TRUE); /** * Return data from the persistent cache. Data may be stored as either plain text or as serialized data. * cache_get will automatically return unserialized objects and arrays. * * @param $cid * The cache ID of the data to retrieve. * @param $table * The table $table to store the data in. Valid core values are 'cache_filter', * 'cache_menu', 'cache_page', or 'cache' for the default cache. */ function cache_get($cid, $table = 'cache') { global $cache, $user; if (!isset($cache)) { $cache = new CacheRouter(); } $cache_object = $cache->get($cid, $table); if ($cache_object && isset($user->cache) && $user->cache > $cache_object->created) { return 0; } return $cache_object; } /** * Store data in the persistent cache. * * The persistent cache is split up into four database * tables. Contributed modules can add additional tables. * * 'cache_page': This table stores generated pages for anonymous * users. This is the only table affected by the page cache setting on * the administrator panel. * * 'cache_menu': Stores the cachable part of the users' menus. * * 'cache_filter': Stores filtered pieces of content. This table is * periodically cleared of stale entries by cron. * * 'cache': Generic cache storage table. * * The reasons for having several tables are as follows: * * - smaller tables allow for faster selects and inserts * - we try to put fast changing cache items and rather static * ones into different tables. The effect is that only the fast * changing tables will need a lot of writes to disk. The more * static tables will also be better cachable with MySQL's query cache * * @param $cid * The cache ID of the data to store. * @param $data * The data to store in the cache. Complex data types will be automatically serialized before insertion. * Strings will be stored as plain text and not serialized. * @param $table * The table $table to store the data in. Valid core values are 'cache_filter', * 'cache_menu', 'cache_page', or 'cache'. * @param $expire * One of the following values: * - CACHE_PERMANENT: Indicates that the item should never be removed unless * explicitly told to using cache_clear_all() with a cache ID. * - CACHE_TEMPORARY: Indicates that the item should be removed at the next * general cache wipe. * - A Unix timestamp: Indicates that the item should be kept at least until * the given time, after which it behaves like CACHE_TEMPORARY. * @param $headers * A string containing HTTP header information for cached pages. */ function cache_set($cid, $value, $table = 'cache', $expire = CACHE_PERMANENT, $headers = NULL) { global $cache; if (!isset($cache)) { $cache = new CacheRouter(); } return $cache->set($cid, $value, $expire, $headers, $table); } /** * * Expire data from the cache. If called without arguments, expirable * entries will be cleared from the cache_page and cache_block tables. * * @param $cid * If set, the cache ID to delete. Otherwise, all cache entries that can * expire are deleted. * * @param $table * If set, the table $table to delete from. Mandatory * argument if $cid is set. * * @param $wildcard * If set to TRUE, the $cid is treated as a substring * to match rather than a complete ID. The match is a right hand * match. If '*' is given as $cid, the table $table will be emptied. */ function cache_clear_all($cid = NULL, $table = NULL, $wildcard = FALSE) { global $cache; global $user; if (!isset($cache)) { $cache = new CacheRouter(); } if (!isset($cid) && !isset($table)) { // Clear the block cache first, so stale data will // not end up in the page cache. $cache->flush('cache_block'); $cache->flush('cache_page'); return; } if (empty($cid)) { if (variable_get('cache_lifetime', 0)) { // We store the time in the current user's $user->cache variable which // will be saved into the sessions table by sess_write(). We then // simulate that the cache was flushed for this user by not returning // cached data that was cached before the timestamp. $user->cache = time(); $cache_flush = variable_get('cache_flush', 0); if ($cache_flush == 0) { // This is the first request to clear the cache, start a timer. variable_set('cache_flush', time()); } else if (time() > ($cache_flush + variable_get('cache_lifetime', 0))) { // Clear the cache for everyone, cache_flush_delay seconds have // passed since the first request to clear the cache. $cache->flush($table); variable_set('cache_flush', 0); } } else { // No minimum cache lifetime, flush all temporary cache entries now. $cache->flush($table); } } else { if ($wildcard) { if ($cid == '*') { $cache->delete('*', $table); } else { $cache->delete($cid . '*', $table); } } else { $cache->delete($cid, $table); } } } /** * Main callback from DRUPAL_BOOTSTRAP_EARLY_PAGE_CACHE phase */ function page_cache_fastpath() { global $base_root; global $cache; if (empty($_POST) && !isset($_COOKIE['cacherouter'])) { if (!isset($cache)) { $cache = new CacheRouter(); } if ($cache->page_fast_cache('cache_page')) { $page = $cache->get($base_root . request_uri(), 'cache_page'); if (!empty($page)) { drupal_page_header(); //checking if first chars are compressed (always the same pattern for every header) if (substr($page->data, 0,3) == "\x1f\x8b\x08") { // Determine if the browser accepts gzipped data. if (@strpos($_SERVER['HTTP_ACCEPT_ENCODING'], 'gzip') === FALSE && function_exists('gzencode')) { // Strip the gzip header and run uncompress. $page->data = gzinflate(substr(substr($page->data, 10), 0, -8)); } elseif (function_exists('gzencode')) { //send gzip header to the browser header('Content-Encoding: gzip'); } } print $page->data; return TRUE; } } } return FALSE; }