#define USE_THE_REPOSITORY_VARIABLE #include "git-compat-util.h" #include "config.h" #include "csum-file.h" #include "gettext.h" #include "hex.h" #include "lockfile.h" #include "packfile.h" #include "commit.h" #include "object.h" #include "refs.h" #include "hash-lookup.h" #include "commit-graph.h" #include "object-file.h" #include "object-store-ll.h" #include "oid-array.h" #include "path.h" #include "alloc.h" #include "hashmap.h" #include "replace-object.h" #include "progress.h" #include "bloom.h" #include "commit-slab.h" #include "shallow.h" #include "json-writer.h" #include "trace2.h" #include "tree.h" #include "chunk-format.h" void git_test_write_commit_graph_or_die(void) { int flags = 0; if (!git_env_bool(GIT_TEST_COMMIT_GRAPH, 0)) return; if (git_env_bool(GIT_TEST_COMMIT_GRAPH_CHANGED_PATHS, 0)) flags = COMMIT_GRAPH_WRITE_BLOOM_FILTERS; if (write_commit_graph_reachable(the_repository->objects->odb, flags, NULL)) die("failed to write commit-graph under GIT_TEST_COMMIT_GRAPH"); } #define GRAPH_SIGNATURE 0x43475048 /* "CGPH" */ #define GRAPH_CHUNKID_OIDFANOUT 0x4f494446 /* "OIDF" */ #define GRAPH_CHUNKID_OIDLOOKUP 0x4f49444c /* "OIDL" */ #define GRAPH_CHUNKID_DATA 0x43444154 /* "CDAT" */ #define GRAPH_CHUNKID_GENERATION_DATA 0x47444132 /* "GDA2" */ #define GRAPH_CHUNKID_GENERATION_DATA_OVERFLOW 0x47444f32 /* "GDO2" */ #define GRAPH_CHUNKID_EXTRAEDGES 0x45444745 /* "EDGE" */ #define GRAPH_CHUNKID_BLOOMINDEXES 0x42494458 /* "BIDX" */ #define GRAPH_CHUNKID_BLOOMDATA 0x42444154 /* "BDAT" */ #define GRAPH_CHUNKID_BASE 0x42415345 /* "BASE" */ #define GRAPH_DATA_WIDTH (the_hash_algo->rawsz + 16) #define GRAPH_VERSION_1 0x1 #define GRAPH_VERSION GRAPH_VERSION_1 #define GRAPH_EXTRA_EDGES_NEEDED 0x80000000 #define GRAPH_EDGE_LAST_MASK 0x7fffffff #define GRAPH_PARENT_NONE 0x70000000 #define GRAPH_LAST_EDGE 0x80000000 #define GRAPH_HEADER_SIZE 8 #define GRAPH_FANOUT_SIZE (4 * 256) #define GRAPH_MIN_SIZE (GRAPH_HEADER_SIZE + 4 * CHUNK_TOC_ENTRY_SIZE \ + GRAPH_FANOUT_SIZE + the_hash_algo->rawsz) #define CORRECTED_COMMIT_DATE_OFFSET_OVERFLOW (1ULL << 31) /* Remember to update object flag allocation in object.h */ #define REACHABLE (1u<<15) define_commit_slab(topo_level_slab, uint32_t); /* Keep track of the order in which commits are added to our list. */ define_commit_slab(commit_pos, int); static struct commit_pos commit_pos = COMMIT_SLAB_INIT(1, commit_pos); static void set_commit_pos(struct repository *r, const struct object_id *oid) { static int32_t max_pos; struct commit *commit = lookup_commit(r, oid); if (!commit) return; /* should never happen, but be lenient */ *commit_pos_at(&commit_pos, commit) = max_pos++; } static int commit_pos_cmp(const void *va, const void *vb) { const struct commit *a = *(const struct commit **)va; const struct commit *b = *(const struct commit **)vb; return commit_pos_at(&commit_pos, a) - commit_pos_at(&commit_pos, b); } define_commit_slab(commit_graph_data_slab, struct commit_graph_data); static struct commit_graph_data_slab commit_graph_data_slab = COMMIT_SLAB_INIT(1, commit_graph_data_slab); static int get_configured_generation_version(struct repository *r) { int version = 2; repo_config_get_int(r, "commitgraph.generationversion", &version); return version; } uint32_t commit_graph_position(const struct commit *c) { struct commit_graph_data *data = commit_graph_data_slab_peek(&commit_graph_data_slab, c); return data ? data->graph_pos : COMMIT_NOT_FROM_GRAPH; } timestamp_t commit_graph_generation(const struct commit *c) { struct commit_graph_data *data = commit_graph_data_slab_peek(&commit_graph_data_slab, c); if (data && data->generation) return data->generation; return GENERATION_NUMBER_INFINITY; } static timestamp_t commit_graph_generation_from_graph(const struct commit *c) { struct commit_graph_data *data = commit_graph_data_slab_peek(&commit_graph_data_slab, c); if (!data || data->graph_pos == COMMIT_NOT_FROM_GRAPH) return GENERATION_NUMBER_INFINITY; return data->generation; } static struct commit_graph_data *commit_graph_data_at(const struct commit *c) { unsigned int i, nth_slab; struct commit_graph_data *data = commit_graph_data_slab_peek(&commit_graph_data_slab, c); if (data) return data; nth_slab = c->index / commit_graph_data_slab.slab_size; data = commit_graph_data_slab_at(&commit_graph_data_slab, c); /* * commit-slab initializes elements with zero, overwrite this with * COMMIT_NOT_FROM_GRAPH for graph_pos. * * We avoid initializing generation with checking if graph position * is not COMMIT_NOT_FROM_GRAPH. */ for (i = 0; i < commit_graph_data_slab.slab_size; i++) { commit_graph_data_slab.slab[nth_slab][i].graph_pos = COMMIT_NOT_FROM_GRAPH; } return data; } /* * Should be used only while writing commit-graph as it compares * generation value of commits by directly accessing commit-slab. */ static int commit_gen_cmp(const void *va, const void *vb) { const struct commit *a = *(const struct commit **)va; const struct commit *b = *(const struct commit **)vb; const timestamp_t generation_a = commit_graph_data_at(a)->generation; const timestamp_t generation_b = commit_graph_data_at(b)->generation; /* lower generation commits first */ if (generation_a < generation_b) return -1; else if (generation_a > generation_b) return 1; /* use date as a heuristic when generations are equal */ if (a->date < b->date) return -1; else if (a->date > b->date) return 1; return 0; } char *get_commit_graph_filename(struct object_directory *obj_dir) { return xstrfmt("%s/info/commit-graph", obj_dir->path); } static char *get_split_graph_filename(struct object_directory *odb, const char *oid_hex) { return xstrfmt("%s/info/commit-graphs/graph-%s.graph", odb->path, oid_hex); } char *get_commit_graph_chain_filename(struct object_directory *odb) { return xstrfmt("%s/info/commit-graphs/commit-graph-chain", odb->path); } static struct commit_graph *alloc_commit_graph(void) { struct commit_graph *g = xcalloc(1, sizeof(*g)); return g; } static int commit_graph_compatible(struct repository *r) { if (!r->gitdir) return 0; if (replace_refs_enabled(r)) { prepare_replace_object(r); if (hashmap_get_size(&r->objects->replace_map->map)) return 0; } prepare_commit_graft(r); if (r->parsed_objects && (r->parsed_objects->grafts_nr || r->parsed_objects->substituted_parent)) return 0; if (is_repository_shallow(r)) return 0; return 1; } int open_commit_graph(const char *graph_file, int *fd, struct stat *st) { *fd = git_open(graph_file); if (*fd < 0) return 0; if (fstat(*fd, st)) { close(*fd); return 0; } return 1; } struct commit_graph *load_commit_graph_one_fd_st(struct repository *r, int fd, struct stat *st, struct object_directory *odb) { void *graph_map; size_t graph_size; struct commit_graph *ret; graph_size = xsize_t(st->st_size); if (graph_size < GRAPH_MIN_SIZE) { close(fd); error(_("commit-graph file is too small")); return NULL; } graph_map = xmmap(NULL, graph_size, PROT_READ, MAP_PRIVATE, fd, 0); close(fd); prepare_repo_settings(r); ret = parse_commit_graph(&r->settings, graph_map, graph_size); if (ret) ret->odb = odb; else munmap(graph_map, graph_size); return ret; } static int graph_read_oid_fanout(const unsigned char *chunk_start, size_t chunk_size, void *data) { struct commit_graph *g = data; int i; if (chunk_size != 256 * sizeof(uint32_t)) return error(_("commit-graph oid fanout chunk is wrong size")); g->chunk_oid_fanout = (const uint32_t *)chunk_start; g->num_commits = ntohl(g->chunk_oid_fanout[255]); for (i = 0; i < 255; i++) { uint32_t oid_fanout1 = ntohl(g->chunk_oid_fanout[i]); uint32_t oid_fanout2 = ntohl(g->chunk_oid_fanout[i + 1]); if (oid_fanout1 > oid_fanout2) { error(_("commit-graph fanout values out of order")); return 1; } } return 0; } static int graph_read_oid_lookup(const unsigned char *chunk_start, size_t chunk_size, void *data) { struct commit_graph *g = data; g->chunk_oid_lookup = chunk_start; if (chunk_size / g->hash_len != g->num_commits) return error(_("commit-graph OID lookup chunk is the wrong size")); return 0; } static int graph_read_commit_data(const unsigned char *chunk_start, size_t chunk_size, void *data) { struct commit_graph *g = data; if (chunk_size / GRAPH_DATA_WIDTH != g->num_commits) return error(_("commit-graph commit data chunk is wrong size")); g->chunk_commit_data = chunk_start; return 0; } static int graph_read_generation_data(const unsigned char *chunk_start, size_t chunk_size, void *data) { struct commit_graph *g = data; if (chunk_size / sizeof(uint32_t) != g->num_commits) return error(_("commit-graph generations chunk is wrong size")); g->chunk_generation_data = chunk_start; return 0; } static int graph_read_bloom_index(const unsigned char *chunk_start, size_t chunk_size, void *data) { struct commit_graph *g = data; if (chunk_size / 4 != g->num_commits) { warning(_("commit-graph changed-path index chunk is too small")); return -1; } g->chunk_bloom_indexes = chunk_start; return 0; } static int graph_read_bloom_data(const unsigned char *chunk_start, size_t chunk_size, void *data) { struct commit_graph *g = data; if (chunk_size < BLOOMDATA_CHUNK_HEADER_SIZE) { warning(_("ignoring too-small changed-path chunk" " (%"PRIuMAX" < %"PRIuMAX") in commit-graph file"), (uintmax_t)chunk_size, (uintmax_t)BLOOMDATA_CHUNK_HEADER_SIZE); return -1; } g->chunk_bloom_data = chunk_start; g->chunk_bloom_data_size = chunk_size; g->bloom_filter_settings = xmalloc(sizeof(struct bloom_filter_settings)); g->bloom_filter_settings->hash_version = get_be32(chunk_start); g->bloom_filter_settings->num_hashes = get_be32(chunk_start + 4); g->bloom_filter_settings->bits_per_entry = get_be32(chunk_start + 8); g->bloom_filter_settings->max_changed_paths = DEFAULT_BLOOM_MAX_CHANGES; return 0; } struct commit_graph *parse_commit_graph(struct repo_settings *s, void *graph_map, size_t graph_size) { const unsigned char *data; struct commit_graph *graph; uint32_t graph_signature; unsigned char graph_version, hash_version; struct chunkfile *cf = NULL; if (!graph_map) return NULL; if (graph_size < GRAPH_MIN_SIZE) return NULL; data = (const unsigned char *)graph_map; graph_signature = get_be32(data); if (graph_signature != GRAPH_SIGNATURE) { error(_("commit-graph signature %X does not match signature %X"), graph_signature, GRAPH_SIGNATURE); return NULL; } graph_version = *(unsigned char*)(data + 4); if (graph_version != GRAPH_VERSION) { error(_("commit-graph version %X does not match version %X"), graph_version, GRAPH_VERSION); return NULL; } hash_version = *(unsigned char*)(data + 5); if (hash_version != oid_version(the_hash_algo)) { error(_("commit-graph hash version %X does not match version %X"), hash_version, oid_version(the_hash_algo)); return NULL; } graph = alloc_commit_graph(); graph->hash_len = the_hash_algo->rawsz; graph->num_chunks = *(unsigned char*)(data + 6); graph->data = graph_map; graph->data_len = graph_size; if (graph_size < GRAPH_HEADER_SIZE + (graph->num_chunks + 1) * CHUNK_TOC_ENTRY_SIZE + GRAPH_FANOUT_SIZE + the_hash_algo->rawsz) { error(_("commit-graph file is too small to hold %u chunks"), graph->num_chunks); free(graph); return NULL; } cf = init_chunkfile(NULL); if (read_table_of_contents(cf, graph->data, graph_size, GRAPH_HEADER_SIZE, graph->num_chunks, 1)) goto free_and_return; if (read_chunk(cf, GRAPH_CHUNKID_OIDFANOUT, graph_read_oid_fanout, graph)) { error(_("commit-graph required OID fanout chunk missing or corrupted")); goto free_and_return; } if (read_chunk(cf, GRAPH_CHUNKID_OIDLOOKUP, graph_read_oid_lookup, graph)) { error(_("commit-graph required OID lookup chunk missing or corrupted")); goto free_and_return; } if (read_chunk(cf, GRAPH_CHUNKID_DATA, graph_read_commit_data, graph)) { error(_("commit-graph required commit data chunk missing or corrupted")); goto free_and_return; } pair_chunk(cf, GRAPH_CHUNKID_EXTRAEDGES, &graph->chunk_extra_edges, &graph->chunk_extra_edges_size); pair_chunk(cf, GRAPH_CHUNKID_BASE, &graph->chunk_base_graphs, &graph->chunk_base_graphs_size); if (s->commit_graph_generation_version >= 2) { read_chunk(cf, GRAPH_CHUNKID_GENERATION_DATA, graph_read_generation_data, graph); pair_chunk(cf, GRAPH_CHUNKID_GENERATION_DATA_OVERFLOW, &graph->chunk_generation_data_overflow, &graph->chunk_generation_data_overflow_size); if (graph->chunk_generation_data) graph->read_generation_data = 1; } if (s->commit_graph_changed_paths_version) { read_chunk(cf, GRAPH_CHUNKID_BLOOMINDEXES, graph_read_bloom_index, graph); read_chunk(cf, GRAPH_CHUNKID_BLOOMDATA, graph_read_bloom_data, graph); } if (graph->chunk_bloom_indexes && graph->chunk_bloom_data) { init_bloom_filters(); } else { /* We need both the bloom chunks to exist together. Else ignore the data */ graph->chunk_bloom_indexes = NULL; graph->chunk_bloom_data = NULL; FREE_AND_NULL(graph->bloom_filter_settings); } oidread(&graph->oid, graph->data + graph->data_len - graph->hash_len, the_repository->hash_algo); free_chunkfile(cf); return graph; free_and_return: free_chunkfile(cf); free(graph->bloom_filter_settings); free(graph); return NULL; } static struct commit_graph *load_commit_graph_one(struct repository *r, const char *graph_file, struct object_directory *odb) { struct stat st; int fd; struct commit_graph *g; int open_ok = open_commit_graph(graph_file, &fd, &st); if (!open_ok) return NULL; g = load_commit_graph_one_fd_st(r, fd, &st, odb); if (g) g->filename = xstrdup(graph_file); return g; } static struct commit_graph *load_commit_graph_v1(struct repository *r, struct object_directory *odb) { char *graph_name = get_commit_graph_filename(odb); struct commit_graph *g = load_commit_graph_one(r, graph_name, odb); free(graph_name); return g; } /* * returns 1 if and only if all graphs in the chain have * corrected commit dates stored in the generation_data chunk. */ static int validate_mixed_generation_chain(struct commit_graph *g) { int read_generation_data = 1; struct commit_graph *p = g; while (read_generation_data && p) { read_generation_data = p->read_generation_data; p = p->base_graph; } if (read_generation_data) return 1; while (g) { g->read_generation_data = 0; g = g->base_graph; } return 0; } static void validate_mixed_bloom_settings(struct commit_graph *g) { struct bloom_filter_settings *settings = NULL; for (; g; g = g->base_graph) { if (!g->bloom_filter_settings) continue; if (!settings) { settings = g->bloom_filter_settings; continue; } if (g->bloom_filter_settings->bits_per_entry != settings->bits_per_entry || g->bloom_filter_settings->num_hashes != settings->num_hashes || g->bloom_filter_settings->hash_version != settings->hash_version) { g->chunk_bloom_indexes = NULL; g->chunk_bloom_data = NULL; FREE_AND_NULL(g->bloom_filter_settings); warning(_("disabling Bloom filters for commit-graph " "layer '%s' due to incompatible settings"), oid_to_hex(&g->oid)); } } } static int add_graph_to_chain(struct commit_graph *g, struct commit_graph *chain, struct object_id *oids, int n) { struct commit_graph *cur_g = chain; if (n && !g->chunk_base_graphs) { warning(_("commit-graph has no base graphs chunk")); return 0; } if (g->chunk_base_graphs_size / g->hash_len < n) { warning(_("commit-graph base graphs chunk is too small")); return 0; } while (n) { n--; if (!cur_g || !oideq(&oids[n], &cur_g->oid) || !hasheq(oids[n].hash, g->chunk_base_graphs + st_mult(g->hash_len, n), the_repository->hash_algo)) { warning(_("commit-graph chain does not match")); return 0; } cur_g = cur_g->base_graph; } if (chain) { if (unsigned_add_overflows(chain->num_commits, chain->num_commits_in_base)) { warning(_("commit count in base graph too high: %"PRIuMAX), (uintmax_t)chain->num_commits_in_base); return 0; } g->num_commits_in_base = chain->num_commits + chain->num_commits_in_base; } g->base_graph = chain; return 1; } int open_commit_graph_chain(const char *chain_file, int *fd, struct stat *st) { *fd = git_open(chain_file); if (*fd < 0) return 0; if (fstat(*fd, st)) { close(*fd); return 0; } if (st->st_size < the_hash_algo->hexsz) { close(*fd); if (!st->st_size) { /* treat empty files the same as missing */ errno = ENOENT; } else { warning(_("commit-graph chain file too small")); errno = EINVAL; } return 0; } return 1; } struct commit_graph *load_commit_graph_chain_fd_st(struct repository *r, int fd, struct stat *st, int *incomplete_chain) { struct commit_graph *graph_chain = NULL; struct strbuf line = STRBUF_INIT; struct object_id *oids; int i = 0, valid = 1, count; FILE *fp = xfdopen(fd, "r"); count = st->st_size / (the_hash_algo->hexsz + 1); CALLOC_ARRAY(oids, count); prepare_alt_odb(r); for (i = 0; i < count; i++) { struct object_directory *odb; if (strbuf_getline_lf(&line, fp) == EOF) break; if (get_oid_hex(line.buf, &oids[i])) { warning(_("invalid commit-graph chain: line '%s' not a hash"), line.buf); valid = 0; break; } valid = 0; for (odb = r->objects->odb; odb; odb = odb->next) { char *graph_name = get_split_graph_filename(odb, line.buf); struct commit_graph *g = load_commit_graph_one(r, graph_name, odb); free(graph_name); if (g) { if (add_graph_to_chain(g, graph_chain, oids, i)) { graph_chain = g; valid = 1; } else { free_commit_graph(g); } break; } } if (!valid) { warning(_("unable to find all commit-graph files")); break; } } validate_mixed_generation_chain(graph_chain); validate_mixed_bloom_settings(graph_chain); free(oids); fclose(fp); strbuf_release(&line); *incomplete_chain = !valid; return graph_chain; } static struct commit_graph *load_commit_graph_chain(struct repository *r, struct object_directory *odb) { char *chain_file = get_commit_graph_chain_filename(odb); struct stat st; int fd; struct commit_graph *g = NULL; if (open_commit_graph_chain(chain_file, &fd, &st)) { int incomplete; /* ownership of fd is taken over by load function */ g = load_commit_graph_chain_fd_st(r, fd, &st, &incomplete); } free(chain_file); return g; } struct commit_graph *read_commit_graph_one(struct repository *r, struct object_directory *odb) { struct commit_graph *g = load_commit_graph_v1(r, odb); if (!g) g = load_commit_graph_chain(r, odb); return g; } static void prepare_commit_graph_one(struct repository *r, struct object_directory *odb) { if (r->objects->commit_graph) return; r->objects->commit_graph = read_commit_graph_one(r, odb); } /* * Return 1 if commit_graph is non-NULL, and 0 otherwise. * * On the first invocation, this function attempts to load the commit * graph if the_repository is configured to have one. */ static int prepare_commit_graph(struct repository *r) { struct object_directory *odb; /* * Early