/* * 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/object.h" #include "git2/sys/odb_backend.h" #include "fileops.h" #include "hash.h" #include "odb.h" #include "delta-apply.h" #include "filter.h" #include "repository.h" #include "git2/odb_backend.h" #include "git2/oid.h" #define GIT_ALTERNATES_FILE "info/alternates" /* * We work under the assumption that most objects for long-running * operations will be packed */ #define GIT_LOOSE_PRIORITY 1 #define GIT_PACKED_PRIORITY 2 #define GIT_ALTERNATES_MAX_DEPTH 5 typedef struct { git_odb_backend *backend; int priority; bool is_alternate; ino_t disk_inode; } backend_internal; static git_cache *odb_cache(git_odb *odb) { if (odb->rc.owner != NULL) { git_repository *owner = odb->rc.owner; return &owner->objects; } return &odb->own_cache; } static int load_alternates(git_odb *odb, const char *objects_dir, int alternate_depth); int git_odb__format_object_header(char *hdr, size_t n, git_off_t obj_len, git_otype obj_type) { const char *type_str = git_object_type2string(obj_type); int len = p_snprintf(hdr, n, "%s %"PRIuZ, type_str, obj_len); assert(len > 0 && len <= (int)n); return len+1; } int git_odb__hashobj(git_oid *id, git_rawobj *obj) { git_buf_vec vec[2]; char header[64]; int hdrlen; assert(id && obj); if (!git_object_typeisloose(obj->type)) return -1; if (!obj->data && obj->len != 0) return -1; hdrlen = git_odb__format_object_header(header, sizeof(header), obj->len, obj->type); vec[0].data = header; vec[0].len = hdrlen; vec[1].data = obj->data; vec[1].len = obj->len; git_hash_vec(id, vec, 2); return 0; } static git_odb_object *odb_object__alloc(const git_oid *oid, git_rawobj *source) { git_odb_object *object = git__calloc(1, sizeof(git_odb_object)); if (object != NULL) { git_oid_cpy(&object->cached.oid, oid); object->cached.type = source->type; object->cached.size = source->len; object->buffer = source->data; } return object; } void git_odb_object__free(void *object) { if (object != NULL) { git__free(((git_odb_object *)object)->buffer); git__free(object); } } const git_oid *git_odb_object_id(git_odb_object *object) { return &object->cached.oid; } const void *git_odb_object_data(git_odb_object *object) { return object->buffer; } size_t git_odb_object_size(git_odb_object *object) { return object->cached.size; } git_otype git_odb_object_type(git_odb_object *object) { return object->cached.type; } int git_odb_object_dup(git_odb_object **dest, git_odb_object *source) { git_cached_obj_incref(source); *dest = source; return 0; } void git_odb_object_free(git_odb_object *object) { if (object == NULL) return; git_cached_obj_decref(object); } int git_odb__hashfd(git_oid *out, git_file fd, size_t size, git_otype type) { int hdr_len; char hdr[64], buffer[FILEIO_BUFSIZE]; git_hash_ctx ctx; ssize_t read_len = 0; int error = 0; if (!git_object_typeisloose(type)) { giterr_set(GITERR_INVALID, "Invalid object type for hash"); return -1; } if ((error = git_hash_ctx_init(&ctx)) < 0) return -1; hdr_len = git_odb__format_object_header(hdr, sizeof(hdr), size, type); if ((error = git_hash_update(&ctx, hdr, hdr_len)) < 0) goto done; while (size > 0 && (read_len = p_read(fd, buffer, sizeof(buffer))) > 0) { if ((error = git_hash_update(&ctx, buffer, read_len)) < 0) goto done; size -= read_len; } /* If p_read returned an error code, the read obviously failed. * If size is not zero, the file was truncated after we originally * stat'd it, so we consider this a read failure too */ if (read_len < 0 || size > 0) { giterr_set(GITERR_OS, "Error reading file for hashing"); error = -1; goto done; } error = git_hash_final(out, &ctx); done: git_hash_ctx_cleanup(&ctx); return error; } int git_odb__hashfd_filtered( git_oid *out, git_file fd, size_t size, git_otype type, git_filter_list *fl) { int error; git_buf raw = GIT_BUF_INIT; if (!fl) return git_odb__hashfd(out, fd, size, type); /* size of data is used in header, so we have to read the whole file * into memory to apply filters before beginning to calculate the hash */ if (!