1 /* 2 * Copyright (c) 2011-2015 The DragonFly Project. All rights reserved. 3 * 4 * This code is derived from software contributed to The DragonFly Project 5 * by Matthew Dillon <dillon@dragonflybsd.org> 6 * 7 * Redistribution and use in source and binary forms, with or without 8 * modification, are permitted provided that the following conditions 9 * are met: 10 * 11 * 1. Redistributions of source code must retain the above copyright 12 * notice, this list of conditions and the following disclaimer. 13 * 2. Redistributions in binary form must reproduce the above copyright 14 * notice, this list of conditions and the following disclaimer in 15 * the documentation and/or other materials provided with the 16 * distribution. 17 * 3. Neither the name of The DragonFly Project nor the names of its 18 * contributors may be used to endorse or promote products derived 19 * from this software without specific, prior written permission. 20 * 21 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 22 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 23 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 24 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE 25 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 26 * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING, 27 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 28 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 29 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 30 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT 31 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 32 * SUCH DAMAGE. 33 */ 34 35 #include <sys/types.h> 36 #include <sys/diskslice.h> 37 #include <sys/diskmbr.h> 38 #include <sys/stat.h> 39 #include <sys/time.h> 40 #include <sys/sysctl.h> 41 #include <sys/ioctl.h> 42 #include <vfs/hammer2/hammer2_xxhash.h> 43 #include <vfs/hammer2/hammer2_disk.h> 44 45 #include <stdio.h> 46 #include <stdlib.h> 47 #include <stdarg.h> 48 #include <stddef.h> 49 #include <unistd.h> 50 #include <string.h> 51 #include <errno.h> 52 #include <fcntl.h> 53 #include <assert.h> 54 #include <err.h> 55 #include <uuid.h> 56 57 #include "hammer2_subs.h" 58 59 #define MAXLABELS HAMMER2_SET_COUNT 60 61 static hammer2_off_t check_volume(const char *path, int *fdp); 62 static int64_t getsize(const char *str, int64_t minval, int64_t maxval, int pw); 63 static uint64_t nowtime(void); 64 static int blkrefary_cmp(const void *b1, const void *b2); 65 static void usage(void); 66 67 static void format_hammer2(int fd, hammer2_off_t total_space, 68 hammer2_off_t free_space); 69 static void alloc_direct(hammer2_off_t *basep, hammer2_blockref_t *bref, 70 size_t bytes); 71 72 static int Hammer2Version = -1; 73 static int ForceOpt; 74 static uuid_t Hammer2_FSType; /* static filesystem type id for HAMMER2 */ 75 static uuid_t Hammer2_VolFSID; /* unique filesystem id in volu header */ 76 static uuid_t Hammer2_SupCLID; /* PFS cluster id in super-root inode */ 77 static uuid_t Hammer2_SupFSID; /* PFS unique id in super-root inode */ 78 static uuid_t Hammer2_PfsCLID[MAXLABELS]; 79 static uuid_t Hammer2_PfsFSID[MAXLABELS]; 