'primary', 'MUL' => 'index', 'UNI' => 'unique'); /** * Database keyword used to assign aliases to identifiers. * * @var string */ public $alias = 'AS '; /** * Caches result from query parsing operations. Cached results for both DboSource::name() and DboSource::fields() * will be stored here. * * Method caching uses `md5` (by default) to construct cache keys. If you have problems with collisions, * try a different hashing algorithm by overriding DboSource::cacheMethodHasher or set DboSource::$cacheMethods to false. * * @var array */ public static $methodCache = array(); /** * Whether or not to cache the results of DboSource::name() and DboSource::fields() into the memory cache. * Set to false to disable the use of the memory cache. * * @var bool */ public $cacheMethods = true; /** * Flag to support nested transactions. If it is set to false, you will be able to use * the transaction methods (begin/commit/rollback), but just the global transaction will * be executed. * * @var bool */ public $useNestedTransactions = false; /** * Print full query debug info? * * @var bool */ public $fullDebug = false; /** * String to hold how many rows were affected by the last SQL operation. * * @var string */ public $affected = null; /** * Number of rows in current resultset * * @var int */ public $numRows = null; /** * Time the last query took * * @var int */ public $took = null; /** * Result * * @var array|PDOStatement */ protected $_result = null; /** * Queries count. * * @var int */ protected $_queriesCnt = 0; /** * Total duration of all queries. * * @var int */ protected $_queriesTime = null; /** * Log of queries executed by this DataSource * * @var array */ protected $_queriesLog = array(); /** * Maximum number of items in query log * * This is to prevent query log taking over too much memory. * * @var int */ protected $_queriesLogMax = 200; /** * Caches serialized results of executed queries * * @var array */ protected $_queryCache = array(); /** * A reference to the physical connection of this DataSource * * @var array */ protected $_connection = null; /** * The DataSource configuration key name * * @var string */ public $configKeyName = null; /** * The starting character that this DataSource uses for quoted identifiers. * * @var string */ public $startQuote = null; /** * The ending character that this DataSource uses for quoted identifiers. * * @var string */ public $endQuote = null; /** * The set of valid SQL operations usable in a WHERE statement * * @var array */ protected $_sqlOps = array('like', 'ilike', 'rlike', 'or', 'not', 'in', 'between', 'regexp', 'similar to'); /** * The set of valid SQL boolean operations usable in a WHERE statement * * @var array */ protected $_sqlBoolOps = array('and', 'or', 'not', 'and not', 'or not', 'xor', '||', '&&'); /** * Indicates the level of nested transactions * * @var int */ protected $_transactionNesting = 0; /** * Default fields that are used by the DBO * * @var array */ protected $_queryDefaults = array( 'conditions' => array(), 'fields' => null, 'table' => null, 'alias' => null, 'order' => null, 'limit' => null, 'joins' => array(), 'group' => null, 'offset' => null, 'having' => null, 'lock' => null, ); /** * Separator string for virtualField composition * * @var string */ public $virtualFieldSeparator = '__'; /** * List of table engine specific parameters used on table creating * * @var array */ public $tableParameters = array(); /** * List of engine specific additional field parameters used on table creating * * @var array */ public $fieldParameters = array(); /** * Indicates whether there was a change on the cached results on the methods of this class * This will be used for storing in a more persistent cache * * @var bool */ protected $_methodCacheChange = false; /** * Map of the columns contained in a result. * * @var array */ public $map = array(); /** * Constructor * * @param array $config Array of configuration information for the Datasource. * @param bool $autoConnect Whether or not the datasource should automatically connect. * @throws MissingConnectionException when a connection cannot be made. */ public function __construct($config = null, $autoConnect = true) { if (!isset($config['prefix'])) { $config['prefix'] = ''; } parent::__construct($config); $this->fullDebug = Configure::read('debug') > 1; if (!