/* * Copyright (c) 2020 Ori Bernstein * Copyright (c) 2021 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 #include #include "got_error.h" #include "got_cancel.h" #include "got_object.h" #include "got_path.h" #include "got_reference.h" #include "got_repository_admin.h" #include "got_lib_deltify.h" #include "got_lib_delta.h" #include "got_lib_hash.h" #include "got_lib_object.h" #include "got_lib_object_idset.h" #include "got_lib_object_cache.h" #include "got_lib_deflate.h" #include "got_lib_ratelimit.h" #include "got_lib_pack.h" #include "got_lib_pack_create.h" #include "got_lib_repository.h" #include "got_lib_inflate.h" #include "got_lib_poll.h" #include "murmurhash2.h" #ifndef MIN #define MIN(_a,_b) ((_a) < (_b) ? (_a) : (_b)) #endif #ifndef MAX #define MAX(_a,_b) ((_a) > (_b) ? (_a) : (_b)) #endif #ifndef nitems #define nitems(_a) (sizeof((_a)) / sizeof((_a)[0])) #endif static const struct got_error * alloc_meta(struct got_pack_meta **new, struct got_object_id *id, const char *path, int obj_type, time_t mtime, uint32_t seed) { struct got_pack_meta *m; *new = NULL; m = calloc(1, sizeof(*m)); if (m == NULL) return got_error_from_errno("calloc"); memcpy(&m->id, id, sizeof(m->id)); m->path_hash = murmurhash2(path, strlen(path), seed); m->obj_type = obj_type; m->mtime = mtime; *new = m; return NULL; } static void clear_meta(struct got_pack_meta *meta) { if (meta == NULL) return; meta->path_hash = 0; free(meta->delta_buf); meta->delta_buf = NULL; free(meta->base_obj_id); meta->base_obj_id = NULL; meta->reused_delta_offset = 0; } static void free_nmeta(struct got_pack_meta **meta, int nmeta) { int i; for (i = 0; i < nmeta; i++) clear_meta(meta[i]); free(meta); } static int delta_order_cmp(const void *pa, const void *pb) { struct got_pack_meta *a, *b; a = *(struct got_pack_meta **)pa; b = *(struct got_pack_meta **)pb; if (a->obj_type != b->obj_type) return a->obj_type - b->obj_type; if (a->path_hash < b->path_hash) return -1; if (a->path_hash > b->path_hash) return 1; if (a->mtime < b->mtime) return -1; if (a->mtime > b->mtime) return 1; return got_object_id_cmp(&a->id, &b->id); } static off_t delta_size(struct got_delta_instruction *deltas, int ndeltas) { int i; off_t size = 32; for (i = 0; i < ndeltas; i++) { if (deltas[i].copy) size += GOT_DELTA_SIZE_SHIFT; else size += deltas[i].len + 1; } return size; } static const struct got_error * append(unsigned char **p, size_t *len, off_t *sz, void *seg, int nseg) { char *n; if (*len + nseg >= *sz) { while (*len + nseg >= *sz) *sz += *sz / 2; n = realloc(*p, *sz); if (n == NULL) return got_error_from_errno("realloc"); *p = n; } memcpy(*p + *len, seg, nseg); *len += nseg; return NULL; } static const struct got_error * encode_delta_in_mem(struct got_pack_meta *m, struct got_raw_object *o, struct got_delta_instruction *deltas, int ndeltas, off_t delta_size, off_t base_size) { const struct got_error *err; unsigned char buf[16], *bp; int i, j; size_t len = 0, compressed_len; off_t bufsize = delta_size; off_t n; struct got_delta_instruction *d; uint8_t *delta_buf; delta_buf = malloc(bufsize); if (delta_buf == NULL) return got_error_from_errno("malloc"); /* base object size */ buf[0] = base_size & GOT_DELTA_SIZE_VAL_MASK; n = base_size >> GOT_DELTA_SIZE_SHIFT; for (i = 1; n > 0; i++) { buf[i - 1] |= GOT_DELTA_SIZE_MORE; buf[i] = n & GOT_DELTA_SIZE_VAL_MASK; n >>= GOT_DELTA_SIZE_SHIFT; } err = append(&delta_buf, &len, &bufsize, buf, i); if (err) goto done; /* target object size */ buf[0] = o->size & GOT_DELTA_SIZE_VAL_MASK; n = o->size >> GOT_DELTA_SIZE_SHIFT; for (i = 1; n > 0; i++) { buf[i - 1] |= GOT_DELTA_SIZE_MORE; buf[i] = n & GOT_DELTA_SIZE_VAL_MASK; n >>= GOT_DELTA_SIZE_SHIFT; } err = append(&delta_buf, &len, &bufsize, buf, i); if (err) goto done; for (j = 0; j < ndeltas; j++) { d = &deltas[j]; if (d->copy) { n = d->offset; bp = &buf[1]; buf[0] = GOT_DELTA_BASE_COPY; for (i = 0; i < 4; i++) { /* DELTA_COPY_OFF1 ... DELTA_COPY_OFF4 */ buf[0] |= 1 << i; *bp++ = n & 0xff; n >>= 8; if (n == 0) break; } n = d->len; if (n != GOT_DELTA_COPY_DEFAULT_LEN) { /* DELTA_COPY_LEN1 ... DELTA_COPY_LEN3 */ for (i = 0; i < 3 && n > 0; i++) { buf[0] |= 1 << (i + 4); *bp++ = n & 0xff; n >>= 8; } } err = append(&delta_buf, &len, &bufsize, buf, bp - buf); if (err) goto done; } else if (o->f == NULL) { n = 0; while (n != d->len) { buf[0] = (d->len - n < 127) ? d->len - n : 127; err = append(&delta_buf, &len, &bufsize, buf, 1); if (err) goto done; err = append(&delta_buf, &len, &bufsize, o->data + o->hdrlen + d->offset + n, buf[0]); if (err) goto done; n += buf[0]; } } else { char content[128]; size_t r; if (fseeko(o->f, o->hdrlen + d->offset, SEEK_SET) == -1) { err = got_error_from_errno("fseeko"); goto done; } n = 0; while (n != d->len) { buf[0] = (d->len - n < 127) ? d->len - n : 127; err = append(&delta_buf, &len, &bufsize, buf, 1); if (err) goto done; r = fread(content, 1, buf[0], o->f); if (r != buf[0]) { err = got_ferror(o->f, GOT_ERR_IO); goto done; } err = append(&delta_buf, &len, &bufsize, content, buf[0]); if (err) goto done; n += buf[0]; } } } err = got_deflate_to_mem_mmap(&m->delta_buf, &compressed_len, NULL, NULL, delta_buf, 0, len); if (err) goto done; m->delta_len = len; m->delta_compressed_len = compressed_len; done: free(delta_buf); return err; } static const struct got_error * encode_delta(struct got_pack_meta *m, struct got_raw_object *o, struct got_delta_instruction *deltas, int ndeltas, off_t base_size, FILE *f) { const struct got_error *err; unsigned char