 pooka if (rump_sys___sysctl(mib, 3, ans, &alen, &q, sizeof(q)) == -1) { 1246 1.4 pooka return -1; 1247 1.4 pooka } 1248 1.4 pooka 1249 1.4 pooka for (i = 0; i < alen/sizeof(ans[0]); i++) 1250 1.4 pooka if (strcmp("fstypes", ans[i].sysctl_name) == 0) 1251 1.4 pooka break; 1252 1.4 pooka if (i == alen/sizeof(ans[0])) { 1253 1.4 pooka errno = ENXIO; 1254 1.4 pooka return -1; 1255 1.4 pooka } 1256 1.4 pooka 1257 1.4 pooka mib[0] = CTL_VFS; 1258 1.4 pooka mib[1] = VFS_GENERIC; 1259 1.4 pooka mib[2] = ans[i].sysctl_num; 1260 1.4 pooka 1261 1.21 pooka if (rump_sys___sysctl(mib, 3, buf, &buflen, NULL, 0) == -1) { 1262 1.4 pooka return -1; 1263 1.4 pooka } 1264 1.4 pooka 1265 1.4 pooka return buflen; 1266 1.4 pooka } 1267 1.3 pooka 1268 1.3 pooka /* 1269 1.3 pooka * Utilities 1270 1.3 pooka */ 1271 1.30 pooka static int 1272 1.30 pooka builddirs(const char *pathname, mode_t mode, 1273 1.30 pooka int (*mkdirfn)(struct ukfs *, const char *, mode_t), struct ukfs *fs) 1274 1.1 pooka { 1275 1.1 pooka char *f1, *f2; 1276 1.1 pooka int rv; 1277 1.1 pooka mode_t mask; 1278 1.1 pooka bool end; 1279 1.1 pooka 1280 1.1 pooka /*ukfs_umask((mask = ukfs_umask(0)));*/ 1281 1.1 pooka umask((mask = umask(0))); 1282 1.1 pooka 1283 1.1 pooka f1 = f2 = strdup(pathname); 1284 1.1 pooka if (f1 == NULL) { 1285 1.1 pooka errno = ENOMEM; 1286 1.1 pooka return -1; 1287 1.1 pooka } 1288 1.1 pooka 1289 1.1 pooka end = false; 1290 1.1 pooka for (;;) { 1291 1.1 pooka /* find next component */ 1292 1.1 pooka f2 += strspn(f2, "/"); 1293 1.1 pooka f2 += strcspn(f2, "/"); 1294 1.1 pooka if (*f2 == '\0') 1295 1.1 pooka end = true; 1296 1.1 pooka else 1297 1.1 pooka *f2 = '\0'; 1298 1.1 pooka 1299 1.30 pooka rv = mkdirfn(fs, f1, mode & ~mask); 1300 1.1 pooka if (errno == EEXIST) 1301 1.1 pooka rv = 0; 1302 1.1 pooka 1303 1.1 pooka if (rv == -1 || *f2 != '\0' || end) 1304 1.1 pooka break; 1305 1.1 pooka 1306 1.1 pooka *f2 = '/'; 1307 1.1 pooka } 1308 1.1 pooka 1309 1.1 pooka free(f1); 1310 1.1 pooka 1311 1.1 pooka return rv; 1312 1.1 pooka } 1313 1.30 pooka 1314 1.30 pooka int 1315 1.30 pooka ukfs_util_builddirs(struct ukfs *ukfs, const char *pathname, mode_t mode) 1316 1.30 pooka { 1317 1.30 pooka 1318 1.30 pooka return builddirs(pathname, mode, ukfs_mkdir, ukfs); 1319 1.30 pooka } 1320
Indexes created Tue Sep 23 02:09:52 GMT 2025