/* * Copyright (C) the libgit2 contributors. All rights reserved. * * This file is part of libgit2, distributed under the GNU GPL v2 with * a Linking Exception. For full terms see the included COPYING file. */ #include "common.h" #include #include "git2/repository.h" #include "git2/indexer.h" #include "git2/sys/odb_backend.h" #include "delta.h" #include "futils.h" #include "hash.h" #include "midx.h" #include "mwindow.h" #include "odb.h" #include "pack.h" #include "git2/odb_backend.h" /* re-freshen pack files no more than every 2 seconds */ #define FRESHEN_FREQUENCY 2 struct pack_backend { git_odb_backend parent; git_odb_backend_pack_options opts; git_midx_file *midx; git_vector midx_packs; git_vector packs; struct git_pack_file *last_found; char *pack_folder; }; struct pack_writepack { struct git_odb_writepack parent; git_indexer *indexer; }; /** * The wonderful tale of a Packed Object lookup query * =================================================== * A riveting and epic story of epicness and ASCII * art, presented by yours truly, * Sir Vicent of Marti * * * Chapter 1: Once upon a time... * Initialization of the Pack Backend * -------------------------------------------------- * * # git_odb_backend_pack * | Creates the pack backend structure, initializes the * | callback pointers to our default read() and exist() methods, * | and tries to find the `pack` folder, if it exists. ODBs without a `pack` * | folder are ignored altogether. If there is a `pack` folder, it tries to * | preload all the known packfiles in the ODB. * | * |-# pack_backend__refresh * | The `multi-pack-index` is loaded if it exists and is valid. * | Then we run a `dirent` callback through every file in the pack folder, * | even those present in `multi-pack-index`. The unindexed packfiles are * | then sorted according to a sorting callback. * | * |-# refresh_multi_pack_index * | Detect the presence of the `multi-pack-index` file. If it needs to be * | refreshed, frees the old copy and tries to load the new one, together * | with all the packfiles it indexes. If the process fails, fall back to * | the old behavior, as if the `multi-pack-index` file was not there. * | * |-# packfile_load__cb * | | This callback is called from `dirent` with every single file * | | inside the pack folder. We find the packs by actually locating * | | their index (ends in ".idx"). From that index, we verify that * | | the corresponding packfile exists and is valid, and if so, we * | | add it to the pack list. * | | * | # git_mwindow_get_pack * | Make sure that there's a packfile to back this index, and store * | some very basic information regarding the packfile itself, * | such as the full path, the size, and the modification time. * | We don't actually open the packfile to check for internal consistency. * | * |-# packfile_sort__cb * Sort all the preloaded packs according to some specific criteria: * we prioritize the "newer" packs because it's more likely they * contain the objects we are looking for, and we prioritize local * packs over remote ones. * * * * Chapter 2: To be, or not to be... * A standard packed `exist` query for an OID * -------------------------------------------------- * * # pack_backend__exists / pack_backend__exists_prefix * | Check if the given oid (or an oid prefix) exists in any of the * | packs that have been loaded for our ODB. * | * |-# pack_entry_find / pack_entry_find_prefix * | If there is a multi-pack-index present, search the oid in that * | index first. If it is not found there, iterate through all the unindexed * | packs that have been preloaded (starting by the pack where the latest * | object was found) to try to find the OID in one of them. * | * |-# git_midx_entry_find * | Search for the oid