/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* ** DAV filesystem lock implementation */ #include "apr.h" #include "apr_strings.h" #include "apr_file_io.h" #include "apr_uuid.h" #define APR_WANT_MEMFUNC #include "apr_want.h" #include "httpd.h" #include "http_log.h" #include "mod_dav.h" #include "repos.h" /* --------------------------------------------------------------- ** ** Lock database primitives ** */ /* ** LOCK DATABASES ** ** Lockdiscovery information is stored in the single lock database specified ** by the DAVLockDB directive. Information about this db is stored in the ** global server configuration. ** ** KEY ** ** The database is keyed by a key_type unsigned char (DAV_TYPE_FNAME) ** followed by the full path. The key_type DAV_TYPE_INODE is not used anymore. ** ** VALUE ** ** The value consists of a list of elements. ** DIRECT LOCK: [char (DAV_LOCK_DIRECT), ** char (dav_lock_scope), ** char (dav_lock_type), ** int depth, ** time_t expires, ** apr_uuid_t locktoken, ** char[] owner, ** char[] auth_user] ** ** INDIRECT LOCK: [char (DAV_LOCK_INDIRECT), ** apr_uuid_t locktoken, ** time_t expires, ** apr_size_t key_size, ** char[] key] ** The key is to the collection lock that resulted in this indirect lock */ #define DAV_TRUE 1 #define DAV_FALSE 0 #define DAV_CREATE_LIST 23 #define DAV_APPEND_LIST 24 /* Stored lock_discovery prefix */ #define DAV_LOCK_DIRECT 1 #define DAV_LOCK_INDIRECT 2 /* * not used anymore * #define DAV_TYPE_INODE 10 */ #define DAV_TYPE_FNAME 11 /* ack. forward declare. */ static dav_error * dav_fs_remove_locknull_member(apr_pool_t *p, const char *filename, dav_buffer *pbuf); /* ** Use the opaquelock scheme for locktokens */ struct dav_locktoken { apr_uuid_t uuid; }; #define dav_compare_locktoken(plt1, plt2) \ memcmp(&(plt1)->uuid, &(plt2)->uuid, sizeof((plt1)->uuid)) /* ################################################################# ** ### keep these structures (internal) or move fully to dav_lock? */ /* ** We need to reliably size the fixed-length portion of ** dav_lock_discovery; best to separate it into another ** struct for a convenient sizeof, unless we pack lock_discovery. */ typedef struct dav_lock_discovery_fixed { char scope; char type; int depth; time_t timeout; } dav_lock_discovery_fixed; typedef struct dav_lock_discovery { struct dav_lock_discovery_fixed f; dav_locktoken *locktoken; const char *owner; /* owner field from activelock */ const char *auth_user; /* authenticated user who created the lock */ struct dav_lock_discovery *next; } dav_lock_discovery; /* Indirect locks represent locks inherited from containing collections. * They reference the lock token for the collection the lock is * inherited from. A lock provider may also define a key to the * inherited lock, for fast datbase lookup. The key is opaque outside * the lock provider. */ typedef struct dav_lock_indirect { dav_locktoken *locktoken; apr_datum_t key; struct dav_lock_indirect *next; time_t timeout; } dav_lock_indirect; /* ################################################################# */ /* ** Stored direct lock info - full lock_discovery length: ** prefix + Fixed length + lock token + 2 strings + 2 nulls (one for each string) */ #define dav_size_direct(a) ( 1 + sizeof(dav_lock_discovery_fixed) \ + sizeof(apr_uuid_t) \ + ((a)->owner ? strlen((a)->owner) : 0) \ + ((a)->auth_user ? strlen((a)->auth_user) : 0) \ + 2) /* Stored indirect lock info - lock token and apr_datum_t */ #define dav_size_indirect(a) (1 + sizeof(apr_uuid_t) \ + sizeof(time_t) \ + sizeof((a)->key.dsize) + (a)->key.dsize) /* ** The lockdb structure. ** ** The field may be NULL, meaning one of two things: ** 1) That we have not actually opened the underlying database (yet). The ** field should be false. ** 2) We opened it readonly and it wasn't present. ** ** The delayed opening (determined by ) makes creating a lockdb ** quick, while deferring the underlying I/O until it is actually required. ** ** We export the notion of a lockdb, but hide the details of it. Most ** implementations will use a database of some kind, but it is certainly ** possible that alternatives could be used. */ struct dav_lockdb_private { request_rec *r; /* for accessing the uuid state */ apr_pool_t *pool; /* a pool