/* * Copyright (c) 2018, 2019, 2020 Stefan Sperling * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "got_error.h" #include "got_object.h" #include "got_path.h" #include "got_lib_hash.h" #include "got_lib_delta.h" #include "got_lib_delta_cache.h" #include "got_lib_inflate.h" #include "got_lib_object.h" #include "got_lib_object_qid.h" #include "got_lib_object_parse.h" #include "got_lib_privsep.h" #include "got_lib_pack.h" #ifndef nitems #define nitems(_a) (sizeof(_a) / sizeof((_a)[0])) #endif #ifndef MIN #define MIN(_a,_b) ((_a) < (_b) ? (_a) : (_b)) #endif static const struct got_error * verify_fanout_table(uint32_t *fanout_table) { int i; for (i = 0; i < 0xff - 1; i++) { if (be32toh(fanout_table[i]) > be32toh(fanout_table[i + 1])) return got_error(GOT_ERR_BAD_PACKIDX); } return NULL; } const struct got_error * got_packidx_init_hdr(struct got_packidx *p, int verify, off_t packfile_size) { const struct got_error *err = NULL; enum got_hash_algorithm algo = GOT_HASH_SHA1; struct got_packidx_v2_hdr *h; struct got_hash ctx; uint8_t hash[GOT_HASH_DIGEST_MAXLEN]; size_t nobj, len_fanout, len_ids, offset, remain; ssize_t n; int i; got_hash_init(&ctx, algo); h = &p->hdr; offset = 0; remain = p->len; if (remain < sizeof(*h->magic)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } if (p->map) h->magic = (uint32_t *)(p->map + offset); else { h->magic = malloc(sizeof(*h->magic)); if (h->magic == NULL) { err = got_error_from_errno("malloc"); goto done; } n = read(p->fd, h->magic, sizeof(*h->magic)); if (n < 0) { err = got_error_from_errno("read"); goto done; } else if (n != sizeof(*h->magic)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } } if (*h->magic != htobe32(GOT_PACKIDX_V2_MAGIC)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } offset += sizeof(*h->magic); remain -= sizeof(*h->magic); if (verify) got_hash_update(&ctx, h->magic, sizeof(*h->magic)); if (remain < sizeof(*h->version)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } if (p->map) h->version = (uint32_t *)(p->map + offset); else { h->version = malloc(sizeof(*h->version)); if (h->version == NULL) { err = got_error_from_errno("malloc"); goto done; } n = read(p->fd, h->version, sizeof(*h->version)); if (n < 0) { err = got_error_from_errno("read"); goto done; } else if (n != sizeof(*h->version)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } } if (*h->version != htobe32(GOT_PACKIDX_VERSION)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } offset += sizeof(*h->version); remain -= sizeof(*h->version); if (verify) got_hash_update(&ctx, h->version, sizeof(*h->version)); len_fanout = sizeof(*h->fanout_table) * GOT_PACKIDX_V2_FANOUT_TABLE_ITEMS; if (remain < len_fanout) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } if (p->map) h->fanout_table = (uint32_t *)(p->map + offset); else { h->fanout_table = malloc(len_fanout); if (h->fanout_table == NULL) { err = got_error_from_errno("malloc"); goto done; } n = read(p->fd, h->fanout_table, len_fanout); if (n < 0) { err = got_error_from_errno("read"); goto done; } else if (n != len_fanout) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } } err = verify_fanout_table(h->fanout_table); if (err) goto done; if (verify) got_hash_update(&ctx, h->fanout_table, len_fanout); offset += len_fanout; remain -= len_fanout; nobj = be32toh(h->fanout_table[0xff]); len_ids = nobj * sizeof(*h->sorted_ids); if (len_ids <= nobj || len_ids > remain) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } if (p->map) h->sorted_ids = (struct got_packidx_object_id *)((uint8_t*)(p->map + offset)); else { h->sorted_ids = malloc(len_ids); if (h->sorted_ids == NULL) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } n = read(p->fd, h->sorted_ids, len_ids); if (n < 0) err = got_error_from_errno("read"); else if (n != len_ids) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } } if (verify) got_hash_update(&ctx, h->sorted_ids, len_ids); offset += len_ids; remain -= len_ids; if (remain < nobj * sizeof(*h->crc32)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } if (p->map) h->crc32 = (uint32_t *)((uint8_t*)(p->map + offset)); else { h->crc32 = malloc(nobj * sizeof(*h->crc32)); if (h->crc32 == NULL) { err = got_error_from_errno("malloc"); goto done; } n = read(p->fd, h->crc32, nobj * sizeof(*h->crc32)); if (n < 0) err = got_error_from_errno("read"); else if (n != nobj * sizeof(*h->crc32)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } } if (verify) got_hash_update(&ctx, h->crc32, nobj * sizeof(*h->crc32)); remain -= nobj * sizeof(*h->crc32); offset += nobj * sizeof(*h->crc32); if (remain < nobj * sizeof(*h->offsets)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } if (p->map) h->offsets = (uint32_t *)((uint8_t*)(p->map + offset)); else { h->offsets = malloc(nobj * sizeof(*h->offsets)); if (h->offsets == NULL) { err = got_error_from_errno("malloc"); goto done; } n = read(p->fd, h->offsets, nobj * sizeof(*h->offsets)); if (n < 0) err = got_error_from_errno("read"); else if (n != nobj * sizeof(*h->offsets)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } } if (verify) got_hash_update(&ctx, h->offsets, nobj * sizeof(*h->offsets)); remain -= nobj * sizeof(*h->offsets); offset += nobj * sizeof(*h->offsets); /* Large file offsets are contained only in files > 2GB. */ if (verify || packfile_size > 0x7fffffff) { for (i = 0; i < nobj; i++) { uint32_t o = h->offsets[i]; if (o & htobe32(GOT_PACKIDX_OFFSET_VAL_IS_LARGE_IDX)) p->nlargeobj++; } } if (p->nlargeobj == 0) goto checksum; else if (packfile_size <= 0x7fffffff) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } if (remain < p->nlargeobj * sizeof(*h->large_offsets)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } if (p->map) h->large_offsets = (uint64_t *)((uint8_t*)(p->map + offset)); else { h->large_offsets = malloc(p->nlargeobj * sizeof(*h->large_offsets)); if (h->large_offsets == NULL) { err = got_error_from_errno("malloc"); goto done; } n = read(p->fd, h->large_offsets, p->nlargeobj * sizeof(*h->large_offsets)); if (n < 0) err = got_error_from_errno("read"); else if (n != p->nlargeobj * sizeof(*h->large_offsets)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } } if (verify) got_hash_update(&ctx, h->large_offsets, p->nlargeobj * sizeof(*h->large_offsets)); remain -= p->nlargeobj * sizeof(*h->large_offsets); offset += p->nlargeobj * sizeof(*h->large_offsets); checksum: if (remain < sizeof(*h->trailer)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } if (p->map) h->trailer = (struct got_packidx_trailer *)((uint8_t*)(p->map + offset)); else { h->trailer = malloc(sizeof(*h->trailer)); if (h->trailer == NULL) { err = got_error_from_errno("malloc"); goto done; } n = read(p->fd, h->trailer, sizeof(*h->trailer)); if (n < 0) err = got_error_from_errno("read"); else if (n != sizeof(*h->trailer)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } } if (verify) { got_hash_update(&ctx, h->trailer->packfile_sha1, SHA1_DIGEST_LENGTH); got_hash_final(&ctx, hash); if (got_hash_cmp(ctx.algo, hash, h->trailer->packidx_sha1) != 0) err = got_error(GOT_ERR_PACKIDX_CSUM); } done: return err; } const struct got_error * got_packidx_open(struct got_packidx **packidx, int dir_fd, const char *relpath, int verify) { const struct got_error *err = NULL; struct got_packidx *p = NULL; char *pack_relpath; struct stat idx_sb, pack_sb; *packidx = NULL; err = got_packidx_get_packfile_path(&pack_relpath, relpath); if (err) return err; /* * Ensure that a corresponding pack file exists. * Some Git repositories have this problem. Git seems to ignore * the existence of lonely pack index files but we do not. */ if (fstatat(dir_fd, pack_relpath, &pack_sb, 0) == -1) { if (errno == ENOENT) { err = got_error_fmt(GOT_ERR_LONELY_PACKIDX, "%s", relpath); } else err = got_error_from_errno2("fstatat", pack_relpath); goto done; } p = calloc(1, sizeof(*p)); if (p == NULL) { err = got_error_from_errno("calloc"); goto done; } p->fd = openat(dir_fd, relpath, O_RDONLY | O_NOFOLLOW | O_CLOEXEC); if (p->fd == -1) { err = got_error_from_errno2("openat", relpath); goto done; } if (fstat(p->fd, &idx_sb) != 0) { err = got_error_from_errno2("fstat", relpath); goto done; } p->len = idx_sb.st_size; if (p->len < sizeof(p->hdr)) { err = got_error(GOT_ERR_BAD_PACKIDX); goto done; } p->path_packidx = strdup(relpath); if (p->path_packidx == NULL) { err = got_error_from_errno("strdup"); goto done; } #ifndef GOT_PACK_NO_MMAP if (p->len > 0 && p->len <= SIZE_MAX) { p->map = mmap(NULL, p->len, PROT_READ, MAP_PRIVATE, p->fd, 0); if (p->map == MAP_FAILED) { if (errno != ENOMEM) { err = got_error_from_errno("mmap"); goto done; } p->map = NULL; /* fall back to read(2) */ } } #endif err = got_packidx_init_hdr(p, verify, pack_sb.st_size); done: if (err) { if (p) got_packidx_close(p); } else *packidx = p; free(pack_relpath); return err; } const struct got_error * got_packidx_close(struct got_packidx *packidx) { const struct got_error *err = NULL; free(packidx->path_packidx); if (packidx->map) { if (munmap(packidx->map, packidx->len) == -1) err = got_error_from_errno("munmap"); } else { free(packidx->hdr.magic); free(packidx->hdr.version); free(packidx->hdr.fanout_table); free(packidx->hdr.sorted_ids); free(packidx->hdr.crc32); free(packidx->hdr.offsets); free(packidx->hdr.large_offsets); free(packidx->hdr.trailer); } if (close(packidx->fd) == -1 && err == NULL) err = got_error_from_errno("close"); free(packidx->sorted_offsets); free(packidx->sorted_large_offsets); free(packidx); return err; } const struct got_error * got_packidx_get_packfile_path(char **path_packfile, const char *path_packidx) { size_t size; /* Packfile path contains ".pack" instead of ".idx", so add one byte. */ size = strlen(path_packidx) + 2; if (size < GOT_PACKFILE_NAMELEN + 1) return got_error_path(path_packidx, GOT_ERR_BAD_PATH); *path_packfile = malloc(size); if (*path_packfile == NULL) return got_error_from_errno("malloc"); /* Copy up to and excluding ".idx". */ if (strlcpy(*path_packfile, path_packidx, size - strlen(GOT_PACKIDX_SUFFIX) - 1) >= size) return got_error(GOT_ERR_NO_SPACE); if (strlcat(*path_packfile, GOT_PACKFILE_SUFFIX, size) >= size) return got_error(GOT_ERR_NO_SPACE); return NULL; } off_t got_packidx_get_object_offset(struct got_packidx *packidx, int idx) { uint32_t offset = be32toh(packidx->hdr.offsets[idx]); if (offset & GOT_PACKIDX_OFFSET_VAL_IS_LARGE_IDX) { uint64_t loffset; idx = offset & GOT_PACKIDX_OFFSET_VAL_MASK; if (idx < 0 || idx >= packidx->nlargeobj || packidx->hdr.large_offsets == NULL) return -1; loffset = be64toh(packidx->hdr.large_offsets[idx]); return (loffset > INT64_MAX ? -1 : (off_t)loffset); } return (off_t)(offset & GOT_PACKIDX_OFFSET_VAL_MASK); } int got_packidx_get_object_idx(struct got_packidx *packidx, struct got_object_id *id) { u_int8_t id0 = id->sha1[0]; uint32_t totobj = be32toh(packidx->hdr.fanout_table[0xff]); int left = 0, right = totobj - 1; if (id0 > 0) left = be32toh(packidx->hdr.fanout_table[id0 - 1]); while (left <= right) { struct got_packidx_object_id *oid; int i, cmp; i = ((left + right) / 2); oid = &packidx->hdr.sorted_ids[i]; cmp = memcmp(id->sha1, oid->sha1, SHA1_DIGEST_LENGTH); if (cmp == 0) return i; else if (cmp > 0) left = i + 1; else if (cmp < 0) right = i - 1; } return -1; } static int offset_cmp(const void *pa, const void *pb) { const struct got_pack_offset_index *a, *b; a = (const struct got_pack_offset_index *)pa; b = (const struct got_pack_offset_index *)pb; if (a->offset < b->offset) return -1; else if (a->offset > b->offset) return 1; return 0; } static int large_offset_cmp(const void *pa, const void *pb) { const struct got_pack_large_offset_index *a, *b; a = (const struct got_pack_large_offset_index *)pa; b = (const struct got_pack_large_offset_index *)pb; if (a->offset < b->offset) return -1; else if (a->offset > b->offset) return 1; return 0; } static const struct got_error * build_offset_index(struct got_packidx *p) { uint32_t nobj = be32toh(p->hdr.fanout_table[0xff]); unsigned int i, j, k; p->sorted_offsets = calloc(nobj - p->nlargeobj, sizeof(p->sorted_offsets[0])); if (p->sorted_offsets == NULL) return got_error_from_errno("calloc"); if (p->nlargeobj > 0) { p->sorted_large_offsets = calloc(p->nlargeobj, sizeof(p->sorted_large_offsets[0])); if (p->sorted_large_offsets == NULL) return got_error_from_errno("calloc"); } j = 0; k = 0; for (i = 0; i < nobj; i++) { uint32_t offset = be32toh(p->hdr.offsets[i]); if (offset & GOT_PACKIDX_OFFSET_VAL_IS_LARGE_IDX) { uint64_t loffset; uint32_t idx; idx = offset & GOT_PACKIDX_OFFSET_VAL_MASK; if (idx >= p->nlargeobj || p->nlargeobj == 0 || p->hdr.large_offsets == NULL) return got_error(GOT_ERR_BAD_PACKIDX); loffset = be64toh(p->hdr.large_offsets[idx]); p->sorted_large_offsets[j].offset = loffset; p->sorted_large_offsets[j].idx = i; j++; } else { p->sorted_offsets[k].offset = offset; p->sorted_offsets[k].idx = i; k++; } } if (j != p->nlargeobj || k != nobj - p->nlargeobj) return got_error(GOT_ERR_BAD_PACKIDX); qsort(p->sorted_offsets, nobj - p->nlargeobj, sizeof(p->sorted_offsets[0]), offset_cmp); if (p->sorted_large_offsets) qsort(p->sorted_large_offsets, p->nlargeobj, sizeof(p->sorted_large_offsets[0]), large_offset_cmp); return NULL; } const struct got_error * got_packidx_get_offset_idx(int *idx, struct got_packidx *packidx, off_t offset) { const struct got_error *err; uint32_t totobj = be32toh(packidx->hdr.fanout_table[0xff]); int i, left, right; *idx = -1; if (packidx->sorted_offsets == NULL) { err = build_offset_index(packidx); if (err) return err; } if (offset >= 0x7fffffff) { uint64_t lo; left = 0, right = packidx->nlargeobj - 1; while (left <= right) { i = ((left + right) / 2); lo = packidx->sorted_large_offsets[i].offset; if (lo == offset) { *idx = packidx->sorted_large_offsets[i].idx; break; } else if (offset > lo) left = i + 1; else if (offset < lo) right = i - 1; } } else { uint32_t o; left = 0, right = totobj - packidx->nlargeobj - 1; while (left <= right) { i = ((left + right) / 2); o = packidx->sorted_offsets[i].offset; if (o == offset) { *idx = packidx->sorted_offsets[i].idx; break; } else if (offset > o) left = i + 1; else if (offset < o) right = i - 1; } } return NULL; } const struct got_error * got_packidx_get_object_id(struct got_object_id *id, struct got_packidx *packidx, int idx) { uint32_t totobj = be32toh(packidx->hdr.fanout_table[0xff]); struct got_packidx_object_id *oid; if (idx < 0 || idx >= totobj) return got_error(GOT_ERR_NO_OBJ); oid = &packidx->hdr.sorted_ids[idx]; memcpy(id->sha1, oid->sha1, SHA1_DIGEST_LENGTH); return NULL; } const struct got_error * got_packidx_match_id_str_prefix(struct got_object_id_queue *matched_ids, struct got_packidx *packidx, const char *id_str_prefix) { const struct got_error *err = NULL; u_int8_t id0; uint32_t totobj = be32toh(packidx->hdr.fanout_table[0xff]); char hex[3]; size_t prefix_len = strlen(id_str_prefix); struct got_packidx_object_id *oid; uint32_t i = 0; STAILQ_INIT(matched_ids); if (prefix_len < 2) return got_error_path(id_str_prefix, GOT_ERR_BAD_OBJ_ID_STR); hex[0] = id_str_prefix[0]; hex[1] = id_str_prefix[1]; hex[2] = '\0'; if (!got_parse_xdigit(&id0, hex)) return got_error_path(id_str_prefix, GOT_ERR_BAD_OBJ_ID_STR); if (id0 > 0) i = be32toh(packidx->hdr.fanout_table[id0 - 1]); oid = &packidx->hdr.sorted_ids[i]; while (i < totobj && oid->sha1[0] == id0) { char id_str[SHA1_DIGEST_STRING_LENGTH]; struct got_object_qid *qid; int cmp; if (!got_sha1_digest_to_str(oid->sha1, id_str, sizeof(id_str))) return got_error(GOT_ERR_NO_SPACE); cmp = strncmp(id_str, id_str_prefix, prefix_len); if (cmp < 0) { oid = &packidx->hdr.sorted_ids[++i]; continue; } else if (cmp > 0) break; err = got_object_qid_alloc_partial(&qid); if (err) break; memcpy(qid->id.sha1, oid->sha1, SHA1_DIGEST_LENGTH); STAILQ_INSERT_TAIL(matched_ids, qid, entry); oid = &packidx->hdr.sorted_ids[++i]; } if (err) got_object_id_queue_free(matched_ids); return err; } static void set_max_datasize(void) { struct rlimit rl; if (getrlimit(RLIMIT_DATA, &rl) != 0) return; rl.rlim_cur = rl.rlim_max; setrlimit(RLIMIT_DATA, &rl); } const struct got_error * got_pack_start_privsep_child(struct got_pack *pack, struct got_packidx *packidx) { const struct got_error *err = NULL; int imsg_fds[2]; pid_t pid; struct imsgbuf *ibuf; ibuf = calloc(1, sizeof(*ibuf)); if (ibuf == NULL) return got_error_from_errno("calloc"); pack->privsep_child = calloc(1, sizeof(*pack->privsep_child)); if (pack->privsep_child == NULL) { err = got_error_from_errno("calloc"); free(ibuf); return err; } pack->child_has_tempfiles = 0; pack->child_has_delta_outfd = 0; if (socketpair(AF_UNIX, SOCK_STREAM, PF_UNSPEC, imsg_fds) == -1) { err = got_error_from_errno("socketpair"); goto done; } pid = fork(); if (pid == -1) { err = got_error_from_errno("fork"); goto done; } else if (pid == 0) { set_max_datasize(); got_privsep_exec_child(imsg_fds, GOT_PATH_PROG_READ_PACK, pack->path_packfile); /* not reached */ } if (close(imsg_fds[1]) == -1) return got_error_from_errno("close"); pack->privsep_child->imsg_fd = imsg_fds[0]; pack->privsep_child->pid = pid; imsg_init(ibuf, imsg_fds[0]); pack->privsep_child->ibuf = ibuf; err = got_privsep_init_pack_child(ibuf, pack, packidx); if (err) { const struct got_error *child_err; err = got_privsep_send_stop(pack->privsep_child->imsg_fd); child_err = got_privsep_wait_for_child( pack->privsep_child->pid); if (child_err && err == NULL) err = child_err; } done: if (err) { free(ibuf); free(pack->privsep_child); pack->privsep_child = NULL; } return err; } static const struct got_error * pack_stop_privsep_child(struct got_pack *pack) { const struct got_error *err = NULL, *close_err = NULL; if (pack->privsep_child == NULL) return NULL; err = got_privsep_send_stop(pack->privsep_child->imsg_fd); if (err) return err; if (close(pack->privsep_child->imsg_fd) == -1) close_err = got_error_from_errno("close"); err = got_privsep_wait_for_child(pack->privsep_child->pid); if (close_err && err == NULL) err = close_err; imsg_clear(pack->privsep_child->ibuf); free(pack->privsep_child->ibuf); free(pack->privsep_child); pack->privsep_child = NULL; return err; } const struct got_error * got_pack_close(struct got_pack *pack) { const struct got_error *err = NULL; err = pack_stop_privsep_child(pack); if (pack->map && munmap(pack->map, pack->filesize) == -1 && !err) err = got_error_from_errno("munmap"); if (pack->fd != -1 && close(pack->fd) == -1 && err == NULL) err = got_error_from_errno("close"); pack->fd = -1; free(pack->path_packfile); pack->path_packfile = NULL; pack->filesize = 0; if (pack->delta_cache) { got_delta_cache_free(pack->delta_cache); pack->delta_cache = NULL; } /* * Leave accumfd and basefd alone. They are managed by the * repository layer and can be reused. */ return err; } const struct got_error * got_pack_parse_object_type_and_size(uint8_t *type, uint64_t *size, size_t *len, struct got_pack *pack, off_t offset) { uint8_t t = 0; uint64_t s = 0; uint8_t sizeN; size_t mapoff = 0; int i = 0; *len = 0; if (offset >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); if (pack->map) { if (offset > SIZE_MAX) { return got_error_fmt(GOT_ERR_PACK_OFFSET, "offset %lld overflows size_t", (long long)offset); } mapoff = (size_t)offset; } else { if (lseek(pack->fd, offset, SEEK_SET) == -1) return got_error_from_errno("lseek"); } do { /* We do not support size values which don't fit in 64 bit. */ if (i > 9) return got_error_fmt(GOT_ERR_OBJ_TOO_LARGE, "packfile offset %lld", (long long)offset); if (pack->map) { if (mapoff + sizeof(sizeN) >= pack->filesize) return got_error(GOT_ERR_BAD_PACKFILE); sizeN = *(pack->map + mapoff); mapoff += sizeof(sizeN); } else { ssize_t n = read(pack->fd, &sizeN, sizeof(sizeN)); if (n < 0) return got_error_from_errno("read"); if (n != sizeof(sizeN)) return got_error(GOT_ERR_BAD_PACKFILE); } *len += sizeof(sizeN); if (i == 0) { t = (sizeN & GOT_PACK_OBJ_SIZE0_TYPE_MASK) >> GOT_PACK_OBJ_SIZE0_TYPE_MASK_SHIFT; s = (sizeN & GOT_PACK_OBJ_SIZE0_VAL_MASK); } else { size_t shift = 4 + 7 * (i - 1); s |= ((sizeN & GOT_PACK_OBJ_SIZE_VAL_MASK) << shift); } i++; } while (sizeN & GOT_PACK_OBJ_SIZE_MORE); *type = t; *size = s; return NULL; } static const struct got_error * open_plain_object(struct got_object **obj, struct got_object_id *id, uint8_t type, off_t offset, size_t size, int idx) { *obj = calloc(1, sizeof(**obj)); if (*obj == NULL) return got_error_from_errno("calloc"); (*obj)->type = type; (*obj)->flags = GOT_OBJ_FLAG_PACKED; (*obj)->pack_idx = idx; (*obj)->hdrlen = 0; (*obj)->size = size; memcpy(&(*obj)->id, id, sizeof((*obj)->id)); (*obj)->pack_offset = offset; return NULL; } static const struct got_error * parse_negative_offset(int64_t *offset, size_t *len, struct got_pack *pack, off_t delta_offset) { int64_t o = 0; uint8_t offN; int i = 0; *offset = 0; *len = 0; do { /* We do not support offset values which don't fit in 64 bit. */ if (i > 8) return got_error(GOT_ERR_NO_SPACE); if (pack->map) { size_t mapoff; if (delta_offset + *len > SIZE_MAX) { return got_error_fmt(GOT_ERR_PACK_OFFSET, "mapoff %lld would overflow size_t", (long long)delta_offset + *len); } mapoff = (size_t)delta_offset + *len; if (mapoff + sizeof(offN) >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); offN = *(pack->map + mapoff); } else { ssize_t n; n = read(pack->fd, &offN, sizeof(offN)); if (n < 0) return got_error_from_errno("read"); if (n != sizeof(offN)) return got_error(GOT_ERR_BAD_PACKFILE); } *len += sizeof(offN); if (i == 0) o = (offN & GOT_PACK_OBJ_DELTA_OFF_VAL_MASK); else { o++; o <<= 7; o += (offN & GOT_PACK_OBJ_DELTA_OFF_VAL_MASK); } i++; } while (offN & GOT_PACK_OBJ_DELTA_OFF_MORE); *offset = o; return NULL; } const struct got_error * got_pack_parse_offset_delta(off_t *base_offset, size_t *len, struct got_pack *pack, off_t offset, size_t tslen) { const struct got_error *err; int64_t negoffset; size_t negofflen; *len = 0; err = parse_negative_offset(&negoffset, &negofflen, pack, offset + tslen); if (err) return err; /* Compute the base object's offset (must be in the same pack file). */ *base_offset = (offset - negoffset); if (*base_offset <= 0) return got_error(GOT_ERR_BAD_PACKFILE); *len = negofflen; return NULL; } static const struct got_error * read_delta_data(uint8_t **delta_buf, size_t *delta_len, size_t *delta_compressed_len, size_t delta_data_offset, struct got_pack *pack) { const struct got_error *err = NULL; size_t consumed = 0; if (pack->map) { if (delta_data_offset >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); err = got_inflate_to_mem_mmap(delta_buf, delta_len, &consumed, NULL, pack->map, delta_data_offset, pack->filesize - delta_data_offset); if (err) return err; } else { if (lseek(pack->fd, delta_data_offset, SEEK_SET) == -1) return got_error_from_errno("lseek"); err = got_inflate_to_mem_fd(delta_buf, delta_len, &consumed, NULL, 0, pack->fd); if (err) return err; } if (delta_compressed_len) *delta_compressed_len = consumed; return NULL; } static const struct got_error * add_delta(struct got_delta_chain *deltas, off_t delta_offset, size_t tslen, int delta_type, size_t delta_size, off_t delta_data_offset) { struct got_delta *delta; delta = got_delta_open(delta_offset, tslen, delta_type, delta_size, delta_data_offset); if (delta == NULL) return got_error_from_errno("got_delta_open"); /* delta is freed in got_object_close() */ deltas->nentries++; STAILQ_INSERT_HEAD(&deltas->entries, delta, entry); return NULL; } static const struct got_error * resolve_offset_delta(struct got_delta_chain *deltas, struct got_packidx *packidx, struct got_pack *pack, off_t delta_offset, size_t tslen, int delta_type, size_t delta_size, unsigned int recursion) { const struct got_error *err; off_t base_offset; uint8_t base_type; uint64_t base_size; size_t base_tslen; off_t delta_data_offset; size_t consumed; err = got_pack_parse_offset_delta(&base_offset, &consumed, pack, delta_offset, tslen); if (err) return err; delta_data_offset = delta_offset + tslen + consumed; if (delta_data_offset >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); if (pack->map == NULL) { delta_data_offset = lseek(pack->fd, 