return if there is no git dir or if the commit graph is * disabled. * * This must come before the "already attempted?" check below, because * we want to disable even an already-loaded graph file. */ if (!r->gitdir || r->commit_graph_disabled) return 0; if (r->objects->commit_graph_attempted) return !!r->objects->commit_graph; r->objects->commit_graph_attempted = 1; prepare_repo_settings(r); if (!git_env_bool(GIT_TEST_COMMIT_GRAPH, 0) && r->settings.core_commit_graph != 1) /* * This repository is not configured to use commit graphs, so * do not load one. (But report commit_graph_attempted anyway * so that commit graph loading is not attempted again for this * repository.) */ return 0; if (!commit_graph_compatible(r)) return 0; prepare_alt_odb(r); for (odb = r->objects->odb; !r->objects->commit_graph && odb; odb = odb->next) prepare_commit_graph_one(r, odb); return !!r->objects->commit_graph; } int generation_numbers_enabled(struct repository *r) { uint32_t first_generation; struct commit_graph *g; if (!prepare_commit_graph(r)) return 0; g = r->objects->commit_graph; if (!g->num_commits) return 0; first_generation = get_be32(g->chunk_commit_data + g->hash_len + 8) >> 2; return !!first_generation; } int corrected_commit_dates_enabled(struct repository *r) { struct commit_graph *g; if (!prepare_commit_graph(r)) return 0; g = r->objects->commit_graph; if (!g->num_commits) return 0; return g->read_generation_data; } struct bloom_filter_settings *get_bloom_filter_settings(struct repository *r) { struct commit_graph *g = r->objects->commit_graph; while (g) { if (g->bloom_filter_settings) return g->bloom_filter_settings; g = g->base_graph; } return NULL; } void close_commit_graph(struct raw_object_store *o) { if (!o->commit_graph) return; clear_commit_graph_data_slab(&commit_graph_data_slab); deinit_bloom_filters(); free_commit_graph(o->commit_graph); o->commit_graph = NULL; } static int bsearch_graph(struct commit_graph *g, const struct object_id *oid, uint32_t *pos) { return bsearch_hash(oid->hash, g->chunk_oid_fanout, g->chunk_oid_lookup, g->hash_len, pos); } static void load_oid_from_graph(struct commit_graph *g, uint32_t pos, struct object_id *oid) { uint32_t lex_index; while (g && pos < g->num_commits_in_base) g = g->base_graph; if (!g) BUG("NULL commit-graph"); if (pos >= g->num_commits + g->num_commits_in_base) die(_("invalid commit position. commit-graph is likely corrupt")); lex_index = pos - g->num_commits_in_base; oidread(oid, g->chunk_oid_lookup + st_mult(g->hash_len, lex_index), the_repository->hash_algo); } static struct commit_list **insert_parent_or_die(struct repository *r, struct commit_graph *g, uint32_t pos, struct commit_list **pptr) { struct commit *c; struct object_id oid; if (pos >= g->num_commits + g->num_commits_in_base) die("invalid parent position %"PRIu32, pos); load_oid_from_graph(g, pos, &oid); c = lookup_commit(r, &oid); if (!c) die(_("could not find commit %s"), oid_to_hex(&oid)); commit_graph_data_at(c)->graph_pos = pos; return &commit_list_insert(c, pptr)->next; } static void fill_commit_graph_info(struct commit *item, struct commit_graph *g, uint32_t pos) { const unsigned char *commit_data; struct commit_graph_data *graph_data; uint32_t lex_index, offset_pos; uint64_t date_high, date_low, offset; while (pos < g->num_commits_in_base) g = g->base_graph; if (pos >= g->num_commits + g->num_commits_in_base) die(_("invalid commit position. commit-graph is likely corrupt")); lex_index = pos - g->num_commits_in_base; commit_data = g->chunk_commit_data + st_mult(GRAPH_DATA_WIDTH, lex_index); graph_data = commit_graph_data_at(item); graph_data->graph_pos = pos; date_high = get_be32(commit_data + g->hash_len + 8) & 0x3; date_low = get_be32(commit_data + g->hash_len + 12); item->date = (timestamp_t)((date_high << 32) | date_low); if (g->read_generation_data) { offset = (timestamp_t)get_be32(g->chunk_generation_data + st_mult(sizeof(uint32_t), lex_index)); if (offset & CORRECTED_COMMIT_DATE_OFFSET_OVERFLOW) { if (!g->chunk_generation_data_overflow) die(_("commit-graph requires overflow generation data but has none")); offset_pos = offset ^ CORRECTED_COMMIT_DATE_OFFSET_OVERFLOW; if (g->chunk_generation_data_overflow_size / sizeof(uint64_t) <= offset_pos) die(_("commit-graph overflow generation data is too small")); graph_data->generation = item->date + get_be64(g->chunk_generation_data_overflow + sizeof(uint64_t) * offset_pos); } else graph_data->generation = item->date + offset; } else graph_data->generation = get_be32(commit_data + g->hash_len + 8) >> 2; if (g->topo_levels) *topo_level_slab_at(g->topo_levels, item) = get_be32(commit_data + g->hash_len + 8) >> 2; } static inline void set_commit_tree(struct commit *c, struct tree *t) { c->maybe_tree = t; } static int fill_commit_in_graph(struct repository *r, struct commit *item, struct commit_graph *g, uint32_t pos) { uint32_t edge_value; uint32_t parent_data_pos; struct commit_list **pptr; const unsigned char *commit_data; uint32_t lex_index; while (pos < g->num_commits_in_base) g = g->base_graph; fill_commit_graph_info(item, g, pos); lex_index = pos - g->num_commits_in_base; commit_data = g->chunk_commit_data + st_mult(g->hash_len + 16, lex_index); item->object.parsed = 1; set_commit_tree(item, NULL); pptr = &item->parents; edge_value = get_be32(commit_data + g->hash_len); if (edge_value == GRAPH_PARENT_NONE) return 1; pptr = insert_parent_or_die(r, g, edge_value, pptr); edge_value = get_be32(commit_data + g->hash_len + 4); if (edge_value == GRAPH_PARENT_NONE) return 1; if (!(edge_value & GRAPH_EXTRA_EDGES_NEEDED)) { pptr = insert_parent_or_die(r, g, edge_value, pptr); return 1; } parent_data_pos = edge_value & GRAPH_EDGE_LAST_MASK; do { if (g->chunk_extra_edges_size / sizeof(uint32_t) <= parent_data_pos) { error(_("commit-graph extra-edges pointer out of bounds")); free_commit_list(item->parents); item->parents = NULL; item->object.parsed = 0; return 0; } edge_value = get_be32(g->chunk_extra_edges + sizeof(uint32_t) * parent_data_pos); pptr = insert_parent_or_die(r, g, edge_value & GRAPH_EDGE_LAST_MASK, pptr); parent_data_pos++; } while (!(edge_value & GRAPH_LAST_EDGE)); return 1; } static int search_commit_pos_in_graph(const struct object_id *id, struct commit_graph *g, uint32_t *pos) { struct commit_graph *cur_g = g; uint32_t lex_index; while (cur_g && !bsearch_graph(cur_g, id, &lex_index)) cur_g = cur_g->base_graph; if (cur_g) { *pos = lex_index + cur_g->num_commits_in_base; return 1; } return 0; } static int find_commit_pos_in_graph(struct commit *item, struct commit_graph *g, uint32_t *pos) { uint32_t graph_pos = commit_graph_position(item); if (graph_pos != COMMIT_NOT_FROM_GRAPH) { *pos = graph_pos; return 1; } else { return search_commit_pos_in_graph(&item->object.oid, g, pos); } } int repo_find_commit_pos_in_graph(struct repository *r, struct commit *c, uint32_t *pos) { if (!prepare_commit_graph(r)) return 0; return find_commit_pos_in_graph(c, r->objects->commit_graph, pos); } struct commit *lookup_commit_in_graph(struct repository *repo, const struct object_id *id) { static int commit_graph_paranoia = -1; struct commit *commit; uint32_t pos; if (commit_graph_paranoia == -1) commit_graph_paranoia = git_env_bool(GIT_COMMIT_GRAPH_PARANOIA, 0); if (!prepare_commit_graph(repo)) return NULL; if (!search_commit_pos_in_graph(id, repo->objects->commit_graph, &pos)) return NULL; if (commit_graph_paranoia && !has_object(repo, id, 0)) return NULL; commit = lookup_commit(repo, id); if (!commit) return NULL; if (commit->object.parsed) return commit; if (!fill_commit_in_graph(repo, commit, repo->objects->commit_graph, pos)) return NULL; return commit; } static int parse_commit_in_graph_one(struct repository *r, struct commit_graph *g, struct commit *item) { uint32_t pos; if (item->object.parsed) return 1; if (find_commit_pos_in_graph(item, g, &pos)) return fill_commit_in_graph(r, item, g, pos); return 0; } int parse_commit_in_graph(struct repository *r, struct commit *item) { static int checked_env = 0; if (!checked_env && git_env_bool(GIT_TEST_COMMIT_GRAPH_DIE_ON_PARSE, 0)) die("dying as requested by the '%s' variable on commit-graph parse!", GIT_TEST_COMMIT_GRAPH_DIE_ON_PARSE); checked_env = 1; if (!prepare_commit_graph(r)) return 0; return parse_commit_in_graph_one(r, r->objects->commit_graph, item); } void load_commit_graph_info(struct repository *r, struct commit *item) { uint32_t pos; if (repo_find_commit_pos_in_graph(r, item, &pos)) fill_commit_graph_info(item, r->objects->commit_graph, pos); } static struct tree *load_tree_for_commit(struct repository *r, struct commit_graph *g, struct commit *c) { struct object_id oid; const unsigned char *commit_data; uint32_t graph_pos = commit_graph_position(c); while (graph_pos < g->num_commits_in_base) g = g->base_graph; commit_data = g->chunk_commit_data + st_mult(GRAPH_DATA_WIDTH, graph_pos - g->num_commits_in_base); oidread(&oid, commit_data, the_repository->hash_algo); set_commit_tree(c, lookup_tree(r, &oid)); return c->maybe_tree; } static struct tree *get_commit_tree_in_graph_one(struct repository *r, struct commit_graph *g, const struct commit *c) { if (c->maybe_tree) return c->maybe_tree; if (commit_graph_position(c) == COMMIT_NOT_FROM_GRAPH) BUG("get_commit_tree_in_graph_one called from non-commit-graph commit"); return load_tree_for_commit(r, g, (struct commit *)c); } struct tree *get_commit_tree_in_graph(struct repository *r, const struct commit *c) { return get_commit_tree_in_graph_one(r, r->objects->commit_graph, c); } struct packed_commit_list { struct commit **list; size_t nr; size_t alloc; }; struct write_commit_graph_context { struct repository *r; struct object_directory *odb; char *graph_name; struct oid_array oids; struct packed_commit_list commits; int num_extra_edges; int num_generation_data_overflows; unsigned long approx_nr_objects; struct progress *progress; int progress_done; uint64_t progress_cnt; char *base_graph_name; int num_commit_graphs_before; int num_commit_graphs_after; char **commit_graph_filenames_before; char **commit_graph_filenames_after; char **commit_graph_hash_after; uint32_t new_num_commits_in_base; struct commit_graph *new_base_graph; unsigned append:1, report_progress:1, split:1, changed_paths:1, order_by_pack:1, write_generation_data:1, trust_generation_numbers:1; struct topo_level_slab *topo_levels; const struct commit_graph_opts *opts; size_t total_bloom_filter_data_size; const struct bloom_filter_settings *bloom_settings; int count_bloom_filter_computed; int count_bloom_filter_not_computed; int count_bloom_filter_trunc_empty; int count_bloom_filter_trunc_large; int count_bloom_filter_upgraded; }; static int write_graph_chunk_fanout(struct hashfile *f, void *data) { struct write_commit_graph_context *ctx = data; int i, count = 0; struct commit **list = ctx->commits.list; /* * Write the first-level table (the list is sorted, * but we use a 256-entry lookup to be able to avoid * having to do eight extra binary search iterations). */ for (i = 0; i < 256; i++) { while (count < ctx->commits.nr) { if ((*list)->object.oid.hash[0] != i) break; display_progress(ctx->progress, ++ctx->progress_cnt); count++; list++; } hashwrite_be32(f, count); } return 0; } static int write_graph_chunk_oids(struct hashfile *f, void *data) { struct write_commit_graph_context *ctx = data; struct commit **list = ctx->commits.list; int count; for (count = 0; count < ctx->commits.nr; count++, list++) { display_progress(ctx->progress, ++ctx->progress_cnt); hashwrite(f, (*list)->object.oid.hash, the_hash_algo->rawsz); } return 0; } static const struct object_id *commit_to_oid(size_t index, const void *table) { const struct commit * const *commits = table; return &commits[index]->object.oid; } static int write_graph_chunk_data(struct hashfile *f, void *data) { struct write_commit_graph_context *ctx = data; struct commit **list = ctx->commits.list; struct commit **last = ctx->commits.list + ctx->commits.nr; uint32_t num_extra_edges = 0; while (list < last) { struct commit_list *parent; struct object_id *tree; int edge_value; uint32_t packedDate[2]; display_progress(ctx->progress, ++ctx->progress_cnt); if (repo_parse_commit_no_graph(ctx->r, *list)) die(_("unable to parse commit %s"), oid_to_hex(&(*list)->object.oid)); tree = get_commit_tree_oid(*list); hashwrite(f, tree->hash, the_hash_algo->rawsz); parent = (*list)->parents; if (!parent) edge_value = GRAPH_PARENT_NONE; else { edge_value = oid_pos(&parent->item->object.oid, ctx->commits.list, ctx->commits.nr, commit_to_oid); if (edge_value >= 0) edge_value += ctx->new_num_commits_in_base; else if (ctx->new_base_graph) { uint32_t pos; if (find_commit_pos_in_graph(parent->item, ctx->new_base_graph, &pos)) edge_value = pos; } if (edge_value < 0) BUG("missing parent %s for commit %s", oid_to_hex(&parent->item->object.oid), oid_to_hex(&(*list)->object.oid)); } hashwrite_be32(f, edge_value); if (parent) parent = parent->next; if (!parent) edge_value = GRAPH_PARENT_NONE; else if (parent->next) edge_value = GRAPH_EXTRA_EDGES_NEEDED | num_extra_edges; else { edge_value = oid_pos(&parent->item->object.oid, ctx->commits.list, ctx->commits.nr, commit_to_oid); if (edge_value >= 0) edge_value += ctx->new_num_commits_in_base; else if (ctx->new_base_graph) { uint32_t pos; if (find_commit_pos_in_graph(parent->item, ctx->new_base_graph, &pos)) edge_value = pos; } if (edge_value < 0) BUG("missing parent %s for commit %s", oid_to_hex(&parent->item->object.oid), oid_to_hex(&(*list)->object.oid)); } hashwrite_be32(f, edge_value); if (edge_value & GRAPH_EXTRA_EDGES_NEEDED) { do { num_extra_edges++; parent = parent->next; } while (parent); } if (sizeof((*list)->date) > 4) packedDate[0] = htonl(((*list)->date >> 32) & 0x3); else packedDate[0] = 0; packedDate[0] |= htonl(*topo_level_slab_at(ctx->topo_levels, *list) << 2); packedDate[1] = htonl((*list)->date); hashwrite(f, packedDate, 8); list++; } return 0; } static int write_graph_chunk_generation_data(struct hashfile *f, void *data) { struct write_commit_graph_context *ctx = data; int i, num_generation_data_overflows = 0; for (i = 0; i < ctx->commits.nr; i++) { struct commit *c = ctx->commits.list[i]; timestamp_t offset; repo_parse_commit(ctx->r, c); offset = commit_graph_data_at(c)->generation - c->date; display_progress(ctx->progress, ++ctx->progress_cnt); if (offset > GENERATION_NUMBER_V2_OFFSET_MAX) { offset = CORRECTED_COMMIT_DATE_OFFSET_OVERFLOW | num_generation_data_overflows; num_generation_data_overflows++; } hashwrite_be32(f, offset); } return 0; } static int write_graph_chunk_generation_data_overflow(struct hashfile *f, void *data) { struct write_commit_graph_context *ctx = data; int i; for (i = 0; i < ctx->commits.nr; i++) { struct commit *c = ctx->commits.list[i]; timestamp_t offset = commit_graph_data_at(c)->generation - c->date; display_progress(ctx->progress, ++ctx->progress_cnt); if (offset > GENERATION_NUMBER_V2_OFFSET_MAX) { hashwrite_be32(f, offset >> 32); hashwrite_be32(f, (uint32_t) offset); } } return 0; } static int write_graph_chunk_extra_edges(struct hashfile *f, void *data) { struct write_commit_graph_context *ctx = data; struct commit **list = ctx->commits.list; struct commit **last = ctx->commits.list + ctx->commits.nr; struct commit_list *parent; while (list < last) { int num_parents = 0; display_progress(ctx->progress, ++ctx->progress_cnt); for (parent = (*list)->parents; num_parents < 3 && parent; parent = parent->next) num_parents++; if (num_parents <= 2) { list++; continue; } /* Since num_parents > 2, this initializer is safe. */ for (parent = (*list)->parents->next; parent; parent = parent->next) { int edge_value = oid_pos(&parent->item->object.oid, ctx->commits.list, ctx->commits.nr, commit_to_oid); if (edge_value >= 0) edge_value += ctx->new_num_commits_in_base; else if (ctx->new_base_graph) { uint32_t pos; if (find_commit_pos_in_graph(parent->item, ctx->new_base_graph, &pos)) edge_value = pos; } if (edge_value < 0) BUG("missing parent %s for commit %s", oid_to_hex(&parent->item->object.oid), oid_to_hex(&(*list)->object.oid)); else if (!parent->next) edge_value |= GRAPH_LAST_EDGE; hashwrite_be32(f, edge_value); } list++; } return 0; } static int write_graph_chunk_bloom_indexes(struct hashfile *f, void *data) { struct write_commit_graph_context *ctx = data; struct commit **list = ctx->commits.list; struct commit **last = ctx->commits.list + ctx->commits.nr; uint32_t cur_pos = 0; while (list < last) { struct bloom_filter *filter = get_bloom_filter(ctx->r, *list); size_t len = filter ? filter->len : 0; cur_pos += len; display_progress(ctx->progress, ++ctx->progress_cnt); hashwrite_be32(f, cur_pos); list++; } return 0; } static void trace2_bloom_filter_settings(struct write_commit_graph_context *ctx) { struct json_writer jw = JSON_WRITER_INIT; jw_object_begin(&jw, 0); jw_object_intmax(&jw, "hash_version", ctx->bloom_settings->hash_version); jw_object_intmax(&jw, "num_hashes", ctx->bloom_settings->num_hashes); jw_object_intmax(&jw, "bits_per_entry", ctx->bloom_settings->bits_per_entry); jw_object_intmax(&jw, "max_changed_paths", ctx->bloom_settings->max_changed_paths); jw_end(&jw); trace2_data_json("bloom", ctx->r, "settings", &jw); jw_release(&jw); } static int write_graph_chunk_bloom_data(struct hashfile *f, void *data) { struct write_commit_graph_context *ctx = data; struct commit **list = ctx->commits.list; struct commit **last = ctx->commits.list + ctx->commits.nr; trace2_bloom_filter_settings(ctx); hashwrite_be32(f, ctx->bloom_settings->hash_version); hashwrite_be32(f, ctx->bloom_settings->num_hashes); hashwrite_be32(f, ctx->bloom_settings->bits_per_entry); while (list < last) { struct bloom_filter *filter = get_bloom_filter(ctx->r, *list); size_t len = filter ? filter->len : 0; display_progress(ctx->progress, ++ctx->progress_cnt); if (len) hashwrite(f, filter->data, len * sizeof(unsigned char)); list++; } return 0; } static int add_packed_commits(const struct object_id *oid, struct packed_git *pack, uint32_t pos, void *data) { struct write_commit_graph_context *ctx = (struct write_commit_graph_context*)data; enum object_type type; off_t offset = nth_packed_object_offset(pack, pos); struct object_info oi = OBJECT_INFO_INIT; if (ctx->progress) display_progress(ctx->progress, ++ctx->progress_done); oi.typep = &type; if (packed_object_info(ctx->r, pack, offset, &oi) < 0) die(_("unable to get type of object %s"), oid_to_hex(oid)); if (type != OBJ_COMMIT) return 0; oid_array_append(&ctx->oids, oid); set_commit_pos(ctx->r, oid); return 0; } static void add_missing_parents(struct write_commit_graph_context *ctx, struct commit *commit) { struct commit_list *parent; for (parent = commit->parents; parent; parent = parent->next) { if (!