80 static const char *Label[MAXLABELS]; 81 static hammer2_off_t BootAreaSize; 82 static hammer2_off_t AuxAreaSize; 83 static int NLabels; 84 85 int 86 main(int ac, char **av) 87 { 88 uint32_t status; 89 hammer2_off_t total_space; 90 hammer2_off_t free_space; 91 hammer2_off_t reserved_space; 92 int ch; 93 int fd = -1; 94 int i; 95 int defaultlabels = 1; 96 char *vol_fsid = NULL; 97 char *sup_clid_name = NULL; 98 char *sup_fsid_name = NULL; 99 char *pfs_clid_name = NULL; 100 char *pfs_fsid_name = NULL; 101 102 Label[NLabels++] = "LOCAL"; 103 104 /* 105 * Sanity check basic filesystem structures. No cookies for us 106 * if it gets broken! 107 */ 108 assert(sizeof(hammer2_volume_data_t) == HAMMER2_VOLUME_BYTES); 109 assert(sizeof(hammer2_inode_data_t) == HAMMER2_INODE_BYTES); 110 assert(sizeof(hammer2_blockref_t) == HAMMER2_BLOCKREF_BYTES); 111 112 /* 113 * Generate a filesystem id and lookup the filesystem type 114 */ 115 srandomdev(); 116 uuidgen(&Hammer2_VolFSID, 1); 117 uuidgen(&Hammer2_SupCLID, 1); 118 uuidgen(&Hammer2_SupFSID, 1); 119 uuid_from_string(HAMMER2_UUID_STRING, &Hammer2_FSType, &status); 120 /*uuid_name_lookup(&Hammer2_FSType, "DragonFly HAMMER2", &status);*/ 121 if (status != uuid_s_ok) { 122 errx(1, "uuids file does not have the DragonFly " 123 "HAMMER2 filesystem type"); 124 } 125 126 /* 127 * Parse arguments 128 */ 129 while ((ch = getopt(ac, av, "fL:b:r:V:")) != -1) { 130 switch(ch) { 131 case 'f': 132 ForceOpt = 1; 133 break; 134 case 'L': 135 defaultlabels = 0; 136 if (strcasecmp(optarg, "none") == 0) { 137 break; 138 } 139 if (NLabels >= MAXLABELS) { 140 errx(1, "Limit of %d local labels", 141 MAXLABELS - 1); 142 } 143 Label[NLabels++] = optarg; 144 if (strlen(Label[NLabels-1]) > HAMMER2_INODE_MAXNAME) { 145 errx(1, "Volume label '%s' is too long " 146 "(64 chars max)\n", optarg); 147 } 148 break; 149 case 'b': 150 BootAreaSize = getsize(optarg, 151 HAMMER2_NEWFS_ALIGN, 152 HAMMER2_BOOT_MAX_BYTES, 2); 153 break; 154 case 'r': 155 AuxAreaSize = getsize(optarg, 156 HAMMER2_NEWFS_ALIGN, 157 HAMMER2_REDO_MAX_BYTES, 2); 158 break; 159 case 'V': 160 Hammer2Version = strtol(optarg, NULL, 0); 161 if (Hammer2Version < HAMMER2_VOL_VERSION_MIN || 162 Hammer2Version >= HAMMER2_VOL_VERSION_WIP) { 163 errx(1, 164 "I don't understand how to format " 165 "HAMMER2 version %d\n", 166 Hammer2Version); 167 } 168 break; 169 default: 170 usage(); 171 break; 172 } 173 } 174 175 /* 176 * Check Hammer2 version 177 */ 178 if (Hammer2Version < 0) { 179 size_t olen = sizeof(Hammer2Version); 180 Hammer2Version = HAMMER2_VOL_VERSION_DEFAULT; 181 if (sysctlbyname("vfs.hammer2.supported_version", 182 &Hammer2Version, &olen, NULL, 0) == 0) { 183 if (Hammer2Version >= HAMMER2_VOL_VERSION_WIP) { 184 Hammer2Version = HAMMER2_VOL_VERSION_WIP - 1; 185 fprintf(stderr, 186 "newfs_hammer2: WARNING: HAMMER2 VFS " 187 "supports higher version than I " 188 "understand,\n" 189 "using version %d\n", 190 Hammer2Version); 191 } 192 } else { 193 fprintf(stderr, 194 "newfs_hammer2: WARNING: HAMMER2 VFS not " 195 "loaded, cannot get version info.