to use */ const char *lockdb_path; /* where is the lock database? */ int opened; /* we opened the database */ dav_db *db; /* if non-NULL, the lock database */ }; typedef struct { dav_lockdb pub; dav_lockdb_private priv; } dav_lockdb_combined; /* ** The private part of the lock structure. */ struct dav_lock_private { apr_datum_t key; /* key into the lock database */ }; typedef struct { dav_lock pub; dav_lock_private priv; dav_locktoken token; } dav_lock_combined; /* ** This must be forward-declared so the open_lockdb function can use it. */ extern const dav_hooks_locks dav_hooks_locks_fs; /* internal function for creating locks */ static dav_lock *dav_fs_alloc_lock(dav_lockdb *lockdb, apr_datum_t key, const dav_locktoken *locktoken) { dav_lock_combined *comb; comb = apr_pcalloc(lockdb->info->pool, sizeof(*comb)); comb->pub.rectype = DAV_LOCKREC_DIRECT; comb->pub.info = &comb->priv; comb->priv.key = key; if (locktoken == NULL) { comb->pub.locktoken = &comb->token; apr_uuid_get(&comb->token.uuid); } else { comb->pub.locktoken = locktoken; } return &comb->pub; } /* ** dav_fs_parse_locktoken ** ** Parse an opaquelocktoken URI into a locktoken. */ static dav_error * dav_fs_parse_locktoken( apr_pool_t *p, const char *char_token, dav_locktoken **locktoken_p) { dav_locktoken *locktoken; if (ap_strstr_c(char_token, "opaquelocktoken:") != char_token) { return dav_new_error(p, HTTP_BAD_REQUEST, DAV_ERR_LOCK_UNK_STATE_TOKEN, 0, "The lock token uses an unknown State-token " "format and could not be parsed."); } char_token += 16; locktoken = apr_pcalloc(p, sizeof(*locktoken)); if (apr_uuid_parse(&locktoken->uuid, char_token)) { return dav_new_error(p, HTTP_BAD_REQUEST, DAV_ERR_LOCK_PARSE_TOKEN, 0, "The opaquelocktoken has an incorrect format " "and could not be parsed."); } *locktoken_p = locktoken; return NULL; } /* ** dav_fs_format_locktoken ** ** Generate the URI for a locktoken */ static const char *dav_fs_format_locktoken( apr_pool_t *p, const dav_locktoken *locktoken) { char buf[APR_UUID_FORMATTED_LENGTH + 1]; apr_uuid_format(buf, &locktoken->uuid); return apr_pstrcat(p, "opaquelocktoken:", buf, NULL); } /* ** dav_fs_compare_locktoken ** ** Determine whether two locktokens are the same */ static int dav_fs_compare_locktoken( const dav_locktoken *lt1, const dav_locktoken *lt2) { return dav_compare_locktoken(lt1, lt2); } /* ** dav_fs_really_open_lockdb: ** ** If the database hasn't been opened yet, then open the thing. */ static dav_error * dav_fs_really_open_lockdb(dav_lockdb *lockdb) { dav_error *err; if (lockdb->info->opened) return NULL; err = dav_dbm_open_direct(lockdb->info->pool, lockdb->info->lockdb_path, lockdb->ro, &lockdb->info->db); if (err != NULL) { return dav_push_error(lockdb->info->pool, HTTP_INTERNAL_SERVER_ERROR, DAV_ERR_LOCK_OPENDB, "Could not open the lock database.", err); } /* all right. it is opened now. */ lockdb->info->opened = 1; return NULL; } /* ** dav_fs_open_lockdb: ** ** "open" the lock database, as specified in the global server configuration. ** If force is TRUE, then the database is opened now, rather than lazily. ** ** Note that only one can be open read/write. */ static dav_error * dav_fs_open_lockdb(request_rec *r, int ro, int force, dav_lockdb **lockdb) { dav_lockdb_combined *comb; comb = apr_pcalloc(r->pool, sizeof(*comb)); comb->pub.hooks = &dav_hooks_locks_fs; comb->pub.ro = ro; comb->pub.info = &comb->priv; comb->priv.r = r; comb->priv.pool = r->pool; comb->priv.lockdb_path = dav_get_lockdb_path(r); if (comb->priv.lockdb_path == NULL) { return dav_new_error(r->pool, HTTP_INTERNAL_SERVER_ERROR, DAV_ERR_LOCK_NO_DB, 0, "A lock database was not specified with the " "DAVLockDB directive. One must be specified " "to use the locking functionality."); } /* done initializing. return it. */ *lockdb = &comb->pub; if (force) { /* ### add a higher-level comment? */ return dav_fs_really_open_lockdb(*lockdb); } return NULL; } /* ** dav_fs_close_lockdb: ** ** Close it. Duh. */ static void dav_fs_close_lockdb(dav_lockdb *lockdb) { if (lockdb->info->db != NULL) dav_dbm_close(lockdb->info->db); } /* ** dav_fs_build_key: Given a resource, return a apr_datum_t key ** to look up lock information for this file. */ static apr_datum_t dav_fs_build_key(apr_pool_t *p, const dav_resource *resource) { const char *pathname = dav_fs_pathname(resource); apr_datum_t key; /* ### does this allocation have a proper lifetime? need to check */ /* ### can we use a buffer for this? */ /* size is TYPE + pathname + null */ key.dsize = strlen(pathname) + 2; key.dptr = apr_palloc(p, key.dsize); *key.dptr = DAV_TYPE_FNAME; memcpy(key.dptr + 1, pathname, key.dsize - 1); if (key.dptr[key.dsize - 2] == '/') key.dptr[--key.dsize - 1] = '\0'; return key; } /* ** dav_fs_lock_expired: return 1 (true) if the given timeout is in the past ** or present (the lock has expired), or 0 (false) if in the future ** (the lock has not yet expired). */ static int dav_fs_lock_expired(time_t expires) { return expires != DAV_TIMEOUT_INFINITE && time(NULL) >= expires; } /* ** dav_fs_save_lock_record: Saves the lock information specified in the ** direct and indirect lock lists about path into the lock database. ** If direct and indirect == NULL, the key is removed. */ static dav_error * dav_fs_save_lock_record(dav_lockdb *lockdb, apr_datum_t key, dav_lock_discovery *direct, dav_lock_indirect *indirect) { dav_error *err; apr_datum_t val = { 0 }; char *ptr; dav_lock_discovery *dp = direct; dav_lock_indirect *ip = indirect; #if DAV_DEBUG if (lockdb->ro) { return dav_new_error(lockdb->info->pool, HTTP_INTERNAL_SERVER_ERROR, 0, 0, "INTERNAL DESIGN ERROR: the lockdb was opened " "readonly, but an attempt to save locks was " "performed."); } #endif if ((err = dav_fs_really_open_lockdb(lockdb)) != NULL) { /* ### add a higher-level error? */ return err; } /* If nothing to save, delete key */ if (dp == NULL && ip == NULL) { /* don't fail if the key is not present */ /* ### but what about other errors? */ (void) dav_dbm_delete(lockdb->info->db, key); return NULL; } while(dp) { val.dsize += dav_size_direct(dp); dp = dp->next; } while(ip) { val.dsize += dav_size_indirect(ip); ip = ip->next; } /* ### can this be apr_palloc() ? */ /* ### hmmm.... investigate the use of a buffer here */ ptr = val.dptr = apr_pcalloc(lockdb->info->pool, val.dsize); dp = direct; ip = indirect; while(dp) { *ptr++ = DAV_LOCK_DIRECT; /* Direct lock - lock_discovery struct follows */ memcpy(ptr, dp, sizeof(dp->f)); /* Fixed portion of struct */ ptr += sizeof(dp->f); memcpy(ptr, dp->locktoken, sizeof(*dp->locktoken)); ptr += sizeof(*dp->locktoken); if (dp->owner == NULL) { *ptr++ = '\0'; } else { memcpy(ptr, dp->owner, strlen(dp->owner) + 1); ptr += strlen(dp->owner) + 1; } if (dp->auth_user == NULL) { *ptr++ = '\0'; } else { memcpy(ptr, dp->auth_user, strlen(dp->auth_user) + 1); ptr += strlen(dp->auth_user) + 1; } dp = dp->next; } while(ip) { *ptr++ = DAV_LOCK_INDIRECT; /* Indirect lock prefix */ memcpy(ptr, ip->locktoken, sizeof(*ip->locktoken)); /* Locktoken */ ptr += sizeof(*ip->locktoken); memcpy(ptr, &ip->timeout, sizeof(ip->timeout)); /* Expire time */ ptr += sizeof(ip->timeout); memcpy(ptr, &ip->key.dsize, sizeof(ip->key.dsize)); /* Size of key */ ptr += sizeof(ip->key.dsize); memcpy(ptr, ip->key.dptr, ip->key.dsize); /* Key data */ ptr += ip->key.dsize; ip = ip->next; } if ((err = dav_dbm_store(lockdb->info->db, key, val)) != NULL) { /* ### more details? add an error_id? */ return dav_push_error(lockdb->info->pool, HTTP_INTERNAL_SERVER_ERROR, DAV_ERR_LOCK_SAVE_LOCK, "Could not save lock information.", err); } return NULL; } /* ** dav_load_lock_record: Reads lock information about key from lock db; ** creates linked lists of the direct and indirect locks. ** ** If add_method = DAV_APPEND_LIST, the result will be appended to the ** head of the direct and indirect lists supplied. ** ** Passive lock removal: If lock has timed out, it will not be returned. ** ### How much "logging" does RFC 2518 require? */ static dav_error * dav_fs_load_lock_record(dav_lockdb *lockdb, apr_datum_t key, int add_method, dav_lock_discovery **direct, dav_lock_indirect **indirect) { apr_pool_t *p = lockdb->info->pool; dav_error *err; apr_size_t offset = 0; int need_save = DAV_FALSE; apr_datum_t val = { 0 }; dav_lock_discovery *dp; dav_lock_indirect *ip; dav_buffer buf = { 0 }; if (add_method != DAV_APPEND_LIST) { *direct = NULL; *indirect = NULL; } if ((err = dav_fs_really_open_lockdb(lockdb)) != NULL) { /* ### add a higher-level