$this->enabled()) { throw new MissingConnectionException(array( 'class' => get_class($this), 'message' => __d('cake_dev', 'Selected driver is not enabled'), 'enabled' => false )); } if ($autoConnect) { $this->connect(); } } /** * Connects to the database. * * @return bool */ public function connect() { // This method is implemented in subclasses return $this->connected; } /** * Reconnects to database server with optional new settings * * @param array $config An array defining the new configuration settings * @return bool True on success, false on failure */ public function reconnect($config = array()) { $this->disconnect(); $this->setConfig($config); $this->_sources = null; return $this->connect(); } /** * Disconnects from database. * * @return bool Always true */ public function disconnect() { if ($this->_result instanceof PDOStatement) { $this->_result->closeCursor(); } $this->_connection = null; $this->connected = false; return true; } /** * Get the underlying connection object. * * @return PDO */ public function getConnection() { return $this->_connection; } /** * Gets the version string of the database server * * @return string The database version */ public function getVersion() { return $this->_connection->getAttribute(PDO::ATTR_SERVER_VERSION); } /** * Returns a quoted and escaped string of $data for use in an SQL statement. * * @param string $data String to be prepared for use in an SQL statement * @param string $column The column datatype into which this data will be inserted. * @param bool $null Column allows NULL values * @return string Quoted and escaped data */ public function value($data, $column = null, $null = true) { if (is_array($data) && !empty($data)) { return array_map( array(&$this, 'value'), $data, array_fill(0, count($data), $column) ); } elseif (is_object($data) && isset($data->type, $data->value)) { if ($data->type === 'identifier') { return $this->name($data->value); } elseif ($data->type === 'expression') { return $data->value; } } elseif (in_array($data, array('{$__cakeID__$}', '{$__cakeForeignKey__$}'), true)) { return $data; } if ($data === null || (is_array($data) && empty($data))) { return 'NULL'; } if (empty($column)) { $column = $this->introspectType($data); } switch ($column) { case 'binary': return $this->_connection->quote($data, PDO::PARAM_LOB); case 'boolean': return $this->_connection->quote($this->boolean($data, true), PDO::PARAM_BOOL); case 'string': case 'text': return $this->_connection->quote($data, PDO::PARAM_STR); default: if ($data === '') { return $null ? 'NULL' : '""'; } if (is_float($data)) { return str_replace(',', '.', strval($data)); } if ((is_int($data) || $data === '0') || ( is_numeric($data) && strpos($data, ',') === false && $data[0] != '0' && strpos($data, 'e') === false) ) { return $data; } return $this->_connection->quote($data); } } /** * Returns an object to represent a database identifier in a query. Expression objects * are not sanitized or escaped. * * @param string $identifier A SQL expression to be used as an identifier * @return stdClass An object representing a database identifier to be used in a query */ public function identifier($identifier) { $obj = new stdClass(); $obj->type = 'identifier'; $obj->value = $identifier; return $obj; } /** * Returns an object to represent a database expression in a query. Expression objects * are not sanitized or escaped. * * @param string $expression An arbitrary SQL expression to be inserted into a query. * @return stdClass An object representing a database expression to be used in a query */ public function expression($expression) { $obj = new stdClass(); $obj->type = 'expression'; $obj->value = $expression; return $obj; } /** * Executes given SQL statement. * * @param string $sql SQL statement * @param array $params Additional options for the query. * @return mixed Resource or object representing the result set, or false on failure */ public function rawQuery($sql, $params = array()) { $this->took = $this->numRows = false; return $this->execute($sql, array(), $params); } /** * Queries the database with given SQL statement, and obtains some metadata about the result * (rows affected, timing, any errors, number of rows in resultset). The query is also logged. * If Configure::read('debug') is set, the log is shown all the time, else it is only shown on errors. * * ### Options * * - log - Whether or not the query should be logged to the memory log. * * @param string $sql SQL statement * @param array $options The options for executing the query. * @param array $params values to be bound to the query. * @return mixed Resource or object representing the result set, or false on failure */ public function execute($sql, $options = array(), $params = array()) { $options += array('log' => $this->fullDebug); $t = microtime(true); $this->_result = $this->_execute($sql, $params); if ($options['log']) { $this->took = round((microtime(true) - $t) * 1000, 0); $this->numRows = $this->affected = $this->lastAffected(); $this->logQuery($sql, $params); } return $this->_result; } /** * Executes given SQL statement. * * @param string $sql SQL statement * @param array $params list of params to be bound to query * @param array $prepareOptions Options to be used in the prepare statement * @return mixed PDOStatement if query executes with no problem, true as the result of a successful, false on error * query returning no rows, such as a CREATE statement, false otherwise * @throws PDOException */ protected function _execute($sql, $params = array(), $prepareOptions = array()) { $sql = trim($sql); if (preg_match('/^(?:CREATE|ALTER|DROP)\s+(?:TABLE|INDEX)/i', $sql)) { $statements = array_filter(explode(';', $sql)); if (count($statements) > 1) { $result = array_map(array($this, '_execute'), $statements); return array_search(false, $result) === false; } } try { $query = $this->_connection->prepare($sql, $prepareOptions); $query->setFetchMode(PDO::FETCH_LAZY); if (!$query->execute($params)) { $this->_result = $query; $query->closeCursor(); return false; } if (!$query->columnCount()) { $query->closeCursor(); if (!$query->rowCount()) { return true; } } return $query; } catch (PDOException $e) { if (isset($query->queryString)) { $e->queryString = $query->queryString; } else { $e->queryString = $sql; } throw $e; } } /** * Returns a formatted error message from previous database operation. * * @param PDOStatement $query the query to extract the error from if any * @return string Error message with error number */ public function lastError(PDOStatement $query = null) { if ($query) { $error = $query->errorInfo(); } else { $error = $this->_connection->errorInfo(); } if (empty($error[2])) { return null; } return $error[1] . ': ' . $error[2]; } /** * Returns number of affected rows in previous database operation. If no previous operation exists, * this returns false. * * @param mixed $source The source to check. * @return int Number of affected rows */ public function lastAffected($source = null) { if ($this->hasResult()) { return $this->_result->rowCount(); } return 0; } /** * Returns number of rows in previous resultset. If no previous resultset exists, * this returns false. * * @param mixed $source Not used * @return int Number of rows in resultset */ public function lastNumRows($source = null) { return $this->lastAffected(); } /** * DataSource Query abstraction * * @return resource Result resource identifier. */ public function query() { $args = func_get_args(); $fields = null; $order = null; $limit = null; $page = null; $recursive = null; if (count($args) === 1) { return $this->fetchAll($args[0]); } elseif (count($args) > 1 && preg_match('/^find(\w*)By(.+)/', $args[0], $matches)) { $params = $args[1]; $findType = lcfirst($matches[1]); $field = Inflector::underscore($matches[2]); $or = (strpos($field, '_or_') !== false); if ($or) { $field = explode('_or_', $field); } else { $field = explode('_and_', $field); } $off = count($field) - 1; if (isset($params[1 + $off])) { $fields = $params[1 + $off]; } if (isset($params[2 + $off])) { $order = $params[2 + $off]; } if (!array_key_exists(0, $params)) { return false; } $c = 0; $conditions = array(); foreach ($field as $f) { $conditions[$args[2]->alias . '.' . $f] = $params[$c++]; } if ($or) { $conditions = array('OR' => $conditions); } if ($findType !== 'first' && $findType !== '') { if (isset($params[3 + $off])) { $limit = $params[3 + $off]; } if (isset($params[4 + $off])) { $page = $params[4 + $off]; } if (isset($params[5 + $off])) { $recursive = $params[5 + $off]; } return $args[2]->find($findType, compact('conditions', 'fields', 'order', 'limit', 'page', 'recursive')); } if (isset($params[3 + $off])) { $recursive = $params[3 + $off]; } return $args[2]->find('first', compact('conditions', 'fields', 'order', 'recursive')); } if (isset($args[1]) && $args[1] === true) { return $this->fetchAll($args[0], true); } elseif (isset($args[1]) && !is_array($args[1])) { return $this->fetchAll($args[0], false); } elseif (isset($args[1]) && is_array($args[1])) { if (isset($args[2])) { $cache = $args[2]; } else { $cache = true; } return $this->fetchAll($args[0], $args[1], array('cache' => $cache)); } } /** * Builds a map of the columns contained in a result * * @param PDOStatement $results The results to format. * @return void */ public function resultSet($results) { // This method is implemented in subclasses } /** * Returns a row from current resultset as an array * * @param string $sql Some SQL to be executed. * @return array The fetched row as an array */ public function fetchRow($sql = null) { if (is_string($sql) && strlen($sql) > 5 && !