(error = git_futils_readbuffer_fd(&raw, fd, size))) { git_buf post = GIT_BUF_INIT; error = git_filter_list_apply_to_data(&post, fl, &raw); git_buf_free(&raw); if (!error) error = git_odb_hash(out, post.ptr, post.size, type); git_buf_free(&post); } return error; } int git_odb__hashlink(git_oid *out, const char *path) { struct stat st; int size; int result; if (git_path_lstat(path, &st) < 0) return -1; if (!git__is_int(st.st_size) || (int)st.st_size < 0) { giterr_set(GITERR_FILESYSTEM, "File size overflow for 32-bit systems"); return -1; } size = (int)st.st_size; if (S_ISLNK(st.st_mode)) { char *link_data; int read_len; size_t alloc_size; GITERR_CHECK_ALLOC_ADD(&alloc_size, size, 1); link_data = git__malloc(alloc_size); GITERR_CHECK_ALLOC(link_data); read_len = p_readlink(path, link_data, size); link_data[size] = '\0'; if (read_len != size) { giterr_set(GITERR_OS, "Failed to read symlink data for '%s'", path); git__free(link_data); return -1; } result = git_odb_hash(out, link_data, size, GIT_OBJ_BLOB); git__free(link_data); } else { int fd = git_futils_open_ro(path); if (fd < 0) return -1; result = git_odb__hashfd(out, fd, size, GIT_OBJ_BLOB); p_close(fd); } return result; } int git_odb_hashfile(git_oid *out, const char *path, git_otype type) { git_off_t size; int result, fd = git_futils_open_ro(path); if (fd < 0) return fd; if ((size = git_futils_filesize(fd)) < 0 || !git__is_sizet(size)) { giterr_set(GITERR_OS, "File size overflow for 32-bit systems"); p_close(fd); return -1; } result = git_odb__hashfd(out, fd, (size_t)size, type); p_close(fd); return result; } int git_odb_hash(git_oid *id, const void *data, size_t len, git_otype type) { git_rawobj raw; assert(id); raw.data = (void *)data; raw.len = len; raw.type = type; return git_odb__hashobj(id, &raw); } /** * FAKE WSTREAM */ typedef struct { git_odb_stream stream; char *buffer; size_t size, written; git_otype type; } fake_wstream; static int fake_wstream__fwrite(git_odb_stream *_stream, const git_oid *oid) { fake_wstream *stream = (fake_wstream *)_stream; return _stream->backend->write(_stream->backend, oid, stream->buffer, stream->size, stream->type); } static int fake_wstream__write(git_odb_stream *_stream, const char *data, size_t len) { fake_wstream *stream = (fake_wstream *)_stream; if (stream->written + len > stream->size) return -1; memcpy(stream->buffer + stream->written, data, len); stream->written += len; return 0; } static void fake_wstream__free(git_odb_stream *_stream) { fake_wstream *stream = (fake_wstream *)_stream; git__free(stream->buffer); git__free(stream); } static int init_fake_wstream(git_odb_stream **stream_p, git_odb_backend *backend, git_off_t size, git_otype type) { fake_wstream *stream; if (!git__is_ssizet(size)) { giterr_set(GITERR_ODB, "object size too large to keep in memory"); return -1; } stream = git__calloc(1, sizeof(fake_wstream)); GITERR_CHECK_ALLOC(stream); stream->size = size; stream->type = type; stream->buffer = git__malloc(size); if (stream->buffer == NULL) { git__free(stream); return -1; } stream->stream.backend = backend; stream->stream.read = NULL; /* read only */ stream->stream.write = &fake_wstream__write; stream->stream.finalize_write = &fake_wstream__fwrite; stream->stream.free = &fake_wstream__free; stream->stream.mode = GIT_STREAM_WRONLY; *stream_p = (git_odb_stream *)stream; return 0; } /*********************************************************** * * OBJECT DATABASE PUBLIC API * * Public calls for the ODB functionality * ***********************************************************/ static int backend_sort_cmp(const void *a, const void *b) { const backend_internal *backend_a = (const backend_internal *)(a); const backend_internal *backend_b = (const backend_internal *)(b); if (backend_a->is_alternate == backend_b->is_alternate) return (backend_b->priority - backend_a->priority); return backend_a->is_alternate ? 1 : -1; } int git_odb_new(git_odb **out) { git_odb *db = git__calloc(1, sizeof(*db)); GITERR_CHECK_ALLOC(db); if (git_cache_init(&db->own_cache) < 0 || git_vector_init(&db->backends, 4, backend_sort_cmp) < 0) { git__free(db); return -1; } *out = db; GIT_REFCOUNT_INC(db); return 0; } static int add_backend_internal( git_odb *odb, git_odb_backend *backend, int priority, bool is_alternate, ino_t disk_inode) { backend_internal *internal; assert(odb && backend); GITERR_CHECK_VERSION(backend, GIT_ODB_BACKEND_VERSION, "git_odb_backend"); /* Check if the backend is already owned by another ODB */ assert(!backend->odb || backend->odb == odb); internal = git__malloc(sizeof(backend_internal)); GITERR_CHECK_ALLOC(internal); internal->backend = backend; internal->priority = priority; internal->is_alternate = is_alternate; internal->disk_inode = disk_inode; if (git_vector_insert(&odb->backends, internal) < 0) { git__free(internal); return -1; } git_vector_sort(&odb->backends); internal->backend->odb = odb; return 0; } int git_odb_add_backend(git_odb *odb, git_odb_backend *backend, int priority) { return add_backend_internal(odb, backend, priority, false, 0); } int git_odb_add_alternate(git_odb *odb, git_odb_backend *backend, int priority) { return add_backend_internal(odb, backend, priority, true, 0); } size_t git_odb_num_backends(git_odb *odb) { assert(odb); return odb->backends.length; } static int git_odb__error_unsupported_in_backend(const char *action) { giterr_set(GITERR_ODB, "Cannot %s - unsupported in the loaded odb backends", action); return -1; } int git_odb_get_backend(git_odb_backend **out, git_odb *odb, size_t pos) { backend_internal *internal; assert(out && odb); internal = git_vector_get(&odb->backends, pos); if (internal && internal->backend) { *out = internal->backend; return 0; } giterr_set(GITERR_ODB, "No ODB backend loaded at index %" PRIuZ, pos); return GIT_ENOTFOUND; } static int add_default_backends( git_odb *db, const char *objects_dir, bool as_alternates, int alternate_depth) { size_t i; struct stat st; ino_t inode; git_odb_backend *loose, *packed; /* TODO: inodes are not really relevant on Win32, so we need to find * a cross-platform workaround for this */ #ifdef GIT_WIN32 GIT_UNUSED(i); GIT_UNUSED(st); inode = 0; #else if (p_stat(objects_dir, &st) < 0) { if (as_alternates) return 0; giterr_set(GITERR_ODB, "Failed to load object database in '%s'", objects_dir); return -1; } inode = st.st_ino; for (i = 0; i < db->backends.length; ++i) { backend_internal *backend = git_vector_get(&db->backends, i); if (backend->disk_inode == inode) return 0; } #endif /* add the loose object backend */ if (git_odb_backend_loose(&loose, objects_dir, -1, 0, 0, 0) < 0 || add_backend_internal(db, loose, GIT_LOOSE_PRIORITY, as_alternates, inode) < 