/* * 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 "sortedcache.h" int git_sortedcache_new( git_sortedcache **out, size_t item_path_offset, git_sortedcache_free_item_fn free_item, void *free_item_payload, git_vector_cmp item_cmp, const char *path) { git_sortedcache *sc; size_t pathlen, alloclen; pathlen = path ? strlen(path) : 0; GIT_ERROR_CHECK_ALLOC_ADD(&alloclen, sizeof(git_sortedcache), pathlen); GIT_ERROR_CHECK_ALLOC_ADD(&alloclen, alloclen, 1); sc = git__calloc(1, alloclen); GIT_ERROR_CHECK_ALLOC(sc); if (git_pool_init(&sc->pool, 1) < 0 || git_vector_init(&sc->items, 4, item_cmp) < 0 || git_strmap_new(&sc->map) < 0) goto fail; if (git_rwlock_init(&sc->lock)) { git_error_set(GIT_ERROR_OS, "failed to initialize lock"); goto fail; } sc->item_path_offset = item_path_offset; sc->free_item = free_item; sc->free_item_payload = free_item_payload; GIT_REFCOUNT_INC(sc); if (pathlen) memcpy(sc->path, path, pathlen); *out = sc; return 0; fail: git_strmap_free(sc->map); git_vector_free(&sc->items); git_pool_clear(&sc->pool); git__free(sc); return -1; } void git_sortedcache_incref(git_sortedcache *sc) { GIT_REFCOUNT_INC(sc); } const char *git_sortedcache_path(git_sortedcache *sc) { return sc->path; } static void sortedcache_clear(git_sortedcache *sc) { git_strmap_clear(sc->map); if (sc->free_item) { size_t i; void *item; git_vector_foreach(&sc->items, i, item) { sc->free_item(sc->free_item_payload, item); } } git_vector_clear(&sc->items); git_pool_clear(&sc->pool); } static void sortedcache_free(git_sortedcache *sc) { /* acquire write lock to make sure everyone else is done */ if (git_sortedcache_wlock(sc) < 0) return; sortedcache_clear(sc); git_vector_free(&sc->items); git_strmap_free(sc->map); git_sortedcache_wunlock(sc); git_rwlock_free(&sc->lock); git__free(sc); } void git_sortedcache_free(git_sortedcache *sc) { if (!sc) return; GIT_REFCOUNT_DEC(sc, sortedcache_free); } static int sortedcache_copy_item(void *payload, void *tgt_item, void *src_item) { git_sortedcache *sc = payload; /* path will already have been copied by upsert */ memcpy(tgt_item, src_item, sc->item_path_offset); return 0; } /* copy a sorted cache */ int git_sortedcache_copy( git_sortedcache **out, git_sortedcache *src, bool lock, int (*copy_item)(void *payload, void *tgt_item, void *src_item), void *payload) { int error = 0; git_sortedcache *tgt; size_t i; void *src_item, *tgt_item; /* just use memcpy if no special copy fn is passed in */ if (!copy_item) { copy_item = sortedcache_copy_item; payload = src; } if ((error = git_sortedcache_new( &tgt, src->item_path_offset, src->free_item, src->free_item_payload, src->items._cmp, src->path)) < 0) return error; if (lock && git_sortedcache_rlock(src) < 0) { git_sortedcache_free(tgt); return -1; } git_vector_foreach(&src->items, i, src_item) { char *path = ((char *)src_item) + src->item_path_offset; if ((error = git_sortedcache_upsert(&tgt_item, tgt, path)) < 0 || (error = copy_item(payload, tgt_item, src_item)) < 0) break; } if (lock) git_sortedcache_runlock(src); if (error) git_sortedcache_free(tgt); *out = !error ? tgt : NULL; return error; } /* lock sortedcache while making modifications */ int git_sortedcache_wlock(git_sortedcache *sc) { GIT_UNUSED(sc); /* prevent warning when compiled w/o threads */ if (git_rwlock_wrlock(&sc->lock) < 0) { git_error_set(GIT_ERROR_OS, "unable to acquire write lock on cache"); return -1; } return 0; } /* unlock sorted cache when done with modifications */ void git_sortedcache_wunlock(git_sortedcache *sc) { git_vector_sort(&sc->items); git_rwlock_wrunlock(&sc->lock); } /* lock sortedcache for read */ int git_sortedcache_rlock(git_sortedcache *sc) { GIT_UNUSED(sc); /* prevent warning when compiled w/o threads */ if (git_rwlock_rdlock(&sc->lock) < 0) { git_error_set(GIT_ERROR_OS, "unable to acquire read lock on cache"); return -1; } return 0; } /* unlock sorted cache when done reading */ void git_sortedcache_runlock(git_sortedcache *sc) { GIT_UNUSED(sc); /* prevent warning when compiled w/o threads */ git_rwlock_rdunlock(&sc->lock); } /* if