. /** * @package moodlecore * @subpackage backup-plan * @copyright 2010 onwards Eloy Lafuente (stronk7) {@link http://stronk7.com} * @license http://www.gnu.org/copyleft/gpl.html GNU GPL v3 or later */ /** * Abstract class defining the needed stuff to restore one xml file * * TODO: Finish phpdocs */ abstract class restore_structure_step extends restore_step { protected $filename; // Name of the file to be parsed protected $contentprocessor; // xml parser processor being used // (need it here, apart from parser // thanks to serialized data to process - // say thanks to blocks!) protected $pathelements; // Array of pathelements to process protected $elementsoldid; // Array to store last oldid used on each element protected $elementsnewid; // Array to store last newid used on each element protected $pathlock; // Path currently locking processing of children const SKIP_ALL_CHILDREN = -991399; // To instruct the dispatcher about to ignore // all children below path processor returning it /** * Constructor - instantiates one object of this class */ public function __construct($name, $filename, $task = null) { if (!is_null($task) && !($task instanceof restore_task)) { throw new restore_step_exception('wrong_restore_task_specified'); } $this->filename = $filename; $this->contentprocessor = null; $this->pathelements = array(); $this->elementsoldid = array(); $this->elementsnewid = array(); $this->pathlock = null; parent::__construct($name, $task); } final public function execute() { if (!$this->execute_condition()) { // Check any condition to execute this return; } $fullpath = $this->task->get_taskbasepath(); // We MUST have one fullpath here, else, error if (empty($fullpath)) { throw new restore_step_exception('restore_structure_step_undefined_fullpath'); } // Append the filename to the fullpath $fullpath = rtrim($fullpath, '/') . '/' . $this->filename; // And it MUST exist if (!file_exists($fullpath)) { // Shouldn't happen ever, but... throw new restore_step_exception('missing_moodle_backup_xml_file', $fullpath); } // Get restore_path elements array adapting and preparing it for processing $structure = $this->define_structure(); if (!is_array($structure)) { throw new restore_step_exception('restore_step_structure_not_array', $this->get_name()); } $this->prepare_pathelements($structure); // Create parser and processor $xmlparser = new progressive_parser(); $xmlparser->set_file($fullpath); $xmlprocessor = new restore_structure_parser_processor($this->task->get_courseid(), $this); $this->contentprocessor = $xmlprocessor; // Save the reference to the contentprocessor // as far as we are going to need it out // from parser (blame serialized data!) $xmlparser->set_processor($xmlprocessor); // Add pathelements to processor foreach ($this->pathelements as $element) { $xmlprocessor->add_path($element->get_path(), $element->is_grouped()); } // And process it, dispatch to target methods in step will start automatically $xmlparser->process(); // Have finished, launch the after_execute method of all the processing objects $this->launch_after_execute_methods(); } /** * Receive one chunk of information form the xml parser processor and * dispatch it, following the naming rules */ final public function process($data) { if (!array_key_exists($data['path'], $this->pathelements)) { // Incorrect path, must not happen throw new restore_step_exception('restore_structure_step_missing_path', $data['path']); } $element = $this->pathelements[$data['path']]; $object = $element->get_processing_object(); $method = $element->get_processing_method(); $rdata = null; if (empty($object)) { // No processing object defined throw new restore_step_exception('restore_structure_step_missing_pobject', $object); } // Release the lock if we aren't anymore within children of it if (!is_null($this->pathlock) and strpos($data['path'], $this->pathlock) === false) { $this->pathlock = null; } if (is_null($this->pathlock)) { // Only dispatch if there isn't any lock $rdata = $object->$method($data['tags']); // Dispatch to proper object/method } // If the dispatched method returns SKIP_ALL_CHILDREN, we grab current path in order to // lock dispatching to any children if ($rdata === self::SKIP_ALL_CHILDREN) { // Check we haven't any previous lock if (!is_null($this->pathlock)) { throw new restore_step_exception('restore_structure_step_already_skipping', $data['path']); } // Set the lock $this->pathlock = $data['path'] . '/'; // Lock everything below current path // Continue with normal processing of return values } else if ($rdata !== null) { // If the method has returned any info, set element data to it $element->set_data($rdata); } else { // Else, put the original parsed data $element->set_data($data); } } /** * To send ids pairs to backup_ids_table and to store them into paths * * This method will send the given itemname and old/new ids to the * backup_ids_temp table, and, at the same time, will save the new id * into the corresponding restore_path_element for easier access * by children. Also will inject the known old context id for the task * in case it's going to be used for restoring files later */ public function set_mapping($itemname, $oldid, $newid, $restorefiles = false, $filesctxid = null, $parentid = null) { if ($restorefiles && $parentid) { throw new restore_step_exception('set_mapping_cannot_specify_both_restorefiles_and_parentitemid'); } // If we haven't specified one context for the files, use the task one if (is_null($filesctxid)) { $parentitemid = $restorefiles ? $this->task->get_old_contextid() : null; } else { // Use the specified one $parentitemid = $restorefiles ? $filesctxid : null; } // We have