$this->execute($sql)) { return null; } if ($this->hasResult()) { $this->resultSet($this->_result); $resultRow = $this->fetchResult(); if (isset($resultRow[0])) { $this->fetchVirtualField($resultRow); } return $resultRow; } return null; } /** * Returns an array of all result rows for a given SQL query. * * Returns false if no rows matched. * * ### Options * * - `cache` - Returns the cached version of the query, if exists and stores the result in cache. * This is a non-persistent cache, and only lasts for a single request. This option * defaults to true. If you are directly calling this method, you can disable caching * by setting $options to `false` * * @param string $sql SQL statement * @param array|bool $params Either parameters to be bound as values for the SQL statement, * or a boolean to control query caching. * @param array $options additional options for the query. * @return bool|array Array of resultset rows, or false if no rows matched */ public function fetchAll($sql, $params = array(), $options = array()) { if (is_string($options)) { $options = array('modelName' => $options); } if (is_bool($params)) { $options['cache'] = $params; $params = array(); } $options += array('cache' => true); $cache = $options['cache']; if ($cache && ($cached = $this->getQueryCache($sql, $params)) !== false) { return $cached; } $result = $this->execute($sql, array(), $params); if ($result) { $out = array(); if ($this->hasResult()) { $first = $this->fetchRow(); if ($first) { $out[] = $first; } while ($item = $this->fetchResult()) { if (isset($item[0])) { $this->fetchVirtualField($item); } $out[] = $item; } } if (!is_bool($result) && $cache) { $this->_writeQueryCache($sql, $out, $params); } if (empty($out) && is_bool($this->_result)) { return $this->_result; } return $out; } return false; } /** * Fetches the next row from the current result set * * @return bool */ public function fetchResult() { return false; } /** * Modifies $result array to place virtual fields in model entry where they belongs to * * @param array &$result Reference to the fetched row * @return void */ public function fetchVirtualField(&$result) { if (isset($result[0]) && is_array($result[0])) { foreach ($result[0] as $field => $value) { if (strpos($field, $this->virtualFieldSeparator) === false) { continue; } list($alias, $virtual) = explode($this->virtualFieldSeparator, $field); if (!ClassRegistry::isKeySet($alias)) { return; } $Model = ClassRegistry::getObject($alias); if ($Model->isVirtualField($virtual)) { $result[$alias][$virtual] = $value; unset($result[0][$field]); } } if (empty($result[0])) { unset($result[0]); } } } /** * Returns a single field of the first of query results for a given SQL query, or false if empty. * * @param string $name The name of the field to get. * @param string $sql The SQL query. * @return mixed Value of field read, or false if not found. */ public function field($name, $sql) { $data = $this->fetchRow($sql); if (empty($data[$name])) { return false; } return $data[$name]; } /** * Empties the method caches. * These caches are used by DboSource::name() and DboSource::conditions() * * @return void */ public function flushMethodCache() { $this->_methodCacheChange = true; static::$methodCache = array(); } /** * Cache a value into the methodCaches. Will respect the value of DboSource::$cacheMethods. * Will retrieve a value from the cache if $value is null. * * If caching is disabled and a write is attempted, the $value will be returned. * A read will either return the value or null. * * @param string $method Name of the method being cached. * @param string $key The key name for the cache operation. * @param mixed $value The value to cache into memory. * @return mixed Either null on failure, or the value if its set. */ public function cacheMethod($method, $key, $value = null) { if ($this->cacheMethods === false) { return $value; } if (!$this->_methodCacheChange && empty(static::$methodCache)) { static::$methodCache = (array)Cache::read('method_cache', '_cake_core_'); } if ($value === null) { return (isset(static::$methodCache[$method][$key])) ? static::$methodCache[$method][$key] : null; } if (!