error? */ return err; } /* ** If we opened readonly and the db wasn't there, then there are no ** locks for this resource. Just exit. */ if (lockdb->info->db == NULL) return NULL; if ((err = dav_dbm_fetch(lockdb->info->db, key, &val)) != NULL) return err; if (!val.dsize) return NULL; while (offset < val.dsize) { switch (*(val.dptr + offset++)) { case DAV_LOCK_DIRECT: /* Create and fill a dav_lock_discovery structure */ dp = apr_pcalloc(p, sizeof(*dp)); memcpy(dp, val.dptr + offset, sizeof(dp->f)); offset += sizeof(dp->f); dp->locktoken = apr_pmemdup(p, val.dptr + offset, sizeof(*dp->locktoken)); offset += sizeof(*dp->locktoken); if (*(val.dptr + offset) == '\0') { ++offset; } else { dp->owner = apr_pstrdup(p, val.dptr + offset); offset += strlen(dp->owner) + 1; } if (*(val.dptr + offset) == '\0') { ++offset; } else { dp->auth_user = apr_pstrdup(p, val.dptr + offset); offset += strlen(dp->auth_user) + 1; } if (!dav_fs_lock_expired(dp->f.timeout)) { dp->next = *direct; *direct = dp; } else { need_save = DAV_TRUE; /* Remove timed-out locknull fm .locknull list */ if (*key.dptr == DAV_TYPE_FNAME) { const char *fname = key.dptr + 1; apr_finfo_t finfo; apr_status_t rv; /* if we don't see the file, then it's a locknull */ rv = apr_stat(&finfo, fname, APR_FINFO_MIN | APR_FINFO_LINK, p); if (rv != APR_SUCCESS && rv != APR_INCOMPLETE) { if ((err = dav_fs_remove_locknull_member(p, fname, &buf)) != NULL) { /* ### push a higher-level description? */ return err; } } } } break; case DAV_LOCK_INDIRECT: /* Create and fill a dav_lock_indirect structure */ ip = apr_pcalloc(p, sizeof(*ip)); ip->locktoken = apr_pmemdup(p, val.dptr + offset, sizeof(*ip->locktoken)); offset += sizeof(*ip->locktoken); memcpy(&ip->timeout, val.dptr + offset, sizeof(ip->timeout)); offset += sizeof(ip->timeout); memcpy(&ip->key.dsize, val.dptr + offset, sizeof(ip->key.dsize)); /* length of datum */ offset += sizeof(ip->key.dsize); ip->key.dptr = apr_pmemdup(p, val.dptr + offset, ip->key.dsize); offset += ip->key.dsize; if (!dav_fs_lock_expired(ip->timeout)) { ip->next = *indirect; *indirect = ip; } else { need_save = DAV_TRUE; /* A locknull resource will never be locked indirectly */ } break; default: dav_dbm_freedatum(lockdb->info->db, val); /* ### should use a computed_desc and insert corrupt token data */ --offset; return dav_new_error(p, HTTP_INTERNAL_SERVER_ERROR, DAV_ERR_LOCK_CORRUPT_DB, 0, apr_psprintf(p, "The lock database was found to " "be corrupt. offset %" APR_SIZE_T_FMT ", c=%02x", offset, val.dptr[offset])); } } dav_dbm_freedatum(lockdb->info->db, val); /* Clean up this record if we found expired locks */ /* ** ### shouldn't do this if we've been opened READONLY. elide the ** ### timed-out locks from the response, but don't save that info back */ if (need_save == DAV_TRUE) { return dav_fs_save_lock_record(lockdb, key, *direct, *indirect); } return NULL; } /* resolve , returning <*direct> */ static dav_error * dav_fs_resolve(dav_lockdb *lockdb, dav_lock_indirect *indirect, dav_lock_discovery **direct, dav_lock_discovery **ref_dp, dav_lock_indirect **ref_ip) { dav_error *err; dav_lock_discovery *dir; dav_lock_indirect *ind; if ((err = dav_fs_load_lock_record(lockdb, indirect->key, DAV_CREATE_LIST, &dir, &ind)) != NULL) { /* ### insert a higher-level description? */ return err; } if (ref_dp != NULL) { *ref_dp = dir; *ref_ip = ind; } for (; dir != NULL; dir = dir->next) { if (!dav_compare_locktoken(indirect->locktoken, dir->locktoken)) { *direct = dir; return NULL; } } /* No match found (but we should have found one!) */ /* ### use a different description and/or error ID? */ return dav_new_error(lockdb->info->pool, HTTP_INTERNAL_SERVER_ERROR, DAV_ERR_LOCK_CORRUPT_DB, 0, "The lock database was found to be corrupt. " "An indirect lock's direct lock could not " "be found."); } /* --------------------------------------------------------------- ** ** Property-related lock functions ** */ /* ** dav_fs_get_supportedlock: Returns a static string for all supportedlock ** properties. I think we save more returning a static string than ** constructing it every time, though it might look cleaner. */ static const char *dav_fs_get_supportedlock(const dav_resource *resource) { static const char supported[] = DEBUG_CR "" DEBUG_CR "" DEBUG_CR "" DEBUG_CR "" DEBUG_CR "" DEBUG_CR "" DEBUG_CR "" DEBUG_CR "" DEBUG_CR; return supported; } /* --------------------------------------------------------------- ** ** General lock functions ** */ /* --------------------------------------------------------------- ** ** Functions dealing with lock-null resources ** */ /* ** dav_fs_load_locknull_list: Returns a dav_buffer dump of the locknull file ** for the given directory. */ static dav_error * dav_fs_load_locknull_list(apr_pool_t *p, const char *dirpath, dav_buffer *pbuf) { apr_finfo_t finfo; apr_file_t *file = NULL; dav_error *err = NULL; apr_size_t amt; apr_status_t rv; dav_buffer_init(p, pbuf, dirpath); if (pbuf->buf[pbuf->cur_len - 1] == '/') pbuf->buf[--pbuf->cur_len] = '\0'; dav_buffer_place(p, pbuf, "/" DAV_FS_STATE_DIR "/" DAV_FS_LOCK_NULL_FILE); /* reset this in case we leave w/o reading into the buffer */ pbuf->cur_len = 0; if (apr_file_open(&file, pbuf->buf, APR_READ | APR_BINARY, APR_OS_DEFAULT, p) != APR_SUCCESS) { return NULL; } rv = apr_file_info_get(&finfo, APR_FINFO_SIZE, file); if (rv != APR_SUCCESS) { err = dav_new_error(p, HTTP_INTERNAL_SERVER_ERROR, 0, rv, apr_psprintf(p, "Opened but could not stat file %s", pbuf->buf)); goto loaderror; } if (finfo.size != (apr_size_t)finfo.size) { err = dav_new_error(p, HTTP_INTERNAL_SERVER_ERROR, 0, 0, apr_psprintf(p, "Opened but rejected huge file %s", pbuf->buf)); goto loaderror; } amt = (apr_size_t)finfo.size; dav_set_bufsize(p, pbuf, amt); if ((rv = apr_file_read(file, pbuf->buf, &amt)) != APR_SUCCESS || amt != finfo.size) { err = dav_new_error(p, HTTP_INTERNAL_SERVER_ERROR, 0, rv, apr_psprintf(p, "Failure reading locknull file " "for %s", dirpath)); /* just in case the caller disregards the returned error */ pbuf->cur_len = 0; goto loaderror; } loaderror: apr_file_close(file); return err; } /* ** dav_fs_save_locknull_list: Saves contents of pbuf into the ** locknull file for dirpath. */ static dav_error * dav_fs_save_locknull_list(apr_pool_t *p, const char *dirpath, dav_buffer *pbuf) { const char *pathname; apr_file_t *file = NULL; dav_error *err = NULL; apr_size_t amt; apr_status_t rv; if (pbuf->buf == NULL) return NULL; dav_fs_ensure_state_dir(p, dirpath); pathname = apr_pstrcat(p, dirpath, dirpath[strlen(dirpath) - 1] == '/' ? "" : "/", DAV_FS_STATE_DIR "/" DAV_FS_LOCK_NULL_FILE, NULL); if (pbuf->cur_len == 0) { /* delete the file if cur_len == 0 */ if ((rv = apr_file_remove(pathname, p)) != APR_SUCCESS) { return dav_new_error(p, HTTP_INTERNAL_SERVER_ERROR, 0, rv, apr_psprintf(p, "Error removing %s", pathname)); } return NULL; } if ((rv = apr_file_open(&file, pathname, APR_WRITE | APR_CREATE | APR_TRUNCATE | APR_BINARY, APR_OS_DEFAULT, p)) != APR_SUCCESS) { return dav_new_error(p, HTTP_INTERNAL_SERVER_ERROR, 0, rv, apr_psprintf(p, "Error opening %s for writing", pathname)); } amt = pbuf->cur_len; if ((rv = apr_file_write_full(file, pbuf->buf, amt, &amt)) != APR_SUCCESS || amt != pbuf->cur_len) { err = dav_new_error(p, HTTP_INTERNAL_SERVER_ERROR, 0, rv, apr_psprintf(p, "Error writing %" APR_SIZE_T_FMT " bytes to %s", pbuf->cur_len, pathname)); } apr_file_close(file); return err; } /* ** dav_fs_remove_locknull_member: Removes filename from the locknull list ** for directory path. */ static dav_error * dav_fs_remove_locknull_member(apr_pool_t *p, const char *filename, dav_buffer *pbuf) { dav_error *err; apr_size_t len; apr_size_t scanlen; char *scan; const char *scanend; char *dirpath = apr_pstrdup(p, filename); char *fname = strrchr(dirpath, '/'); int dirty = 0; if (fname != NULL) *fname++ = '\0'; else fname = dirpath; len = strlen(fname) + 1; if ((err = dav_fs_load_locknull_list(p, dirpath, pbuf)) != NULL) { /* ### add a higher level description? */ return err; } for (scan = pbuf->buf, scanend = scan + pbuf->cur_len; scan < scanend; scan += scanlen) { scanlen = strlen(scan) + 1; if (len == scanlen && memcmp(fname, scan, scanlen) == 0) { pbuf->cur_len -= scanlen; memmove(scan, scan + scanlen, scanend - (scan + scanlen)); dirty = 1; break; } } if (dirty) { if ((err = dav_fs_save_locknull_list(p, dirpath, pbuf)) != NULL) { /* ### add a higher level description? */ return err; } } return NULL; } /* Note: used by dav_fs_repos.c */ dav_error * dav_fs_get_locknull_members( const dav_resource *resource, dav_buffer *pbuf) { const char *dirpath; /* ### should test this result value... */ (void) dav_fs_dir_file_name(resource, &dirpath, NULL); return dav_fs_load_locknull_list(dav_fs_pool(resource), dirpath, pbuf); } /* ### fold into append_lock? */ /* ### take an optional buf parameter? */ static dav_error * dav_fs_add_locknull_state( dav_lockdb *lockdb, const dav_resource *resource) { dav_buffer buf = { 0 }; apr_pool_t *p = lockdb->info->pool; const char *dirpath; const char *fname; dav_error *err; /* ### should test this result value... */ (void) dav_fs_dir_file_name(resource, &dirpath, &fname); if ((err = dav_fs_load_locknull_list(p, dirpath, &buf)) != NULL) { return dav_push_error(p, HTTP_INTERNAL_SERVER_ERROR, 0, "Could not load .locknull file.", err); } dav_buffer_append(p, &buf, fname); buf.cur_len++; /* we want the null-term here */ if ((err = dav_fs_save_locknull_list(p, dirpath, &buf)) != NULL) { return dav_push_error(p, HTTP_INTERNAL_SERVER_ERROR, 0, "Could not save .locknull file.", err); } return NULL; } /* ** dav_fs_remove_locknull_state: Given a request, check to see if r->filename ** is/was a lock-null resource. If so, return it to an existant state, i.e. ** remove it from the list in the appropriate .DAV/locknull file. */ static dav_error * dav_fs_remove_locknull_state( dav_lockdb *lockdb, const dav_resource *resource) { dav_buffer buf = { 0 }; dav_error *err; apr_pool_t *p = lockdb->info->pool; const char *pathname = dav_fs_pathname(resource); if ((err = dav_fs_remove_locknull_member(p, pathname, &buf)) != NULL) { /* ### add a higher-level description? */ return err; } return NULL; } static dav_error * dav_fs_create_lock(dav_lockdb *lockdb, const dav_resource *resource, dav_lock **lock) { apr_datum_t key; key = dav_fs_build_key(lockdb->info->pool, resource); *lock = dav_fs_alloc_lock(lockdb, key, NULL); (*lock)->is_locknull = !resource->exists; return NULL; } static dav_error * dav_fs_get_locks(dav_lockdb *lockdb, const dav_resource *resource, int calltype, dav_lock **locks) { apr_pool_t *p = lockdb->info->pool; apr_datum_t key; dav_error *err; dav_lock *lock = NULL; dav_lock *newlock; dav_lock_discovery *dp; dav_lock_indirect *ip; #if DAV_DEBUG if (calltype == DAV_GETLOCKS_COMPLETE) { return dav_new_error(lockdb->info->pool, HTTP_INTERNAL_SERVER_ERROR, 0, 0, "INTERNAL DESIGN ERROR: DAV_GETLOCKS_COMPLETE " "is not yet supported"); } #endif key = dav_fs_build_key(p, resource); if ((err = dav_fs_load_lock_record(lockdb, key, DAV_CREATE_LIST, &dp, &ip)) != NULL) { /* ### push a higher-level desc? */ return err; } /* copy all direct locks to the result list */ for (; dp != NULL; dp = dp->next) { newlock = dav_fs_alloc_lock(lockdb, key, dp->locktoken); newlock->is_locknull = !resource->exists; newlock->scope = dp->f.scope; newlock->type = dp->f.type; newlock->depth = dp->f.depth; newlock->timeout = dp->f.timeout; newlock->owner = dp->owner; newlock->auth_user = dp->auth_user; /* hook into the result list */ newlock->next = lock; lock = newlock; } /* copy all the indirect locks to the result list. resolve as needed. */ for (; ip != NULL; ip = ip->next) { newlock = dav_fs_alloc_lock(lockdb, ip->key, ip->locktoken); newlock->is_locknull = !resource->exists; if (calltype == DAV_GETLOCKS_RESOLVED) { if ((err = dav_fs_resolve(lockdb, ip, &dp, NULL, NULL)) != NULL) { /* ### push a higher-level desc? */ return err; } newlock->scope = dp->f.scope; newlock->type = dp->f.type; newlock->depth = dp->f.depth; newlock->timeout = dp->f.timeout; newlock->owner = dp->owner; newlock->auth_user = dp->auth_user; } else { /* DAV_GETLOCKS_PARTIAL */ newlock->rectype = DAV_LOCKREC_INDIRECT_PARTIAL; } /* hook into the result list */ newlock->next = lock; lock = newlock; } *locks = lock; return NULL; } static dav_error * dav_fs_find_lock(dav_lockdb *lockdb, const dav_resource *resource, const dav_locktoken *locktoken, int partial_ok, dav_lock **lock) { dav_error *err; apr_datum_t key; dav_lock_discovery *dp; dav_lock_indirect *ip; *lock = NULL; key = dav_fs_build_key(lockdb->info->pool, resource); if ((err = dav_fs_load_lock_record(lockdb, key, DAV_CREATE_LIST, &dp, &ip)) != NULL) { /* ### push a higher-level desc? */ return err; } for (; dp != NULL; dp = dp->next) { if (!dav_compare_locktoken(locktoken, dp->locktoken)) { *lock = dav_fs_alloc_lock(lockdb, key, locktoken); (*lock)->is_locknull = !resource->exists; (*lock)->scope = dp->f.scope; (*lock)->type = dp->f.type; (*lock)->depth = dp->f.depth; (*lock)->timeout = dp->f.timeout; (*lock)->owner = dp->owner; (*lock)->auth_user = dp->auth_user; return NULL; } } for (; ip != NULL; ip = ip->next) { if (!dav_compare_locktoken(locktoken, ip->locktoken)) { *lock = dav_fs_alloc_lock(lockdb, ip->key, locktoken); (*lock)->is_locknull = !resource->exists; /* ### nobody uses the resolving right now! */ if (partial_ok) { (*lock)->rectype = DAV_LOCKREC_INDIRECT_PARTIAL; } else { (*lock)->rectype = DAV_LOCKREC_INDIRECT; if ((err = dav_fs_resolve(lockdb, ip, &dp, NULL, NULL)) != NULL) { /* ### push a higher-level desc? */ return err; } (*lock)->scope = dp->f.scope; (*lock)->type = dp->f.type; (*lock)->depth = dp->f.depth; (*lock)->timeout = dp->f.timeout; (*lock)->owner = dp->owner; (*lock)->auth_user = dp->auth_user; } return NULL; } } return NULL; } static dav_error * dav_fs_has_locks(dav_lockdb *lockdb, const dav_resource *resource, int *locks_present) { dav_error *err; apr_datum_t key; *locks_present = 0; if ((err = dav_fs_really_open_lockdb(lockdb)) != NULL) { /* ### insert a higher-level error description */ return err; } /* ** If we opened readonly and the db wasn't there, then there are no ** locks for this resource. Just exit. */ if (lockdb->info->db == NULL) return NULL; key = dav_fs_build_key(lockdb->info->pool, resource); *locks_present = dav_dbm_exists(lockdb->info->db, key); return NULL; } static dav_error * dav_fs_append_locks(dav_lockdb *lockdb, const dav_resource *resource, int make_indirect, const dav_lock *lock) { apr_pool_t *p = lockdb->info->pool; dav_error *err; dav_lock_indirect *ip; dav_lock_discovery *dp; apr_datum_t key; key = dav_fs_build_key(lockdb->info->pool, resource); if ((err = dav_fs_load_lock_record(lockdb, key, 0, &dp, &ip)) != NULL) { /* ### maybe add in a higher-level description */ return err; } /* ** ### when we store the lock more directly, we need to update ** ### lock->rectype and lock->is_locknull */ if (make_indirect) { for (; lock != NULL; lock = lock->next) { /* ### this works for any rectype */ dav_lock_indirect *newi = apr_pcalloc(p, sizeof(*newi)); /* ### shut off the const warning for now */ newi->locktoken = (dav_locktoken *)lock->locktoken; newi->timeout = lock->timeout; newi->key = lock->info->key; newi->next = ip; ip = newi; } } else { for (; lock != NULL; lock = lock->next) { /* create and link in the right kind of lock */ if (lock->rectype == DAV_LOCKREC_DIRECT) { dav_lock_discovery *newd = apr_pcalloc(p, sizeof(*newd)); newd->f.scope = lock->scope; newd->f.type = lock->type; newd->f.depth = lock->depth; newd->f.timeout = lock->timeout; /* ### shut off the const warning for now */ newd->locktoken = (dav_locktoken *)lock->locktoken; newd->owner = lock->owner; newd->auth_user = lock->auth_user; newd->next = dp; dp = newd; } else { /* DAV_LOCKREC_INDIRECT(_PARTIAL) */ dav_lock_indirect *newi = apr_pcalloc(p, sizeof(*newi)); /* ### shut off the const warning for now */ newi->locktoken = (dav_locktoken *)lock->locktoken; newi->key = lock->info->key; newi->next = ip; ip = newi; } } } if ((err = dav_fs_save_lock_record(lockdb, key, dp, ip)) != NULL) { /* ### maybe add a higher-level description */ return err; } /* we have a special list for recording locknull resources */ /* ### ack! this can add two copies to the locknull list */ if (!resource->exists && (err = dav_fs_add_locknull_state(lockdb, resource)) != NULL) { /* ### maybe add a higher-level description */ return err; } return NULL; } static dav_error * dav_fs_remove_lock(dav_lockdb *lockdb, const dav_resource *resource, const dav_locktoken *locktoken) { dav_error *err; dav_buffer buf = { 0 }; dav_lock_discovery *dh = NULL; dav_lock_indirect *ih = NULL; apr_datum_t key; key = dav_fs_build_key(lockdb->info->pool, resource); if (locktoken != NULL) { dav_lock_discovery *dp; dav_lock_discovery *dprev = NULL; dav_lock_indirect *ip; dav_lock_indirect *iprev = NULL; if ((err = dav_fs_load_lock_record(lockdb, key, DAV_CREATE_LIST, &dh, &ih)) != NULL) { /* ### maybe add