the file has changed, lock cache and load file contents into buf; * returns <0 on error, >0 if file has not changed */ int git_sortedcache_lockandload(git_sortedcache *sc, git_buf *buf) { int error, fd; struct stat st; if ((error = git_sortedcache_wlock(sc)) < 0) return error; if ((error = git_futils_filestamp_check(&sc->stamp, sc->path)) <= 0) goto unlock; if ((fd = git_futils_open_ro(sc->path)) < 0) { error = fd; goto unlock; } if (p_fstat(fd, &st) < 0) { git_error_set(GIT_ERROR_OS, "failed to stat file"); error = -1; (void)p_close(fd); goto unlock; } if (!git__is_sizet(st.st_size)) { git_error_set(GIT_ERROR_INVALID, "unable to load file larger than size_t"); error = -1; (void)p_close(fd); goto unlock; } if (buf) error = git_futils_readbuffer_fd(buf, fd, (size_t)st.st_size); (void)p_close(fd); if (error < 0) goto unlock; return 1; /* return 1 -> file needs reload and was successfully loaded */ unlock: git_sortedcache_wunlock(sc); return error; } void git_sortedcache_updated(git_sortedcache *sc) { /* update filestamp to latest value */ git_futils_filestamp_check(&sc->stamp, sc->path); } /* release all items in sorted cache */ int git_sortedcache_clear(git_sortedcache *sc, bool wlock) { if (wlock && git_sortedcache_wlock(sc) < 0) return -1; sortedcache_clear(sc); if (wlock) git_sortedcache_wunlock(sc); return 0; } /* find and/or insert item, returning pointer to item data */ int git_sortedcache_upsert(void **out, git_sortedcache *sc, const char *key) { size_t keylen, itemlen; int error = 0; char *item_key; void *item; if ((item = git_strmap_get(sc->map, key)) != NULL) goto done; keylen = strlen(key); itemlen = sc->item_path_offset + keylen + 1; itemlen = (itemlen + 7) & ~7; if ((item = git_pool_mallocz(&sc->pool, itemlen)) == NULL) { /* don't use GIT_ERROR_CHECK_ALLOC b/c of lock */ error = -1; goto done; } /* one strange thing is that even if the vector or hash table insert * fail, there is no way to free the pool item so we just abandon it */ item_key = ((char *)item) + sc->item_path_offset; memcpy(item_key, key, keylen); if ((error = git_strmap_set(sc->map, item_key, item)) < 0) goto done; if ((error = git_vector_insert(&sc->items, item)) < 0) git_strmap_delete(sc->map, item_key); done: if (out) *out = !error ? item : NULL; return error; } /* lookup item by key */ void *git_sortedcache_lookup(const git_sortedcache *sc, const char *key) { return git_strmap_get(sc->map, key); } /* find out how many items are in the cache */ size_t git_sortedcache_entrycount(const git_sortedcache *sc) { return git_vector_length(&sc->items); } /* lookup item by index */ void *git_sortedcache_entry(git_sortedcache *sc, size_t pos) { /* make sure the items are sorted so this gets the correct item */ if (!git_vector_is_sorted(&sc->items)) git_vector_sort(&sc->items); return git_vector_get(&sc->items, pos); } /* helper struct so bsearch callback can know offset + key value for cmp */ struct sortedcache_magic_key { size_t offset; const char *key; }; static int sortedcache_magic_cmp(const void *key, const void *value) { const struct sortedcache_magic_key *magic = key; const char *value_key = ((const char *)value) + magic->offset; return strcmp(magic->key, value_key); } /* lookup index of item by key */ int git_sortedcache_lookup_index( size_t *out, git_sortedcache *sc, const char *key) { struct sortedcache_magic_key magic; magic.offset = sc->item_path_offset; magic.key = key; return git_vector_bsearch2(out, &sc->items, sortedcache_magic_cmp, &magic); } /* remove entry from cache */ int git_sortedcache_remove(git_sortedcache *sc, size_t pos) { char *item; /* * Because of pool allocation, this can't actually remove the item, * but we can remove it from the items vector and the hash table. */ if ((item = git_vector_get(&sc->items, pos)) == NULL) { git_error_set(GIT_ERROR_INVALID, "removing item out of range"); return GIT_ENOTFOUND; } (void)git_vector_remove(&sc->items, pos); git_strmap_delete(sc->map, item + sc->item_path_offset); if (sc->free_item) sc->free_item(sc->free_item_payload, item); return 0; }