$this->cacheMethodFilter($method, $key, $value)) { return $value; } $this->_methodCacheChange = true; return static::$methodCache[$method][$key] = $value; } /** * Filters to apply to the results of `name` and `fields`. When the filter for a given method does not return `true` * then the result is not added to the memory cache. * * Some examples: * * ``` * // For method fields, do not cache values that contain floats * if ($method === 'fields') { * $hasFloat = preg_grep('/(\d+)?\.\d+/', $value); * * return count($hasFloat) === 0; * } * * return true; * ``` * * ``` * // For method name, do not cache values that have the name created * if ($method === 'name') { * return preg_match('/^`created`$/', $value) !== 1; * } * * return true; * ``` * * ``` * // For method name, do not cache values that have the key 472551d38e1f8bbc78d7dfd28106166f * if ($key === '472551d38e1f8bbc78d7dfd28106166f') { * return false; * } * * return true; * ``` * * @param string $method Name of the method being cached. * @param string $key The key name for the cache operation. * @param mixed $value The value to cache into memory. * @return bool Whether or not to cache */ public function cacheMethodFilter($method, $key, $value) { return true; } /** * Hashes a given value. * * Method caching uses `md5` (by default) to construct cache keys. If you have problems with collisions, * try a different hashing algorithm or set DboSource::$cacheMethods to false. * * @param string $value Value to hash * @return string Hashed value * @see http://php.net/manual/en/function.hash-algos.php * @see http://softwareengineering.stackexchange.com/questions/49550/which-hashing-algorithm-is-best-for-uniqueness-and-speed */ public function cacheMethodHasher($value) { return md5($value); } /** * Returns a quoted name of $data for use in an SQL statement. * Strips fields out of SQL functions before quoting. * * Results of this method are stored in a memory cache. This improves performance, but * because the method uses a hashing algorithm it can have collisions. * Setting DboSource::$cacheMethods to false will disable the memory cache. * * @param mixed $data Either a string with a column to quote. An array of columns to quote or an * object from DboSource::expression() or DboSource::identifier() * @return string SQL field */ public function name($data) { if (is_object($data) && isset($data->type)) { return $data->value; } if ($data === '*') { return '*'; } if (is_array($data)) { foreach ($data as $i => $dataItem) { $data[$i] = $this->name($dataItem); } return $data; } $cacheKey = $this->cacheMethodHasher($this->startQuote . $data . $this->endQuote); if ($return = $this->cacheMethod(__FUNCTION__, $cacheKey)) { return $return; } $data = trim($data); if (preg_match('/^[\w-]+(?:\.[^ \*]*)*$/', $data)) { // string, string.string if (strpos($data, '.') === false) { // string return $this->cacheMethod(__FUNCTION__, $cacheKey, $this->startQuote . $data . $this->endQuote); } $items = explode('.', $data); return $this->cacheMethod(__FUNCTION__, $cacheKey, $this->startQuote . implode($this->endQuote . '.' . $this->startQuote, $items) . $this->endQuote ); } if (preg_match('/^[\w-]+\.\*$/', $data)) { // string.* return $this->cacheMethod(__FUNCTION__, $cacheKey, $this->startQuote . str_replace('.*', $this->endQuote . '.*', $data) ); } if (preg_match('/^([\w-]+)\((.*)\)$/', $data, $matches)) { // Functions return $this->cacheMethod(__FUNCTION__, $cacheKey, $matches[1] . '(' . $this->name($matches[2]) . ')' ); } if (preg_match('/^([\w-]+(\.[\w-]+|\(.*\))*)\s+' . preg_quote($this->alias) . '\s*([\w-]+)$/i', $data, $matches)) { return $this->cacheMethod( __FUNCTION__, $cacheKey, preg_replace( '/\s{2,}/', ' ', $this->name($matches[1]) . ' ' . $this->alias . ' ' . $this->name($matches[3]) ) ); } if (preg_match('/^[\w\-_\s]*[\w\-_]+/', $data)) { return $this->cacheMethod(__FUNCTION__, $cacheKey, $this->startQuote . $data . $this->endQuote); } return $this->cacheMethod(__FUNCTION__, $cacheKey, $data); } /** * Checks if the source is connected to the database. * * @return bool True if the database is connected, else false */ public function isConnected() { if ($this->_connection === null) { $connected = false; } else { try { $connected = $this->_connection->query('SELECT 1'); } catch (Exception $e) { $connected = false; } } $this->connected = !empty($connected); return $this->connected; } /** * Checks if the result is valid * * @return bool True if the result is valid else false */ public function hasResult() { return $this->_result