a higher-level description */ return err; } for (dp = dh; dp != NULL; dp = dp->next) { if (dav_compare_locktoken(locktoken, dp->locktoken) == 0) { if (dprev) dprev->next = dp->next; else dh = dh->next; } dprev = dp; } for (ip = ih; ip != NULL; ip = ip->next) { if (dav_compare_locktoken(locktoken, ip->locktoken) == 0) { if (iprev) iprev->next = ip->next; else ih = ih->next; } iprev = ip; } } /* save the modified locks, or remove all locks (dh=ih=NULL). */ if ((err = dav_fs_save_lock_record(lockdb, key, dh, ih)) != NULL) { /* ### maybe add a higher-level description */ return err; } /* ** If this resource is a locknull resource AND no more locks exist, ** then remove the locknull member. ** ** Note: remove_locknull_state() attempts to convert a locknull member ** to a real member. In this case, all locks are gone, so the ** locknull resource returns to the null state (ie. doesn't exist), ** so there is no need to update the lockdb (and it won't find ** any because a precondition is that none exist). */ if (!resource->exists && dh == NULL && ih == NULL && (err = dav_fs_remove_locknull_member(lockdb->info->pool, dav_fs_pathname(resource), &buf)) != NULL) { /* ### maybe add a higher-level description */ return err; } return NULL; } static int dav_fs_do_refresh(dav_lock_discovery *dp, const dav_locktoken_list *ltl, time_t new_time) { int dirty = 0; for (; ltl != NULL; ltl = ltl->next) { if (dav_compare_locktoken(dp->locktoken, ltl->locktoken) == 0) { dp->f.timeout = new_time; dirty = 1; break; } } return dirty; } static dav_error * dav_fs_refresh_locks(dav_lockdb *lockdb, const dav_resource *resource, const dav_locktoken_list *ltl, time_t new_time, dav_lock **locks) { dav_error *err; apr_datum_t key; dav_lock_discovery *dp; dav_lock_discovery *dp_scan; dav_lock_indirect *ip; int dirty = 0; dav_lock *newlock; *locks = NULL; key = dav_fs_build_key(lockdb->info->pool, resource); if ((err = dav_fs_load_lock_record(lockdb, key, DAV_CREATE_LIST, &dp, &ip)) != NULL) { /* ### maybe add in a higher-level description */ return err; } /* ### we should be refreshing direct AND (resolved) indirect locks! */ /* refresh all of the direct locks on this resource */ for (dp_scan = dp; dp_scan != NULL; dp_scan = dp_scan->next) { if (dav_fs_do_refresh(dp_scan, ltl, new_time)) { /* the lock was refreshed. return the lock. */ newlock = dav_fs_alloc_lock(lockdb, key, dp_scan->locktoken); newlock->is_locknull = !resource->exists; newlock->scope = dp_scan->f.scope; newlock->type = dp_scan->f.type; newlock->depth = dp_scan->f.depth; newlock->timeout = dp_scan->f.timeout; newlock->owner = dp_scan->owner; newlock->auth_user = dp_scan->auth_user; newlock->next = *locks; *locks = newlock; dirty = 1; } } /* if we refreshed any locks, then save them back. */ if (dirty && (err = dav_fs_save_lock_record(lockdb, key, dp, ip)) != NULL) { /* ### maybe add in a higher-level description */ return err; } /* for each indirect lock, find its direct lock and refresh it. */ for (; ip != NULL; ip = ip->next) { dav_lock_discovery *ref_dp; dav_lock_indirect *ref_ip; if ((err = dav_fs_resolve(lockdb, ip, &dp_scan, &ref_dp, &ref_ip)) != NULL) { /* ### push a higher-level desc? */ return err; } if (dav_fs_do_refresh(dp_scan, ltl, new_time)) { /* the lock was refreshed. return the lock. */ newlock = dav_fs_alloc_lock(lockdb, ip->key, dp_scan->locktoken); newlock->is_locknull = !resource->exists; newlock->scope = dp_scan->f.scope; newlock->type = dp_scan->f.type; newlock->depth = dp_scan->f.depth; newlock->timeout = dp_scan->f.timeout; newlock->owner = dp_scan->owner; newlock->auth_user = dp_scan->auth_user; newlock->next = *locks; *locks = newlock; /* save the (resolved) direct lock back */ if ((err = dav_fs_save_lock_record(lockdb, ip->key, ref_dp, ref_ip)) != NULL) { /* ### push a higher-level desc? */ return err; } } } return NULL; } const dav_hooks_locks dav_hooks_locks_fs = { dav_fs_get_supportedlock, dav_fs_parse_locktoken, dav_fs_format_locktoken, dav_fs_compare_locktoken, dav_fs_open_lockdb, dav_fs_close_lockdb, dav_fs_remove_locknull_state, dav_fs_create_lock, dav_fs_get_locks, dav_fs_find_lock, dav_fs_has_locks, dav_fs_append_locks, dav_fs_remove_lock, dav_fs_refresh_locks, NULL, /* lookup_resource */ NULL /* ctx */ };