\n" 196 "Using version %d\n", 197 HAMMER2_VOL_VERSION_DEFAULT); 198 } 199 } 200 201 ac -= optind; 202 av += optind; 203 204 if (ac != 1 || av[0][0] == 0) { 205 fprintf(stderr, "Exactly one disk device must be specified\n"); 206 exit(1); 207 } 208 209 /* 210 * Adjust Label[] and NLabels. 211 */ 212 if (defaultlabels) { 213 char c = av[0][strlen(av[0]) - 1]; 214 if (c == 'a') 215 Label[NLabels++] = "BOOT"; 216 else if (c == 'd') 217 Label[NLabels++] = "ROOT"; 218 else 219 Label[NLabels++] = "DATA"; 220 } 221 222 /* 223 * Collect volume information. 224 */ 225 total_space = check_volume(av[0], &fd); 226 227 /* 228 * ~typically 8MB alignment to avoid edge cases for reserved blocks 229 * and so raid stripes (if any) operate efficiently. 230 */ 231 total_space &= ~HAMMER2_VOLUME_ALIGNMASK64; 232 233 /* 234 * Calculate defaults for the boot area size and round to the 235 * volume alignment boundary. 236 * 237 * NOTE: These areas are currently not used for booting but are 238 * reserved for future filesystem expansion. 239 */ 240 if (BootAreaSize == 0) { 241 BootAreaSize = HAMMER2_BOOT_NOM_BYTES; 242 while (BootAreaSize > total_space / 20) 243 BootAreaSize >>= 1; 244 if (BootAreaSize < HAMMER2_BOOT_MIN_BYTES) 245 BootAreaSize = HAMMER2_BOOT_MIN_BYTES; 246 } else if (BootAreaSize < HAMMER2_BOOT_MIN_BYTES) { 247 BootAreaSize = HAMMER2_BOOT_MIN_BYTES; 248 } 249 BootAreaSize = (BootAreaSize + HAMMER2_VOLUME_ALIGNMASK64) & 250 ~HAMMER2_VOLUME_ALIGNMASK64; 251 252 /* 253 * Calculate defaults for the redo area size and round to the 254 * volume alignment boundary. 255 * 256 * NOTE: These areas are currently not used for logging but are 257 * reserved for future filesystem expansion. 258 */ 259 if (AuxAreaSize == 0) { 260 AuxAreaSize = HAMMER2_REDO_NOM_BYTES; 261 while (AuxAreaSize > total_space / 20) 262 AuxAreaSize >>= 1; 263 if (AuxAreaSize < HAMMER2_REDO_MIN_BYTES) 264 AuxAreaSize = HAMMER2_REDO_MIN_BYTES; 265 } else if (AuxAreaSize < HAMMER2_REDO_MIN_BYTES) { 266 AuxAreaSize = HAMMER2_REDO_MIN_BYTES; 267 } 268 AuxAreaSize = (AuxAreaSize + HAMMER2_VOLUME_ALIGNMASK64) & 269 ~HAMMER2_VOLUME_ALIGNMASK64; 270 271 /* 272 * We'll need to stuff this in the volume header soon. 273 */ 274 hammer2_uuid_to_str(&Hammer2_VolFSID, &vol_fsid); 275 hammer2_uuid_to_str(&Hammer2_SupCLID, &sup_clid_name); 276 hammer2_uuid_to_str(&Hammer2_SupFSID, &sup_fsid_name); 277 278 /* 279 * Calculate the amount of reserved space. HAMMER2_ZONE_SEG (4MB) 280 * is reserved at the beginning of every 2GB of storage, rounded up. 281 * Thus a 200MB filesystem will still have a 4MB reserve area. 282 * 283 * We also include the boot and redo areas in the reserve. The 284 * reserve is used to help 'df' calculate the amount of available 285 * space. 286 * 287 * XXX I kinda screwed up and made the reserved area on the LEVEL1 288 * boundary rather than the ZONE boundary. LEVEL1 is on 1GB 289 * boundaries rather than 2GB boundaries. Stick with the LEVEL1 290 * boundary. 