buf[16], *bp; int i, j; off_t n; struct got_deflate_buf zb; struct got_delta_instruction *d; off_t delta_len = 0, compressed_len = 0; err = got_deflate_init(&zb, NULL, GOT_DEFLATE_BUFSIZE); if (err) return err; /* base object size */ buf[0] = base_size & GOT_DELTA_SIZE_VAL_MASK; n = base_size >> GOT_DELTA_SIZE_SHIFT; for (i = 1; n > 0; i++) { buf[i - 1] |= GOT_DELTA_SIZE_MORE; buf[i] = n & GOT_DELTA_SIZE_VAL_MASK; n >>= GOT_DELTA_SIZE_SHIFT; } err = got_deflate_append_to_file_mmap(&zb, &compressed_len, buf, 0, i, f, NULL); if (err) goto done; delta_len += i; /* target object size */ buf[0] = o->size & GOT_DELTA_SIZE_VAL_MASK; n = o->size >> GOT_DELTA_SIZE_SHIFT; for (i = 1; n > 0; i++) { buf[i - 1] |= GOT_DELTA_SIZE_MORE; buf[i] = n & GOT_DELTA_SIZE_VAL_MASK; n >>= GOT_DELTA_SIZE_SHIFT; } err = got_deflate_append_to_file_mmap(&zb, &compressed_len, buf, 0, i, f, NULL); if (err) goto done; delta_len += i; for (j = 0; j < ndeltas; j++) { d = &deltas[j]; if (d->copy) { n = d->offset; bp = &buf[1]; buf[0] = GOT_DELTA_BASE_COPY; for (i = 0; i < 4; i++) { /* DELTA_COPY_OFF1 ... DELTA_COPY_OFF4 */ buf[0] |= 1 << i; *bp++ = n & 0xff; n >>= 8; if (n == 0) break; } n = d->len; if (n != GOT_DELTA_COPY_DEFAULT_LEN) { /* DELTA_COPY_LEN1 ... DELTA_COPY_LEN3 */ for (i = 0; i < 3 && n > 0; i++) { buf[0] |= 1 << (i + 4); *bp++ = n & 0xff; n >>= 8; } } err = got_deflate_append_to_file_mmap(&zb, &compressed_len, buf, 0, bp - buf, f, NULL); if (err) goto done; delta_len += (bp - buf); } else if (o->f == NULL) { n = 0; while (n != d->len) { buf[0] = (d->len - n < 127) ? d->len - n : 127; err = got_deflate_append_to_file_mmap(&zb, &compressed_len, buf, 0, 1, f, NULL); if (err) goto done; delta_len++; err = got_deflate_append_to_file_mmap(&zb, &compressed_len, o->data + o->hdrlen + d->offset + n, 0, buf[0], f, NULL); if (err) goto done; delta_len += buf[0]; n += buf[0]; } } else { char content[128]; size_t r; if (fseeko(o->f, o->hdrlen + d->offset, SEEK_SET) == -1) { err = got_error_from_errno("fseeko"); goto done; } n = 0; while (n != d->len) { buf[0] = (d->len - n < 127) ? d->len - n : 127; err = got_deflate_append_to_file_mmap(&zb, &compressed_len, buf, 0, 1, f, NULL); if (err) goto done; delta_len++; r = fread(content, 1, buf[0], o->f); if (r != buf[0]) { err = got_ferror(o->f, GOT_ERR_IO); goto done; } err = got_deflate_append_to_file_mmap(&zb, &compressed_len, content, 0, buf[0], f, NULL); if (err) goto done; delta_len += buf[0]; n += buf[0]; } } } err = got_deflate_flush(&zb, f, NULL, &compressed_len); if (err) goto done; /* sanity check */ if (compressed_len != ftello(f) - m->delta_offset) { err = got_error(GOT_ERR_COMPRESSION); goto done; } m->delta_len = delta_len; m->delta_compressed_len = compressed_len; done: got_deflate_end(&zb); return err; } const struct got_error * got_pack_report_progress(got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl, int ncolored, int nfound, int ntrees, off_t packfile_size, int ncommits, int nobj_total, int obj_deltify, int nobj_written) { const struct got_error *err; int elapsed; if (progress_cb == NULL) return NULL; err = got_ratelimit_check(&elapsed, rl); if (err || !elapsed) return err; return progress_cb(progress_arg, ncolored, nfound, ntrees, packfile_size, ncommits, nobj_total, obj_deltify, nobj_written); } const struct got_error * got_pack_add_meta(struct got_pack_meta *m, struct got_pack_metavec *v) { if (v->nmeta == v->metasz){ size_t newsize = 2 * v->metasz; struct got_pack_meta **new; new = reallocarray(v->meta, newsize, sizeof(*new)); if (new == NULL) return got_error_from_errno("reallocarray"); v->meta = new; v->metasz = newsize; } v->meta[v->nmeta++] = m; return NULL; } const struct got_error * got_pack_find_pack_for_reuse(struct got_packidx **best_packidx, struct got_repository *repo) { const struct got_error *err = NULL; struct got_pathlist_entry *pe; const char *best_packidx_path = NULL; int nobj_max = 0; *best_packidx = NULL; TAILQ_FOREACH(pe, &repo->packidx_paths, entry) { const char *path_packidx = pe->path; struct got_packidx *packidx; int nobj; err = got_repo_get_packidx(&packidx, path_packidx, repo); if (err) break; nobj = be32toh(packidx->hdr.fanout_table[0xff]); if (nobj > nobj_max) { best_packidx_path = path_packidx; nobj_max = nobj; } } if (best_packidx_path) { err = got_repo_get_packidx(best_packidx, best_packidx_path, repo); } return err; } const struct got_error * got_pack_cache_pack_for_packidx(struct got_pack **pack, struct got_packidx *packidx, struct got_repository *repo) { const struct got_error *err; char *path_packfile = NULL; err = got_packidx_get_packfile_path(&path_packfile, packidx->path_packidx); if (err) return err; *pack = got_repo_get_cached_pack(repo, path_packfile); if (*pack == NULL) { err = got_repo_cache_pack(pack, repo, path_packfile, packidx); if (err) goto done; } done: free(path_packfile); return err; } static const struct got_error * pick_deltas(struct got_pack_meta **meta, int nmeta, int ncolored, int nfound, int ntrees, int ncommits, int nreused, FILE *delta_cache, struct got_repository *repo, got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl, got_cancel_cb cancel_cb, void *cancel_arg) { const struct got_error *err = NULL; struct got_pack_meta *m = NULL, *base = NULL; struct got_raw_object *raw = NULL, *base_raw = NULL; struct got_delta_instruction *deltas = NULL, *best_deltas = NULL; int i, j, ndeltas, best_ndeltas; off_t size, best_size; const int max_base_candidates = 3; size_t delta_memsize = 0; const size_t max_delta_memsize = 4 * GOT_DELTA_RESULT_SIZE_CACHED_MAX; int outfd = -1; uint32_t delta_seed; delta_seed = arc4random(); qsort(meta, nmeta, sizeof(struct got_pack_meta *), delta_order_cmp); for (i = 0; i < nmeta; i++) { if (cancel_cb) { err = (*cancel_cb)(cancel_arg); if (err) break; } err = got_pack_report_progress(progress_cb, progress_arg, rl, ncolored, nfound, ntrees, 0L, ncommits, nreused + nmeta, nreused + i, 0); if (err) goto done; m = meta[i]; if (m->obj_type == GOT_OBJ_TYPE_COMMIT || m->obj_type == GOT_OBJ_TYPE_TAG) continue; err = got_object_raw_open(&raw, &outfd, repo, &m->id); if (err) goto done; m->size = raw->size; if (raw->f == NULL) { err = got_deltify_init_mem(&m->dtab, raw->data, raw->hdrlen, raw->size + raw->hdrlen, delta_seed); } else { err = got_deltify_init(&m->dtab, raw->f, raw->hdrlen, raw->size + raw->hdrlen, delta_seed); } if (err) goto done; if (i > max_base_candidates) { struct got_pack_meta *n = NULL; n = meta[i - (max_base_candidates + 1)]; got_deltify_free(n->dtab); n->dtab = NULL; } best_size = raw->size; best_ndeltas = 0; for (j = MAX(0, i - max_base_candidates); j < i; j++) { if (cancel_cb) { err = (*cancel_cb)(cancel_arg); if (err) goto done; } base = meta[j]; /* long chains make unpacking slow, avoid such bases */ if (base->nchain >= 128 || base->obj_type != m->obj_type) continue; err = got_object_raw_open(&base_raw, &outfd, repo, &base->id); if (err) goto done; if (raw->f == NULL && base_raw->f == NULL) { err = got_deltify_mem_mem(&deltas, &ndeltas, raw->data, raw->hdrlen, raw->size + raw->hdrlen, delta_seed, base->dtab, base_raw->data, base_raw->hdrlen, base_raw->size + base_raw->hdrlen); } else if (raw->f == NULL) { err = got_deltify_mem_file(&deltas, &ndeltas, raw->data, raw->hdrlen, raw->size + raw->hdrlen, delta_seed, base->dtab, base_raw->f, base_raw->hdrlen, base_raw->size + base_raw->hdrlen); } else if (base_raw->f == NULL) { err = got_deltify_file_mem(&deltas, &ndeltas, raw->f, raw->hdrlen, raw->size + raw->hdrlen, delta_seed, base->dtab, base_raw->data, base_raw->hdrlen, base_raw->size + base_raw->hdrlen); } else { err = got_deltify(&deltas, &ndeltas, raw->f, raw->hdrlen, raw->size + raw->hdrlen, delta_seed, base->dtab, base_raw->f, base_raw->hdrlen, base_raw->size + base_raw->hdrlen); } got_object_raw_close(base_raw); base_raw = NULL; if (err) goto done; size = delta_size(deltas, ndeltas); if (size + 32 < best_size){ /* * if we already picked a best delta, * replace it. */ best_size = size; free(best_deltas); best_deltas = deltas; best_ndeltas = ndeltas; deltas = NULL; m->nchain = base->nchain + 1; m->prev = base; m->head = base->head; if (m->head == NULL) m->head = base; } else { free(deltas); deltas = NULL; ndeltas = 0; } } if (best_ndeltas > 0) { if (best_size <= GOT_DELTA_RESULT_SIZE_CACHED_MAX && delta_memsize + best_size <= max_delta_memsize) { delta_memsize += best_size; err = encode_delta_in_mem(m, raw, best_deltas, best_ndeltas, best_size, m->prev->size); } else { m->delta_offset = ftello(delta_cache); err = encode_delta(m, raw, best_deltas, best_ndeltas, m->prev->size, delta_cache); } free(best_deltas); best_deltas = NULL; best_ndeltas = 0; if (err) goto done; } got_object_raw_close(raw); raw = NULL; } done: for (i = MAX(0, nmeta - max_base_candidates); i < nmeta; i++) { got_deltify_free(meta[i]->dtab); meta[i]->dtab = NULL; } if (raw) got_object_raw_close(raw); if (base_raw) got_object_raw_close(base_raw); if (outfd != -1 && close(outfd) == -1 && err == NULL) err = got_error_from_errno("close"); free(deltas); free(best_deltas); return err; } static const struct got_error * search_packidx(int *found, struct got_object_id *id, struct got_repository *repo) { const struct got_error *err = NULL; struct got_packidx *packidx = NULL; int idx; *found = 0; err = got_repo_search_packidx(&packidx, &idx, repo, id); if (err == NULL) *found = 1; /* object is already packed */ else if (err->code == GOT_ERR_NO_OBJ) err = NULL; return err; } const struct got_error * got_pack_add_object(int want_meta, struct got_object_idset *idset, struct got_object_id *id, const char *path, int obj_type, time_t mtime, uint32_t seed, int loose_obj_only, struct got_repository *repo, int *ncolored, int *nfound, int *ntrees, got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl) { const struct got_error *err; struct got_pack_meta *m = NULL; if (loose_obj_only) { int is_packed; err = search_packidx(&is_packed, id, repo); if (err) return err; if (is_packed && want_meta) return NULL; } if (want_meta) { err = alloc_meta(&m, id, path, obj_type, mtime, seed); if (err) return err; (*nfound)++; err = got_pack_report_progress(progress_cb, progress_arg, rl, *ncolored, *nfound, *ntrees, 0L, 0, 0, 0, 0); if (err) { clear_meta(m); free(m); return err; } } err = got_object_idset_add(idset, id, m); if (err) { clear_meta(m); free(m); } return err; } const struct got_error * got_pack_load_tree_entries(struct got_object_id_queue *ids, int want_meta, struct got_object_idset *idset, struct got_object_idset *idset_exclude, struct got_tree_object *tree, const char *dpath, time_t mtime, uint32_t seed, struct got_repository *repo, int loose_obj_only, int *ncolored, int *nfound, int *ntrees, got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl, got_cancel_cb cancel_cb, void *cancel_arg) { const struct got_error *err; char *p = NULL; int i; (*ntrees)++; err = got_pack_report_progress(progress_cb, progress_arg, rl, *ncolored, *nfound, *ntrees, 0L, 0, 0, 0, 0); if (err) return err; for (i = 0; i < got_object_tree_get_nentries(tree); i++) { struct got_tree_entry *e = got_object_tree_get_entry(tree, i); struct got_object_id *id = got_tree_entry_get_id(e); mode_t mode = got_tree_entry_get_mode(e); if (cancel_cb) { err = (*cancel_cb)(cancel_arg); if (err) break; } if (got_object_tree_entry_is_submodule(e) || got_object_idset_contains(idset, id) || got_object_idset_contains(idset_exclude, id)) continue; /* * If got-read-pack is crawling trees for us then * we are only here to collect blob IDs. */ if (ids == NULL && S_ISDIR(mode)) continue; if (asprintf(&p, "%s%s%s", dpath, got_path_is_root_dir(dpath) ? "" : "/", got_tree_entry_get_name(e)) == -1) { err = got_error_from_errno("asprintf"); break; } if (S_ISDIR(mode)) { struct got_object_qid *qid; err = got_object_qid_alloc(&qid, id); if (err) break; qid->data = p; p = NULL; STAILQ_INSERT_TAIL(ids, qid, entry); } else if (S_ISREG(mode) || S_ISLNK(mode)) { err = got_pack_add_object(want_meta, want_meta ? idset : idset_exclude, id, p, GOT_OBJ_TYPE_BLOB, mtime, seed, loose_obj_only, repo, ncolored, nfound, ntrees, progress_cb, progress_arg, rl); if (err) break; free(p); p = NULL; } else { free(p); p = NULL; } } free(p); return err; } const struct got_error * got_pack_load_tree(int want_meta, struct got_object_idset *idset, struct got_object_idset *idset_exclude, struct got_object_id *tree_id, const char *dpath, time_t mtime, uint32_t seed, struct got_repository *repo, int loose_obj_only, int *ncolored, int *nfound, int *ntrees, got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl, got_cancel_cb cancel_cb, void *cancel_arg) { const struct got_error *err = NULL; struct got_object_id_queue tree_ids; struct got_object_qid *qid; struct got_tree_object *tree = NULL; if (got_object_idset_contains(idset, tree_id) || got_object_idset_contains(idset_exclude, tree_id)) return NULL; err = got_object_qid_alloc(&qid, tree_id); if (err) return err; qid->data = strdup(dpath); if (qid->data == NULL) { err = got_error_from_errno("strdup"); got_object_qid_free(qid); return err; } STAILQ_INIT(&tree_ids); STAILQ_INSERT_TAIL(&tree_ids, qid, entry); while (!STAILQ_EMPTY(&tree_ids)) { const char *path; if (cancel_cb) { err = (*cancel_cb)(cancel_arg); if (err) break; } qid = STAILQ_FIRST(&tree_ids); STAILQ_REMOVE_HEAD(&tree_ids, entry); path = qid->data; if (got_object_idset_contains(idset, &qid->id) || got_object_idset_contains(idset_exclude, &qid->id)) { free(qid->data); got_object_qid_free(qid); continue; } err = got_pack_add_object(want_meta, want_meta ? idset : idset_exclude, &qid->id, path, GOT_OBJ_TYPE_TREE, mtime, seed, loose_obj_only, repo, ncolored, nfound, ntrees, progress_cb, progress_arg, rl); if (err) { free(qid->data); got_object_qid_free(qid); break; } err = got_object_open_as_tree(&tree, repo, &qid->id); if (err) { free(qid->data); got_object_qid_free(qid); break; } err = got_pack_load_tree_entries(&tree_ids, want_meta, idset, idset_exclude, tree, path, mtime, seed, repo, loose_obj_only, ncolored, nfound, ntrees, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); free(qid->data); got_object_qid_free(qid); if (err) break; got_object_tree_close(tree); tree = NULL; } STAILQ_FOREACH(qid, &tree_ids, entry) free(qid->data); got_object_id_queue_free(&tree_ids); if (tree) got_object_tree_close(tree); return err; } static const struct got_error * load_commit(int want_meta, struct got_object_idset *idset, struct got_object_idset *idset_exclude, struct got_object_id *id, struct got_repository *repo, uint32_t seed, int loose_obj_only, int *ncolored, int *nfound, int *ntrees, got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl, got_cancel_cb cancel_cb, void *cancel_arg) { const struct got_error *err; struct got_commit_object *commit; if (got_object_idset_contains(idset, id) || got_object_idset_contains(idset_exclude, id)) return NULL; if (loose_obj_only) { int is_packed; err = search_packidx(&is_packed, id, repo); if (err) return err; if (is_packed && want_meta) return NULL; } err = got_object_open_as_commit(&commit, repo, id); if (err) return err; err = got_pack_add_object(want_meta, want_meta ? idset : idset_exclude, id, "", GOT_OBJ_TYPE_COMMIT, got_object_commit_get_committer_time(commit), seed, loose_obj_only, repo, ncolored, nfound, ntrees, progress_cb, progress_arg, rl); if (err) goto done; err = got_pack_load_tree(want_meta, idset, idset_exclude, got_object_commit_get_tree_id(commit), "", got_object_commit_get_committer_time(commit), seed, repo, loose_obj_only, ncolored, nfound, ntrees, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); done: got_object_commit_close(commit); return err; } static const struct got_error * load_tag(int want_meta, struct got_object_idset *idset, struct got_object_idset *idset_exclude, struct got_object_id *id, struct got_repository *repo, uint32_t seed, int loose_obj_only, int *ncolored, int *nfound, int *ntrees, got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl, got_cancel_cb cancel_cb, void *cancel_arg) { const struct got_error *err; struct got_tag_object *tag = NULL; if (got_object_idset_contains(idset, id) || got_object_idset_contains(idset_exclude, id)) return NULL; if (loose_obj_only) { int is_packed; err = search_packidx(&is_packed, id, repo); if (err) return err; if (is_packed && want_meta) return NULL; } err = got_object_open_as_tag(&tag, repo, id); if (err) return err; err = got_pack_add_object(want_meta, want_meta ? idset : idset_exclude, id, "", GOT_OBJ_TYPE_TAG, got_object_tag_get_tagger_time(tag), seed, loose_obj_only, repo, ncolored, nfound, ntrees, progress_cb, progress_arg, rl); if (err) goto done; switch (got_object_tag_get_object_type(tag)) { case GOT_OBJ_TYPE_COMMIT: err = load_commit(want_meta, idset, idset_exclude, got_object_tag_get_object_id(tag), repo, seed, loose_obj_only, ncolored, nfound, ntrees, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); break; case GOT_OBJ_TYPE_TREE: err = got_pack_load_tree(want_meta, idset, idset_exclude, got_object_tag_get_object_id(tag), "", got_object_tag_get_tagger_time(tag), seed, repo, loose_obj_only, ncolored, nfound, ntrees, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); break; default: break; } done: got_object_tag_close(tag); return err; } const struct got_error * got_pack_paint_commit(struct got_object_qid *qid, intptr_t color) { if (color < 0 || color >= COLOR_MAX) return got_error(GOT_ERR_RANGE); qid->data = (void *)color; return NULL; } const struct got_error * got_pack_queue_commit_id(struct got_object_id_queue *ids, struct got_object_id *id, intptr_t color, struct got_repository *repo) { const struct got_error *err; struct got_object_qid *qid; err = got_object_qid_alloc(&qid, id); if (err) return err; STAILQ_INSERT_TAIL(ids, qid, entry); return got_pack_paint_commit(qid, color); } struct append_id_arg { struct got_object_id **array; int idx; struct got_object_idset *drop; struct got_object_idset *skip; }; static const struct got_error * append_id(struct got_object_id *id, void *data, void *arg) { struct append_id_arg *a = arg; if (got_object_idset_contains(a->skip, id) || got_object_idset_contains(a->drop, id)) return NULL; a->array[++a->idx] = got_object_id_dup(id); if (a->array[a->idx] == NULL) return got_error_from_errno("got_object_id_dup"); return NULL; } static const struct got_error * queue_commit_or_tag_id(struct got_object_id *id, intptr_t color, struct got_object_id_queue *ids, struct got_repository *repo) { const struct got_error *err; struct got_tag_object *tag = NULL; int obj_type; err = got_object_get_type(&obj_type, repo, id); if (err) return err; if (obj_type == GOT_OBJ_TYPE_TAG) { err = got_object_open_as_tag(&tag, repo, id); if (err) return err; obj_type = got_object_tag_get_object_type(tag); id = got_object_tag_get_object_id(tag); } if (obj_type == GOT_OBJ_TYPE_COMMIT) { err = got_pack_queue_commit_id(ids, id, color, repo); if (err) goto done; } done: if (tag) got_object_tag_close(tag); return err; } const struct got_error * got_pack_find_pack_for_commit_painting(struct got_packidx **best_packidx, struct got_object_id_queue *ids, int nids, struct got_repository *repo) { const struct got_error *err = NULL; struct got_pathlist_entry *pe; const char *best_packidx_path = NULL; int nobj_max = 0; int ncommits_max = 0; *best_packidx = NULL; /* * Find the largest pack which contains at least some of the * commits we are interested in. */ TAILQ_FOREACH(pe, &repo->packidx_paths, entry) { const char *path_packidx = pe->path; struct got_packidx *packidx; int nobj, idx, ncommits = 0; struct got_object_qid *qid; err = got_repo_get_packidx(&packidx, path_packidx, repo); if (err) break; nobj = be32toh(packidx->hdr.fanout_table[0xff]); if (nobj <= nobj_max) continue; STAILQ_FOREACH(qid, ids, entry) { idx = got_packidx_get_object_idx(packidx, &qid->id); if (idx != -1) ncommits++; } if (ncommits > ncommits_max) { best_packidx_path = path_packidx; nobj_max = nobj; ncommits_max = ncommits; } } if (best_packidx_path && err == NULL) { err = got_repo_get_packidx(best_packidx, best_packidx_path, repo); } return err; } static const struct got_error * findtwixt(struct got_object_id ***res, int *nres, int *ncolored, struct got_object_id **head, int nhead, struct got_object_id **tail, int ntail, struct got_repository *repo, got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl, got_cancel_cb cancel_cb, void *cancel_arg) { const struct got_error *err = NULL; struct got_object_id_queue ids; struct got_object_idset *keep, *drop, *skip = NULL; int i, nkeep; STAILQ_INIT(&ids); *res = NULL; *nres = 0; *ncolored = 0; keep = got_object_idset_alloc(); if (keep == NULL) return got_error_from_errno("got_object_idset_alloc"); drop = got_object_idset_alloc(); if (drop == NULL) { err = got_error_from_errno("got_object_idset_alloc"); goto done; } skip = got_object_idset_alloc(); if (skip == NULL) { err = got_error_from_errno("got_object_idset_alloc"); goto done; } for (i = 0; i < nhead; i++) { struct got_object_id *id = head[i]; if (id == NULL) continue; err = queue_commit_or_tag_id(id, COLOR_KEEP, &ids, repo); if (err) goto done; } for (i = 0; i < ntail; i++) { struct got_object_id *id = tail[i]; if (id == NULL) continue; err = queue_commit_or_tag_id(id, COLOR_DROP, &ids, repo); if (err) goto done; } err = got_pack_paint_commits(ncolored, &ids, nhead + ntail, keep, drop, skip, repo, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; nkeep = got_object_idset_num_elements(keep); if (nkeep > 0) { struct append_id_arg arg; arg.array = calloc(nkeep, sizeof(struct got_object_id *)); if (arg.array == NULL) { err = got_error_from_errno("calloc"); goto done; } arg.idx = -1; arg.skip = skip; arg.drop = drop; err = got_object_idset_for_each(keep, append_id, &arg); if (err) { free(arg.array); goto done; } *res = arg.array; *nres = arg.idx + 1; } done: got_object_idset_free(keep); got_object_idset_free(drop); if (skip) got_object_idset_free(skip); got_object_id_queue_free(&ids); return err; } static const struct got_error * find_pack_for_enumeration(struct got_packidx **best_packidx, struct got_object_id **ids, int nids, struct got_repository *repo) { const struct got_error *err = NULL; struct got_pathlist_entry *pe; const char *best_packidx_path = NULL; int nobj_max = 0; int ncommits_max = 0; *best_packidx = NULL; /* * Find the largest pack which contains at least some of the * commits and tags we are interested in. */ TAILQ_FOREACH(pe, &repo->packidx_paths, entry) { const char *path_packidx = pe->path; struct got_packidx *packidx; int nobj, i, idx, ncommits = 0; err = got_repo_get_packidx(&packidx, path_packidx, repo); if (err) break; nobj = be32toh(packidx->hdr.fanout_table[0xff]); if (nobj <= nobj_max) continue; for (i = 0; i < nids; i++) { idx = got_packidx_get_object_idx(packidx, ids[i]); if (idx != -1) ncommits++; } if (ncommits > ncommits_max) { best_packidx_path = path_packidx; nobj_max = nobj; ncommits_max = ncommits; } } if (best_packidx_path && err == NULL) { err = got_repo_get_packidx(best_packidx, best_packidx_path, repo); } return err; } static const struct got_error * load_object_ids(int *ncolored, int *nfound, int *ntrees, struct got_object_idset *idset, struct got_object_id **theirs, int ntheirs, struct got_object_id **ours, int nours, struct got_repository *repo, uint32_t seed, int loose_obj_only, got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl, got_cancel_cb cancel_cb, void *cancel_arg) { const struct got_error *err = NULL; struct got_object_id **ids = NULL; struct got_packidx *packidx = NULL; int i, nobj = 0, obj_type, found_all_objects = 0; struct got_object_idset *idset_exclude; idset_exclude = got_object_idset_alloc(); if (idset_exclude == NULL) return got_error_from_errno("got_object_idset_alloc"); *ncolored = 0; *nfound = 0; *ntrees = 0; err = findtwixt(&ids, &nobj, ncolored, ours, nours, theirs, ntheirs, repo, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; err = find_pack_for_enumeration(&packidx, theirs, ntheirs, repo); if (err) goto done; if (packidx) { err = got_pack_load_packed_object_ids(&found_all_objects, theirs, ntheirs, NULL, 0, 0, seed, idset, idset_exclude, loose_obj_only, repo, packidx, ncolored, nfound, ntrees, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; } for (i = 0; i < ntheirs; i++) { struct got_object_id *id = theirs[i]; if (id == NULL) continue; err = got_object_get_type(&obj_type, repo, id); if (err) return err; if (obj_type == GOT_OBJ_TYPE_COMMIT) { if (!found_all_objects) { err = load_commit(0, idset, idset_exclude, id, repo, seed, loose_obj_only, ncolored, nfound, ntrees, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; } } else if (obj_type == GOT_OBJ_TYPE_TAG) { err = load_tag(0, idset, idset_exclude, id, repo, seed, loose_obj_only, ncolored, nfound, ntrees, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; } } found_all_objects = 0; err = find_pack_for_enumeration(&packidx, ids, nobj, repo); if (err) goto done; if (packidx) { err = got_pack_load_packed_object_ids(&found_all_objects, ids, nobj, theirs, ntheirs, 1, seed, idset, idset_exclude, loose_obj_only, repo, packidx, ncolored, nfound, ntrees, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; } if (!found_all_objects) { for (i = 0; i < nobj; i++) { err = load_commit(1, idset, idset_exclude, ids[i], repo, seed, loose_obj_only, ncolored, nfound, ntrees, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; } } for (i = 0; i < nours; i++) { struct got_object_id *id = ours[i]; struct got_pack_meta *m; if (id == NULL) continue; m = got_object_idset_get(idset, id); if (m == NULL) { err = got_object_get_type(&obj_type, repo, id); if (err) goto done; } else obj_type = m->obj_type; if (obj_type != GOT_OBJ_TYPE_TAG) continue; err = load_tag(1, idset, idset_exclude, id, repo, seed, loose_obj_only, ncolored, nfound, ntrees, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; } done: for (i = 0; i < nobj; i++) { free(ids[i]); } free(ids); got_object_idset_free(idset_exclude); return err; } static const struct got_error * hwrite(int fd, const void *buf, off_t len, struct got_hash *ctx) { got_hash_update(ctx, buf, len); return got_poll_write_full(fd, buf, len); } static const struct got_error * hcopy(FILE *fsrc, int fd_dst, off_t len, struct got_hash *ctx) { const struct got_error *err; unsigned char buf[65536]; off_t remain = len; size_t n; while (remain > 0) { size_t copylen = MIN(sizeof(buf), remain); n = fread(buf, 1, copylen, fsrc); if (n != copylen) return got_ferror(fsrc, GOT_ERR_IO); got_hash_update(ctx, buf, copylen); err = got_poll_write_full(fd_dst, buf, copylen); if (err) return err; remain -= copylen; } return NULL; } static const struct got_error * hcopy_mmap(uint8_t *src, off_t src_offset, size_t src_size, int fd, off_t len, struct got_hash *ctx) { if (src_offset + len > src_size) return got_error(GOT_ERR_RANGE); got_hash_update(ctx, src + src_offset, len); return got_poll_write_full(fd, src + src_offset, len); } static void putbe32(char *b, uint32_t n) { b[0] = n >> 24; b[1] = n >> 16; b[2] = n >> 8; b[3] = n >> 0; } static int write_order_cmp(const void *pa, const void *pb) { struct got_pack_meta *a, *b, *ahd, *bhd; a = *(struct got_pack_meta **)pa; b = *(struct got_pack_meta **)pb; ahd = (a->head == NULL) ? a : a->head; bhd = (b->head == NULL) ? b : b->head; if (bhd->mtime < ahd->mtime) return -1; if (bhd->mtime > ahd->mtime) return 1; if (bhd < ahd) return -1; if (bhd > ahd) return 1; if (a->nchain != b->nchain) return a->nchain - b->nchain; if (a->mtime < b->mtime) return -1; if (a->mtime > b->mtime) return 1; return