/* * Copyright (c) 2020 Tomohiro Kusumi * Copyright (c) 2020 The DragonFly Project * All rights reserved. * * This code is derived from software contributed to The DragonFly Project * by Matthew Dillon * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name of The DragonFly Project nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific, prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "hammer2_subs.h" static hammer2_ondisk_t fso; static int hammer2_volumes_initialized; static void hammer2_init_volume(hammer2_volume_t *vol) { vol->fd = -1; vol->id = -1; vol->offset = (hammer2_off_t)-1; vol->size = (hammer2_off_t)-1; } void hammer2_init_ondisk(hammer2_ondisk_t *fsp) { int i; bzero(fsp, sizeof(*fsp)); fsp->version = -1; for (i = 0; i < HAMMER2_MAX_VOLUMES; ++i) hammer2_init_volume(&fsp->volumes[i]); } void hammer2_install_volume(hammer2_volume_t *vol, int fd, int id, const char *path, hammer2_off_t offset, hammer2_off_t size) { bzero(vol, sizeof(*vol)); vol->fd = fd; vol->id = id; vol->path = strdup(path); vol->offset = offset; vol->size = size; } void hammer2_uninstall_volume(hammer2_volume_t *vol) { fsync(vol->fd); close(vol->fd); free(vol->path); hammer2_init_volume(vol); } /* * Locate a valid volume header. If any of the four volume headers is good, * we have a valid volume header and choose the best one based on mirror_tid. */ static int hammer2_read_volume_header(int fd, const char *path, hammer2_volume_data_t *voldata) { hammer2_volume_data_t vd; hammer2_tid_t mirror_tid = -1; hammer2_off_t size = check_volume(fd); hammer2_crc32_t crc0, crc1; const char *p; int i, zone = -1; ssize_t ret; for (i = 0; i < HAMMER2_NUM_VOLHDRS; ++i) { if (i * HAMMER2_ZONE_BYTES64 >= size) break; if (lseek(fd, i * HAMMER2_ZONE_BYTES64, SEEK_SET) == -1) break; ret = read(fd, &vd, HAMMER2_VOLUME_BYTES); if (ret == -1) { fprintf(stderr, "%s #%d: read %s\n", path, i, strerror(errno)); continue; } if (ret != HAMMER2_VOLUME_BYTES) { fprintf(stderr, "%s #%d: read %s\n", path, i, strerror(errno)); continue; } p = (const char*)&vd; /* verify volume header magic */ if ((vd.magic != HAMMER2_VOLUME_ID_HBO) && (vd.magic != HAMMER2_VOLUME_ID_ABO)) { fprintf(stderr, "%s #%d: bad magic\n", path, i); continue; } if (vd.magic == HAMMER2_VOLUME_ID_ABO) { /* XXX: Reversed-endianness filesystem */ fprintf(stderr, "%s #%d: reverse-endian filesystem detected", path, i); continue; } /* verify volume header CRC's */ crc0 = vd.icrc_sects[HAMMER2_VOL_ICRC_SECT0]; crc1 = hammer2_icrc32(p + HAMMER2_VOLUME_ICRC0_OFF, HAMMER2_VOLUME_ICRC0_SIZE); if (crc0 != crc1) { fprintf(stderr, "%s #%d: volume header crc mismatch " "sect0 %08x/%08x\n", path, i, crc0, crc1); continue; } crc0 = vd.icrc_sects[HAMMER2_VOL_ICRC_SECT1]; crc1 = hammer2_icrc32(p + HAMMER2_VOLUME_ICRC1_OFF, HAMMER2_VOLUME_ICRC1_SIZE); if (crc0 != crc1) { fprintf(stderr, "%s #%d: volume header crc mismatch " "sect1 %08x/%08x", path, i, crc0, crc1); continue; } crc0 = vd.icrc_volheader; crc1 = hammer2_icrc32(p + HAMMER2_VOLUME_ICRCVH_OFF, HAMMER2_VOLUME_ICRCVH_SIZE); if (crc0 != crc1) { fprintf(stderr, "%s #%d: volume header crc mismatch " "vh %08x/%08x", path, i, crc0, crc1); continue; } if (zone == -1 || mirror_tid < vd.mirror_tid) { bcopy(&vd, voldata, sizeof(vd)); mirror_tid = vd.mirror_tid; zone = i; } } return(zone); } static void hammer2_err_uuid_mismatch(uuid_t *uuid1, uuid_t *uuid2, const char *id) { char *p1 = NULL, *p2 = NULL; hammer2_uuid_to_str(uuid1, &p1); hammer2_uuid_to_str(uuid2, &p2); errx(1, "%s uuid mismatch %s vs %s", id, p1, p2); free(p1); free(p2); } static void hammer2_add_volume(const char *path, int rdonly) { hammer2_volume_data_t voldata; hammer2_volume_t *vol; struct stat st; int fd, i; uuid_t uuid; fd = open(path, rdonly ? O_RDONLY : O_RDWR); if (fd == -1) err(1, "open"); if (fstat(fd, &st) == -1) err(1, "fstat"); if (!S_ISCHR(st.st_mode) && !S_ISREG(st.st_mode)) errx(1, "Unsupported file type"); if (hammer2_read_volume_header(fd, path, &voldata) >= 0) { i = voldata.volu_id; if (i < 0 || i >= HAMMER2_MAX_VOLUMES) errx(1, "%s has bad volume id %d", path, i); vol = &fso.volumes[i]; if (vol->id != -1) errx(1, "volume id %d already initialized", i); /* all headers must have the same version, nvolumes and uuid */ if (!fso.nvolumes) { fso.version = voldata.version; fso.nvolumes = voldata.nvolumes; fso.fsid = voldata.fsid; fso.fstype = voldata.fstype; } else { if (fso.version != (int)voldata.version) errx(1, "Volume version mismatch %d vs %d", fso.version, (int)voldata.version); if (fso.nvolumes != voldata.nvolumes) errx(1, "Volume count mismatch %d vs %d", fso.nvolumes, voldata.nvolumes); uuid = voldata.fsid; if (!uuid_equal(&fso.fsid, &uuid, NULL)) hammer2_err_uuid_mismatch(&fso.fsid, &uuid, "fsid"); uuid = voldata.fstype; if (!uuid_equal(&fso.fstype, &uuid, NULL)) hammer2_err_uuid_mismatch(&fso.fstype, &uuid, "fstype"); } /* all per-volume tests passed */ hammer2_install_volume(vol, fd, i, path, voldata.volu_loff[i], voldata.volu_size); fso.total_size += vol->size; } else { errx(1, "No valid volume headers found!"); } } static void hammer2_verify_volumes_common(const hammer2_ondisk_t *fsp) { const hammer2_volume_t *vol; hammer2_off_t size; struct stat *st; const char *path; int i, j, nvolumes = 0; if (fsp->version == -1) errx(1, "Bad volume version %d", fsp->version); /* check initialized volume count */ for (i = 0; i < HAMMER2_MAX_VOLUMES; ++i) { vol = &fsp->volumes[i]; if (vol->id != -1) nvolumes++; } /* fsp->nvolumes hasn't been verified yet, use nvolumes */ st = calloc(nvolumes, sizeof(*st)); for (i = 0; i < HAMMER2_MAX_VOLUMES; ++i) { vol = &fsp->volumes[i]; if (vol->id == -1) continue; path = vol->path; /* check volumes are unique */ if (stat(path, &st[i]) != 0) errx(1, "Failed to stat %s", path); if (fstat(vol->fd, &st[i]) != 0) errx(1, "Failed to fstat %d", vol->fd); for (j = 0; j < i; ++j) { if ((st[i].st_ino == st[j].st_ino) && (st[i].st_dev == st[j].st_dev)) errx(1, "%s specified more