in the multi-pack-index. See * | * | for specifics on the multi-pack-index format and how do we find * | entries in it. * | * |-# git_pack_entry_find * | Check the index of an individual unindexed pack to see if the * | OID can be found. If we can find the offset to that inside of the * | index, that means the object is contained inside of the packfile and * | we can stop searching. Before returning, we verify that the * | packfile behind the index we are searching still exists on disk. * | * |-# pack_entry_find_offset * | Mmap the actual index file to disk if it hasn't been opened * | yet, and run a binary search through it to find the OID. * | See * | for specifics on the Packfile Index format and how do we find * | entries in it. * | * |-# pack_index_open * | Guess the name of the index based on the full path to the * | packfile, open it and verify its contents. Only if the index * | has not been opened already. * | * |-# pack_index_check * Mmap the index file and do a quick run through the header * to guess the index version (right now we support v1 and v2), * and to verify that the size of the index makes sense. * * * * Chapter 3: The neverending story... * A standard packed `lookup` query for an OID * -------------------------------------------------- * * # pack_backend__read / pack_backend__read_prefix * | Check if the given oid (or an oid prefix) exists in any of the * | packs that have been loaded for our ODB. If it does, open the packfile and * | read from it. * | * |-# git_packfile_unpack * Armed with a packfile and the offset within it, we can finally unpack * the object pointed at by the oid. This involves mmapping part of * the `.pack` file, and uncompressing the object within it (if it is * stored in the undelfitied representation), or finding a base object and * applying some deltas to its uncompressed representation (if it is stored * in the deltified representation). See * * for specifics on the Packfile format and how do we read from it. * */ /*********************************************************** * * FORWARD DECLARATIONS * ***********************************************************/ static int packfile_sort__cb(const void *a_, const void *b_); static int packfile_load__cb(void *_data, git_str *path); static int packfile_byname_search_cmp(const void *path, const void *pack_entry); static int pack_entry_find(struct git_pack_entry *e, struct pack_backend *backend, const git_oid *oid); /* Can find the offset of an object given * a prefix of an identifier. * Sets GIT_EAMBIGUOUS if short oid is ambiguous. * This method assumes that len is between * GIT_OID_MINPREFIXLEN and the hexsize for the hash type. */ static int pack_entry_find_prefix( struct git_pack_entry *e, struct pack_backend *backend, const git_oid *short_oid, size_t len); /*********************************************************** * * PACK WINDOW MANAGEMENT * ***********************************************************/ static int packfile_byname_search_cmp(const void *path_, const void *p_) { const git_str *path = (const git_str *)path_; const struct git_pack_file *p = (const struct git_pack_file *)p_; return strncmp(p->pack_name, git_str_cstr(path), git_str_len(path)); } static int packfile_sort__cb(const void *a_, const void *b_) { const struct git_pack_file *a = a_; const struct git_pack_file *b = b_; int st; /* * Local packs tend to contain objects specific to our * variant of the project than remote ones. In addition, * remote ones could be on a network mounted filesystem. * Favor local ones for these reasons. */ st = a->pack_local - b->pack_local; if (st) return -st; /* * Younger packs tend to contain more recent objects, * and more recent objects tend to get accessed more * often. */ if (a->mtime < b->mtime) return 1; else if (a->mtime == b->mtime) return 0; return -1; } static int packfile_load__cb(void *data, git_str *path) { struct pack_backend *backend = data; struct git_pack_file *pack; const char *path_str = git_str_cstr(path); git_str index_prefix = GIT_STR_INIT; size_t cmp_len = git_str_len(path); int error; if (cmp_len <= strlen(".idx") || git__suffixcmp(path_str, ".idx") != 0) return 0; /* not an index */ cmp_len -= strlen(".idx"); git_str_attach_notowned(&index_prefix, path_str, cmp_len); if (git_vector_search2(NULL, &backend->midx_packs, packfile_byname_search_cmp, &index_prefix) == 0) return 0; if (git_vector_search2(NULL, &backend->packs, packfile_byname_search_cmp, &index_prefix) == 0) return 0; error = git_mwindow_get_pack(&pack, path->ptr, backend->opts.oid_type); /* ignore missing .pack file as git does */ if (error == GIT_ENOTFOUND) { git_error_clear(); return 0; } if (!error) error = git_vector_insert(&backend->packs, pack); return error; } static int pack_entry_find(struct git_pack_entry *e, struct pack_backend *backend, const git_oid *oid) { struct git_pack_file *last_found = backend->last_found, *p; git_midx_entry midx_entry; size_t oid_hexsize = git_oid_hexsize(backend->opts.oid_type); size_t i; if (backend->midx && git_midx_entry_find(&midx_entry, backend->midx, oid, oid_hexsize) == 0 && midx_entry.pack_index < git_vector_length(&backend->midx_packs)) { e->offset = midx_entry.offset; git_oid_cpy(&e->id, &midx_entry.sha1); e->p = git_vector_get(&backend->midx_packs, midx_entry.pack_index); return 0; } if (last_found && git_pack_entry_find(e, last_found, oid, oid_hexsize) == 0) return 0; git_vector_foreach(&backend->packs, i, p) { if (p == last_found) continue; if (git_pack_entry_find(e, p, oid, oid_hexsize) == 0) { backend->last_found = p; return 0; } } return git_odb__error_notfound( "failed to find pack entry", oid, oid_hexsize); } static int pack_entry_find_prefix( struct git_pack_entry *e, struct pack_backend *backend, const git_oid *short_oid, size_t len) { int error; size_t i; git_oid found_full_oid; bool found = false; struct git_pack_file *last_found = backend->last_found, *p; git_midx_entry midx_entry; #ifdef GIT_EXPERIMENTAL_SHA256 git_oid_clear(&found_full_oid, short_oid->type); #else git_oid_clear(&found_full_oid, GIT_OID_SHA1); #endif if (backend->midx) { error = git_midx_entry_find(&midx_entry, backend->midx, short_oid, len); if (error == GIT_EAMBIGUOUS) return error; if (!error && midx_entry.pack_index < git_vector_length(&backend->midx_packs)) { e->offset = midx_entry.offset; git_oid_cpy(&e->id, &midx_entry.sha1); e->p = git_vector_get(&backend->midx_packs, midx_entry.pack_index); git_oid_cpy(&found_full_oid, &e->id); found = true; } } if (last_found) { error = git_pack_entry_find(e, last_found, short_oid, len); if (error == GIT_EAMBIGUOUS) return error; if (!error) { if (found && git_oid_cmp(&e->id, &found_full_oid)) return git_odb__error_ambiguous("found multiple pack entries"); git_oid_cpy(&found_full_oid, &e->id); found = true; } } git_vector_foreach(&backend->packs, i, p) { if (p == last_found) continue; error = git_pack_entry_find(e, p, short_oid, len); if (error == GIT_EAMBIGUOUS) return error; if (!error) { if (found && git_oid_cmp(&e->id, &found_full_oid)) return git_odb__error_ambiguous("found multiple pack entries"); git_oid_cpy(&found_full_oid, &e->id); found = true; backend->last_found = p; } } if (!found) return git_odb__error_notfound("no matching pack entry for prefix", short_oid, len); else return 0; } /*********************************************************** * * MULTI-PACK-INDEX SUPPORT * * Functions needed to support the multi-pack-index. * ***********************************************************/ /* * Remove the multi-pack-index, and move all midx_packs to packs. */ static int remove_multi_pack_index(struct pack_backend *backend) { size_t i, j = git_vector_length(&backend->packs); struct pack_backend *p; int error = git_vector_size_hint( &backend->packs, j + git_vector_length(&backend->midx_packs)); if (error < 0) return error; git_vector_foreach(&backend->midx_packs, i, p) git_vector_set(NULL, &backend->packs, j++, p); git_vector_clear(&backend->midx_packs); git_midx_free(backend->midx); backend->midx = NULL; return 0; } /* * Loads a single .pack file referred to by the multi-pack-index. These must * match the order in which they are declared in the multi-pack-index file, * since these files are referred to by their index. */ static int process_multi_pack_index_pack( struct pack_backend *backend, size_t i, const char *packfile_name) { int error; struct git_pack_file *pack; size_t found_position; git_str pack_path = GIT_STR_INIT, index_prefix = GIT_STR_INIT; error = git_str_joinpath(&pack_path, backend->pack_folder, packfile_name); if (error < 0) return error; /* This is ensured by midx_parse_packfile_name() */ if (git_str_len(&pack_path) <= strlen(".idx") || git__suffixcmp(git_str_cstr(&pack_path), ".idx") != 0) return git_odb__error_notfound("midx file contained a non-index", NULL, 0); git_str_attach_notowned(&index_prefix, git_str_cstr(&pack_path), git_str_len(&pack_path) - strlen(".idx")); if (git_vector_search2(&found_position, &backend->packs, packfile_byname_search_cmp, &index_prefix) == 0) { /* Pack was found in the packs list. Moving it to the midx_packs list. */ git_str_dispose(&pack_path); git_vector_set(NULL, &backend->midx_packs, i, git_vector_get(&backend->packs, found_position)); git_vector_remove(&backend->packs, found_position); return 0; } /* Pack was not found. Allocate a new one. */ error = git_mwindow_get_pack( &pack, git_str_cstr(&pack_path), backend->opts.oid_type); git_str_dispose(&pack_path); if (error < 0) return error; git_vector_set(NULL, &backend->midx_packs, i, pack); return 0; } /* * Reads the multi-pack-index. If this fails for whatever reason, the * multi-pack-index object is freed, and all the packfiles that are related to * it are moved to the unindexed packfiles vector. */ static int refresh_multi_pack_index(struct pack_backend *backend) { int error; git_str midx_path = GIT_STR_INIT; const char *packfile_name; size_t i; error = git_str_joinpath(&midx_path, backend->pack_folder, "multi-pack-index"); if (error < 0) return error; /* * Check whether the multi-pack-index has changed. If it has, close any * old multi-pack-index and move all the packfiles to the unindexed * packs. This is done to prevent losing any open packfiles in case * refreshing the new multi-pack-index fails, or the file is deleted. */ if (backend->midx) { if (!git_midx_needs_refresh(backend->midx, git_str_cstr(&midx_path))) { git_str_dispose(&midx_path); return 0; } error = remove_multi_pack_index(backend); if (error < 0) { git_str_dispose(&midx_path); return error; } } error = git_midx_open(&backend->midx, git_str_cstr(&midx_path), backend->opts.oid_type); git_str_dispose(&midx_path); if (error < 0) return error; git_vector_resize_to(&backend->midx_packs, git_vector_length(&backend->midx->packfile_names)); git_vector_foreach(&backend->midx->packfile_names, i, packfile_name) { error = process_multi_pack_index_pack(backend, i, packfile_name); if (error < 0) { /* * Something failed during reading multi-pack-index. * Restore the state of backend as if the * multi-pack-index was never there, and move all * packfiles that have been processed so far to the * unindexed packs. */ git_vector_resize_to(&backend->midx_packs, i); remove_multi_pack_index(backend); return