instanceof PDOStatement; } /** * Get the query log as an array. * * @param bool $sorted Get the queries sorted by time taken, defaults to false. * @param bool $clear If True the existing log will cleared. * @return array Array of queries run as an array */ public function getLog($sorted = false, $clear = true) { if ($sorted) { $log = sortByKey($this->_queriesLog, 'took', 'desc', SORT_NUMERIC); } else { $log = $this->_queriesLog; } if ($clear) { $this->_queriesLog = array(); } return array('log' => $log, 'count' => $this->_queriesCnt, 'time' => $this->_queriesTime); } /** * Outputs the contents of the queries log. If in a non-CLI environment the sql_log element * will be rendered and output. If in a CLI environment, a plain text log is generated. * * @param bool $sorted Get the queries sorted by time taken, defaults to false. * @return void */ public function showLog($sorted = false) { $log = $this->getLog($sorted, false); if (empty($log['log'])) { return; } if (PHP_SAPI !== 'cli') { $controller = null; $View = new View($controller, false); $View->set('sqlLogs', array($this->configKeyName => $log)); echo $View->element('sql_dump', array('_forced_from_dbo_' => true)); } else { foreach ($log['log'] as $k => $i) { print (($k + 1) . ". {$i['query']}\n"); } } } /** * Log given SQL query. * * @param string $sql SQL statement * @param array $params Values binded to the query (prepared statements) * @return void */ public function logQuery($sql, $params = array()) { $this->_queriesCnt++; $this->_queriesTime += $this->took; $this->_queriesLog[] = array( 'query' => $sql, 'params' => $params, 'affected' => $this->affected, 'numRows' => $this->numRows, 'took' => $this->took ); if (count($this->_queriesLog) > $this->_queriesLogMax) { array_shift($this->_queriesLog); } } /** * Gets full table name including prefix * * @param Model|string $model Either a Model object or a string table name. * @param bool $quote Whether you want the table name quoted. * @param bool $schema Whether you want the schema name included. * @return string Full quoted table name */ public function fullTableName($model, $quote = true, $schema = true) { if (is_object($model)) { $schemaName = $model->schemaName; $table = $model->tablePrefix . $model->table; } elseif (!empty($this->config['prefix']) && strpos($model, $this->config['prefix']) !== 0) { $table = $this->config['prefix'] . strval($model); } else { $table = strval($model); } if ($schema && !isset($schemaName)) { $schemaName = $this->getSchemaName(); } if ($quote) { if ($schema && !empty($schemaName)) { if (strstr($table, '.') === false) { return $this->name($schemaName) . '.' . $this->name($table); } } return $this->name($table); } if ($schema && !empty($schemaName)) { if (strstr($table, '.') === false) { return $schemaName . '.' . $table; } } return $table; } /** * The "C" in CRUD * * Creates new records in the database. * * @param Model $Model Model object that the record is for. * @param array $fields An array of field names to insert. If null, $Model->data will be * used to generate field names. * @param array $values An array of values with keys matching the fields. If null, $Model->data will * be used to generate values. * @return bool Success */ public function create(Model $Model, $fields = null, $values = null) { $id = null; if (!$fields) { unset($fields, $values); $fields = array_keys($Model->data); $values = array_values($Model->data); } $count = count($fields); for ($i = 0; $i < $count; $i++) { $schema = $Model->schema(); $valueInsert[] = $this->value($values[$i], $Model->getColumnType($fields[$i]), isset($schema[$fields[$i]]['null']) ? $schema[$fields[$i]]['null'] : true); $fieldInsert[] = $this->name($fields[$i]); if ($fields[$i] === $Model->primaryKey) { $id = $values[$i]; } } $query = array( 'table' => $this->fullTableName($Model), 'fields' => implode(', ', $fieldInsert), 'values' => implode(', ', $valueInsert) ); if ($this->execute($this->renderStatement('create', $query))) { if (empty($id)) { $id = $this->lastInsertId($this->fullTableName($Model, false, false), $Model->primaryKey); } $Model->setInsertID($id); $Model->id = $id; return true; } $Model->onError(); return false; } /** * The "R" in CRUD * * Reads record(s) from the database. * * @param Model $Model A Model object that the query is for. * @param array $queryData An array of queryData information containing keys similar to Model::find(). * @param int $recursive Number of levels of association * @return mixed boolean false on error/failure. An array of results on success. */ public function read(Model $Model, $queryData = array(), $recursive = null) { $queryData = $this->_scrubQueryData($queryData); $array = array('callbacks' => $queryData['callbacks']); if ($recursive === null && isset($queryData['recursive'])) { $recursive = $queryData['recursive']; } if ($recursive !