than once", path); } /* check volume fields are initialized */ if (vol->fd == -1) errx(1, "%s has bad fd %d", path, vol->fd); if (vol->offset == (hammer2_off_t)-1) errx(1, "%s has bad offset 0x%016jx", path, (intmax_t)vol->offset); if (vol->size == (hammer2_off_t)-1) errx(1, "%s has bad size 0x%016jx", path, (intmax_t)vol->size); /* check volume size vs block device size */ size = check_volume(vol->fd); printf("checkvolu header %d %016jx/%016jx\n", i, vol->size, size); if (vol->size > size) errx(1, "%s's size 0x%016jx exceeds device size 0x%016jx", path, (intmax_t)vol->size, size); } free(st); } static void hammer2_verify_volumes_1(hammer2_ondisk_t *fsp, const hammer2_volume_data_t *rootvoldata) { const hammer2_volume_t *vol; hammer2_off_t off; const char *path; int i, nvolumes = 0; /* check initialized volume count */ for (i = 0; i < HAMMER2_MAX_VOLUMES; ++i) { vol = &fsp->volumes[i]; if (vol->id != -1) nvolumes++; } if (nvolumes != 1) errx(1, "Only 1 volume supported"); fsp->nvolumes = nvolumes; /* adjust with actual count */ /* check volume header */ if (rootvoldata) { if (rootvoldata->volu_id) errx(1, "Volume id %d must be 0", rootvoldata->volu_id); if (rootvoldata->nvolumes) errx(1, "Volume count %d must be 0", rootvoldata->nvolumes); if (rootvoldata->total_size) errx(1, "Total size 0x%016jx must be 0", (intmax_t)rootvoldata->total_size); for (i = 0; i < HAMMER2_MAX_VOLUMES; ++i) { off = rootvoldata->volu_loff[i]; if (off) errx(1, "Volume offset[%d] 0x%016jx must be 0", i, (intmax_t)off); } } /* check volume */ vol = &fsp->volumes[HAMMER2_ROOT_VOLUME]; path = vol->path; if (vol->id) errx(1, "%s has non zero id %d", path, vol->id); if (vol->offset) errx(1, "%s has non zero offset 0x%016jx", path, (intmax_t)vol->offset); if (vol->size & HAMMER2_VOLUME_ALIGNMASK64) errx(1, "%s's size is not 0x%016jx aligned", path, (intmax_t)HAMMER2_VOLUME_ALIGN); } static void hammer2_verify_volumes_2(const hammer2_ondisk_t *fsp, const hammer2_volume_data_t *rootvoldata) { const hammer2_volume_t *vol; hammer2_off_t off; const char *path; int i, nvolumes = 0; /* check initialized volume count */ for (i = 0; i < HAMMER2_MAX_VOLUMES; ++i) { vol = &fsp->volumes[i]; if (vol->id != -1) nvolumes++; } if (fsp->nvolumes != nvolumes) errx(1, "Volume count mismatch %d vs %d", fsp->nvolumes, nvolumes); /* check volume header */ if (rootvoldata) { if (rootvoldata->volu_id != HAMMER2_ROOT_VOLUME) errx(1, "Volume id %d must be %d", rootvoldata->volu_id, HAMMER2_ROOT_VOLUME); if (rootvoldata->nvolumes != fso.nvolumes) errx(1, "Volume header requires %d devices, %d specified", rootvoldata->nvolumes, fso.nvolumes); if (rootvoldata->total_size != fso.total_size) errx(1, "Total size 0x%016jx does not equal sum of " "volumes 0x%016jx", rootvoldata->total_size, fso.total_size); for (i = 0; i < nvolumes; ++i) { off = rootvoldata->volu_loff[i]; if (off == (hammer2_off_t)-1) errx(1, "Volume offset[%d] 0x%016jx must not be -1", i, (intmax_t)off); } for (i = nvolumes; i < HAMMER2_MAX_VOLUMES; ++i) { off = rootvoldata->volu_loff[i]; if (off != (hammer2_off_t)-1) errx(1, "Volume offset[%d] 0x%016jx must be -1", i, (intmax_t)off); } } /* check volumes */ for (i = 0; i < HAMMER2_MAX_VOLUMES; ++i) { vol = &fsp->volumes[i]; if (vol->id == -1) continue; path = vol->path; /* check offset */ if (vol->offset & HAMMER2_FREEMAP_LEVEL1_MASK) errx(1, "%s's offset 0x%016jx not 0x%016jx aligned", path, (intmax_t)vol->offset, HAMMER2_FREEMAP_LEVEL1_SIZE); /* check vs previous volume */ if (i) { if (vol->id != (vol-1)->id + 1) errx(1, "%s has inconsistent id %d", path, vol->id); if (vol->offset != (vol-1)->offset + (vol-1)->size) errx(1, "%s has inconsistent offset 0x%016jx", path, (intmax_t)vol->offset); } else { /* first */ if (vol->offset) errx(1, "%s has non zero offset 0x%016jx", path, (intmax_t)vol->offset); } /* check size for non-last and last volumes */ if (i != fsp->nvolumes - 1) { if (vol->size < HAMMER2_FREEMAP_LEVEL1_SIZE) errx(1, "%s's size must be >= 0x%016jx", path, (intmax_t)HAMMER2_FREEMAP_LEVEL1_SIZE); if (vol->size & HAMMER2_FREEMAP_LEVEL1_MASK) errx(1, "%s's size is not 0x%016jx aligned", path, (intmax_t)HAMMER2_FREEMAP_LEVEL1_SIZE); } else { /* last */ if (vol->size & HAMMER2_VOLUME_ALIGNMASK64) errx(1, "%s's size is not 0x%016jx aligned", path, (intmax_t)HAMMER2_VOLUME_ALIGN); } } } void hammer2_verify_volumes(hammer2_ondisk_t *fsp, const hammer2_volume_data_t *rootvoldata) { hammer2_verify_volumes_common(fsp); if (fsp->version >= HAMMER2_VOL_VERSION_MULTI_VOLUMES) hammer2_verify_volumes_2(fsp, rootvoldata); else hammer2_verify_volumes_1(fsp, rootvoldata); assert(fsp->nvolumes > 0); } void hammer2_print_volumes(const hammer2_ondisk_t *fsp) { const hammer2_volume_t *vol; int i, n, w = 0; for (i = 0; i < fsp->nvolumes; ++i) { vol = &fsp->volumes[i]; n = (int)strlen(vol->path); if (n > w) w = n; } printf("total %-*.*s 0x%016jx 0x%016jx\n", w, w, "", (intmax_t)0, (intmax_t)fsp->total_size); for (i = 0; i < fsp->nvolumes; ++i) { vol = &fsp->volumes[i]; printf("volume%-2d %-*.*s 0x%016jx 0x%016jx%s\n", vol->id, w, w, vol->path, (intmax_t)vol->offset, (intmax_t)vol->size, (vol->id == HAMMER2_ROOT_VOLUME ? " (root volume)" : "")); } } void hammer2_init_volumes(const char *blkdevs, int rdonly) { hammer2_volume_data_t *rootvoldata; char *o, *p, *devpath; if (hammer2_volumes_initialized) errx(1, "Already initialized"); if (!blkdevs) errx(1, "NULL blkdevs"); hammer2_init_ondisk(&fso); o = p = strdup(blkdevs); while ((devpath = p) != NULL) { if ((p = strchr(p, ':')) != NULL) *p++ = 0; devpath = getdevpath(devpath, 0); if (strchr(devpath, ':')) hammer2_init_volumes(devpath, rdonly); else hammer2_add_volume(devpath, rdonly); free(devpath); } free(o); hammer2_volumes_initialized = 1; rootvoldata = hammer2_read_root_volume_header(); hammer2_verify_volumes(&fso, rootvoldata); free(rootvoldata); } void hammer2_cleanup_volumes(void) { hammer2_volume_t *vol; int i; for (i = 0; i < HAMMER2_MAX_VOLUMES; ++i) { vol = &fso.volumes[i]; if (vol->id == -1) continue; hammer2_uninstall_volume(vol); } hammer2_volumes_initialized = 0; } typedef void (*callback)(const hammer2_volume_t*, void *data); static int hammer2_get_volume_attr(hammer2_off_t offset, callback fn, void *data) { hammer2_volume_t *vol; int i; assert(hammer2_volumes_initialized == 1); offset &= ~HAMMER2_OFF_MASK_RADIX; /* do binary search if users really use this many supported volumes */ for (i = 0; i < fso.nvolumes; ++i) { vol = &fso.volumes[i]; if ((offset >= vol->offset) && (offset < vol->offset + vol->size)) { fn(vol, data); return(0); } } return(-1); } /* fd */ static void hammer2_volume_fd_cb(const hammer2_volume_t *vol, void *data) { *(int*)data = vol->fd; } int hammer2_get_volume_fd(hammer2_off_t offset) { int ret = 0; if (hammer2_get_volume_attr(offset, hammer2_volume_fd_cb, &ret) < 0) return(-1); return(ret); } int hammer2_get_root_volume_fd(void) { return(hammer2_get_volume_fd(0)); } /* id */ static void hammer2_volume_id_cb(const hammer2_volume_t *vol, void *data) { *(int*)data = vol->id; } int hammer2_get_volume_id(hammer2_off_t offset) { int ret = 0; if (hammer2_get_volume_attr(offset, hammer2_volume_id_cb, &ret) < 0) return(-1); return(ret); } int hammer2_get_root_volume_id(void) { return(hammer2_get_volume_id(0)); } /* path */ static void hammer2_volume_path_cb(const hammer2_volume_t *vol, void *data) { *(const char**)data = vol->path; } const char * hammer2_get_volume_path(hammer2_off_t offset) { const char *ret = NULL; if (hammer2_get_volume_attr(offset, hammer2_volume_path_cb, &ret) < 0) return(NULL); return(ret); } const char * hammer2_get_root_volume_path(void) { return(hammer2_get_volume_path(0)); } /* offset */ static void hammer2_volume_offset_cb(const hammer2_volume_t *vol, void *data) { *(hammer2_off_t*)data = vol->offset; } hammer2_off_t hammer2_get_volume_offset(hammer2_off_t offset) { hammer2_off_t ret = 0; if (hammer2_get_volume_attr(offset, hammer2_volume_offset_cb, &ret) < 0) return(-1); return(ret); } hammer2_off_t hammer2_get_root_volume_offset(void) { return(hammer2_get_volume_offset(0)); } /* size */ static void hammer2_volume_size_cb(const hammer2_volume_t *vol, void *data) { *(hammer2_off_t*)data = vol->size; } hammer2_off_t hammer2_get_volume_size(hammer2_off_t offset) { hammer2_off_t ret = 0; if (hammer2_get_volume_attr(offset, hammer2_volume_size_cb, &ret) < 0) return(-1); return(ret); } hammer2_off_t hammer2_get_root_volume_size(void) { return(hammer2_get_volume_size(0)); } /* total size */ hammer2_off_t hammer2_get_total_size(void) { return(fso.total_size); } hammer2_volume_data_t* hammer2_read_root_volume_header(void) { hammer2_volume_data_t *voldata; int fd = hammer2_get_root_volume_fd(); const char *path = hammer2_get_root_volume_path(); if (fd == -1) return(NULL); voldata = calloc(1, sizeof(*voldata)); if (hammer2_read_volume_header(fd, path, voldata) >= 0) return(voldata); else errx(1, "Failed to read volume header"); }