291 */ 292 reserved_space = ((total_space + HAMMER2_FREEMAP_LEVEL1_MASK) / 293 HAMMER2_FREEMAP_LEVEL1_SIZE) * HAMMER2_ZONE_SEG64; 294 295 free_space = total_space - reserved_space - BootAreaSize - AuxAreaSize; 296 297 format_hammer2(fd, total_space, free_space); 298 fsync(fd); 299 close(fd); 300 301 printf("---------------------------------------------\n"); 302 printf("version: %d\n", Hammer2Version); 303 printf("total-size: %s (%jd bytes)\n", 304 sizetostr(total_space), 305 (intmax_t)total_space); 306 printf("boot-area-size: %s\n", sizetostr(BootAreaSize)); 307 printf("aux-area-size: %s\n", sizetostr(AuxAreaSize)); 308 printf("topo-reserved: %s\n", sizetostr(reserved_space)); 309 printf("free-space: %s\n", sizetostr(free_space)); 310 printf("vol-fsid: %s\n", vol_fsid); 311 printf("sup-clid: %s\n", sup_clid_name); 312 printf("sup-fsid: %s\n", sup_fsid_name); 313 for (i = 0; i < NLabels; ++i) { 314 printf("PFS \"%s\"\n", Label[i]); 315 hammer2_uuid_to_str(&Hammer2_PfsCLID[i], &pfs_clid_name); 316 hammer2_uuid_to_str(&Hammer2_PfsFSID[i], &pfs_fsid_name); 317 printf(" clid %s\n", pfs_clid_name); 318 printf(" fsid %s\n", pfs_fsid_name); 319 } 320 printf("\n"); 321 322 free(vol_fsid); 323 free(sup_clid_name); 324 free(sup_fsid_name); 325 free(pfs_clid_name); 326 free(pfs_fsid_name); 327 328 return(0); 329 } 330 331 static 332 void 333 usage(void) 334 { 335 fprintf(stderr, 336 "usage: newfs_hammer2 [-f] [-b bootsize] [-r redosize] " 337 "[-V version] [-L label ...] special\n" 338 ); 339 exit(1); 340 } 341 342 /* 343 * Convert a string to a 64 bit signed integer with various requirements. 344 */ 345 static int64_t 346 getsize(const char *str, int64_t minval, int64_t maxval, int powerof2) 347 { 348 int64_t val; 349 char *ptr; 350 351 val = strtoll(str, &ptr, 0); 352 switch(*ptr) { 353 case 't': 354 case 'T': 355 val *= 1024; 356 /* fall through */ 357 case 'g': 358 case 'G': 359 val *= 1024; 360 /* fall through */ 361 case 'm': 362 case 'M': 363 val *= 1024; 364 /* fall through */ 365 case 'k': 366 case 'K': 367 val *= 1024; 368 break; 369 default: 370 errx(1, "Unknown suffix in number '%s'\n", str); 371 /* not reached */ 372 } 373 if (ptr[1]) { 374 errx(1, "Unknown suffix in number '%s'\n", str); 375 /* not reached */ 376 } 377 if (val < minval) { 378 errx(1, "Value too small: %s, min is %s\n", 379 str, sizetostr(minval)); 380 /* not reached */ 381 } 382 if (val > maxval) { 383 errx(1, "Value too large: %s, max is %s\n", 384 str, sizetostr(maxval)); 385 /* not reached */ 386 } 387 if ((powerof2 & 1) && (val ^ (val - 1)) != ((val << 1) - 1)) { 388 errx(1, "Value not power of 2: %s\n", str); 389 /* not reached */ 390 } 391 if ((powerof2 & 2) && (val & HAMMER2_NEWFS_ALIGNMASK)) { 392 errx(1, "Value not an integral multiple of %dK: %s", 393 HAMMER2_NEWFS_ALIGN / 1024, str); 394 /* not reached */ 395 } 396 return(val); 397 } 398 399 static uint64_t 400 nowtime(void) 401 { 402 struct timeval tv; 403 uint64_t xtime; 404 405 gettimeofday(&tv, NULL); 406 xtime = tv.tv_sec * 1000000LL + tv.tv_usec; 407 return(xtime); 408 } 409 410 /* 411 * Figure out how big the volume is. 412 */ 413 static 414 hammer2_off_t 415 check_volume(const char *path, int *fdp) 416 { 417 struct partinfo pinfo; 418 struct stat st; 419 hammer2_off_t size; 420 421 /* 422 * Get basic information about the volume 423 */ 424 *fdp = open(path, O_RDWR); 425 if (*fdp < 0) 426 err(1, "Unable to open %s R+W", path); 427 if (ioctl(*fdp, DIOCGPART, &pinfo) < 0) { 428 /* 429 * Allow the formatting of regular files as HAMMER2 volumes 430 */ 431 if (fstat(*fdp, &st) < 0) 432 err(1, "Unable to stat %s", path); 433 if (!S_ISREG(st.st_mode)) 434 errx(1, "Unsupported file type for %s", path); 435 size = st.st_size; 436 } else { 437 /* 438 * When formatting a block device as a HAMMER2 volume the 439 * sector size must be compatible. HAMMER2 uses 64K 440 * filesystem buffers but logical buffers for direct I/O 441 * can be as small as HAMMER2_LOGSIZE (16KB). 442 */ 443 if (pinfo.reserved_blocks) { 444 errx(1, "HAMMER2 cannot be placed in a partition " 445 "which overlaps the disklabel or MBR"); 446 } 447 if (pinfo.media_blksize > HAMMER2_PBUFSIZE || 448 HAMMER2_PBUFSIZE % pinfo.media_blksize) { 449 errx(1, "A media sector size of %d is not supported", 450 pinfo.media_blksize); 451 } 452 size = pinfo.media_size; 453 } 454 printf("Volume %-15s size %s\n", path, sizetostr(size)); 455 return (size); 456 } 457 458 /* 459 * Create the volume header, the super-root directory inode, and 460 * the writable snapshot subdirectory (named via the label) which 461 * is to be the initial mount point, or at least the first mount point. 462 * newfs_hammer2 doesn't format the freemap bitmaps for these. 463 * 464 * 0 4MB 465 * [----reserved_area----][boot_area][aux_area] 466 * [[vol_hdr][freemap]...] [sroot][root][root]... 467 * \ ^\ ^ ^ 468 * \--------------------------------------/ \---/-----/---... 469 * 470 * NOTE: The passed total_space is 8MB-aligned to avoid edge cases. 471 */ 472 static 473 void 474 format_hammer2(int fd, hammer2_off_t total_space, hammer2_off_t free_space) 475 { 476 char *buf = malloc(HAMMER2_PBUFSIZE); 477 hammer2_volume_data_t *vol; 478 hammer2_inode_data_t *rawip; 479 hammer2_blockref_t sroot_blockref; 480 hammer2_blockref_t root_blockref[MAXLABELS]; 481 uint64_t now; 482 hammer2_off_t volu_base = 0; 483 hammer2_off_t boot_base = HAMMER2_ZONE_SEG; 484 hammer2_off_t aux_base = boot_base + BootAreaSize; 485 hammer2_off_t alloc_base = aux_base + AuxAreaSize; 486 hammer2_off_t tmp_base; 487 size_t n; 488 int i; 489 490 /* 491 * Clear the entire reserve for the first 2G segment and 492 * make sure we can write to the last block. 493 */ 494 bzero(buf, HAMMER2_PBUFSIZE); 495 tmp_base = volu_base; 496 for (i = 0; i < HAMMER2_ZONE_BLOCKS_SEG; ++i) { 497 n = pwrite(fd, buf, HAMMER2_PBUFSIZE, tmp_base); 498 if (n != HAMMER2_PBUFSIZE) { 499 perror("write"); 500 exit(1); 501 } 502 tmp_base += HAMMER2_PBUFSIZE; 503 } 504 505 n = pwrite(fd, buf, HAMMER2_PBUFSIZE, 506 volu_base + total_space - HAMMER2_PBUFSIZE); 507 if (n != HAMMER2_PBUFSIZE) { 508 perror("write (at-end-of-volume)"); 509 exit(1); 510 } 511 512 /* 513 * Make sure alloc_base won't cross the reserved area at the 514 * beginning of each 2GB zone. 515 * 516 * Reserve space for the super-root inode and the root inode. 