== null) { $modelRecursive = $Model->recursive; $Model->recursive = $recursive; } if (!empty($queryData['fields'])) { $noAssocFields = true; $queryData['fields'] = $this->fields($Model, null, $queryData['fields']); } else { $noAssocFields = false; $queryData['fields'] = $this->fields($Model); } if ($Model->recursive === -1) { // Primary model data only, no joins. $associations = array(); } else { $associations = $Model->associations(); if ($Model->recursive === 0) { // Primary model data and its domain. unset($associations[2], $associations[3]); } } $originalJoins = $queryData['joins']; $queryData['joins'] = array(); // Generate hasOne and belongsTo associations inside $queryData $linkedModels = array(); foreach ($associations as $type) { if ($type !== 'hasOne' && $type !== 'belongsTo') { continue; } foreach ($Model->{$type} as $assoc => $assocData) { $LinkModel = $Model->{$assoc}; if ($Model->useDbConfig !== $LinkModel->useDbConfig) { continue; } if ($noAssocFields) { $assocData['fields'] = false; } $external = isset($assocData['external']); if ($this->generateAssociationQuery($Model, $LinkModel, $type, $assoc, $assocData, $queryData, $external) === true) { $linkedModels[$type . '/' . $assoc] = true; } } } if (!empty($originalJoins)) { $queryData['joins'] = array_merge($queryData['joins'], $originalJoins); } // Build SQL statement with the primary model, plus hasOne and belongsTo associations $query = $this->buildAssociationQuery($Model, $queryData); $resultSet = $this->fetchAll($query, $Model->cacheQueries); unset($query); if ($resultSet === false) { $Model->onError(); return false; } $filtered = array(); // Deep associations if ($Model->recursive > -1) { $joined = array(); if (isset($queryData['joins'][0]['alias'])) { $joined[$Model->alias] = (array)Hash::extract($queryData['joins'], '{n}.alias'); } foreach ($associations as $type) { foreach ($Model->{$type} as $assoc => $assocData) { $LinkModel = $Model->{$assoc}; if (!isset($linkedModels[$type . '/' . $assoc])) { $db = $Model->useDbConfig === $LinkModel->useDbConfig ? $this : $LinkModel->getDataSource(); } elseif ($Model->recursive > 1) { $db = $this; } if (isset($db) && method_exists($db, 'queryAssociation')) { $stack = array($assoc); $stack['_joined'] = $joined; $db->queryAssociation($Model, $LinkModel, $type, $assoc, $assocData, $array, true, $resultSet, $Model->recursive - 1, $stack); unset($db); if ($type === 'hasMany' || $type === 'hasAndBelongsToMany') { $filtered[] = $assoc; } } } } } if ($queryData['callbacks'] === true || $queryData['callbacks'] === 'after') { $this->_filterResults($resultSet, $Model, $filtered); } if ($recursive !== null) { $Model->recursive = $modelRecursive; } return $resultSet; } /** * Passes association results through afterFind filters of the corresponding model. * * The primary model is always excluded, because the filtering is later done by Model::_filterResults(). * * @param array &$resultSet Reference of resultset to be filtered. * @param Model $Model Instance of model to operate against. * @param array $filtered List of classes already filtered, to be skipped. * @return array Array of results that have been filtered through $Model->afterFind. */ protected function _filterResults(&$resultSet, Model $Model, $filtered = array()) { if (!is_array($resultSet)) { return array(); } $current = reset($resultSet); if (!is_array($current)) { return array(); } $keys = array_diff(array_keys($current), $filtered, array($Model->alias)); $filtering = array(); foreach ($keys as $className) { if (!isset($Model->{$className}) || !is_object($Model->{$className})) { continue; } $LinkedModel = $Model->{$className}; $filtering[] = $className; foreach ($resultSet as $key => &$result) { $data = $LinkedModel->afterFind(array(array($className => $result[$className])), false); if (isset($data[0][$className])) { $result[$className] = $data[0][$className]; } else { unset($resultSet[$key]); } } } return $filtering; } /** * Passes association results through afterFind filters of the corresponding model. * * Similar to DboSource::_filterResults(), but this filters only specified models. * The primary model can not be specified, because this call