(parent->item->object.flags & REACHABLE)) { oid_array_append(&ctx->oids, &parent->item->object.oid); parent->item->object.flags |= REACHABLE; } } } static void close_reachable(struct write_commit_graph_context *ctx) { int i; struct commit *commit; enum commit_graph_split_flags flags = ctx->opts ? ctx->opts->split_flags : COMMIT_GRAPH_SPLIT_UNSPECIFIED; if (ctx->report_progress) ctx->progress = start_delayed_progress( _("Loading known commits in commit graph"), ctx->oids.nr); for (i = 0; i < ctx->oids.nr; i++) { display_progress(ctx->progress, i + 1); commit = lookup_commit(ctx->r, &ctx->oids.oid[i]); if (commit) commit->object.flags |= REACHABLE; } stop_progress(&ctx->progress); /* * As this loop runs, ctx->oids.nr may grow, but not more * than the number of missing commits in the reachable * closure. */ if (ctx->report_progress) ctx->progress = start_delayed_progress( _("Expanding reachable commits in commit graph"), 0); for (i = 0; i < ctx->oids.nr; i++) { display_progress(ctx->progress, i + 1); commit = lookup_commit(ctx->r, &ctx->oids.oid[i]); if (!commit) continue; if (ctx->split) { if ((!repo_parse_commit(ctx->r, commit) && commit_graph_position(commit) == COMMIT_NOT_FROM_GRAPH) || flags == COMMIT_GRAPH_SPLIT_REPLACE) add_missing_parents(ctx, commit); } else if (!repo_parse_commit_no_graph(ctx->r, commit)) add_missing_parents(ctx, commit); } stop_progress(&ctx->progress); if (ctx->report_progress) ctx->progress = start_delayed_progress( _("Clearing commit marks in commit graph"), ctx->oids.nr); for (i = 0; i < ctx->oids.nr; i++) { display_progress(ctx->progress, i + 1); commit = lookup_commit(ctx->r, &ctx->oids.oid[i]); if (commit) commit->object.flags &= ~REACHABLE; } stop_progress(&ctx->progress); } struct compute_generation_info { struct repository *r; struct packed_commit_list *commits; struct progress *progress; int progress_cnt; timestamp_t (*get_generation)(struct commit *c, void *data); void (*set_generation)(struct commit *c, timestamp_t gen, void *data); void *data; }; static timestamp_t compute_generation_from_max(struct commit *c, timestamp_t max_gen, int generation_version) { switch (generation_version) { case 1: /* topological levels */ if (max_gen > GENERATION_NUMBER_V1_MAX - 1) max_gen = GENERATION_NUMBER_V1_MAX - 1; return max_gen + 1; case 2: /* corrected commit date */ if (c->date && c->date > max_gen) max_gen = c->date - 1; return max_gen + 1; default: BUG("attempting unimplemented version"); } } static void compute_reachable_generation_numbers( struct compute_generation_info *info, int generation_version) { int i; struct commit_list *list = NULL; for (i = 0; i < info->commits->nr; i++) { struct commit *c = info->commits->list[i]; timestamp_t gen; repo_parse_commit(info->r, c); gen = info->get_generation(c, info->data); display_progress(info->progress, ++info->progress_cnt); if (gen != GENERATION_NUMBER_ZERO && gen != GENERATION_NUMBER_INFINITY) continue; commit_list_insert(c, &list); while (list) { struct commit *current = list->item; struct commit_list *parent; int all_parents_computed = 1; uint32_t max_gen = 0; for (parent = current->parents; parent; parent = parent->next) { repo_parse_commit(info->r, parent->item); gen = info->get_generation(parent->item, info->data); if (gen == GENERATION_NUMBER_ZERO) { all_parents_computed = 0; commit_list_insert(parent->item, &list); break; } if (gen > max_gen) max_gen = gen; } if (all_parents_computed) { pop_commit(&list); gen = compute_generation_from_max( current, max_gen, generation_version); info->set_generation(current, gen, info->data); } } } } static timestamp_t get_topo_level(struct commit *c, void *data) { struct write_commit_graph_context *ctx = data; return *topo_level_slab_at(ctx->topo_levels, c); } static void set_topo_level(struct commit *c, timestamp_t t, void *data) { struct write_commit_graph_context *ctx = data; *topo_level_slab_at(ctx->topo_levels, c) = (uint32_t)t; } static void compute_topological_levels(struct write_commit_graph_context *ctx) { struct compute_generation_info info = { .r = ctx->r, .commits = &ctx->commits, .get_generation = get_topo_level, .set_generation = set_topo_level, .data = ctx, }; if (ctx->report_progress) info.progress = ctx->progress = start_delayed_progress( _("Computing commit graph topological levels"), ctx->commits.nr); compute_reachable_generation_numbers(&info, 1); stop_progress(&ctx->progress); } static timestamp_t get_generation_from_graph_data(struct commit *c, void *data UNUSED) { return commit_graph_data_at(c)->generation; } static void set_generation_v2(struct commit *c, timestamp_t t, void *data UNUSED) { struct commit_graph_data *g = commit_graph_data_at(c); g->generation = t; } static void compute_generation_numbers(struct write_commit_graph_context *ctx) { int i; struct compute_generation_info info = { .r = ctx->r, .commits = &ctx->commits, .get_generation = get_generation_from_graph_data, .set_generation = set_generation_v2, }; if (ctx->report_progress) info.progress = ctx->progress = start_delayed_progress( _("Computing commit graph generation numbers"), ctx->commits.nr); if (!ctx->trust_generation_numbers) { for (i = 0; i < ctx->commits.nr; i++) { struct commit *c = ctx->commits.list[i]; repo_parse_commit(ctx->r, c); commit_graph_data_at(c)->generation = GENERATION_NUMBER_ZERO; } } compute_reachable_generation_numbers(&info, 2); for (i = 0; i < ctx->commits.nr; i++) { struct commit *c = ctx->commits.list[i]; timestamp_t offset = commit_graph_data_at(c)->generation - c->date; if (offset > GENERATION_NUMBER_V2_OFFSET_MAX) ctx->num_generation_data_overflows++; } stop_progress(&ctx->progress); } static void set_generation_in_graph_data(struct commit *c, timestamp_t t, void *data UNUSED) { commit_graph_data_at(c)->generation = t; } /* * After this method, all commits reachable from those in the given * list will have non-zero, non-infinite generation numbers. */ void ensure_generations_valid(struct repository *r, struct commit **commits, size_t nr) { int generation_version = get_configured_generation_version(r); struct packed_commit_list list = { .list = commits, .alloc = nr, .nr = nr, }; struct compute_generation_info info = { .r = r, .commits = &list, .get_generation = get_generation_from_graph_data, .set_generation = set_generation_in_graph_data, }; compute_reachable_generation_numbers(&info, generation_version); } static void trace2_bloom_filter_write_statistics(struct write_commit_graph_context *ctx) { trace2_data_intmax("commit-graph", ctx->r, "filter-computed", ctx->count_bloom_filter_computed); trace2_data_intmax("commit-graph", ctx->r, "filter-not-computed", ctx->count_bloom_filter_not_computed); trace2_data_intmax("commit-graph", ctx->r, "filter-trunc-empty", ctx->count_bloom_filter_trunc_empty); trace2_data_intmax("commit-graph", ctx->r, "filter-trunc-large", ctx->count_bloom_filter_trunc_large); trace2_data_intmax("commit-graph", ctx->r, "filter-upgraded", ctx->count_bloom_filter_upgraded); } static void compute_bloom_filters(struct write_commit_graph_context *ctx) { int i; struct progress *progress = NULL; struct commit **sorted_commits; int max_new_filters; init_bloom_filters(); if (ctx->report_progress) progress = start_delayed_progress( _("Computing commit changed paths Bloom filters"), ctx->commits.nr); DUP_ARRAY(sorted_commits, ctx->commits.list, ctx->commits.nr); if (ctx->order_by_pack) QSORT(sorted_commits, ctx->commits.nr, commit_pos_cmp); else QSORT(sorted_commits, ctx->commits.nr, commit_gen_cmp); max_new_filters = ctx->opts && ctx->opts->max_new_filters >= 0 ? ctx->opts->max_new_filters : ctx->commits.nr; for (i = 0; i < ctx->commits.nr; i++) { enum bloom_filter_computed computed = 0; struct commit *c = sorted_commits[i]; struct bloom_filter *filter = get_or_compute_bloom_filter( ctx->r, c, ctx->count_bloom_filter_computed < max_new_filters, ctx->bloom_settings, &computed); if (computed & BLOOM_COMPUTED) { ctx->count_bloom_filter_computed++; if (computed & BLOOM_TRUNC_EMPTY) ctx->count_bloom_filter_trunc_empty++; if (computed & BLOOM_TRUNC_LARGE) ctx->count_bloom_filter_trunc_large++; } else if (computed & BLOOM_UPGRADED) { ctx->count_bloom_filter_upgraded++; } else if (computed & BLOOM_NOT_COMPUTED) ctx->count_bloom_filter_not_computed++; ctx->total_bloom_filter_data_size += filter ? sizeof(unsigned char) * filter->len : 0; display_progress(progress, i + 1); } if (trace2_is_enabled()) trace2_bloom_filter_write_statistics(ctx); free(sorted_commits); stop_progress(&progress); } struct refs_cb_data { struct oidset *commits; struct progress *progress; }; static int add_ref_to_set(const char *refname UNUSED, const char *referent UNUSED, const struct object_id *oid, int flags UNUSED, void *cb_data) { struct object_id peeled; struct refs_cb_data *data = (struct refs_cb_data *)cb_data; if (!peel_iterated_oid(the_repository, oid, &peeled)) oid = &peeled; if (oid_object_info(the_repository, oid, NULL) == OBJ_COMMIT) oidset_insert(data->commits, oid); display_progress(data->progress, oidset_size(data->commits)); return 0; } int write_commit_graph_reachable(struct object_directory *odb, enum commit_graph_write_flags flags, const struct commit_graph_opts *opts) { struct oidset commits = OIDSET_INIT; struct refs_cb_data data; int result; memset(&data, 0, sizeof(data)); data.commits = &commits; if (flags & COMMIT_GRAPH_WRITE_PROGRESS) data.progress = start_delayed_progress( _("Collecting referenced commits"), 0); refs_for_each_ref(get_main_ref_store(the_repository), add_ref_to_set, &data); stop_progress(&data.progress); result = write_commit_graph(odb, NULL, &commits, flags, opts); oidset_clear(&commits); return result; } static int fill_oids_from_packs(struct write_commit_graph_context *ctx, const struct string_list *pack_indexes) { uint32_t i; struct strbuf progress_title = STRBUF_INIT; struct strbuf packname = STRBUF_INIT; int dirlen; int ret = 0; strbuf_addf(&packname, "%s/pack/", ctx->odb->path); dirlen = packname.len; if (ctx->report_progress) { strbuf_addf(&progress_title, Q_("Finding commits for commit graph in %"PRIuMAX" pack", "Finding commits for commit graph in %"PRIuMAX" packs", pack_indexes->nr), (uintmax_t)pack_indexes->nr); ctx->progress = start_delayed_progress(progress_title.buf, 0); ctx->progress_done = 0; } for (i = 0; i < pack_indexes->nr; i++) { struct packed_git *p; strbuf_setlen(&packname, dirlen); strbuf_addstr(&packname, pack_indexes->items[i].string); p = add_packed_git(packname.buf, packname.len, 1); if (!p) { ret = error(_("error adding pack %s"), packname.buf); goto cleanup; } if (open_pack_index(p)) { ret = error(_("error opening index for %s"), packname.buf); goto cleanup; } for_each_object_in_pack(p, add_packed_commits, ctx, FOR_EACH_OBJECT_PACK_ORDER); close_pack(p); free(p); } cleanup: stop_progress(&ctx->progress); strbuf_release(&progress_title); strbuf_release(&packname); return ret; } static int fill_oids_from_commits(struct write_commit_graph_context *ctx, struct oidset *commits) { struct oidset_iter iter; struct object_id *oid; if (!oidset_size(commits)) return 0; oidset_iter_init(commits, &iter); while ((oid = oidset_iter_next(&iter))) { oid_array_append(&ctx->oids, oid); } return 0; } static void fill_oids_from_all_packs(struct write_commit_graph_context *ctx) { if (ctx->report_progress) ctx->progress = start_delayed_progress( _("Finding commits for commit graph among packed objects"), ctx->approx_nr_objects); for_each_packed_object(add_packed_commits, ctx, FOR_EACH_OBJECT_PACK_ORDER); if (ctx->progress_done < ctx->approx_nr_objects) display_progress(ctx->progress, ctx->approx_nr_objects); stop_progress(&ctx->progress); } static void copy_oids_to_commits(struct write_commit_graph_context *ctx) { uint32_t i; enum commit_graph_split_flags flags = ctx->opts ? ctx->opts->split_flags : COMMIT_GRAPH_SPLIT_UNSPECIFIED; ctx->num_extra_edges = 0; if (ctx->report_progress) ctx->progress = start_delayed_progress( _("Finding extra edges in commit graph"), ctx->oids.nr); oid_array_sort(&ctx->oids); for (i = 0; i < ctx->oids.nr; i = oid_array_next_unique(&ctx->oids, i)) { unsigned int num_parents; display_progress(ctx->progress, i + 1); ALLOC_GROW(ctx->commits.list, ctx->commits.nr + 1, ctx->commits.alloc); ctx->commits.list[ctx->commits.nr] = lookup_commit(ctx->r, &ctx->oids.oid[i]); if (ctx->split && flags != COMMIT_GRAPH_SPLIT_REPLACE && commit_graph_position(ctx->commits.list[ctx->commits.nr]) != COMMIT_NOT_FROM_GRAPH) continue; if (ctx->split && flags == COMMIT_GRAPH_SPLIT_REPLACE) repo_parse_commit(ctx->r, ctx->commits.list[ctx->commits.nr]); else repo_parse_commit_no_graph(ctx->r, ctx->commits.list[ctx->commits.nr]); num_parents = commit_list_count(ctx->commits.list[ctx->commits.nr]->parents); if (num_parents > 2) ctx->num_extra_edges += num_parents - 1; ctx->commits.nr++; } stop_progress(&ctx->progress); } static int write_graph_chunk_base_1(struct hashfile *f, struct commit_graph *g) { int num = 0; if (!g) return 0; num = write_graph_chunk_base_1(f, g->base_graph); hashwrite(f, g->oid.hash, the_hash_algo->rawsz); return num + 1; } static int write_graph_chunk_base(struct hashfile *f, void *data) { struct write_commit_graph_context *ctx = data; int num = write_graph_chunk_base_1(f, ctx->new_base_graph); if (num != ctx->num_commit_graphs_after - 1) { error(_("failed to write correct number of base graph ids")); return -1; } return 0; } static int write_commit_graph_file(struct write_commit_graph_context *ctx) { uint32_t i; struct hashfile *f; struct tempfile *graph_layer; /* when ctx->split is non-zero */ struct lock_file lk = LOCK_INIT; const unsigned hashsz = the_hash_algo->rawsz; struct strbuf progress_title = STRBUF_INIT; struct chunkfile *cf; unsigned char file_hash[GIT_MAX_RAWSZ]; if (ctx->split) { struct strbuf tmp_file = STRBUF_INIT; strbuf_addf(&tmp_file, "%s/info/commit-graphs/tmp_graph_XXXXXX", ctx->odb->path); ctx->graph_name = strbuf_detach(&tmp_file, NULL); } else { ctx->graph_name = get_commit_graph_filename(ctx->odb); } if (safe_create_leading_directories(ctx->graph_name)) { error(_("unable to create leading directories of %s"), ctx->graph_name); return -1; } if (ctx->split) { char *lock_name = get_commit_graph_chain_filename(ctx->odb); hold_lock_file_for_update_mode(&lk, lock_name, LOCK_DIE_ON_ERROR, 0444); free(lock_name); graph_layer = mks_tempfile_m(ctx->graph_name, 0444); if (!graph_layer) { error(_("unable to create temporary graph layer")); return -1; } if (adjust_shared_perm(get_tempfile_path(graph_layer))) { error(_("unable to adjust shared permissions for '%s'"), get_tempfile_path(graph_layer)); return -1; } f = hashfd(get_tempfile_fd(graph_layer), get_tempfile_path(graph_layer)); } else { hold_lock_file_for_update_mode(&lk, ctx->graph_name, LOCK_DIE_ON_ERROR, 0444); f = hashfd(get_lock_file_fd(&lk), get_lock_file_path(&lk)); } cf = init_chunkfile(f); add_chunk(cf, GRAPH_CHUNKID_OIDFANOUT, GRAPH_FANOUT_SIZE, write_graph_chunk_fanout); add_chunk(cf, GRAPH_CHUNKID_OIDLOOKUP, st_mult(hashsz, ctx->commits.nr), write_graph_chunk_oids); add_chunk(cf, GRAPH_CHUNKID_DATA, st_mult(hashsz + 16, ctx->commits.nr), write_graph_chunk_data); if (ctx->write_generation_data) add_chunk(cf, GRAPH_CHUNKID_GENERATION_DATA, st_mult(sizeof(uint32_t), ctx->commits.nr), write_graph_chunk_generation_data); if (ctx->num_generation_data_overflows) add_chunk(cf, GRAPH_CHUNKID_GENERATION_DATA_OVERFLOW, st_mult(sizeof(timestamp_t), ctx->num_generation_data_overflows), write_graph_chunk_generation_data_overflow); if (ctx->num_extra_edges) add_chunk(cf, GRAPH_CHUNKID_EXTRAEDGES, st_mult(4, ctx->num_extra_edges), write_graph_chunk_extra_edges); if (ctx->changed_paths) { add_chunk(cf, GRAPH_CHUNKID_BLOOMINDEXES, st_mult(sizeof(uint32_t), ctx->commits.nr), write_graph_chunk_bloom_indexes); add_chunk(cf, GRAPH_CHUNKID_BLOOMDATA, st_add(sizeof(uint32_t) * 3, ctx->total_bloom_filter_data_size), write_graph_chunk_bloom_data); } if (ctx->num_commit_graphs_after > 1) add_chunk(cf, GRAPH_CHUNKID_BASE, st_mult(hashsz, ctx->num_commit_graphs_after - 1), write_graph_chunk_base); hashwrite_be32(f, GRAPH_SIGNATURE); hashwrite_u8(f, GRAPH_VERSION); hashwrite_u8(f, oid_version(the_hash_algo)); hashwrite_u8(f, get_num_chunks(cf)); hashwrite_u8(f, ctx->num_commit_graphs_after - 1); if (ctx->report_progress) { strbuf_addf(&progress_title, Q_("Writing out commit graph in %d pass", "Writing out commit graph in %d passes", get_num_chunks(cf)), get_num_chunks(cf)); ctx->progress = start_delayed_progress( progress_title.buf, st_mult(get_num_chunks(cf), ctx->commits.nr)); } write_chunkfile(cf, ctx); stop_progress(&ctx->progress); strbuf_release(&progress_title); if (ctx->split && ctx->base_graph_name && ctx->num_commit_graphs_after > 1) { char *new_base_hash = xstrdup(oid_to_hex(&ctx->new_base_graph->oid)); char *new_base_name = get_split_graph_filename(ctx->new_base_graph->odb, new_base_hash); free(ctx->commit_graph_filenames_after[ctx->num_commit_graphs_after - 2]); free(ctx->commit_graph_hash_after[ctx->num_commit_graphs_after - 2]); ctx->commit_graph_filenames_after[ctx->num_commit_graphs_after - 2] = new_base_name; ctx->commit_graph_hash_after[ctx->num_commit_graphs_after - 2] = new_base_hash; } close_commit_graph(ctx->r->objects); finalize_hashfile(f, file_hash, FSYNC_COMPONENT_COMMIT_GRAPH, CSUM_HASH_IN_STREAM | CSUM_FSYNC); free_chunkfile(cf); if (ctx->split) { FILE *chainf = fdopen_lock_file(&lk, "w"); char *final_graph_name; int result; if (!chainf) { error(_("unable to open commit-graph chain file")); return -1; } if (ctx->base_graph_name) { const char *dest; int idx = ctx->num_commit_graphs_after - 1; if (ctx->num_commit_graphs_after > 1) idx--; dest = ctx->commit_graph_filenames_after[idx]; if (strcmp(ctx->base_graph_name, dest)) { result = rename(ctx->base_graph_name, dest); if (result) { error(_("failed to rename base commit-graph file")); return -1; } } } else { char *graph_name = get_commit_graph_filename(ctx->odb); unlink(graph_name); free(graph_name); } free(ctx->commit_graph_hash_after[ctx->num_commit_graphs_after - 1]); ctx->commit_graph_hash_after[ctx->num_commit_graphs_after - 1] = xstrdup(hash_to_hex(file_hash)); final_graph_name = get_split_graph_filename(ctx->odb, ctx->commit_graph_hash_after[ctx->num_commit_graphs_after - 1]); free(ctx->commit_graph_filenames_after[ctx->num_commit_graphs_after - 1]); ctx->commit_graph_filenames_after[ctx->num_commit_graphs_after - 1] = final_graph_name; result = rename_tempfile(&graph_layer, final_graph_name); for (i = 0; i < ctx->num_commit_graphs_after; i++) fprintf(get_lock_file_fp(&lk), "%s\n", ctx->commit_graph_hash_after[i]); if (result) { error(_("failed to rename temporary commit-graph file")); return -1; } } commit_lock_file(&lk); return 0; } static void split_graph_merge_strategy(struct write_commit_graph_context *ctx) { struct commit_graph *g; uint32_t num_commits; enum commit_graph_split_flags flags = COMMIT_GRAPH_SPLIT_UNSPECIFIED; uint32_t i; int max_commits = 0; int size_mult = 2; if (ctx->opts) { max_commits = ctx->opts->max_commits; if (ctx->opts->size_multiple) size_mult = ctx->opts->size_multiple; flags = ctx->opts->split_flags; } g = ctx->r->objects->commit_graph; num_commits = ctx->commits.nr; if (flags == COMMIT_GRAPH_SPLIT_REPLACE) ctx->num_commit_graphs_after = 1; else ctx->num_commit_graphs_after = ctx->num_commit_graphs_before + 1; if (flags != COMMIT_GRAPH_SPLIT_MERGE_PROHIBITED && flags != COMMIT_GRAPH_SPLIT_REPLACE) { while (g && (g->num_commits <= st_mult(size_mult, num_commits) || (max_commits && num_commits > max_commits))) { if (g->odb != ctx->odb) break; if (unsigned_add_overflows(num_commits, g->num_commits)) die(_("cannot merge graphs with %"PRIuMAX", " "%"PRIuMAX" commits"), (uintmax_t)num_commits, (uintmax_t)g->num_commits); num_commits += g->num_commits; g = g->base_graph; ctx->num_commit_graphs_after--; } } if (flags != COMMIT_GRAPH_SPLIT_REPLACE) ctx->new_base_graph = g; else if (ctx->num_commit_graphs_after != 1) BUG("split_graph_merge_strategy: num_commit_graphs_after " "should be 1 with --split=replace"); if (ctx->num_commit_graphs_after == 2) { char *old_graph_name = get_commit_graph_filename(g->odb); if (!strcmp(g->filename, old_graph_name) && g->odb != ctx->odb) { ctx->num_commit_graphs_after = 1; ctx->new_base_graph = NULL; } free(old_graph_name); } CALLOC_ARRAY(ctx->commit_graph_filenames_after, ctx->num_commit_graphs_after); CALLOC_ARRAY(ctx->commit_graph_hash_after, ctx->num_commit_graphs_after); for (i = 0; i < ctx->num_commit_graphs_after && i < ctx->num_commit_graphs_before; i++) ctx->commit_graph_filenames_after[i] = xstrdup(ctx->commit_graph_filenames_before[i]); i = ctx->num_commit_graphs_before - 1; g = ctx->r->objects->commit_graph; while (g) { if (i < ctx->num_commit_graphs_after) ctx->commit_graph_hash_after[i] = xstrdup(oid_to_hex(&g->oid)); /* * If the topmost remaining layer has generation data chunk, the * resultant layer also has generation data chunk. */ if (i == ctx->num_commit_graphs_after - 2) ctx->write_generation_data = !!g->chunk_generation_data; i--; g = g->base_graph; } } static void merge_commit_graph(struct write_commit_graph_context *ctx, struct commit_graph *g) { uint32_t i; uint32_t offset = g->num_commits_in_base; if (unsigned_add_overflows(ctx->commits.nr, g->num_commits)) die(_("cannot merge graph %s, too many commits: %"PRIuMAX), oid_to_hex(&g->oid), (uintmax_t)st_add(ctx->commits.nr, g->num_commits)); ALLOC_GROW(ctx->commits.list, ctx->commits.nr + g->num_commits, ctx->commits.alloc); for (i = 0; i < g->num_commits; i++) { struct object_id oid; struct commit *result; display_progress(ctx->progress, i + 1); load_oid_from_graph(g, i + offset, &oid); /* only add commits if they still exist in the repo */ result = lookup_commit_reference_gently(ctx->r, &oid, 1); if (result) { ctx->commits.list[ctx->commits.nr] = result; ctx->commits.nr++; } } } static int commit_compare(const void *_a, const void *_b) { const struct commit *a = *(const struct commit **)_a; const struct commit *b = *(const struct commit **)_b; return oidcmp(&a->object.oid, &b->object.oid); } static void sort_and_scan_merged_commits(struct write_commit_graph_context *ctx) { uint32_t i, dedup_i = 0; if (ctx->report_progress) ctx->progress = start_delayed_progress( _("Scanning merged commits"), ctx->commits.nr); QSORT(ctx->commits.list, ctx->commits.nr, commit_compare); ctx->num_extra_edges = 0; for (i = 0; i < ctx->commits.nr; i++) { display_progress(ctx->progress, i + 1); if (i && oideq(&ctx->commits.list[i - 1]->object.oid, &ctx->commits.list[i]->object.oid)) { /* * Silently ignore duplicates. These were likely * created due to a commit appearing in multiple * layers of the chain, which is unexpected but * not invalid. We should make sure there is a * unique copy in the new layer. */ } else { unsigned int num_parents; ctx->commits.list[dedup_i] = ctx->commits.list[i]; dedup_i++; num_parents = commit_list_count(ctx->commits.list[i]->parents); if (num_parents > 2) ctx->num_extra_edges += num_parents - 1; } } ctx->commits.nr = dedup_i; stop_progress(&ctx->progress); } static void merge_commit_graphs(struct write_commit_graph_context *ctx) { struct commit_graph *g = ctx->r->objects->commit_graph; uint32_t current_graph_number = ctx->num_commit_graphs_before; while (g && current_graph_number >= ctx->num_commit_graphs_after) { current_graph_number--; if (ctx->report_progress) ctx->progress = start_delayed_progress(_("Merging commit-graph"), 0); merge_commit_graph(ctx, g); stop_progress(&ctx->progress); g = g->base_graph; } if (g) { ctx->new_base_graph = g; ctx->new_num_commits_in_base = g->num_commits + g->num_commits_in_base; } if (ctx->new_base_graph) ctx->base_graph_name = xstrdup(ctx->new_base_graph->filename); sort_and_scan_merged_commits(ctx); } static void mark_commit_graphs(struct write_commit_graph_context *ctx) { uint32_t i; time_t now = time(NULL); for (i = ctx->num_commit_graphs_after - 1; i < ctx->num_commit_graphs_before; i++) { struct stat st; struct utimbuf updated_time; if (stat(ctx->commit_graph_filenames_before[i], &st) < 0) continue; updated_time.actime = st.st_atime; updated_time.modtime = now; utime(ctx->commit_graph_filenames_before[i], &updated_time); } } static void expire_commit_graphs(struct write_commit_graph_context *ctx) { struct strbuf path = STRBUF_INIT; DIR *dir; struct dirent *de; size_t dirnamelen; timestamp_t expire_time = time(NULL); if (ctx->opts && ctx->opts->expire_time) expire_time = ctx->opts->expire_time; if (!ctx->split) { char *chain_file_name = get_commit_graph_chain_filename(ctx->odb); unlink(chain_file_name); free(chain_file_name); ctx->num_commit_graphs_after = 0; } strbuf_addstr(&path, ctx->odb->path); strbuf_addstr(&path, "/info/commit-graphs"); dir = opendir(path.buf); if (!dir) goto out; strbuf_addch(&path, '/'); dirnamelen = path.len; while ((de = readdir(dir)) != NULL) { struct stat st; uint32_t i, found = 0; strbuf_setlen(&path, dirnamelen); strbuf_addstr(&path, de->d_name); if (stat(path.buf, &st) < 0) continue; if (st.st_mtime > expire_time) continue; if (path.len < 6 || strcmp(path.buf + path.len - 6, ".graph")) continue; for (i = 0; i < ctx->num_commit_graphs_after; i++) { if (!strcmp(ctx->commit_graph_filenames_after[i], path.buf)) { found = 1; break; } } if (!found) unlink(path.buf); } out: if(dir) closedir(dir); strbuf_release(&path); } int write_commit_graph(struct object_directory *odb, const struct string_list *const pack_indexes, struct oidset *commits, enum commit_graph_write_flags flags, const struct commit_graph_opts *opts) { struct repository *r = the_repository; struct write_commit_graph_context *ctx; uint32_t i; int res = 0; int replace = 0; struct bloom_filter_settings bloom_settings = DEFAULT_BLOOM_FILTER_SETTINGS; struct topo_level_slab topo_levels; prepare_repo_settings(r); if (!r->settings.core_commit_graph) { warning(_("attempting to write a commit-graph, but 'core.commitGraph' is disabled")); return 0; } if (!commit_graph_compatible(r)) return 0; if (r->settings.commit_graph_changed_paths_version < -1 || r->settings.commit_graph_changed_paths_version > 2) { warning(_("attempting to write a commit-graph, but " "'commitGraph.changedPathsVersion' (%d) is not supported"), r->settings.commit_graph_changed_paths_version); return 0; } CALLOC_ARRAY(ctx, 1); ctx->r = r; ctx->odb = odb; ctx->append = flags & COMMIT_GRAPH_WRITE_APPEND ? 1 : 0; ctx->report_progress = flags & COMMIT_GRAPH_WRITE_PROGRESS ? 1 : 0; ctx->split = flags & COMMIT_GRAPH_WRITE_SPLIT ? 1 : 0; ctx->opts = opts; ctx->total_bloom_filter_data_size = 0; ctx->write_generation_data = (get_configured_generation_version(r) == 2); ctx->num_generation_data_overflows = 0; bloom_settings.hash_version = r->settings.commit_graph_changed_paths_version; bloom_settings.bits_per_entry = git_env_ulong("GIT_TEST_BLOOM_SETTINGS_BITS_PER_ENTRY", bloom_settings.bits_per_entry); bloom_settings.num_hashes = git_env_ulong("GIT_TEST_BLOOM_SETTINGS_NUM_HASHES", bloom_settings.num_hashes); bloom_settings.max_changed_paths = git_env_ulong("GIT_TEST_BLOOM_SETTINGS_MAX_CHANGED_PATHS", bloom_settings.max_changed_paths); ctx->bloom_settings = &bloom_settings; init_topo_level_slab(&topo_levels); ctx->topo_levels = &topo_levels; prepare_commit_graph(ctx->r); if (ctx->r->objects->commit_graph) { struct commit_graph *g = ctx->r->objects->commit_graph; while (g) { g->topo_levels = &topo_levels; g = g->base_graph; } } if (flags & COMMIT_GRAPH_WRITE_BLOOM_FILTERS) ctx->changed_paths = 1; if (!