0, SEEK_CUR); if (delta_data_offset == -1) return got_error_from_errno("lseek"); } err = add_delta(deltas, delta_offset, tslen, delta_type, delta_size, delta_data_offset); if (err) return err; /* An offset delta must be in the same packfile. */ if (base_offset >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); err = got_pack_parse_object_type_and_size(&base_type, &base_size, &base_tslen, pack, base_offset); if (err) return err; return got_pack_resolve_delta_chain(deltas, packidx, pack, base_offset, base_tslen, base_type, base_size, recursion - 1); } const struct got_error * got_pack_parse_ref_delta(struct got_object_id *id, struct got_pack *pack, off_t delta_offset, int tslen) { if (pack->map) { size_t mapoff; if (delta_offset + tslen > SIZE_MAX) { return got_error_fmt(GOT_ERR_PACK_OFFSET, "mapoff %lld would overflow size_t", (long long)delta_offset + tslen); } mapoff = delta_offset + tslen; if (mapoff + sizeof(*id) >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); memcpy(id, pack->map + mapoff, sizeof(*id)); } else { ssize_t n; n = read(pack->fd, id, sizeof(*id)); if (n < 0) return got_error_from_errno("read"); if (n != sizeof(*id)) return got_error(GOT_ERR_BAD_PACKFILE); } return NULL; } static const struct got_error * resolve_ref_delta(struct got_delta_chain *deltas, struct got_packidx *packidx, struct got_pack *pack, off_t delta_offset, size_t tslen, int delta_type, size_t delta_size, unsigned int recursion) { const struct got_error *err; struct got_object_id id; int idx; off_t base_offset; uint8_t base_type; uint64_t base_size; size_t base_tslen; off_t delta_data_offset; if (delta_offset + tslen >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); err = got_pack_parse_ref_delta(&id, pack, delta_offset, tslen); if (err) return err; if (pack->map) { delta_data_offset = delta_offset + tslen + SHA1_DIGEST_LENGTH; } else { delta_data_offset = lseek(pack->fd, 0, SEEK_CUR); if (delta_data_offset == -1) return got_error_from_errno("lseek"); } err = add_delta(deltas, delta_offset, tslen, delta_type, delta_size, delta_data_offset); if (err) return err; /* Delta base must be in the same pack file. */ idx = got_packidx_get_object_idx(packidx, &id); if (idx == -1) return got_error(GOT_ERR_NO_OBJ); base_offset = got_packidx_get_object_offset(packidx, idx); if (base_offset == -1) return got_error(GOT_ERR_BAD_PACKIDX); if (base_offset >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); err = got_pack_parse_object_type_and_size(&base_type, &base_size, &base_tslen, pack, base_offset); if (err) return err; return got_pack_resolve_delta_chain(deltas, packidx, pack, base_offset, base_tslen, base_type, base_size, recursion - 1); } const struct got_error * got_pack_resolve_delta_chain(struct got_delta_chain *deltas, struct got_packidx *packidx, struct got_pack *pack, off_t delta_offset, size_t tslen, int delta_type, size_t delta_size, unsigned int recursion) { const struct got_error *err = NULL; if (--recursion == 0) return got_error(GOT_ERR_RECURSION); switch (delta_type) { case GOT_OBJ_TYPE_COMMIT: case GOT_OBJ_TYPE_TREE: case GOT_OBJ_TYPE_BLOB: case GOT_OBJ_TYPE_TAG: /* Plain types are the final delta base. Recursion ends. */ err = add_delta(deltas, delta_offset, tslen, delta_type, delta_size, 0); break; case GOT_OBJ_TYPE_OFFSET_DELTA: err = resolve_offset_delta(deltas, packidx, pack, delta_offset, tslen, delta_type, delta_size, recursion - 1); break; case GOT_OBJ_TYPE_REF_DELTA: err = resolve_ref_delta(deltas, packidx, pack, delta_offset, tslen, delta_type, delta_size, recursion - 1); break; default: return got_error(GOT_ERR_OBJ_TYPE); } return err; } static const struct got_error * open_delta_object(struct got_object **obj, struct got_packidx *packidx, struct got_pack *pack, struct got_object_id *id, off_t offset, size_t tslen, int delta_type, size_t delta_size, int idx) { const struct got_error *err = NULL; int resolved_type; *obj = calloc(1, sizeof(**obj)); if (*obj == NULL) return got_error_from_errno("calloc"); (*obj)->flags = 0; (*obj)->hdrlen = 0; (*obj)->size = 0; /* Not known because deltas aren't applied yet. */ memcpy(&(*obj)->id, id, sizeof((*obj)->id)); (*obj)->pack_offset = offset + tslen; STAILQ_INIT(&(*obj)->deltas.entries); (*obj)->flags |= GOT_OBJ_FLAG_DELTIFIED; (*obj)->flags |= GOT_OBJ_FLAG_PACKED; (*obj)->pack_idx = idx; err = got_pack_resolve_delta_chain(&(*obj)->deltas, packidx, pack, offset, tslen, delta_type, delta_size, GOT_DELTA_CHAIN_RECURSION_MAX); if (err) goto done; err = got_delta_chain_get_base_type(&resolved_type, &(*obj)->deltas); if (err) goto done; (*obj)->type = resolved_type; done: if (err) { got_object_close(*obj); *obj = NULL; } return err; } const struct got_error * got_packfile_open_object(struct got_object **obj, struct got_pack *pack, struct got_packidx *packidx, int idx, struct got_object_id *id) { const struct got_error *err = NULL; off_t offset; uint8_t type; uint64_t size; size_t tslen; *obj = NULL; offset = got_packidx_get_object_offset(packidx, idx); if (offset == -1) return got_error(GOT_ERR_BAD_PACKIDX); err = got_pack_parse_object_type_and_size(&type, &size, &tslen, pack, offset); if (err) return err; switch (type) { case GOT_OBJ_TYPE_COMMIT: case GOT_OBJ_TYPE_TREE: case GOT_OBJ_TYPE_BLOB: case GOT_OBJ_TYPE_TAG: err = open_plain_object(obj, id, type, offset + tslen, size, idx); break; case GOT_OBJ_TYPE_OFFSET_DELTA: case GOT_OBJ_TYPE_REF_DELTA: err = open_delta_object(obj, packidx, pack, id, offset, tslen, type, size, idx); break; default: err = got_error(GOT_ERR_OBJ_TYPE); break; } return err; } const struct got_error * got_pack_get_delta_chain_max_size(uint64_t *max_size, struct got_delta_chain *deltas, struct got_pack *pack) { struct got_delta *delta; uint64_t base_size = 0, result_size = 0; *max_size = 0; STAILQ_FOREACH(delta, &deltas->entries, entry) { /* Plain object types are the delta base. */ if (delta->type != GOT_OBJ_TYPE_COMMIT && delta->type != GOT_OBJ_TYPE_TREE && delta->type != GOT_OBJ_TYPE_BLOB && delta->type != GOT_OBJ_TYPE_TAG) { const