0) return -1; /* add the packed file backend */ if (git_odb_backend_pack(&packed, objects_dir) < 0 || add_backend_internal(db, packed, GIT_PACKED_PRIORITY, as_alternates, inode) < 0) return -1; return load_alternates(db, objects_dir, alternate_depth); } static int load_alternates(git_odb *odb, const char *objects_dir, int alternate_depth) { git_buf alternates_path = GIT_BUF_INIT; git_buf alternates_buf = GIT_BUF_INIT; char *buffer; const char *alternate; int result = 0; /* Git reports an error, we just ignore anything deeper */ if (alternate_depth > GIT_ALTERNATES_MAX_DEPTH) return 0; if (git_buf_joinpath(&alternates_path, objects_dir, GIT_ALTERNATES_FILE) < 0) return -1; if (git_path_exists(alternates_path.ptr) == false) { git_buf_free(&alternates_path); return 0; } if (git_futils_readbuffer(&alternates_buf, alternates_path.ptr) < 0) { git_buf_free(&alternates_path); return -1; } buffer = (char *)alternates_buf.ptr; /* add each alternate as a new backend; one alternate per line */ while ((alternate = git__strtok(&buffer, "\r\n")) != NULL) { if (*alternate == '\0' || *alternate == '#') continue; /* * Relative path: build based on the current `objects` * folder. However, relative paths are only allowed in * the current repository. */ if (*alternate == '.' && !alternate_depth) { if ((result = git_buf_joinpath(&alternates_path, objects_dir, alternate)) < 0) break; alternate = git_buf_cstr(&alternates_path); } if ((result = add_default_backends(odb, alternate, true, alternate_depth + 1)) < 0) break; } git_buf_free(&alternates_path); git_buf_free(&alternates_buf); return result; } int git_odb_add_disk_alternate(git_odb *odb, const char *path) { return add_default_backends(odb, path, true, 0); } int git_odb_open(git_odb **out, const char *objects_dir) { git_odb *db; assert(out && objects_dir); *out = NULL; if (git_odb_new(&db) < 0) return -1; if (add_default_backends(db, objects_dir, 0, 0) < 0) { git_odb_free(db); return -1; } *out = db; return 0; } static void odb_free(git_odb *db) { size_t i; for (i = 0; i < db->backends.length; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *backend = internal->backend; if (backend->free) backend->free(backend); else git__free(backend); git__free(internal); } git_vector_free(&db->backends); git_cache_free(&db->own_cache); git__memzero(db, sizeof(*db)); git__free(db); } void git_odb_free(git_odb *db) { if (db == NULL) return; GIT_REFCOUNT_DEC(db, odb_free); } int git_odb_exists(git_odb *db, const git_oid *id) { git_odb_object *object; size_t i; bool found = false; assert(db && id); if ((object = git_cache_get_raw(odb_cache(db), id)) != NULL) { git_odb_object_free(object); return (int)true; } for (i = 0; i < db->backends.length && !found; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *b = internal->backend; if (b->exists != NULL) found = (bool)b->exists(b, id); } return (int)found; } int git_odb_exists_prefix( git_oid *out, git_odb *db, const git_oid *short_id, size_t len) { int error = GIT_ENOTFOUND, num_found = 0; size_t i; git_oid key = {{0}}, last_found = {{0}}, found; assert(db && short_id); if (len < GIT_OID_MINPREFIXLEN) return git_odb__error_ambiguous("prefix length too short"); if (len > GIT_OID_HEXSZ) len = GIT_OID_HEXSZ; if (len == GIT_OID_HEXSZ) { if (git_odb_exists(db, short_id)) { if (out) git_oid_cpy(out, short_id); return 0; } else { return git_odb__error_notfound("no match for id prefix", short_id); } } /* just copy valid part of short_id */ memcpy(&key.id, short_id->id, (len + 1) / 2); if (len & 