(flags & COMMIT_GRAPH_NO_WRITE_BLOOM_FILTERS)) { struct commit_graph *g; g = ctx->r->objects->commit_graph; /* We have changed-paths already. Keep them in the next graph */ if (g && g->bloom_filter_settings) { ctx->changed_paths = 1; /* don't propagate the hash_version unless unspecified */ if (bloom_settings.hash_version == -1) bloom_settings.hash_version = g->bloom_filter_settings->hash_version; bloom_settings.bits_per_entry = g->bloom_filter_settings->bits_per_entry; bloom_settings.num_hashes = g->bloom_filter_settings->num_hashes; bloom_settings.max_changed_paths = g->bloom_filter_settings->max_changed_paths; } } bloom_settings.hash_version = bloom_settings.hash_version == 2 ? 2 : 1; if (ctx->split) { struct commit_graph *g = ctx->r->objects->commit_graph; while (g) { ctx->num_commit_graphs_before++; g = g->base_graph; } if (ctx->num_commit_graphs_before) { ALLOC_ARRAY(ctx->commit_graph_filenames_before, ctx->num_commit_graphs_before); i = ctx->num_commit_graphs_before; g = ctx->r->objects->commit_graph; while (g) { ctx->commit_graph_filenames_before[--i] = xstrdup(g->filename); g = g->base_graph; } } if (ctx->opts) replace = ctx->opts->split_flags & COMMIT_GRAPH_SPLIT_REPLACE; } ctx->approx_nr_objects = repo_approximate_object_count(the_repository); if (ctx->append && ctx->r->objects->commit_graph) { struct commit_graph *g = ctx->r->objects->commit_graph; for (i = 0; i < g->num_commits; i++) { struct object_id oid; oidread(&oid, g->chunk_oid_lookup + st_mult(g->hash_len, i), the_repository->hash_algo); oid_array_append(&ctx->oids, &oid); } } if (pack_indexes) { ctx->order_by_pack = 1; if ((res = fill_oids_from_packs(ctx, pack_indexes))) goto cleanup; } if (commits) { if ((res = fill_oids_from_commits(ctx, commits))) goto cleanup; } if (!pack_indexes && !commits) { ctx->order_by_pack = 1; fill_oids_from_all_packs(ctx); } close_reachable(ctx); copy_oids_to_commits(ctx); if (ctx->commits.nr >= GRAPH_EDGE_LAST_MASK) { error(_("too many commits to write graph")); res = -1; goto cleanup; } if (!ctx->commits.nr && !replace) goto cleanup; if (ctx->split) { split_graph_merge_strategy(ctx); if (!replace) merge_commit_graphs(ctx); } else ctx->num_commit_graphs_after = 1; ctx->trust_generation_numbers = validate_mixed_generation_chain(ctx->r->objects->commit_graph); compute_topological_levels(ctx); if (ctx->write_generation_data) compute_generation_numbers(ctx); if (ctx->changed_paths) compute_bloom_filters(ctx); res = write_commit_graph_file(ctx); if (ctx->changed_paths) deinit_bloom_filters(); if (ctx->split) mark_commit_graphs(ctx); expire_commit_graphs(ctx); cleanup: free(ctx->graph_name); free(ctx->base_graph_name); free(ctx->commits.list); oid_array_clear(&ctx->oids); clear_topo_level_slab(&topo_levels); for (i = 0; i < ctx->num_commit_graphs_before; i++) free(ctx->commit_graph_filenames_before[i]); free(ctx->commit_graph_filenames_before); for (i = 0; i < ctx->num_commit_graphs_after; i++) { free(ctx->commit_graph_filenames_after[i]); free(ctx->commit_graph_hash_after[i]); } free(ctx->commit_graph_filenames_after); free(ctx->commit_graph_hash_after); free(ctx); return res; } #define VERIFY_COMMIT_GRAPH_ERROR_HASH 2 static int verify_commit_graph_error; __attribute__((format (printf, 1, 2))) static void graph_report(const char *fmt, ...) { va_list ap; verify_commit_graph_error = 1; va_start(ap, fmt); vfprintf(stderr, fmt, ap); fprintf(stderr, "\n"); va_end(ap); } static int commit_graph_checksum_valid(struct commit_graph *g) { return hashfile_checksum_valid(g->data, g->data_len); } static int verify_one_commit_graph(struct repository *r, struct commit_graph *g, struct progress *progress, uint64_t *seen) { uint32_t i, cur_fanout_pos = 0; struct object_id prev_oid, cur_oid; struct commit *seen_gen_zero = NULL; struct commit *seen_gen_non_zero = NULL; if (!commit_graph_checksum_valid(g)) { graph_report(_("the commit-graph file has incorrect checksum and is likely corrupt")); verify_commit_graph_error = VERIFY_COMMIT_GRAPH_ERROR_HASH; } for (i = 0; i < g->num_commits; i++) { struct commit *graph_commit; oidread(&cur_oid, g->chunk_oid_lookup + st_mult(g->hash_len, i), the_repository->hash_algo); if (i && oidcmp(&prev_oid, &cur_oid) >= 0) graph_report(_("commit-graph has incorrect OID order: %s then %s"), oid_to_hex(&prev_oid), oid_to_hex(&cur_oid)); oidcpy(&prev_oid, &cur_oid); while (cur_oid.hash[0] > cur_fanout_pos) { uint32_t fanout_value = get_be32(g->chunk_oid_fanout + cur_fanout_pos); if (i != fanout_value) graph_report(_("commit-graph has incorrect fanout value: fanout[%d] = %u != %u"), cur_fanout_pos, fanout_value, i); cur_fanout_pos++; } graph_commit = lookup_commit(r, &cur_oid); if (!parse_commit_in_graph_one(r, g, graph_commit)) graph_report(_("failed to parse commit %s from commit-graph"), oid_to_hex(&cur_oid)); } while (cur_fanout_pos < 256) { uint32_t fanout_value = get_be32(g->chunk_oid_fanout + cur_fanout_pos); if (g->num_commits != fanout_value) graph_report(_("commit-graph has incorrect fanout value: fanout[%d] = %u != %u"), cur_fanout_pos, fanout_value, i); cur_fanout_pos++; } if (verify_commit_graph_error & ~VERIFY_COMMIT_GRAPH_ERROR_HASH) return verify_commit_graph_error; for (i = 0; i < g->num_commits; i++) { struct commit *graph_commit, *odb_commit; struct commit_list *graph_parents, *odb_parents; timestamp_t max_generation = 0; timestamp_t generation; display_progress(progress, ++(*seen)); oidread(&cur_oid, g->chunk_oid_lookup + st_mult(g->hash_len, i), the_repository->hash_algo); graph_commit = lookup_commit(r, &cur_oid); odb_commit = (struct commit *)create_object(r, &cur_oid, alloc_commit_node(r)); if (repo_parse_commit_internal(r, odb_commit, 0, 0)) { graph_report(_("failed to parse commit %s from object database for commit-graph"), oid_to_hex(&cur_oid)); continue; } if (!oideq(&get_commit_tree_in_graph_one(r, g, graph_commit)->object.oid, get_commit_tree_oid(odb_commit))) graph_report(_("root tree OID for commit %s in commit-graph is %s != %s"), oid_to_hex(&cur_oid), oid_to_hex(get_commit_tree_oid(graph_commit)), oid_to_hex(get_commit_tree_oid(odb_commit))); graph_parents = graph_commit->parents; odb_parents = odb_commit->parents; while (graph_parents) { if (!odb_parents) { graph_report(_("commit-graph parent list for commit %s is too long"), oid_to_hex(&cur_oid)); break; } /* parse parent in case it is in a base graph */ parse_commit_in_graph_one(r, g, graph_parents->item); if (!oideq(&graph_parents->item->object.oid, &odb_parents->item->object.oid)) graph_report(_("commit-graph parent for %s is %s != %s"), oid_to_hex(&cur_oid), oid_to_hex(&graph_parents->item->object.oid), oid_to_hex(&odb_parents->item->object.oid)); generation = commit_graph_generation_from_graph(graph_parents->item); if (generation > max_generation) max_generation = generation; graph_parents = graph_parents->next; odb_parents = odb_parents->next; } if (odb_parents) graph_report(_("commit-graph parent list for commit %s terminates early"), oid_to_hex(&cur_oid)); if (commit_graph_generation_from_graph(graph_commit)) seen_gen_non_zero = graph_commit; else seen_gen_zero = graph_commit; if (seen_gen_zero) continue; /* * If we are using topological level and one of our parents has * generation GENERATION_NUMBER_V1_MAX, then our generation is * also GENERATION_NUMBER_V1_MAX. Decrement to avoid extra logic * in the following condition. */ if (!g->read_generation_data && max_generation == GENERATION_NUMBER_V1_MAX) max_generation--; generation = commit_graph_generation(graph_commit); if (generation < max_generation + 1) graph_report(_("commit-graph generation for commit %s is %"PRItime" < %"PRItime), oid_to_hex(&cur_oid), generation, max_generation + 1); if (graph_commit->date != odb_commit->date) graph_report(_("commit date for commit %s in commit-graph is %"PRItime" != %"PRItime), oid_to_hex(&cur_oid), graph_commit->date, odb_commit->date); } if (seen_gen_zero && seen_gen_non_zero) graph_report(_("commit-graph has both zero and non-zero " "generations (e.g., commits '%s' and '%s')"), oid_to_hex(&seen_gen_zero->object.oid), oid_to_hex(&seen_gen_non_zero->object.oid)); return verify_commit_graph_error; } int verify_commit_graph(struct repository *r, struct commit_graph *g, int flags) { struct progress *progress = NULL; int local_error = 0; uint64_t seen = 0; if (!g) { graph_report("no commit-graph file loaded"); return 1; } if (flags & COMMIT_GRAPH_WRITE_PROGRESS) { uint64_t total = g->num_commits; if (!(flags & COMMIT_GRAPH_VERIFY_SHALLOW)) total += g->num_commits_in_base; progress = start_progress(_("Verifying commits in commit graph"), total); } for (; g; g = g->base_graph) { local_error |= verify_one_commit_graph(r, g, progress, &seen); if (flags & COMMIT_GRAPH_VERIFY_SHALLOW) break; } stop_progress(&progress); return local_error; } void free_commit_graph(struct commit_graph *g) { while (g) { struct commit_graph *next = g->base_graph; if (g->data) munmap((void *)g->data, g->data_len); free(g->filename); free(g->bloom_filter_settings); free(g); g = next; } } void disable_commit_graph(struct repository *r) { r->commit_graph_disabled = 1; }