517 * Make sure they are in the same 64K block to simplify our code. 518 */ 519 assert((alloc_base & HAMMER2_PBUFMASK) == 0); 520 assert(alloc_base < HAMMER2_ZONE_BYTES64 - HAMMER2_ZONE_SEG); 521 522 /* 523 * Clear the boot/aux area. 524 */ 525 for (tmp_base = boot_base; tmp_base < alloc_base; 526 tmp_base += HAMMER2_PBUFSIZE) { 527 n = pwrite(fd, buf, HAMMER2_PBUFSIZE, tmp_base); 528 if (n != HAMMER2_PBUFSIZE) { 529 perror("write (boot/aux)"); 530 exit(1); 531 } 532 } 533 534 now = nowtime(); 535 alloc_base &= ~HAMMER2_PBUFMASK64; 536 alloc_direct(&alloc_base, &sroot_blockref, HAMMER2_INODE_BYTES); 537 538 for (i = 0; i < NLabels; ++i) { 539 uuidgen(&Hammer2_PfsCLID[i], 1); 540 uuidgen(&Hammer2_PfsFSID[i], 1); 541 542 alloc_direct(&alloc_base, &root_blockref[i], 543 HAMMER2_INODE_BYTES); 544 assert(((sroot_blockref.data_off ^ root_blockref[i].data_off) & 545 HAMMER2_OFF_MASK_HI) == 0); 546 547 /* 548 * Format the root directory inode, which is left empty. 549 */ 550 rawip = (void *)(buf + (HAMMER2_OFF_MASK_LO & 551 root_blockref[i].data_off)); 552 rawip->meta.version = HAMMER2_INODE_VERSION_ONE; 553 rawip->meta.ctime = now; 554 rawip->meta.mtime = now; 555 /* rawip->atime = now; NOT IMPL MUST BE ZERO */ 556 rawip->meta.btime = now; 557 rawip->meta.type = HAMMER2_OBJTYPE_DIRECTORY; 558 rawip->meta.mode = 0755; 559 rawip->meta.inum = 1; /* root inode, inumber 1 */ 560 rawip->meta.nlinks = 1; /* directory link count compat */ 561 562 rawip->meta.name_len = strlen(Label[i]); 563 bcopy(Label[i], rawip->filename, rawip->meta.name_len); 564 rawip->meta.name_key = 565 dirhash(rawip->filename, rawip->meta.name_len); 566 567 /* 568 * Compression mode and supported copyids. 569 * 570 * Do not allow compression when creating any "BOOT" label 571 * (pfs-create also does the same if the pfs is named "BOOT") 572 */ 573 if (strcasecmp(Label[i], "BOOT") == 0) { 574 rawip->meta.comp_algo = HAMMER2_ENC_ALGO( 575 HAMMER2_COMP_AUTOZERO); 576 rawip->meta.check_algo = HAMMER2_ENC_ALGO( 577 HAMMER2_CHECK_XXHASH64); 578 } else { 579 rawip->meta.comp_algo = HAMMER2_ENC_ALGO( 580 HAMMER2_COMP_NEWFS_DEFAULT); 581 rawip->meta.check_algo = HAMMER2_ENC_ALGO( 582 HAMMER2_CHECK_XXHASH64); 583 } 584 585 /* 586 * NOTE: We leave nmasters set to 0, which means that we 587 * don't know how many masters there are. The quorum 588 * calculation will effectively be 1 ( 0 / 2 + 1 ). 589 */ 590 rawip->meta.pfs_clid = Hammer2_PfsCLID[i]; 591 rawip->meta.pfs_fsid = Hammer2_PfsFSID[i]; 592 rawip->meta.pfs_type = HAMMER2_PFSTYPE_MASTER; 593 rawip->meta.op_flags |= HAMMER2_OPFLAG_PFSROOT; 594 595 /* first allocatable inode number */ 596 rawip->meta.pfs_inum = 16; 597 598 /* rawip->u.blockset is left empty */ 599 600 /* 601 * The root blockref will be stored in the super-root inode as 602 * the only directory entry. The copyid here is the actual 603 * copyid of the storage ref. 604 * 605 * The key field for a directory entry's blockref is 606 * essentially the name key for the entry. 