error; } } return 0; } /*********************************************************** * * PACKED BACKEND PUBLIC API * * Implement the git_odb_backend API calls * ***********************************************************/ static int pack_backend__refresh(git_odb_backend *backend_) { int error; struct stat st; git_str path = GIT_STR_INIT; struct pack_backend *backend = (struct pack_backend *)backend_; if (backend->pack_folder == NULL) return 0; if (p_stat(backend->pack_folder, &st) < 0 || !S_ISDIR(st.st_mode)) return git_odb__error_notfound("failed to refresh packfiles", NULL, 0); if (refresh_multi_pack_index(backend) < 0) { /* * It is okay if this fails. We will just not use the * multi-pack-index in this case. */ git_error_clear(); } /* reload all packs */ git_str_sets(&path, backend->pack_folder); error = git_fs_path_direach(&path, 0, packfile_load__cb, backend); git_str_dispose(&path); git_vector_sort(&backend->packs); return error; } static int pack_backend__read_header( size_t *len_p, git_object_t *type_p, struct git_odb_backend *backend, const git_oid *oid) { struct git_pack_entry e; int error; GIT_ASSERT_ARG(len_p); GIT_ASSERT_ARG(type_p); GIT_ASSERT_ARG(backend); GIT_ASSERT_ARG(oid); if ((error = pack_entry_find(&e, (struct pack_backend *)backend, oid)) < 0) return error; return git_packfile_resolve_header(len_p, type_p, e.p, e.offset); } static int pack_backend__freshen( git_odb_backend *backend, const git_oid *oid) { struct git_pack_entry e; time_t now; int error; if ((error = pack_entry_find(&e, (struct pack_backend *)backend, oid)) < 0) return error; now = time(NULL); if (e.p->last_freshen > now - FRESHEN_FREQUENCY) return 0; if ((error = git_futils_touch(e.p->pack_name, &now)) < 0) return error; e.p->last_freshen = now; return 0; } static int pack_backend__read( void **buffer_p, size_t *len_p, git_object_t *type_p, git_odb_backend *backend, const git_oid *oid) { struct git_pack_entry e; git_rawobj raw = {NULL}; int error; if ((error = pack_entry_find(&e, (struct pack_backend *)backend, oid)) < 0 || (error = git_packfile_unpack(&raw, e.p, &e.offset)) < 0) return error; *buffer_p = raw.data; *len_p = raw.len; *type_p = raw.type; return 0; } static int pack_backend__read_prefix( git_oid *out_oid, void **buffer_p, size_t *len_p, git_object_t *type_p, git_odb_backend *_backend, const git_oid *short_oid, size_t len) { struct pack_backend *backend = (struct pack_backend *)_backend; int error = 0; if (len < GIT_OID_MINPREFIXLEN) error = git_odb__error_ambiguous("prefix length too short"); else if (len >= git_oid_hexsize(backend->opts.oid_type)) { /* We can fall back to regular read method */ error = pack_backend__read(buffer_p, len_p, type_p, _backend, short_oid); if (!error) git_oid_cpy(out_oid, short_oid); } else { struct git_pack_entry e; git_rawobj raw = {NULL}; if ((error = pack_entry_find_prefix(&e, backend, short_oid, len)) == 0 && (error = git_packfile_unpack(&raw, e.p, &e.offset)) == 0) { *buffer_p = raw.data; *len_p = raw.len; *type_p = raw.type; git_oid_cpy(out_oid, &e.id); } } return error; } static int pack_backend__exists(git_odb_backend *backend, const git_oid *oid) { struct git_pack_entry e; return pack_entry_find(&e, (struct pack_backend *)backend, oid) == 0; } static int pack_backend__exists_prefix( git_oid *out, git_odb_backend *backend, const git_oid *short_id, size_t len) { int error; struct pack_backend *pb = (struct pack_backend *)backend; struct git_pack_entry e = {0}; error = pack_entry_find_prefix(&e, pb, short_id, len); git_oid_cpy(out, &e.id); return error; } static int pack_backend__foreach(git_odb_backend *_backend, git_odb_foreach_cb cb, void *data) { int error; struct git_pack_file *p; struct pack_backend *backend; unsigned int