struct got_error *err; uint8_t *delta_buf = NULL; size_t delta_len; int cached = 1; if (pack->delta_cache) { got_delta_cache_get(&delta_buf, &delta_len, NULL, NULL, pack->delta_cache, delta->data_offset); } if (delta_buf == NULL) { cached = 0; err = read_delta_data(&delta_buf, &delta_len, NULL, delta->data_offset, pack); if (err) return err; } if (pack->delta_cache && !cached) { err = got_delta_cache_add(pack->delta_cache, delta->data_offset, delta_buf, delta_len); if (err == NULL) cached = 1; else if (err->code != GOT_ERR_NO_SPACE) { free(delta_buf); return err; } } err = got_delta_get_sizes(&base_size, &result_size, delta_buf, delta_len); if (!cached) free(delta_buf); if (err) return err; } else base_size = delta->size; if (base_size > *max_size) *max_size = base_size; if (result_size > *max_size) *max_size = result_size; } return NULL; } const struct got_error * got_pack_get_max_delta_object_size(uint64_t *size, struct got_object *obj, struct got_pack *pack) { if ((obj->flags & GOT_OBJ_FLAG_DELTIFIED) == 0) return got_error(GOT_ERR_OBJ_TYPE); return got_pack_get_delta_chain_max_size(size, &obj->deltas, pack); } const struct got_error * got_pack_dump_delta_chain_to_file(size_t *result_size, struct got_delta_chain *deltas, struct got_pack *pack, FILE *outfile, FILE *base_file, FILE *accum_file) { const struct got_error *err = NULL; struct got_delta *delta; uint8_t *base_buf = NULL, *accum_buf = NULL; size_t base_bufsz = 0, accum_bufsz = 0, accum_size = 0; /* We process small enough files entirely in memory for speed. */ const size_t max_bufsize = GOT_DELTA_RESULT_SIZE_CACHED_MAX; uint64_t max_size = 0; int n = 0; *result_size = 0; if (STAILQ_EMPTY(&deltas->entries)) return got_error(GOT_ERR_BAD_DELTA_CHAIN); if (pack->delta_cache) { uint8_t *delta_buf = NULL, *fulltext = NULL; size_t delta_len, fulltext_len; delta = STAILQ_LAST(&deltas->entries, got_delta, entry); got_delta_cache_get(&delta_buf, &delta_len, &fulltext, &fulltext_len, pack->delta_cache, delta->data_offset); if (fulltext) { size_t w; w = fwrite(fulltext, 1, fulltext_len, outfile); if (w != fulltext_len) return got_ferror(outfile, GOT_ERR_IO); if (fflush(outfile) != 0) return got_error_from_errno("fflush"); *result_size = fulltext_len; return NULL; } } if (fseeko(base_file, 0L, SEEK_SET) == -1) return got_error_from_errno("fseeko"); if (fseeko(accum_file, 0L, SEEK_SET) == -1) return got_error_from_errno("fseeko"); /* Deltas are ordered in ascending order. */ STAILQ_FOREACH(delta, &deltas->entries, entry) { uint8_t *delta_buf = NULL, *fulltext = NULL; size_t delta_len, fulltext_len; uint64_t base_size, result_size = 0; int cached = 1; if (n == 0) { size_t mapoff; off_t delta_data_offset; /* Plain object types are the delta base. */ if (delta->type != GOT_OBJ_TYPE_COMMIT && delta->type != GOT_OBJ_TYPE_TREE && delta->type != GOT_OBJ_TYPE_BLOB && delta->type != GOT_OBJ_TYPE_TAG) { err = got_error(GOT_ERR_BAD_DELTA_CHAIN); goto done; } delta_data_offset = delta->offset + delta->tslen; if (delta_data_offset >= pack->filesize) { err = got_error(GOT_ERR_PACK_OFFSET); goto done; } if (pack->map == NULL) { if (lseek(pack->fd, delta_data_offset, SEEK_SET) == -1) { err = got_error_from_errno("lseek"); goto done; } } if (delta->size > max_size) max_size = delta->size; if (max_size > max_bufsize) { if (pack->map) { if (delta_data_offset > SIZE_MAX) { return got_error_fmt( GOT_ERR_RANGE, "delta offset %lld " "overflows size_t", (long long) delta_data_offset); } mapoff = delta_data_offset; err = got_inflate_to_file_mmap( &base_bufsz, NULL, NULL, pack->map, mapoff, pack->filesize - mapoff, base_file); } else err = got_inflate_to_file_fd( &base_bufsz, NULL, NULL, pack->fd, base_file); } else { accum_buf = malloc(max_size); if (accum_buf == NULL) { err = got_error_from_errno("malloc"); goto done; } accum_bufsz = max_size; if (pack->map) { if (delta_data_offset > SIZE_MAX) { return got_error_fmt( GOT_ERR_RANGE, "delta offset %lld " "overflows size_t", (long long) delta_data_offset); } mapoff = delta_data_offset; err = got_inflate_to_mem_mmap(&base_buf, &base_bufsz, NULL, NULL, pack->map, mapoff, pack->filesize - mapoff); } else err = got_inflate_to_mem_fd(&base_buf, &base_bufsz, NULL, NULL, max_size, pack->fd); } if (err) goto done; n++; if (base_buf == NULL) rewind(base_file); else if (pack->delta_cache && fulltext == NULL) { err = got_delta_cache_add(pack->delta_cache, delta_data_offset, NULL, 0); if (err) { if (err->code != GOT_ERR_NO_SPACE) goto done; err = NULL; } else { err = got_delta_cache_add_fulltext( pack->delta_cache, delta_data_offset, base_buf, base_bufsz); if (err && err->code != GOT_ERR_NO_SPACE) goto done; err = NULL; } } continue; } if (pack->delta_cache) { got_delta_cache_get(&delta_buf, &delta_len, &fulltext, &fulltext_len, pack->delta_cache, delta->data_offset); } if (delta_buf == NULL) { cached = 0; err = read_delta_data(&delta_buf, &delta_len, NULL, delta->data_offset, pack); if (err) goto done; } if (pack->delta_cache && !cached) { err = got_delta_cache_add(pack->delta_cache, delta->data_offset, delta_buf, delta_len); if (err == NULL) cached = 1; else if (err->code != GOT_ERR_NO_SPACE) { free(delta_buf); goto done; } } err = got_delta_get_sizes(&base_size, &result_size, delta_buf, delta_len); if (err) { if (!cached) free(delta_buf); goto done; } if (base_size > max_size) max_size = base_size; if (result_size > max_size) max_size = result_size; if (fulltext_len > max_size) max_size = fulltext_len; if (base_buf && max_size > max_bufsize) { /* Switch from buffers to temporary files. */ size_t w = fwrite(base_buf, 1, base_bufsz, base_file); if (w != base_bufsz) { err = got_ferror(outfile, GOT_ERR_IO); if (!cached) free(delta_buf); goto done; } free(base_buf); base_buf = NULL; free(accum_buf); accum_buf = NULL; } if (base_buf && max_size > base_bufsz) { uint8_t *p = realloc(base_buf, max_size); if (p == NULL) { err = got_error_from_errno("realloc"); if (!cached) free(delta_buf); goto done; } base_buf = p; base_bufsz = max_size; } if (accum_buf && max_size > accum_bufsz) { uint8_t *p = realloc(accum_buf, max_size); if (p == NULL) { err = got_error_from_errno("realloc"); if (!cached) free(delta_buf); goto done; } accum_buf = p; accum_bufsz = max_size; } if (base_buf) { if (fulltext) { memcpy(accum_buf, fulltext, fulltext_len); accum_size = fulltext_len; err = NULL; } else { err = got_delta_apply_in_mem(base_buf, base_bufsz, delta_buf, delta_len, accum_buf, &accum_size, max_size); } n++; if (!cached) free(delta_buf); if (err) goto done; if (fulltext == NULL) { err = got_delta_cache_add_fulltext( pack->delta_cache, delta->data_offset, accum_buf, accum_size); if (err) { if (err->code != GOT_ERR_NO_SPACE) goto done; err = NULL; } } } else { err = got_delta_apply(base_file, delta_buf, delta_len, /* Final delta application writes to output file. */ ++n < deltas->nentries ? accum_file : outfile, &accum_size); if (!cached) free(delta_buf); if (err) goto done; } if (n < deltas->nentries) { /* Accumulated delta becomes the new base. */ if (base_buf) { uint8_t *tmp = accum_buf; size_t tmp_size = accum_bufsz; accum_buf = base_buf; accum_bufsz = base_bufsz; base_buf = tmp; base_bufsz = tmp_size; } else { FILE *tmp = accum_file; accum_file = base_file; base_file = tmp; rewind(base_file); rewind(accum_file); } } } done: free(base_buf); if (accum_buf) { size_t len = fwrite(accum_buf, 1, accum_size, outfile); free(accum_buf); if (len != accum_size) err = got_ferror(outfile, GOT_ERR_IO); } rewind(outfile); if (err == NULL) *result_size = accum_size; return err; } const struct got_error * got_pack_dump_delta_chain_to_mem(uint8_t **outbuf, size_t *outlen, struct got_delta_chain *deltas, struct got_pack *pack) { const struct got_error *err = NULL; struct got_delta *delta; uint8_t *base_buf = NULL, *accum_buf = NULL; size_t base_bufsz = 0, accum_bufsz = 0, accum_size = 0; uint64_t max_size = 0; int n = 0; *outbuf = NULL; *outlen = 0; if (STAILQ_EMPTY(&deltas->entries)) return got_error(GOT_ERR_BAD_DELTA_CHAIN); if (pack->delta_cache) { uint8_t *delta_buf = NULL, *fulltext = NULL; size_t delta_len, fulltext_len; delta = STAILQ_LAST(&deltas->entries, got_delta, entry); got_delta_cache_get(&delta_buf, &delta_len, &fulltext, &fulltext_len, pack->delta_cache, delta->data_offset); if (fulltext) { *outbuf = malloc(fulltext_len); if (*outbuf == NULL) return got_error_from_errno("malloc"); memcpy(*outbuf, fulltext, fulltext_len); *outlen = fulltext_len; return NULL; } } /* Deltas are ordered in ascending order. */ STAILQ_FOREACH(delta, &deltas->entries, entry) { uint8_t *delta_buf = NULL, *fulltext = NULL; size_t delta_len, fulltext_len = 0; uint64_t base_size, result_size = 0; int cached = 1; if (n == 0) { off_t delta_data_offset; /* Plain object types are the delta base. */ if (delta->type != GOT_OBJ_TYPE_COMMIT && delta->type != GOT_OBJ_TYPE_TREE && delta->type != GOT_OBJ_TYPE_BLOB && delta->type != GOT_OBJ_TYPE_TAG) { err = got_error(GOT_ERR_BAD_DELTA_CHAIN); goto done; } delta_data_offset = delta->offset + delta->tslen; if (delta_data_offset >= pack->filesize) { err = got_error(GOT_ERR_PACK_OFFSET); goto done; } if (pack->delta_cache) { got_delta_cache_get(&delta_buf, &delta_len, &fulltext, &fulltext_len, pack->delta_cache, delta_data_offset); } if (delta->size > max_size) max_size = delta->size; if (delta->size > fulltext_len) max_size = fulltext_len; if (fulltext) { base_buf = malloc(fulltext_len); if (base_buf == NULL) { err = got_error_from_errno("malloc"); goto done; } memcpy(base_buf, fulltext, fulltext_len); base_bufsz = fulltext_len; } else if (pack->map) { size_t mapoff; if (delta_data_offset > SIZE_MAX) { return got_error_fmt(GOT_ERR_RANGE, "delta %lld offset would " "overflow size_t", (long long)delta_data_offset); } mapoff = delta_data_offset; err = got_inflate_to_mem_mmap(&base_buf, &base_bufsz, NULL, NULL, pack->map, mapoff, pack->filesize - mapoff); } else { if (lseek(pack->fd, delta_data_offset, SEEK_SET) == -1) { err = got_error_from_errno("lseek"); goto done; } err = got_inflate_to_mem_fd(&base_buf, &base_bufsz, NULL, NULL, max_size, pack->fd); } if (err) goto done; n++; if (pack->delta_cache && fulltext == NULL) { err = got_delta_cache_add(pack->delta_cache, delta_data_offset, NULL, 0); if (err) { if (err->code != GOT_ERR_NO_SPACE) goto done; err = NULL; } else { err = got_delta_cache_add_fulltext( pack->delta_cache, delta_data_offset, base_buf, base_bufsz); if (err && err->code != GOT_ERR_NO_SPACE) goto done; err = NULL; } } continue; } if (pack->delta_cache) { got_delta_cache_get(&delta_buf, &delta_len, &fulltext, &fulltext_len, pack->delta_cache, delta->data_offset); } if (delta_buf == NULL) { cached = 0; err = read_delta_data(&delta_buf, &delta_len, NULL, delta->data_offset, pack); if (err) goto done; } if (pack->delta_cache && !cached) { err = got_delta_cache_add(pack->delta_cache, delta->data_offset, delta_buf, delta_len); if (err == NULL) cached = 1; else if (err->code != GOT_ERR_NO_SPACE) { free(delta_buf); goto done; } } err = got_delta_get_sizes(&base_size, &result_size, delta_buf, delta_len); if (err) { if (!cached) free(delta_buf); goto done; } if (base_size > max_size) max_size = base_size; if (result_size > max_size) max_size = result_size; if (fulltext_len > max_size) max_size = fulltext_len; if (max_size > base_bufsz) { uint8_t *p = realloc(base_buf, max_size); if (p == NULL) { err = got_error_from_errno("realloc"); if (!cached) free(delta_buf); goto done; } base_buf = p; base_bufsz = max_size; } if (max_size > accum_bufsz) { uint8_t *p = realloc(accum_buf, max_size); if (p == NULL) { err = got_error_from_errno("realloc"); if (!cached) free(delta_buf); goto done; } accum_buf = p; accum_bufsz = max_size; } if (fulltext) { memcpy(accum_buf, fulltext, fulltext_len); accum_size = fulltext_len; err = NULL; } else { err = got_delta_apply_in_mem(base_buf, base_bufsz, delta_buf, delta_len, accum_buf, &accum_size, max_size); } if (!cached) free(delta_buf); n++; if (err) goto done; if (fulltext == NULL) { err = got_delta_cache_add_fulltext(pack->delta_cache, delta->data_offset, accum_buf, accum_size); if (err) { if (err->code != GOT_ERR_NO_SPACE) goto done; err = NULL; } } if (n < deltas->nentries) { /* Accumulated delta becomes the new base. */ uint8_t *tmp = accum_buf; size_t tmp_size = accum_bufsz; accum_buf = base_buf; accum_bufsz = base_bufsz; base_buf = tmp; base_bufsz = tmp_size; } } done: free(base_buf); if (err) { free(accum_buf); *outbuf = NULL; *outlen = 0; } else { *outbuf = accum_buf; *outlen = accum_size; } return err; } const struct got_error * got_packfile_extract_object(struct got_pack *pack, struct got_object *obj, FILE *outfile, FILE *base_file, FILE *accum_file) { const struct got_error *err = NULL; if ((obj->flags & GOT_OBJ_FLAG_PACKED) == 0) return got_error(GOT_ERR_OBJ_NOT_PACKED); if ((obj->flags & GOT_OBJ_FLAG_DELTIFIED) == 0) { if (obj->pack_offset >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); if (pack->map) { size_t mapoff; if (obj->pack_offset > SIZE_MAX) { return got_error_fmt(GOT_ERR_RANGE, "pack offset %lld would overflow size_t", (long long)obj->pack_offset); } mapoff = obj->pack_offset; err = got_inflate_to_file_mmap(&obj->size, NULL, NULL, pack->map, mapoff, pack->filesize - mapoff, outfile); } else { if (lseek(pack->fd, obj->pack_offset, SEEK_SET) == -1) return got_error_from_errno("lseek"); err = got_inflate_to_file_fd(&obj->size, NULL, NULL, pack->fd, outfile); } } else err = got_pack_dump_delta_chain_to_file(&obj->size, &obj->deltas, pack, outfile, base_file, accum_file); return err; } const struct got_error * got_packfile_extract_object_to_mem(uint8_t **buf, size_t *len, struct got_object *obj, struct got_pack *pack) { const struct got_error *err = NULL; if ((obj->flags & GOT_OBJ_FLAG_PACKED) == 0) return got_error(GOT_ERR_OBJ_NOT_PACKED); if ((obj->flags & GOT_OBJ_FLAG_DELTIFIED) == 0) { if (obj->pack_offset >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); if (pack->map) { size_t mapoff; if (obj->pack_offset > SIZE_MAX) { return got_error_fmt(GOT_ERR_RANGE, "pack offset %lld would overflow size_t", (long long)obj->pack_offset); } mapoff = obj->pack_offset; err = got_inflate_to_mem_mmap(buf, len, NULL, NULL, pack->map, mapoff, pack->filesize - mapoff); } else { if (lseek(pack->fd, obj->pack_offset, SEEK_SET) == -1) return got_error_from_errno("lseek"); err = got_inflate_to_mem_fd(buf, len, NULL, NULL, obj->size, pack->fd); } } else err = got_pack_dump_delta_chain_to_mem(buf, len, &obj->deltas, pack); return err; } static const struct got_error * read_raw_delta_data(uint8_t **delta_buf, size_t *delta_len, size_t *delta_len_compressed, uint64_t *base_size, uint64_t *result_size, off_t delta_data_offset, struct got_pack *pack, struct got_packidx *packidx) { const struct got_error *err = NULL; /* Validate decompression and obtain the decompressed size. */ err = read_delta_data(delta_buf, delta_len, delta_len_compressed, delta_data_offset, pack); if (err) return err; /* Read delta base/result sizes from head of delta stream. */ err = got_delta_get_sizes(base_size, result_size, *delta_buf, *delta_len); if (err) goto done; /* Discard decompressed delta and read it again in compressed form. */ free(*delta_buf); *delta_buf = malloc(*delta_len_compressed); if (*delta_buf == NULL) { err = got_error_from_errno("malloc"); goto done; } if (pack->map) { if (delta_data_offset >= pack->filesize) { err = got_error(GOT_ERR_PACK_OFFSET); goto done; } memcpy(*delta_buf, pack->map + delta_data_offset, *delta_len_compressed); } else { ssize_t n; if (lseek(pack->fd, delta_data_offset, SEEK_SET) == -1) { err = got_error_from_errno("lseek"); goto done; } n = read(pack->fd, *delta_buf, *delta_len_compressed); if (n < 0) { err = got_error_from_errno("read"); goto done; } else if (n != *delta_len_compressed) { err = got_error(GOT_ERR_IO); goto done; } } done: if (err) { free(*delta_buf); *delta_buf = NULL; *delta_len = 0; *delta_len_compressed = 0; *base_size = 0; *result_size = 0; } return err; } const struct got_error * got_packfile_extract_raw_delta(uint8_t **delta_buf, size_t *delta_size, size_t *delta_compressed_size, off_t *delta_offset, off_t *delta_data_offset, off_t *base_offset, struct got_object_id *base_id, uint64_t *base_size, uint64_t *result_size, struct got_pack *pack, struct got_packidx *packidx, int idx) { const struct got_error *err = NULL; off_t offset; uint8_t type; uint64_t size; size_t tslen, delta_hdrlen; *delta_buf = NULL; *delta_size = 0; *delta_compressed_size = 0; *delta_offset = 0; *delta_data_offset = 0; *base_offset = 0; *base_size = 0; *result_size = 0; offset = got_packidx_get_object_offset(packidx, idx); if (offset == -1) return got_error(GOT_ERR_BAD_PACKIDX); if (offset >= pack->filesize) return got_error(GOT_ERR_PACK_OFFSET); err = got_pack_parse_object_type_and_size(&type, &size, &tslen, pack, offset); if (err) return err; if (tslen + size < tslen || offset + size < size || tslen + offset < tslen) return got_error(GOT_ERR_PACK_OFFSET); switch (type) { case GOT_OBJ_TYPE_OFFSET_DELTA: err = got_pack_parse_offset_delta(base_offset, &delta_hdrlen, pack, offset, tslen); if (err) return err; break; case GOT_OBJ_TYPE_REF_DELTA: err = got_pack_parse_ref_delta(base_id, pack, offset, tslen); if (err) return err; delta_hdrlen = SHA1_DIGEST_LENGTH; break; default: return got_error_fmt(GOT_ERR_OBJ_TYPE, "non-delta object type %d found at offset %lld", type, (long long)offset); } if (tslen + delta_hdrlen < delta_hdrlen || offset + delta_hdrlen < delta_hdrlen) return got_error(GOT_ERR_BAD_DELTA); *delta_data_offset = offset + tslen + delta_hdrlen; err = read_raw_delta_data(delta_buf, delta_size, delta_compressed_size, base_size, result_size, *delta_data_offset, pack, packidx); if (err) return err; if (*delta_size != size) { err = got_error(GOT_ERR_BAD_DELTA); goto done; } *delta_offset = offset; done: if (err) { free(*delta_buf); *delta_buf = NULL; *delta_size = 0; *delta_compressed_size = 0; *delta_offset = 0; *base_offset = 0; *base_size = 0; *result_size = 0; } return err; }