got_object_id_cmp(&a->id, &b->id); } static int reuse_write_order_cmp(const void *pa, const void *pb) { struct got_pack_meta *a, *b; a = *(struct got_pack_meta **)pa; b = *(struct got_pack_meta **)pb; if (a->reused_delta_offset < b->reused_delta_offset) return -1; if (a->reused_delta_offset > b->reused_delta_offset) return 1; return 0; } static const struct got_error * packhdr(int *hdrlen, char *hdr, size_t bufsize, int obj_type, size_t len) { size_t i; *hdrlen = 0; hdr[0] = obj_type << 4; hdr[0] |= len & 0xf; len >>= 4; for (i = 1; len != 0; i++){ if (i >= bufsize) return got_error(GOT_ERR_NO_SPACE); hdr[i - 1] |= GOT_DELTA_SIZE_MORE; hdr[i] = len & GOT_DELTA_SIZE_VAL_MASK; len >>= GOT_DELTA_SIZE_SHIFT; } *hdrlen = i; return NULL; } static int packoff(char *hdr, off_t off) { int i, j; char rbuf[8]; rbuf[0] = off & GOT_DELTA_SIZE_VAL_MASK; for (i = 1; (off >>= GOT_DELTA_SIZE_SHIFT) != 0; i++) { rbuf[i] = (--off & GOT_DELTA_SIZE_VAL_MASK) | GOT_DELTA_SIZE_MORE; } j = 0; while (i > 0) hdr[j++] = rbuf[--i]; return j; } static const struct got_error * deltahdr(off_t *packfile_size, struct got_hash *ctx, int packfd, int force_refdelta, struct got_pack_meta *m) { const struct got_error *err; char buf[32]; int nh; if (m->prev->off != 0 && !force_refdelta) { err = packhdr(&nh, buf, sizeof(buf), GOT_OBJ_TYPE_OFFSET_DELTA, m->delta_len); if (err) return err; nh += packoff(buf + nh, m->off - m->prev->off); err = hwrite(packfd, buf, nh, ctx); if (err) return err; *packfile_size += nh; } else { err = packhdr(&nh, buf, sizeof(buf), GOT_OBJ_TYPE_REF_DELTA, m->delta_len); if (err) return err; err = hwrite(packfd, buf, nh, ctx); if (err) return err; *packfile_size += nh; err = hwrite(packfd, m->prev->id.sha1, sizeof(m->prev->id.sha1), ctx); if (err) return err; *packfile_size += sizeof(m->prev->id.sha1); } return NULL; } static const struct got_error * write_packed_object(off_t *packfile_size, int packfd, FILE *delta_cache, uint8_t *delta_cache_map, size_t delta_cache_size, struct got_pack_meta *m, int *outfd, struct got_hash *ctx, struct got_repository *repo, int force_refdelta) { const struct got_error *err = NULL; struct got_deflate_checksum csum; char buf[32]; int nh; struct got_raw_object *raw = NULL; off_t outlen, delta_offset; memset(&csum, 0, sizeof(csum)); csum.output_ctx = ctx; if (m->reused_delta_offset) delta_offset = m->reused_delta_offset; else delta_offset = m->delta_offset; m->off = *packfile_size; if (m->delta_len == 0) { err = got_object_raw_open(&raw, outfd, repo, &m->id); if (err) goto done; err = packhdr(&nh, buf, sizeof(buf), m->obj_type, raw->size); if (err) goto done; err = hwrite(packfd, buf, nh, ctx); if (err) goto done; *packfile_size += nh; if (raw->f == NULL) { err = got_deflate_to_fd_mmap(&outlen, raw->data + raw->hdrlen, 0, raw->size, packfd, &csum); if (err) goto done; } else { if (fseeko(raw->f, raw->hdrlen, SEEK_SET) == -1) { err = got_error_from_errno("fseeko"); goto done; } err = got_deflate_to_fd(&outlen, raw->f, raw->size, packfd, &csum); if (err) goto done; } *packfile_size += outlen; got_object_raw_close(raw); raw = NULL; } else if (m->delta_buf) { err = deltahdr(packfile_size, ctx, packfd, force_refdelta, m); if (err) goto done; err = hwrite(packfd, m->delta_buf, m->delta_compressed_len, ctx); if (err) goto done; *packfile_size += m->delta_compressed_len; free(m->delta_buf); m->delta_buf = NULL; } else if (delta_cache_map) { err = deltahdr(packfile_size, ctx, packfd, force_refdelta, m); if (err) goto done; err = hcopy_mmap(delta_cache_map, delta_offset, delta_cache_size, packfd, m->delta_compressed_len, ctx); if (err) goto done; *packfile_size += m->delta_compressed_len; } else { if (fseeko(delta_cache, delta_offset, SEEK_SET) == -1) { err = got_error_from_errno("fseeko"); goto done; } err = deltahdr(packfile_size, ctx, packfd, force_refdelta, m); if (err) goto done; err = hcopy(delta_cache, packfd, m->delta_compressed_len, ctx); if (err) goto done; *packfile_size += m->delta_compressed_len; } done: if (raw) got_object_raw_close(raw); return err; } static const struct got_error * genpack(uint8_t *pack_sha1, int packfd, struct got_pack *reuse_pack, FILE *delta_cache, struct got_pack_meta **deltify, int ndeltify, struct got_pack_meta **reuse, int nreuse, int ncolored, int nfound, int ntrees, int nours, struct got_repository *repo, int force_refdelta, got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl, got_cancel_cb cancel_cb, void *cancel_arg) { const struct got_error *err = NULL; int i; struct got_hash ctx; struct got_pack_meta *m; char buf[32]; off_t packfile_size = 0; int outfd = -1; int delta_cache_fd = -1; uint8_t *delta_cache_map = NULL; size_t delta_cache_size = 0; FILE *packfile = NULL; got_hash_init(&ctx, GOT_HASH_SHA1); #ifndef GOT_PACK_NO_MMAP delta_cache_fd = dup(fileno(delta_cache)); if (delta_cache_fd != -1) { struct stat sb; if (fstat(delta_cache_fd, &sb) == -1) { err = got_error_from_errno("fstat"); goto done; } if (sb.st_size > 0 && sb.st_size <= SIZE_MAX) { delta_cache_map = mmap(NULL, sb.st_size, PROT_READ, MAP_PRIVATE, delta_cache_fd, 0); if (delta_cache_map == MAP_FAILED) { if (errno != ENOMEM) { err = got_error_from_errno("mmap"); goto done; } delta_cache_map = NULL; /* fallback on stdio */ } else delta_cache_size = (size_t)sb.st_size; } } #endif err = hwrite(packfd, "PACK", 4, &ctx); if (err) goto done; putbe32(buf, GOT_PACKFILE_VERSION); err = hwrite(packfd, buf, 4, &ctx); if (err) goto done; putbe32(buf, ndeltify + nreuse); err = hwrite(packfd, buf, 4, &ctx); if (err) goto done; qsort(deltify, ndeltify, sizeof(struct got_pack_meta *), write_order_cmp); for (i = 0; i < ndeltify; i++) { err = got_pack_report_progress(progress_cb, progress_arg, rl, ncolored, nfound, ntrees, packfile_size, nours, ndeltify + nreuse, ndeltify + nreuse, i); if (err) goto done; m = deltify[i]; err = write_packed_object(&packfile_size, packfd, delta_cache, delta_cache_map, delta_cache_size, m, &outfd, &ctx, repo, force_refdelta); if (err) goto done; } qsort(reuse, nreuse, sizeof(struct got_pack_meta *), reuse_write_order_cmp); if (nreuse > 0 && reuse_pack->map == NULL) { int fd = dup(reuse_pack->fd); if (fd == -1) { err = got_error_from_errno("dup"); goto done; } packfile = fdopen(fd, "r"); if (packfile == NULL) { err = got_error_from_errno("fdopen"); close(fd); goto done; } } for (i = 0; i < nreuse; i++) { err = got_pack_report_progress(progress_cb, progress_arg, rl, ncolored, nfound, ntrees, packfile_size, nours, ndeltify + nreuse, ndeltify + nreuse, ndeltify + i); if (err) goto done; m = reuse[i]; err = write_packed_object(&packfile_size, packfd, packfile, reuse_pack->map, reuse_pack->filesize, m, &outfd, &ctx, repo, force_refdelta); if (err) goto done; } got_hash_final(&ctx, pack_sha1); err = got_poll_write_full(packfd, pack_sha1, SHA1_DIGEST_LENGTH); if (err) goto done; packfile_size += SHA1_DIGEST_LENGTH; packfile_size += sizeof(struct got_packfile_hdr); if (progress_cb) { err = progress_cb(progress_arg, ncolored, nfound, ntrees, packfile_size, nours, ndeltify + nreuse, ndeltify + nreuse, ndeltify + nreuse); if (err) goto done; } done: if (outfd != -1 && close(outfd) == -1 && err == NULL) err = got_error_from_errno("close"); if (delta_cache_map && munmap(delta_cache_map, delta_cache_size) == -1) err = got_error_from_errno("munmap"); if (delta_cache_fd != -1 && close(delta_cache_fd) == -1 && err == NULL) err = got_error_from_errno("close"); if (packfile && fclose(packfile) == EOF && err == NULL) err = got_error_from_errno("fclose"); return err; } static const struct got_error * add_meta_idset_cb(struct got_object_id *id, void *data, void *arg) { struct got_pack_meta *m = data; struct got_pack_metavec *v = arg; if (m->reused_delta_offset != 0) return NULL; return got_pack_add_meta(m, v); } const struct got_error * got_pack_create(uint8_t *packsha1, int packfd, FILE *delta_cache, struct got_object_id **theirs, int ntheirs, struct got_object_id **ours, int nours, struct got_repository *repo, int loose_obj_only, int allow_empty, int force_refdelta, got_pack_progress_cb progress_cb, void *progress_arg, struct got_ratelimit *rl, got_cancel_cb cancel_cb, void *cancel_arg) { const struct got_error *err; struct got_object_idset *idset; struct got_packidx *reuse_packidx = NULL; struct got_pack *reuse_pack = NULL; struct got_pack_metavec deltify, reuse; int ncolored = 0, nfound = 0, ntrees = 0; size_t ndeltify; uint32_t seed; seed = arc4random(); memset(&deltify, 0, sizeof(deltify)); memset(&reuse, 0, sizeof(reuse)); idset = got_object_idset_alloc(); if (idset == NULL) return got_error_from_errno("got_object_idset_alloc"); err = load_object_ids(&ncolored, &nfound, &ntrees, idset, theirs, ntheirs, ours, nours, repo, seed, loose_obj_only, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; if (progress_cb) { err = progress_cb(progress_arg, ncolored, nfound, ntrees, 0L, nours, got_object_idset_num_elements(idset), 0, 0); if (err) goto done; } if (got_object_idset_num_elements(idset) == 0 && !allow_empty) { err = got_error(GOT_ERR_CANNOT_PACK); goto done; } reuse.metasz = 64; reuse.meta = calloc(reuse.metasz, sizeof(struct got_pack_meta *)); if (reuse.meta == NULL) { err = got_error_from_errno("calloc"); goto done; } err = got_pack_search_deltas(&reuse_packidx, &reuse_pack, &reuse, idset, ncolored, nfound, ntrees, nours, repo, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; if (reuse_packidx && reuse_pack) { err = got_repo_pin_pack(repo, reuse_packidx, reuse_pack); if (err) goto done; } if (fseeko(delta_cache, 0L, SEEK_END) == -1) { err = got_error_from_errno("fseeko"); goto done; } ndeltify = got_object_idset_num_elements(idset) - reuse.nmeta; if (ndeltify > 0) { deltify.meta = calloc(ndeltify, sizeof(struct got_pack_meta *)); if (deltify.meta == NULL) { err = got_error_from_errno("calloc"); goto done; } deltify.metasz = ndeltify; err = got_object_idset_for_each(idset, add_meta_idset_cb, &deltify); if (err) goto done; if (deltify.nmeta > 0) { err = pick_deltas(deltify.meta, deltify.nmeta, ncolored, nfound, ntrees, nours, reuse.nmeta, delta_cache, repo, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; } } if (fflush(delta_cache) == EOF) { err = got_error_from_errno("fflush"); goto done; } if (progress_cb) { /* * Report a 1-byte packfile write to indicate we are about * to start sending packfile data. gotd(8) needs this. */ err = progress_cb(progress_arg, ncolored, nfound, ntrees, 1 /* packfile_size */, nours, got_object_idset_num_elements(idset), deltify.nmeta + reuse.nmeta, 0); if (err) goto done; } /* Pinned pack may have moved to different cache slot. */ reuse_pack = got_repo_get_pinned_pack(repo); err = genpack(packsha1, packfd, reuse_pack, delta_cache, deltify.meta, deltify.nmeta, reuse.meta, reuse.nmeta, ncolored, nfound, ntrees, nours, repo, force_refdelta, progress_cb, progress_arg, rl, cancel_cb, cancel_arg); if (err) goto done; done: free_nmeta(deltify.meta, deltify.nmeta); free_nmeta(reuse.meta, reuse.nmeta); got_object_idset_free(idset); got_repo_unpin_pack(repo); return err; }