i; GIT_ASSERT_ARG(_backend); GIT_ASSERT_ARG(cb); backend = (struct pack_backend *)_backend; /* Make sure we know about the packfiles */ if ((error = pack_backend__refresh(_backend)) != 0) return error; if (backend->midx && (error = git_midx_foreach_entry(backend->midx, cb, data)) != 0) return error; git_vector_foreach(&backend->packs, i, p) { if ((error = git_pack_foreach_entry(p, cb, data)) != 0) return error; } return 0; } static int pack_backend__writepack_append(struct git_odb_writepack *_writepack, const void *data, size_t size, git_indexer_progress *stats) { struct pack_writepack *writepack = (struct pack_writepack *)_writepack; GIT_ASSERT_ARG(writepack); return git_indexer_append(writepack->indexer, data, size, stats); } static int pack_backend__writepack_commit(struct git_odb_writepack *_writepack, git_indexer_progress *stats) { struct pack_writepack *writepack = (struct pack_writepack *)_writepack; GIT_ASSERT_ARG(writepack); return git_indexer_commit(writepack->indexer, stats); } static void pack_backend__writepack_free(struct git_odb_writepack *_writepack) { struct pack_writepack *writepack; if (!_writepack) return; writepack = (struct pack_writepack *)_writepack; git_indexer_free(writepack->indexer); git__free(writepack); } static int pack_backend__writepack(struct git_odb_writepack **out, git_odb_backend *_backend, git_odb *odb, git_indexer_progress_cb progress_cb, void *progress_payload) { git_indexer_options opts = GIT_INDEXER_OPTIONS_INIT; struct pack_backend *backend; struct pack_writepack *writepack; int error; GIT_ASSERT_ARG(out); GIT_ASSERT_ARG(_backend); *out = NULL; opts.progress_cb = progress_cb; opts.progress_cb_payload = progress_payload; backend = (struct pack_backend *)_backend; writepack = git__calloc(1, sizeof(struct pack_writepack)); GIT_ERROR_CHECK_ALLOC(writepack); #ifdef GIT_EXPERIMENTAL_SHA256 opts.odb = odb; error = git_indexer_new(&writepack->indexer, backend->pack_folder, backend->opts.oid_type, &opts); #else error = git_indexer_new(&writepack->indexer, backend->pack_folder, 0, odb, &opts); #endif if (error < 0) return -1; writepack->parent.backend = _backend; writepack->parent.append = pack_backend__writepack_append; writepack->parent.commit = pack_backend__writepack_commit; writepack->parent.free = pack_backend__writepack_free; *out = (git_odb_writepack *)writepack; return 0; } static int get_idx_path( git_str *idx_path, struct pack_backend *backend, struct git_pack_file *p) { size_t path_len; int error; error = git_fs_path_prettify(idx_path, p->pack_name, backend->pack_folder); if (error < 0) return error; path_len = git_str_len(idx_path); if (path_len <= strlen(".pack") || git__suffixcmp(git_str_cstr(idx_path), ".pack") != 0) return git_odb__error_notfound("packfile does not end in .pack", NULL, 0); path_len -= strlen(".pack"); error = git_str_splice(idx_path, path_len, strlen(".pack"), ".idx", strlen(".idx")); if (error < 0) return error; return 0; } static int pack_backend__writemidx(git_odb_backend *_backend) { struct pack_backend *backend; git_midx_writer *w = NULL; struct git_pack_file *p; size_t i; int error = 0; GIT_ASSERT_ARG(_backend); backend = (struct pack_backend *)_backend; error = git_midx_writer_new(&w, backend->pack_folder #ifdef GIT_EXPERIMENTAL_SHA256 , backend->opts.oid_type #endif ); if (error < 0) return error; git_vector_foreach(&backend->midx_packs, i, p) { git_str idx_path = GIT_STR_INIT; error = get_idx_path(&idx_path, backend, p); if (error < 0) goto cleanup; error = git_midx_writer_add(w, git_str_cstr(&idx_path)); git_str_dispose(&idx_path); if (error < 0) goto cleanup; } git_vector_foreach(&backend->packs, i, p) { git_str idx_path = GIT_STR_INIT; error = get_idx_path(&idx_path, backend, p); if (error < 0) goto cleanup; error = git_midx_writer_add(w, git_str_cstr(&idx_path)); git_str_dispose(&idx_path); if (error < 0) goto cleanup; } /* * Invalidate the previous midx before writing the new one. */ error = remove_multi_pack_index(backend); if (error < 0) goto cleanup; error = git_midx_writer_commit(w); if (error < 0) goto cleanup; error = refresh_multi_pack_index(backend); cleanup: git_midx_writer_free(w); return error; } static void pack_backend__free(git_odb_backend *_backend) { struct pack_backend *backend; struct git_pack_file *p; size_t i; if (!