607 */ 608 root_blockref[i].key = rawip->meta.name_key; 609 root_blockref[i].copyid = HAMMER2_COPYID_LOCAL; 610 root_blockref[i].keybits = 0; 611 root_blockref[i].check.xxhash64.value = 612 XXH64(rawip, sizeof(*rawip), XXH_HAMMER2_SEED); 613 root_blockref[i].type = HAMMER2_BREF_TYPE_INODE; 614 root_blockref[i].methods = 615 HAMMER2_ENC_CHECK(HAMMER2_CHECK_XXHASH64) | 616 HAMMER2_ENC_COMP(HAMMER2_COMP_NONE); 617 root_blockref[i].mirror_tid = 16; 618 root_blockref[i].flags = HAMMER2_BREF_FLAG_PFSROOT; 619 } 620 621 /* 622 * Format the super-root directory inode, giving it one directory 623 * entry (root_blockref) and fixup the icrc method. 624 * 625 * The superroot contains one directory entry pointing at the root 626 * inode (named via the label). Inodes contain one blockset which 627 * is fully associative so we can put the entry anywhere without 628 * having to worry about the hash. Use index 0. 629 */ 630 rawip = (void *)(buf + (HAMMER2_OFF_MASK_LO & sroot_blockref.data_off)); 631 rawip->meta.version = HAMMER2_INODE_VERSION_ONE; 632 rawip->meta.ctime = now; 633 rawip->meta.mtime = now; 634 /* rawip->meta.atime = now; NOT IMPL MUST BE ZERO */ 635 rawip->meta.btime = now; 636 rawip->meta.type = HAMMER2_OBJTYPE_DIRECTORY; 637 rawip->meta.mode = 0700; /* super-root - root only */ 638 rawip->meta.inum = 0; /* super root inode, inumber 0 */ 639 rawip->meta.nlinks = 2; /* directory link count compat */ 640 641 rawip->meta.name_len = 0; /* super-root is unnamed */ 642 rawip->meta.name_key = 0; 643 644 rawip->meta.comp_algo = HAMMER2_ENC_ALGO(HAMMER2_COMP_AUTOZERO); 645 rawip->meta.check_algo = HAMMER2_ENC_ALGO(HAMMER2_CHECK_XXHASH64); 646 647 /* 648 * The super-root is flagged as a PFS and typically given its own 649 * random FSID, making it possible to mirror an entire HAMMER2 disk 650 * snapshots and all if desired. PFS ids are used to match up 651 * mirror sources and targets and cluster copy sources and targets. 652 * 653 * (XXX whole-disk logical mirroring is not really supported in 654 * the first attempt because each PFS is in its own modify/mirror 655 * transaction id domain, so normal mechanics cannot cross a PFS 656 * boundary). 657 */ 658 rawip->meta.pfs_clid = Hammer2_SupCLID; 659 rawip->meta.pfs_fsid = Hammer2_SupFSID; 660 rawip->meta.pfs_type = HAMMER2_PFSTYPE_SUPROOT; 661 snprintf((char*)rawip->filename, sizeof(rawip->filename), "SUPROOT"); 662 rawip->meta.name_key = 0; 663 rawip->meta.name_len = strlen((char*)rawip->filename); 664 665 /* The super-root has an inode number of 0 */ 666 rawip->meta.pfs_inum = 0; 667 668 /* 669 * Currently newfs_hammer2 just throws the PFS inodes into the 670 * top-level block table at the volume root and doesn't try to 671 * create an indirect block, so we are limited to ~4 at filesystem 672 * creation time. More can be added after mounting. 673 */ 674 qsort(root_blockref, NLabels, sizeof(root_blockref[0]), blkrefary_cmp); 675 for (i = 0; i < NLabels; ++i) 676 rawip->u.blockset.blockref[i] = root_blockref[i]; 677 678 /* 679 * The sroot blockref will be stored in the volume header. 