passed one explicit parentid, apply it $parentitemid = !is_null($parentid) ? $parentid : $parentitemid; // Let's call the low level one restore_dbops::set_backup_ids_record($this->get_restoreid(), $itemname, $oldid, $newid, $parentitemid); // Now, if the itemname matches any pathelement->name, store the latest $newid if (array_key_exists($itemname, $this->elementsoldid)) { // If present in $this->elementsoldid, is valid, put both ids $this->elementsoldid[$itemname] = $oldid; $this->elementsnewid[$itemname] = $newid; } } /** * Returns the latest (parent) old id mapped by one pathelement */ public function get_old_parentid($itemname) { return array_key_exists($itemname, $this->elementsoldid) ? $this->elementsoldid[$itemname] : null; } /** * Returns the latest (parent) new id mapped by one pathelement */ public function get_new_parentid($itemname) { return array_key_exists($itemname, $this->elementsnewid) ? $this->elementsnewid[$itemname] : null; } /** * Return the new id of a mapping for the given itemname * * @param string $itemname the type of item * @param int $oldid the item ID from the backup * @param mixed $ifnotfound what to return if $oldid wasnt found. Defaults to false */ public function get_mappingid($itemname, $oldid, $ifnotfound = false) { $mapping = $this->get_mapping($itemname, $oldid); return $mapping ? $mapping->newitemid : $ifnotfound; } /** * Return the complete mapping from the given itemname, itemid */ public function get_mapping($itemname, $oldid) { return restore_dbops::get_backup_ids_record($this->get_restoreid(), $itemname, $oldid); } /** * Add all the existing file, given their component and filearea and one backup_ids itemname to match with */ public function add_related_files($component, $filearea, $mappingitemname, $filesctxid = null, $olditemid = null) { $filesctxid = is_null($filesctxid) ? $this->task->get_old_contextid() : $filesctxid; $results = restore_dbops::send_files_to_pool($this->get_basepath(), $this->get_restoreid(), $component, $filearea, $filesctxid, $this->task->get_userid(), $mappingitemname, $olditemid); $resultstoadd = array(); foreach ($results as $result) { $this->log($result->message, $result->level); $resultstoadd[$result->code] = true; } $this->task->add_result($resultstoadd); } /** * Apply course startdate offset based in original course startdate and course_offset_startdate setting * Note we are using one static cache here, but *by restoreid*, so it's ok for concurrence/multiple * executions in the same request */ public function apply_date_offset($value) { // empties don't offset - zeros (int and string), false and nulls return original value if (empty($value)) { return $value; } static $cache = array(); // Lookup cache if (isset($cache[$this->get_restoreid()])) { return $value + $cache[$this->get_restoreid()]; } // No cache, let's calculate the offset $original = $this->task->get_info()->original_course_startdate; $setting = 0; if ($this->setting_exists('course_startdate')) { // Seting may not exist (MDL-25019) $setting = $this->get_setting_value('course_startdate'); } // Original course has not startdate or setting doesn't exist, offset = 0 if (empty($original) || empty($setting)) { $cache[$this->get_restoreid()] = 0; // Less than 24h of difference, offset = 0 (this avoids some problems with timezones) } else if (abs($setting - $original) < 24 * 60 * 60) { $cache[$this->get_restoreid()] = 0; // Re-enforce 'moodle/restore:rolldates' capability for the user in the course, just in case } else if (!has_capability('moodle/restore:rolldates', get_context_instance(CONTEXT_COURSE, $this->get_courseid()), $this->task->get_userid())) { $cache[$this->get_restoreid()] = 0; // Arrived here, let's calculate the real offset } else { $cache[$this->get_restoreid()] = $setting - $original; } // Return the passed value with cached offset applied return $value + $cache[$this->get_restoreid()]; } /** * As far as restore structure steps are implementing restore_plugin stuff, they need to * have the parent task available for wrapping purposes (get course/context....) */ public function get_task() { return $this->task; } // Protected API starts here /** * Add plugin structure to any element in the structure restore tree * * @param string $plugintype type of plugin as defined by get_plugin_types() * @param restore_path_element $element element in the structure restore tree that * we are going to add plugin information to */ protected function add_plugin_structure($plugintype, $element) { global $CFG; // Check the requested plugintype is a valid one if (!array_key_exists($plugintype, get_plugin_types($plugintype))) { throw new restore_step_exception('incorrect_plugin_type', $plugintype); } // Get all the restore path elements, looking across all the plugin dirs $pluginsdirs = get_plugin_list($plugintype); foreach ($pluginsdirs as $name => $pluginsdir) { // We need to add also backup plugin classes on restore, they may contain // some stuff used both in backup & restore $backupclassname = 'backup_' . $plugintype . '_' . $name . '_plugin'; $backupfile = $pluginsdir . '/backup/moodle2/' . $backupclassname . '.class.php'; if (file_exists($backupfile)) { require_once($backupfile); } // Now add restore plugin classes and prepare stuff $restoreclassname = 'restore_' . $plugintype . '_' . $name . '_plugin'; $restorefile = $pluginsdir . '/backup/moodle2/' . $restoreclassname . '.class.php'; if (file_exists($restorefile)) { require_once($restorefile); $restoreplugin = new $restoreclassname($plugintype, $name, $this); // Add plugin paths to the step $this->prepare_pathelements($restoreplugin->define_plugin_structure($element)); } } } /** * Launch