1) key.id[len / 2] &= 0xF0; for (i = 0; i < db->backends.length; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *b = internal->backend; if (!b->exists_prefix) continue; error = b->exists_prefix(&found, b, &key, len); if (error == GIT_ENOTFOUND || error == GIT_PASSTHROUGH) continue; if (error) return error; /* make sure found item doesn't introduce ambiguity */ if (num_found) { if (git_oid__cmp(&last_found, &found)) return git_odb__error_ambiguous("multiple matches for prefix"); } else { git_oid_cpy(&last_found, &found); num_found++; } } if (!num_found) return git_odb__error_notfound("no match for id prefix", &key); if (out) git_oid_cpy(out, &last_found); return 0; } int git_odb_read_header(size_t *len_p, git_otype *type_p, git_odb *db, const git_oid *id) { int error; git_odb_object *object; error = git_odb__read_header_or_object(&object, len_p, type_p, db, id); if (object) git_odb_object_free(object); return error; } int git_odb__read_header_or_object( git_odb_object **out, size_t *len_p, git_otype *type_p, git_odb *db, const git_oid *id) { size_t i; int error = GIT_ENOTFOUND; git_odb_object *object; assert(db && id && out && len_p && type_p); if ((object = git_cache_get_raw(odb_cache(db), id)) != NULL) { *len_p = object->cached.size; *type_p = object->cached.type; *out = object; return 0; } *out = NULL; for (i = 0; i < db->backends.length && error < 0; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *b = internal->backend; if (b->read_header != NULL) error = b->read_header(len_p, type_p, b, id); } if (!error || error == GIT_PASSTHROUGH) return 0; /* * no backend could read only the header. * try reading the whole object and freeing the contents */ if ((error = git_odb_read(&object, db, id)) < 0) return error; /* error already set - pass along */ *len_p = object->cached.size; *type_p = object->cached.type; *out = object; return 0; } static git_oid empty_blob = {{ 0xe6, 0x9d, 0xe2, 0x9b, 0xb2, 0xd1, 0xd6, 0x43, 0x4b, 0x8b, 0x29, 0xae, 0x77, 0x5a, 0xd8, 0xc2, 0xe4, 0x8c, 0x53, 0x91 }}; static git_oid empty_tree = {{ 0x4b, 0x82, 0x5d, 0xc6, 0x42, 0xcb, 0x6e, 0xb9, 0xa0, 0x60, 0xe5, 0x4b, 0xf8, 0xd6, 0x92, 0x88, 0xfb, 0xee, 0x49, 0x04 }}; static int hardcoded_objects(git_rawobj *raw, const git_oid *id) { if (!git_oid_cmp(id, &empty_blob)) { raw->type = GIT_OBJ_BLOB; raw->len = 0; raw->data = git__calloc(1, sizeof(uint8_t)); return 0; } else if (!git_oid_cmp(id, &empty_tree)) { raw->type = GIT_OBJ_TREE; raw->len = 0; raw->data = git__calloc(1, sizeof(uint8_t)); return 0; } else { return GIT_ENOTFOUND; } } int git_odb_read(git_odb_object **out, git_odb *db, const git_oid *id) { size_t i, reads = 0; int error; git_rawobj raw; git_odb_object *object; assert(out && db && id); *out = git_cache_get_raw(odb_cache(db), id); if (*out != NULL) return 0; error = hardcoded_objects(&raw, id); for (i = 0; i < db->backends.length && error < 0; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *b = internal->backend; if (b->read != NULL) { ++reads; error = b->read(&raw.data, &raw.len, &raw.type, b, id); } } if (error && error != GIT_PASSTHROUGH) { if (!reads) return git_odb__error_notfound("no match for id", id); return error; } giterr_clear(); if ((object = odb_object__alloc(id, &raw)) == NULL) return -1; *out = git_cache_store_raw(odb_cache(db), object); return 0; } int git_odb_read_prefix( git_odb_object **out, git_odb *db, const git_oid *short_id, size_t len) { size_t i; int error = GIT_ENOTFOUND; git_oid key = {{0}}, found_full_oid = {{0}}; git_rawobj raw; void *data = NULL; bool found = false; git_odb_object *object; assert(out && db); if (len < GIT_OID_MINPREFIXLEN) return git_odb__error_ambiguous("prefix length too short"); if (len > GIT_OID_HEXSZ) len = GIT_OID_HEXSZ; if (len == GIT_OID_HEXSZ) { *out = git_cache_get_raw(odb_cache(db), short_id); if (*out != NULL) return 0; } /* just copy valid part of short_id */ memcpy(&key.id, short_id->id, (len + 1) / 2); if (len & 1) key.id[len / 2] &= 0xF0; for (i = 0; i < db->backends.length; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *b = internal->backend; if (b->read_prefix != NULL) { git_oid full_oid; error = b->read_prefix(&full_oid, &raw.data, &raw.len, &raw.type, b, &key, len); if (error == GIT_ENOTFOUND || error == GIT_PASSTHROUGH) continue; if (error) return error; git__free(data); data = raw.data; if (found && git_oid__cmp(&full_oid, &found_full_oid)) { git__free(raw.data); return git_odb__error_ambiguous("multiple matches for prefix"); } found_full_oid = full_oid; found = true; } } if (!found) return git_odb__error_notfound("no match for prefix", &key); if ((object = odb_object__alloc(&found_full_oid, &raw)) == NULL) return -1; *out = git_cache_store_raw(odb_cache(db), object); return 0; } int git_odb_foreach(git_odb *db, git_odb_foreach_cb cb, void *payload) { unsigned int i; backend_internal *internal; git_vector_foreach(&db->backends, i, internal) { git_odb_backend *b = internal->backend; int error = b->foreach(b, cb, payload); if (error < 0) return error; } return 0; } int git_odb_write( git_oid *oid, git_odb *db, const void *data, size_t len, git_otype type) { size_t i; int error = GIT_ERROR; git_odb_stream *stream; assert(oid && db); git_odb_hash(oid, data, len, type); if (git_odb_exists(db, oid)) return 0; for (i = 0; i < db->backends.length && error < 0; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *b = internal->backend; /* we don't write in alternates! */ if (internal->is_alternate) continue; if (b->write != NULL) error = b->write(b, oid, data, len, type); } if (!error || error == GIT_PASSTHROUGH) return 0; /* if no backends were able to write the object directly, we try a * streaming write to the backends; just write the whole object into the * stream in one push */ if ((error = git_odb_open_wstream(&stream, db, len, type)) != 0) return error; stream->write(stream, data, len); error = stream->finalize_write(stream, oid); git_odb_stream_free(stream); return error; } static void hash_header(git_hash_ctx *ctx, git_off_t size, git_otype type) { char header[64]; int hdrlen; hdrlen = git_odb__format_object_header(header, sizeof(header), size, type); git_hash_update(ctx, header, hdrlen); } int git_odb_open_wstream( git_odb_stream **stream, git_odb *db, git_off_t size, git_otype type) { size_t i, writes = 0; int error = GIT_ERROR; git_hash_ctx *ctx = NULL; assert(stream && db); for (i = 0; i < db->backends.length && error < 0; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *b = internal->backend; /* we don't write in alternates! */ if (internal->is_alternate) continue; if (b->writestream != NULL) { ++writes; error = b->writestream(stream, b, size, type); } else if (b->write != NULL) { ++writes; error = init_fake_wstream(stream, b, size, type); } } if (error < 0) { if (error == GIT_PASSTHROUGH) error = 0; else if (!writes) error = git_odb__error_unsupported_in_backend("write object"); goto done; } ctx = git__malloc(sizeof(git_hash_ctx)); GITERR_CHECK_ALLOC(ctx); if ((error = git_hash_ctx_init(ctx)) < 0) goto done; hash_header(ctx, size, type); (*stream)->hash_ctx = ctx; (*stream)->declared_size = size; (*stream)->received_bytes = 0; done: return error; } static int git_odb_stream__invalid_length( const git_odb_stream *stream, const char *action) { giterr_set(GITERR_ODB, "Cannot %s - " "Invalid length. %"PRIuZ" was expected. The " "total size of the received chunks amounts to %"PRIuZ".", action, stream->declared_size, stream->received_bytes); return -1; } int git_odb_stream_write(git_odb_stream *stream, const char *buffer, size_t len) { git_hash_update(stream->hash_ctx, buffer, len); stream->received_bytes += len; if (stream->received_bytes > stream->declared_size) return git_odb_stream__invalid_length(stream, "stream_write()"); return stream->write(stream, buffer, len); } int git_odb_stream_finalize_write(git_oid *out, git_odb_stream *stream) { if (stream->received_bytes != stream->declared_size) return git_odb_stream__invalid_length(stream, "stream_finalize_write()"); git_hash_final(out, stream->hash_ctx); if (git_odb_exists(stream->backend->odb, out)) return 0; return stream->finalize_write(stream, out); } int git_odb_stream_read(git_odb_stream *stream, char *buffer, size_t len) { return stream->read(stream, buffer, len); } void git_odb_stream_free(git_odb_stream *stream) { if (stream == NULL) return; git_hash_ctx_cleanup(stream->hash_ctx); git__free(stream->hash_ctx); stream->free(stream); } int git_odb_open_rstream(git_odb_stream **stream, git_odb *db, const git_oid *oid) { size_t i, reads = 0; int error = GIT_ERROR; assert(stream && db); for (i = 0; i < db->backends.length && error < 0; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *b = internal->backend; if (b->readstream != NULL) { ++reads; error = b->readstream(stream, b, oid); } } if (error == GIT_PASSTHROUGH) error = 0; if (error < 0 && !reads) error = git_odb__error_unsupported_in_backend("read object streamed"); return error; } int git_odb_write_pack(struct git_odb_writepack **out, git_odb *db, git_transfer_progress_cb progress_cb, void *progress_payload) { size_t i, writes = 0; int error = GIT_ERROR; assert(out && db); for (i = 0; i < db->backends.length && error < 0; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *b = internal->backend; /* we don't write in alternates! */ if (internal->is_alternate) continue; if (b->writepack != NULL) { ++writes; error = b->writepack(out, b, db, progress_cb, progress_payload); } } if (error == GIT_PASSTHROUGH) error = 0; if (error < 0 && !writes) error = git_odb__error_unsupported_in_backend("write pack"); return error; } void *git_odb_backend_malloc(git_odb_backend *backend, size_t len) { GIT_UNUSED(backend); return git__malloc(len); } int git_odb_refresh(struct git_odb *db) { size_t i; assert(db); for (i = 0; i < db->backends.length; ++i) { backend_internal *internal = git_vector_get(&db->backends, i); git_odb_backend *b = internal->backend; if (b->refresh != NULL) { int error = b->refresh(b); if (error < 0) return error; } } return 0; } int git_odb__error_notfound(const char *message, const git_oid *oid) { if (oid != NULL) { char oid_str[GIT_OID_HEXSZ + 1]; git_oid_tostr(oid_str, sizeof(oid_str), oid); giterr_set(GITERR_ODB, "Object not found - %s (%s)", message, oid_str); } else giterr_set(GITERR_ODB, "Object not found - %s", message); return GIT_ENOTFOUND; } int git_odb__error_ambiguous(const char *message) { giterr_set(GITERR_ODB, "Ambiguous SHA1 prefix - %s", message); return GIT_EAMBIGUOUS; } int git_odb_init_backend(git_odb_backend *backend, unsigned int version) { GIT_INIT_STRUCTURE_FROM_TEMPLATE( backend, version, git_odb_backend, GIT_ODB_BACKEND_INIT); return 0; }