/* * 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 "refs.h" #include "hash.h" #include "repository.h" #include "fileops.h" #include "pack.h" #include "reflog.h" #include "config.h" #include "refdb.h" #include "refdb_fs.h" #include #include #include #include GIT__USE_STRMAP; #define DEFAULT_NESTING_LEVEL 5 #define MAX_NESTING_LEVEL 10 enum { GIT_PACKREF_HAS_PEEL = 1, GIT_PACKREF_WAS_LOOSE = 2 }; struct packref { git_oid oid; git_oid peel; char flags; char name[GIT_FLEX_ARRAY]; }; typedef struct refdb_fs_backend { git_refdb_backend parent; git_repository *repo; const char *path; git_refdb *refdb; git_refcache refcache; } refdb_fs_backend; static int reference_read( git_buf *file_content, time_t *mtime, const char *repo_path, const char *ref_name, int *updated) { git_buf path = GIT_BUF_INIT; int result; assert(file_content && repo_path && ref_name); /* Determine the full path of the file */ if (git_buf_joinpath(&path, repo_path, ref_name) < 0) return -1; result = git_futils_readbuffer_updated(file_content, path.ptr, mtime, NULL, updated); git_buf_free(&path); return result; } static int packed_parse_oid( struct packref **ref_out, const char **buffer_out, const char *buffer_end) { struct packref *ref = NULL; const char *buffer = *buffer_out; const char *refname_begin, *refname_end; size_t refname_len; git_oid id; refname_begin = (buffer + GIT_OID_HEXSZ + 1); if (refname_begin >= buffer_end || refname_begin[-1] != ' ') goto corrupt; /* Is this a valid object id? */ if (git_oid_fromstr(&id, buffer) < 0) goto corrupt; refname_end = memchr(refname_begin, '\n', buffer_end - refname_begin); if (refname_end == NULL) refname_end = buffer_end; if (refname_end[-1] == '\r') refname_end--; refname_len = refname_end - refname_begin; ref = git__malloc(sizeof(struct packref) + refname_len + 1); GITERR_CHECK_ALLOC(ref); memcpy(ref->name, refname_begin, refname_len); ref->name[refname_len] = 0; git_oid_cpy(&ref->oid, &id); ref->flags = 0; *ref_out = ref; *buffer_out = refname_end + 1; return 0; corrupt: git__free(ref); giterr_set(GITERR_REFERENCE, "The packed references file is corrupted"); return -1; } static int packed_parse_peel( struct packref *tag_ref, const char **buffer_out, const char *buffer_end) { const char *buffer = *buffer_out + 1; assert(buffer[-1] == '^'); /* Ensure it's not the first entry of the file */ if (tag_ref == NULL) goto corrupt; /* Ensure reference is a tag */ if (git__prefixcmp(tag_ref->name, GIT_REFS_TAGS_DIR) != 0) goto corrupt; if (buffer + GIT_OID_HEXSZ > buffer_end) goto corrupt; /* Is this a valid object id? */ if (git_oid_fromstr(&tag_ref->peel, buffer) < 0) goto corrupt; buffer = buffer + GIT_OID_HEXSZ; if (*buffer == '\r') buffer++; if (buffer != buffer_end) { if (*buffer == '\n') buffer++; else goto corrupt; } *buffer_out = buffer; return 0; corrupt: giterr_set(GITERR_REFERENCE, "The packed references file is corrupted"); return -1; } static int packed_load(refdb_fs_backend *backend) { int result, updated; git_buf packfile = GIT_BUF_INIT; const char *buffer_start, *buffer_end; git_refcache *ref_cache = &backend->refcache; /* First we make sure we have allocated the hash table */ if (ref_cache->packfile == NULL) { ref_cache->packfile = git_strmap_alloc(); GITERR_CHECK_ALLOC(ref_cache->packfile); } result = reference_read(&packfile, &ref_cache->packfile_time, backend->path, GIT_PACKEDREFS_FILE, &updated); /* * If we couldn't find the file, we need to clear the table and * return. On any other error, we return that error. If everything * went fine and the file wasn't updated, then there's nothing new * for us here, so just return. Anything else means we need to * refresh the packed refs. */ if (result == GIT_ENOTFOUND) { git_strmap_clear(ref_cache->packfile); return 0; } if (result < 0) return -1; if (!updated) return 0; /* * At this point, we want to refresh the packed refs. We already * have the contents in our buffer. */ git_strmap_clear(ref_cache->packfile); buffer_start = (const char *)packfile.ptr; buffer_end = (const char *)(buffer_start) + packfile.size; while (buffer_start < buffer_end && buffer_start[0] == '#') { buffer_start = strchr(buffer_start, '\n'); if (buffer_start == NULL) goto parse_failed; buffer_start++; } while (buffer_start < buffer_end) { int err; struct packref *ref = NULL; if (packed_parse_oid(&ref, &buffer_start, buffer_end) < 0) goto parse_failed; if (buffer_start[0] == '^') { if (packed_parse_peel(ref, &buffer_start, buffer_end) < 0) goto parse_failed; } git_strmap_insert(ref_cache->packfile, ref->name, ref, err); if (err < 0) goto parse_failed; } git_buf_free(&packfile); return 0; parse_failed: git_strmap_free(ref_cache->packfile); ref_cache->packfile = NULL; git_buf_free(&packfile); return -1; } static int loose_parse_oid(git_oid *oid, git_buf *file_content) { size_t len; const char *str; len = git_buf_len(file_content); if (len < GIT_OID_HEXSZ) goto corrupted; /* str is guranteed to be zero-terminated */ str = git_buf_cstr(file_content); /* we need to get 40 OID characters from the file */ if (git_oid_fromstr(oid, git_buf_cstr(file_content)) < 0) goto corrupted; /* If the file is longer than 40 chars, the 41st must be a space */ str += GIT_OID_HEXSZ; if (*str == '\0' || git__isspace(*str)) return 0; corrupted: giterr_set(GITERR_REFERENCE, "Corrupted loose reference file"); return -1; } static int loose_lookup_to_packfile( struct packref **ref_out, refdb_fs_backend *backend, const char *name) { git_buf ref_file = GIT_BUF_INIT; struct packref *ref = NULL; size_t name_len; *ref_out = NULL; if (reference_read(&ref_file, NULL, backend->path, name, NULL) < 0) return -1; git_buf_rtrim(&ref_file); name_len = strlen(name); ref = git__malloc(sizeof(struct packref) + name_len + 1); GITERR_CHECK_ALLOC(ref); memcpy(ref->name, name, name_len); ref->name[name_len] = 0; if (loose_parse_oid(&ref->oid, &ref_file) < 0) { git_buf_free(&ref_file); git__free(ref); return -1; } ref->flags = GIT_PACKREF_WAS_LOOSE; *ref_out = ref; git_buf_free(&ref_file); return 0; } static int _dirent_loose_load(void *data, git_buf *full_path) { refdb_fs_backend *backend = (refdb_fs_backend *)data; void *old_ref = NULL; struct packref *ref; const char *file_path; int err; if (git_path_isdir(full_path->ptr) == true) return git_path_direach(full_path, _dirent_loose_load, backend); file_path = full_path->ptr + strlen(backend->path); if (loose_lookup_to_packfile(&ref, backend, file_path) < 0) return -1; git_strmap_insert2( backend->refcache.packfile, ref->name, ref, old_ref, err); if (err < 0) { git__free(ref); return -1; } git__free(old_ref); return 0; } /* * Load all the loose references from the repository * into the in-memory Packfile, and build a vector with * all the references so it can be written back to * disk. */ static int packed_loadloose(refdb_fs_backend *backend) { git_buf refs_path = GIT_BUF_INIT; int result; /* the packfile must have been previously loaded! */ assert(backend->refcache.packfile); if (git_buf_joinpath(&refs_path, backend->path, GIT_REFS_DIR) < 0) return -1; /* * Load all the loose files from disk into the Packfile table. * This will overwrite any old packed entries with their * updated loose versions */ result = git_path_direach(&refs_path, _dirent_loose_load, backend); git_buf_free(&refs_path); return result; } static int refdb_fs_backend__exists( int *exists, git_refdb_backend *_backend, const char *ref_name) { refdb_fs_backend *backend; git_buf ref_path = GIT_BUF_INIT; assert(_backend); backend = (refdb_fs_backend *)_backend; if (packed_load(backend) < 0) return -1; if (git_buf_joinpath(&ref_path, backend->path, ref_name) < 0) return -1; if (git_path_isfile(ref_path.ptr) == true || git_strmap_exists(backend->refcache.packfile, ref_path.ptr)) *exists = 1; else *exists = 0; git_buf_free(&ref_path); return 0; } static const char *loose_parse_symbolic(git_buf *file_content) { const unsigned int header_len = (unsigned int)strlen(GIT_SYMREF); const char *refname_start; refname_start = (const char *)file_content->ptr; if (git_buf_len(file_content) < header_len + 1) { giterr_set(GITERR_REFERENCE, "Corrupted loose reference file"); return NULL; } /* * Assume we have already checked for the header * before calling this function */ refname_start += header_len; return refname_start; } static int loose_lookup( git_reference **out, refdb_fs_backend *backend, const char *ref_name) { const char *target; git_oid oid; git_buf ref_file = GIT_BUF_INIT; int error = 0; error = reference_read(&ref_file, NULL, backend->path, ref_name, NULL); if (error < 0) goto done; if (git__prefixcmp((const char *)(ref_file.ptr), GIT_SYMREF) == 0) { git_buf_rtrim(&ref_file); if ((target = loose_parse_symbolic(&ref_file)) == NULL) { error = -1; goto done; } *out = git_reference__alloc_symbolic(backend->refdb, ref_name, target); } else { if ((error = loose_parse_oid(&oid, &ref_file)) < 0) goto done; *out = git_reference__alloc(backend->refdb, ref_name, &oid, NULL); } if (*out == NULL) error = -1; done: git_buf_free(&ref_file); return error; } static int packed_map_entry( struct packref **entry, khiter_t *pos, refdb_fs_backend *backend, const char *ref_name) { git_strmap *packfile_refs; if (packed_load(backend) < 0) return -1; /* Look up on the packfile */ packfile_refs = backend->refcache.packfile; *pos = git_strmap_lookup_index(packfile_refs, ref_name); if (!git_strmap_valid_index(packfile_refs, *pos)) { giterr_set(GITERR_REFERENCE, "Reference '%s' not found", ref_name); return GIT_ENOTFOUND; } *entry = git_strmap_value_at(packfile_refs, *pos); return 0; } static int packed_lookup( git_reference **out, refdb_fs_backend *backend, const char *ref_name) { struct packref *entry; khiter_t pos; int error = 0; if ((error = packed_map_entry(&entry, &pos, backend, ref_name)) < 0) return error; if ((*out = git_reference__alloc(backend->refdb, ref_name, &entry->oid, &entry->peel)) == NULL) return -1; return 0; } static int refdb_fs_backend__lookup( git_reference **out, git_refdb_backend *_backend, const char *ref_name) { refdb_fs_backend *backend; int result; assert(_backend); backend = (refdb_fs_backend *)_backend; if ((result = loose_lookup(out, backend, ref_name)) == 0) return 0; /* only try to lookup this reference on the packfile if it * wasn't found on the loose refs; not if there was a critical error */ if (result == GIT_ENOTFOUND) { giterr_clear(); result = packed_lookup(out, backend, ref_name); } return result; } struct dirent_list_data { refdb_fs_backend *backend; size_t repo_path_len; unsigned int list_type:2; git_reference_foreach_cb callback; void *callback_payload; int callback_error; }; static git_ref_t loose_guess_rtype(const git_buf *full_path) { git_buf ref_file = GIT_BUF_INIT; git_ref_t type; type = GIT_REF_INVALID; if (git_futils_readbuffer(&ref_file, full_path->ptr) == 0) { if (git__prefixcmp((const char *)(ref_file.ptr), GIT_SYMREF) == 0) type = GIT_REF_SYMBOLIC; else type = GIT_REF_OID; } git_buf_free(&ref_file); return type; } static int _dirent_loose_listall(void *_data, git_buf *full_path) { struct dirent_list_data *data = (struct dirent_list_data *)_data; const char *file_path = full_path->ptr + data->repo_path_len; if (git_path_isdir(full_path->ptr) == true) return git_path_direach(full_path, _dirent_loose_listall, _data); /* do not add twice a reference that exists already in the packfile */ if (git_strmap_exists(data->backend->refcache.packfile, file_path)) return 0; if (data->list_type != GIT_REF_LISTALL) { if ((data->list_type & loose_guess_rtype(full_path)) == 0) return 0; /* we are filtering out this reference */ } /* Locked references aren't returned */ if (!git__suffixcmp(file_path, GIT_FILELOCK_EXTENSION)) return 0; if (data->callback(file_path, data->callback_payload)) data->callback_error = GIT_EUSER; return data->callback_error; } static int refdb_fs_backend__foreach( git_refdb_backend *_backend, unsigned int list_type, git_reference_foreach_cb callback, void *payload) { refdb_fs_backend *backend; int result; struct dirent_list_data data; git_buf refs_path = GIT_BUF_INIT; const char *ref_name; void *ref = NULL; GIT_UNUSED(ref); assert(_backend); backend = (refdb_fs_backend *)_backend; if (packed_load(backend) < 0) return -1; /* list all the packed references first */ if (list_type & GIT_REF_OID) { git_strmap_foreach(backend->refcache.packfile, ref_name, ref, { if (callback(ref_name, payload)) return GIT_EUSER; }); } /* now list the loose references, trying not to * duplicate the ref names already in the packed-refs file */ data.repo_path_len = strlen(backend->path); data.list_type = list_type; data.backend = backend; data.callback = callback; data.callback_payload = payload; data.callback_error = 0; if (git_buf_joinpath(&refs_path, backend->path, GIT_REFS_DIR) < 0) return -1; result = git_path_direach(&refs_path, _dirent_loose_listall, &data); git_buf_free(&refs_path); return data.callback_error ? GIT_EUSER : result; } static int loose_write(refdb_fs_backend *backend, const git_reference *ref) { git_filebuf file = GIT_FILEBUF_INIT; git_buf ref_path = GIT_BUF_INIT; /* Remove a possibly existing empty directory hierarchy * which name would collide with the reference name */ if (git_futils_rmdir_r(ref->name, backend->path, GIT_RMDIR_SKIP_NONEMPTY) < 0) return -1; if (git_buf_joinpath(&ref_path, backend->path, ref->name) < 0) return -1; if (git_filebuf_open(&file, ref_path.ptr, GIT_FILEBUF_FORCE) < 0) { git_buf_free(&ref_path); return -1; } git_buf_free(&ref_path); if (ref->type == GIT_REF_OID) { char oid[GIT_OID_HEXSZ + 1]; git_oid_fmt(oid, &ref->target.oid); oid[GIT_OID_HEXSZ] = '\0'; git_filebuf_printf(&file, "%s\n", oid); } else if (ref->type == GIT_REF_SYMBOLIC) { git_filebuf_printf(&file, GIT_SYMREF "%s\n", ref->target.symbolic); } else { assert(0); /* don't let this happen */ } return git_filebuf_commit(&file, GIT_REFS_FILE_MODE); } static int packed_sort(const void *a, const void *b) { const struct packref *ref_a = (const struct packref *)a; const struct packref *ref_b = (const struct packref *)b; return strcmp(ref_a->name, ref_b->name); } /* * Find out what object this reference resolves to. * * For references that point to a 'big' tag (e.g. an * actual tag object on the repository), we need to * cache on the packfile the OID of the object to * which that 'big tag' is pointing to. */ static int packed_find_peel(refdb_fs_backend *backend, struct packref *ref) { git_object *object; if (ref->flags & GIT_PACKREF_HAS_PEEL) return 0; /* * Only applies to tags, i.e. references * in the /refs/tags folder */ if (git__prefixcmp(ref->name, GIT_REFS_TAGS_DIR) != 0) return 0; /* * Find the tagged object in the repository */ if (git_object_lookup(&object, backend->repo, &ref->oid, GIT_OBJ_ANY) < 0) return -1; /* * If the tagged object is a Tag object, we need to resolve it; * if the ref is actually a 'weak' ref, we don't need to resolve * anything. */ if (git_object_type(object) == GIT_OBJ_TAG) { git_tag *tag = (git_tag *)object; /* * Find the object pointed at by this tag */ git_oid_cpy(&ref->peel, git_tag_target_id(tag)); ref->flags |= GIT_PACKREF_HAS_PEEL; /* * The reference has now cached the resolved OID, and is * marked at such. When written to the packfile, it'll be * accompanied by this resolved oid */ } git_object_free(object); return 0; } /* * Write a single reference into a packfile */ static int packed_write_ref(struct packref *ref, git_filebuf *file) { char oid[GIT_OID_HEXSZ + 1]; git_oid_fmt(oid, &ref->oid); oid[GIT_OID_HEXSZ] = 0; /* * For references that peel to an object in the repo, we must * write the resulting peel on a separate line, e.g. * * 6fa8a902cc1d18527e1355773c86721945475d37 refs/tags/libgit2-0.4 * ^2ec0cb7959b0bf965d54f95453f5b4b34e8d3100 * * This obviously only applies to tags. * The required peels have already been loaded into `ref->peel_target`. */ if (ref->flags & GIT_PACKREF_HAS_PEEL) { char peel[GIT_OID_HEXSZ + 1]; git_oid_fmt(peel, &ref->peel); peel[GIT_OID_HEXSZ] = 0; if (git_filebuf_printf(file, "%s %s\n^%s\n", oid, ref->name, peel) < 0) return -1; } else { if (git_filebuf_printf(file, "%s %s\n", oid, ref->name) < 0) return -1; } return 0; } /* * Remove all loose references * * Once we have successfully written a packfile, * all the loose references that were packed must be * removed from disk. * * This is a dangerous method; make sure the packfile * is well-written, because we are destructing references * here otherwise. */ static int packed_remove_loose( refdb_fs_backend *backend, git_vector *packing_list) { size_t i; git_buf full_path = GIT_BUF_INIT; int failed = 0; for (i = 0; i < packing_list->length; ++i) { struct packref *ref = git_vector_get(packing_list, i); if ((ref->flags & GIT_PACKREF_WAS_LOOSE) == 0) continue; if (git_buf_joinpath(&full_path, backend->path, ref->name) < 0) return -1; /* critical; do not try to recover on oom */ if (git_path_exists(full_path.ptr) == true && p_unlink(full_path.ptr) < 0) { if (failed) continue; giterr_set(GITERR_REFERENCE, "Failed to remove loose reference '%s' after packing: %s", full_path.ptr, strerror(errno)); failed = 1; } /* * if we fail to remove a single file, this is *not* good, * but we should keep going and remove as many as possible. * After we've removed as many files as possible, we return * the error code anyway. */ } git_buf_free(&full_path); return failed ? -1 : 0; } /* * Write all the contents in the in-memory packfile to disk. */ static int packed_write(refdb_fs_backend *backend) { git_filebuf pack_file = GIT_FILEBUF_INIT; size_t i; git_buf pack_file_path = GIT_BUF_INIT; git_vector packing_list; unsigned int total_refs; assert(backend && backend->refcache.packfile); total_refs = (unsigned int)git_strmap_num_entries(backend->refcache.packfile); if (git_vector_init(&packing_list, total_refs, packed_sort) < 0) return -1; /* Load all the packfile into a vector */ { struct packref *reference; /* cannot fail: vector already has the right size */ git_strmap_foreach_value(backend->refcache.packfile, reference, { git_vector_insert(&packing_list, reference); }); } /* sort the vector so the entries appear sorted on the packfile */ git_vector_sort(&packing_list); /* Now we can open the file! */ if (git_buf_joinpath(&pack_file_path, backend->path, GIT_PACKEDREFS_FILE) < 0) goto cleanup_memory; if (git_filebuf_open(&pack_file, pack_file_path.ptr, 0) < 0) goto cleanup_packfile; /* Packfiles have a header... apparently * This is in fact not required, but we might as well print it * just for kicks */ if (git_filebuf_printf(&pack_file, "%s\n", GIT_PACKEDREFS_HEADER) < 0) goto cleanup_packfile; for (i = 0; i < packing_list.length; ++i) { struct packref *ref = (struct packref *)git_vector_get(&packing_list, i); if (packed_find_peel(backend, ref) < 0) goto cleanup_packfile; if (packed_write_ref(ref, &pack_file) < 0) goto cleanup_packfile; } /* if we've written all the references properly, we can commit * the packfile to make the changes effective */ if (git_filebuf_commit(&pack_file, GIT_PACKEDREFS_FILE_MODE) < 0) goto cleanup_memory; /* when and only when the packfile has been properly written, * we can go ahead and remove the loose refs */ if (packed_remove_loose(backend, &packing_list) < 0) goto cleanup_memory; { struct stat st; if (p_stat(pack_file_path.ptr, &st) == 0) backend->refcache.packfile_time = st.st_mtime; } git_vector_free(&packing_list); git_buf_free(&pack_file_path); /* we're good now */ return 0; cleanup_packfile: git_filebuf_cleanup(&pack_file); cleanup_memory: git_vector_free(&packing_list); git_buf_free(&pack_file_path); return -1; } static int refdb_fs_backend__write( git_refdb_backend *_backend, const git_reference *ref) { refdb_fs_backend *backend; assert(_backend); backend = (refdb_fs_backend *)_backend; return loose_write(backend, ref); } static int refdb_fs_backend__delete( git_refdb_backend *_backend, const git_reference *ref) { refdb_fs_backend *backend; git_repository *repo; git_buf loose_path = GIT_BUF_INIT; struct packref *pack_ref; khiter_t pack_ref_pos; int error = 0, pack_error; bool loose_deleted; assert(_backend); assert(ref); backend = (refdb_fs_backend *)_backend; repo = backend->repo; /* If a loose reference exists, remove it from the filesystem */ if (git_buf_joinpath(&loose_path, repo->path_repository, ref->name) < 0) return -1; if (git_path_isfile(loose_path.ptr)) { error = p_unlink(loose_path.ptr); loose_deleted = 1; } git_buf_free(&loose_path); if (error != 0) return error; /* If a packed reference exists, remove it from the packfile and repack */ if ((pack_error = packed_map_entry(&pack_ref, &pack_ref_pos, backend, ref->name)) == 0) { git_strmap_delete_at(backend->refcache.packfile, pack_ref_pos); git__free(pack_ref); error = packed_write(backend); } if (pack_error == GIT_ENOTFOUND) error = loose_deleted ? 0 : GIT_ENOTFOUND; else error = pack_error; return error; } static int refdb_fs_backend__compress(git_refdb_backend *_backend) { refdb_fs_backend *backend; assert(_backend); backend = (refdb_fs_backend *)_backend; if (packed_load(backend) < 0 || /* load the existing packfile */ packed_loadloose(backend) < 0 || /* add all the loose refs */ packed_write(backend) < 0) /* write back to disk */ return -1; return 0; } static void refcache_free(git_refcache *refs) { assert(refs); if (refs->packfile) { struct packref *reference; git_strmap_foreach_value(refs->packfile, reference, { git__free(reference); }); git_strmap_free(refs->packfile); } } static void refdb_fs_backend__free(git_refdb_backend *_backend) { refdb_fs_backend *backend; assert(_backend); backend = (refdb_fs_backend *)_backend; refcache_free(&backend->refcache); git__free(backend); } int git_refdb_backend_fs( git_refdb_backend **backend_out, git_repository *repository, git_refdb *refdb) { refdb_fs_backend *backend; backend = git__calloc(1, sizeof(refdb_fs_backend)); GITERR_CHECK_ALLOC(backend); backend->repo = repository; backend->path = repository->path_repository; backend->refdb = refdb; backend->parent.exists = &refdb_fs_backend__exists; backend->parent.lookup = &refdb_fs_backend__lookup; backend->parent.foreach = &refdb_fs_backend__foreach; backend->parent.write = &refdb_fs_backend__write; backend->parent.delete = &refdb_fs_backend__delete; backend->parent.compress = &refdb_fs_backend__compress; backend->parent.free = &refdb_fs_backend__free; *backend_out = (git_refdb_backend *)backend; return 0; }