all the after_execute methods present in all the processing objects * * This method will launch all the after_execute methods that can be defined * both in restore_plugin and restore_structure_step classes * * For restore_plugin classes the name of the method to be executed will be * "after_execute_" + connection point (as far as can be multiple connection * points in the same class) * * For restore_structure_step classes is will be, simply, "after_execute". Note * that this is executed *after* the plugin ones */ protected function launch_after_execute_methods() { $alreadylaunched = array(); // To avoid multiple executions foreach ($this->pathelements as $key => $pathelement) { // Get the processing object $pobject = $pathelement->get_processing_object(); // Skip null processors (child of grouped ones for sure) if (is_null($pobject)) { continue; } // Skip restore structure step processors (this) if ($pobject instanceof restore_structure_step) { continue; } // Skip already launched processing objects if (in_array($pobject, $alreadylaunched, true)) { continue; } // Add processing object to array of launched ones $alreadylaunched[] = $pobject; // If the processing object has support for // launching after_execute methods, use it if (method_exists($pobject, 'launch_after_execute_methods')) { $pobject->launch_after_execute_methods(); } } // Finally execute own (restore_structure_step) after_execute method $this->after_execute(); } /** * Launch all the after_restore methods present in all the processing objects * * This method will launch all the after_restore methods that can be defined * both in restore_plugin class * * For restore_plugin classes the name of the method to be executed will be * "after_restore_" + connection point (as far as can be multiple connection * points in the same class) */ public function launch_after_restore_methods() { $alreadylaunched = array(); // To avoid multiple executions foreach ($this->pathelements as $pathelement) { // Get the processing object $pobject = $pathelement->get_processing_object(); // Skip null processors (child of grouped ones for sure) if (is_null($pobject)) { continue; } // Skip restore structure step processors (this) if ($pobject instanceof restore_structure_step) { continue; } // Skip already launched processing objects if (in_array($pobject, $alreadylaunched, true)) { continue; } // Add processing object to array of launched ones $alreadylaunched[] = $pobject; // If the processing object has support for // launching after_restore methods, use it if (method_exists($pobject, 'launch_after_restore_methods')) { $pobject->launch_after_restore_methods(); } } } /** * This method will be executed after the whole structure step have been processed * * After execution method for code needed to be executed after the whole structure * has been processed. Useful for cleaning tasks, files process and others. Simply * overwrite in in your steps if needed */ protected function after_execute() { // do nothing by default } /** * Prepare the pathelements for processing, looking for duplicates, applying * processing objects and other adjustments */ protected function prepare_pathelements($elementsarr) { // First iteration, push them to new array, indexed by name // detecting duplicates in names or paths $names = array(); $paths = array(); foreach($elementsarr as $element) { if (!$element instanceof restore_path_element) { throw new restore_step_exception('restore_path_element_wrong_class', get_class($element)); } if (array_key_exists($element->get_name(), $names)) { throw new restore_step_exception('restore_path_element_name_alreadyexists', $element->get_name()); } if (array_key_exists($element->get_path(), $paths)) { throw new restore_step_exception('restore_path_element_path_alreadyexists', $element->get_path()); } $names[$element->get_name()] = true; $paths[$element->get_path()] = $element; } // Now, for each element not having one processing object, if // not child of grouped element, assign $this (the step itself) as processing element // Note method must exist or we'll get one @restore_path_element_exception foreach($paths as $key => $pelement) { if ($pelement->get_processing_object() === null && !$this->grouped_parent_exists($pelement, $paths)) { $paths[$key]->set_processing_object($this); } // Populate $elementsoldid and $elementsoldid based on available pathelements $this->elementsoldid[$pelement->get_name()] = null; $this->elementsnewid[$pelement->get_name()] = null; } // Done, add them to pathelements (dupes by key - path - are discarded) $this->pathelements = array_merge($this->pathelements, $paths); } /** * Given one pathelement, return true if grouped parent was found */ protected function grouped_parent_exists($pelement, $elements) { foreach ($elements as $element) { if ($pelement->get_path() == $element->get_path()) { continue; // Don't compare against itself } // If element is grouped and parent of pelement, return true if ($element->is_grouped() and strpos($pelement->get_path() . '/', $element->get_path()) === 0) { return true; } } return false; // no grouped parent found } /** * To conditionally decide if one step will be executed or no * * For steps needing to be executed conditionally, based in dynamic * conditions (at execution time vs at declaration time) you must * override this function. It will return true if the step must be * executed and false if not */ protected function execute_condition() { return true; } /** * Function that will return the structure to be processed by this restore_step. * Must return one array of @restore_path_element elements */ abstract protected function define_structure(); }