_backend) return; backend = (struct pack_backend *)_backend; git_vector_foreach(&backend->midx_packs, i, p) git_mwindow_put_pack(p); git_vector_foreach(&backend->packs, i, p) git_mwindow_put_pack(p); git_midx_free(backend->midx); git_vector_free(&backend->midx_packs); git_vector_free(&backend->packs); git__free(backend->pack_folder); git__free(backend); } static int pack_backend__alloc( struct pack_backend **out, size_t initial_size, const git_odb_backend_pack_options *opts) { struct pack_backend *backend = git__calloc(1, sizeof(struct pack_backend)); GIT_ERROR_CHECK_ALLOC(backend); if (git_vector_init(&backend->midx_packs, 0, NULL) < 0) { git__free(backend); return -1; } if (git_vector_init(&backend->packs, initial_size, packfile_sort__cb) < 0) { git_vector_free(&backend->midx_packs); git__free(backend); return -1; } if (opts) memcpy(&backend->opts, opts, sizeof(git_odb_backend_pack_options)); if (!backend->opts.oid_type) backend->opts.oid_type = GIT_OID_DEFAULT; backend->parent.version = GIT_ODB_BACKEND_VERSION; backend->parent.read = &pack_backend__read; backend->parent.read_prefix = &pack_backend__read_prefix; backend->parent.read_header = &pack_backend__read_header; backend->parent.exists = &pack_backend__exists; backend->parent.exists_prefix = &pack_backend__exists_prefix; backend->parent.refresh = &pack_backend__refresh; backend->parent.foreach = &pack_backend__foreach; backend->parent.writepack = &pack_backend__writepack; backend->parent.writemidx = &pack_backend__writemidx; backend->parent.freshen = &pack_backend__freshen; backend->parent.free = &pack_backend__free; *out = backend; return 0; } #ifdef GIT_EXPERIMENTAL_SHA256 int git_odb_backend_one_pack( git_odb_backend **backend_out, const char *idx, const git_odb_backend_pack_options *opts) #else int git_odb_backend_one_pack( git_odb_backend **backend_out, const char *idx) #endif { struct pack_backend *backend = NULL; struct git_pack_file *packfile = NULL; #ifndef GIT_EXPERIMENTAL_SHA256 git_odb_backend_pack_options *opts = NULL; #endif git_oid_t oid_type = opts ? opts->oid_type : 0; if (pack_backend__alloc(&backend, 1, opts) < 0) return -1; if (git_mwindow_get_pack(&packfile, idx, oid_type) < 0 || git_vector_insert(&backend->packs, packfile) < 0) { pack_backend__free((git_odb_backend *)backend); return -1; } *backend_out = (git_odb_backend *)backend; return 0; } #ifdef GIT_EXPERIMENTAL_SHA256 int git_odb_backend_pack( git_odb_backend **backend_out, const char *objects_dir, const git_odb_backend_pack_options *opts) #else int git_odb_backend_pack( git_odb_backend **backend_out, const char *objects_dir) #endif { int error = 0; struct pack_backend *backend = NULL; git_str path = GIT_STR_INIT; #ifndef GIT_EXPERIMENTAL_SHA256 git_odb_backend_pack_options *opts = NULL; #endif if (pack_backend__alloc(&backend, 8, opts) < 0) return -1; if (!(error = git_str_joinpath(&path, objects_dir, "pack")) && git_fs_path_isdir(git_str_cstr(&path))) { backend->pack_folder = git_str_detach(&path); error = pack_backend__refresh((git_odb_backend *)backend); } if (error < 0) { pack_backend__free((git_odb_backend *)backend); backend = NULL; } *backend_out = (git_odb_backend *)backend; git_str_dispose(&path); return error; }