680 */ 681 sroot_blockref.copyid = HAMMER2_COPYID_LOCAL; 682 sroot_blockref.keybits = 0; 683 sroot_blockref.check.xxhash64.value = 684 XXH64(rawip, sizeof(*rawip), XXH_HAMMER2_SEED); 685 sroot_blockref.type = HAMMER2_BREF_TYPE_INODE; 686 sroot_blockref.methods = HAMMER2_ENC_CHECK(HAMMER2_CHECK_XXHASH64) | 687 HAMMER2_ENC_COMP(HAMMER2_COMP_AUTOZERO); 688 sroot_blockref.mirror_tid = 16; 689 rawip = NULL; 690 691 /* 692 * Write out the 64K HAMMER2 block containing the root and sroot. 693 */ 694 n = pwrite(fd, buf, HAMMER2_PBUFSIZE, 695 sroot_blockref.data_off & HAMMER2_OFF_MASK_HI); 696 if (n != HAMMER2_PBUFSIZE) { 697 perror("write"); 698 exit(1); 699 } 700 701 /* 702 * Format the volume header. 703 * 704 * The volume header points to sroot_blockref. Also be absolutely 705 * sure that allocator_beg is set. 706 */ 707 bzero(buf, HAMMER2_PBUFSIZE); 708 vol = (void *)buf; 709 710 vol->magic = HAMMER2_VOLUME_ID_HBO; 711 vol->boot_beg = boot_base; 712 vol->boot_end = boot_base + BootAreaSize; 713 vol->aux_beg = aux_base; 714 vol->aux_end = aux_base + AuxAreaSize; 715 vol->volu_size = total_space; 716 vol->version = Hammer2Version; 717 vol->flags = 0; 718 719 vol->fsid = Hammer2_VolFSID; 720 vol->fstype = Hammer2_FSType; 721 722 vol->peer_type = DMSG_PEER_HAMMER2; /* LNK_CONN identification */ 723 724 vol->allocator_size = free_space; 725 vol->allocator_free = free_space; 726 vol->allocator_beg = alloc_base; 727 728 vol->sroot_blockset.blockref[0] = sroot_blockref; 729 vol->mirror_tid = 16; /* all blockref mirror TIDs set to 16 */ 730 vol->freemap_tid = 16; /* all blockref mirror TIDs set to 16 */ 731 vol->icrc_sects[HAMMER2_VOL_ICRC_SECT1] = 732 hammer2_icrc32((char *)vol + HAMMER2_VOLUME_ICRC1_OFF, 733 HAMMER2_VOLUME_ICRC1_SIZE); 734 735 /* 736 * Set ICRC_SECT0 after all remaining elements of sect0 have been 737 * populated in the volume header. Note hat ICRC_SECT* (except for 738 * SECT0) are part of sect0. 739 */ 740 vol->icrc_sects[HAMMER2_VOL_ICRC_SECT0] = 741 hammer2_icrc32((char *)vol + HAMMER2_VOLUME_ICRC0_OFF, 742 HAMMER2_VOLUME_ICRC0_SIZE); 743 vol->icrc_volheader = 744 hammer2_icrc32((char *)vol + HAMMER2_VOLUME_ICRCVH_OFF, 745 HAMMER2_VOLUME_ICRCVH_SIZE); 746 747 /* 748 * Write the volume header and all alternates. 749 */ 750 for (i = 0; i < HAMMER2_NUM_VOLHDRS; ++i) { 751 if (i * HAMMER2_ZONE_BYTES64 >= total_space) 752 break; 753 n = pwrite(fd, buf, HAMMER2_PBUFSIZE, 754 volu_base + i * HAMMER2_ZONE_BYTES64); 755 if (n != HAMMER2_PBUFSIZE) { 756 perror("write"); 757 exit(1); 758 } 759 } 760 761 /* 762 * Cleanup 763 */ 764 free(buf); 765 } 766 767 static void 768 alloc_direct(hammer2_off_t *basep, hammer2_blockref_t *bref, size_t bytes) 769 { 770 int radix; 771 772 radix = 0; 773 assert(bytes); 774 while ((bytes & 1) == 0) { 775 bytes >>= 1; 776 ++radix; 777 } 778 assert(bytes == 1); 779 if (radix < HAMMER2_RADIX_MIN) 780 radix = HAMMER2_RADIX_MIN; 781 782 bzero(bref, sizeof(*bref)); 783 bref->data_off = *basep | radix; 784 bref->vradix = radix; 785 786 *basep += 1U << radix; 787 } 788 789 static int 790 blkrefary_cmp(const void *b1, const void *b2) 791 { 792 const hammer2_blockref_t *bref1 = b1; 793 const hammer2_blockref_t *bref2 = b2; 794 795 if (bref1->key < bref2->key) 796 return(-1); 797 if (bref1->key > bref2->key) 798 return(1); 799 return 0; 800 } 801