DboSource::_filterResults() internally. * * @param array &$resultSet Reference of resultset to be filtered. * @param Model $Model Instance of model to operate against. * @param array $toBeFiltered List of classes to be filtered. * @return array Array of results that have been filtered through $Model->afterFind. */ protected function _filterResultsInclusive(&$resultSet, Model $Model, $toBeFiltered = array()) { $exclude = array(); if (is_array($resultSet)) { $current = reset($resultSet); if (is_array($current)) { $exclude = array_diff(array_keys($current), $toBeFiltered); } } return $this->_filterResults($resultSet, $Model, $exclude); } /** * Queries associations. * * Used to fetch results on recursive models. * * - 'hasMany' associations with no limit set: * Fetch, filter and merge is done recursively for every level. * * - 'hasAndBelongsToMany' associations: * Fetch and filter is done unaffected by the (recursive) level set. * * @param Model $Model Primary Model object. * @param Model $LinkModel Linked model object. * @param string $type Association type, one of the model association types ie. hasMany. * @param string $association Association name. * @param array $assocData Association data. * @param array &$queryData An array of queryData information containing keys similar to Model::find(). * @param bool $external Whether or not the association query is on an external datasource. * @param array &$resultSet Existing results. * @param int $recursive Number of levels of association. * @param array $stack A list with joined models. * @return mixed * @throws CakeException when results cannot be created. */ public function queryAssociation(Model $Model, Model $LinkModel, $type, $association, $assocData, &$queryData, $external, &$resultSet, $recursive, $stack) { if (isset($stack['_joined'])) { $joined = $stack['_joined']; unset($stack['_joined']); } $queryTemplate = $this->generateAssociationQuery($Model, $LinkModel, $type, $association, $assocData, $queryData, $external); if (empty($queryTemplate)) { return null; } if (!is_array($resultSet)) { throw new CakeException(__d('cake_dev', 'Error in Model %s', get_class($Model))); } if ($type === 'hasMany' && empty($assocData['limit']) && !empty($assocData['foreignKey'])) { // 'hasMany' associations with no limit set. $assocIds = array(); foreach ($resultSet as $result) { $assocIds[] = $this->insertQueryData('{$__cakeID__$}', $result, $association, $Model, $stack); } $assocIds = array_filter($assocIds); // Fetch $assocResultSet = array(); if (!empty($assocIds)) { $assocResultSet = $this->_fetchHasMany($Model, $queryTemplate, $assocIds); } // Recursively query associations if ($recursive > 0 && !empty($assocResultSet) && is_array($assocResultSet)) { foreach ($LinkModel->associations() as $type1) { foreach ($LinkModel->{$type1} as $assoc1 => $assocData1) { $DeepModel = $LinkModel->{$assoc1}; $tmpStack = $stack; $tmpStack[] = $assoc1; $db = $LinkModel->useDbConfig === $DeepModel->useDbConfig ? $this : $DeepModel->getDataSource(); $db->queryAssociation($LinkModel, $DeepModel, $type1, $assoc1, $assocData1, $queryData, true, $assocResultSet, $recursive - 1, $tmpStack); } } } // Filter if ($queryData['callbacks'] === true || $queryData['callbacks'] === 'after') { $this->_filterResultsInclusive($assocResultSet, $Model, array($association)); } // Merge return $this->_mergeHasMany($resultSet, $assocResultSet, $association, $Model); } elseif ($type === 'hasAndBelongsToMany') { // 'hasAndBelongsToMany' associations. $assocIds = array(); foreach ($resultSet as $result) { $assocIds[] = $this->insertQueryData('{$__cakeID__$}', $result, $association, $Model, $stack); } $assocIds = array_filter($assocIds); // Fetch $assocResultSet = array(); if (!empty($assocIds)) { $assocResultSet = $this->_fetchHasAndBelongsToMany($Model, $queryTemplate, $assocIds, $association); } $habtmAssocData = $Model->hasAndBelongsToMany[$association]; $foreignKey = $habtmAssocData['foreignKey']; $joinKeys = array($foreignKey, $habtmAssocData['associationForeignKey']); list($with, $habtmFields) = $Model->joinModel($habtmAssocData['with'], $joinKeys); $habtmFieldsCount = count($habtmFields); // Filter if ($queryData['callbacks'] === true || $queryData['callbacks'] === 'after') { $this->_filterResultsInclusive($assocResultSet, $Model, array($association, $with)); } } $modelAlias = $Model->alias; $primaryKey = $Model->primaryKey; $selfJoin = ($Model->name === $LinkModel->name); foreach ($resultSet as &$row) { if ($type === 'hasOne' || $type === 'belongsTo' || $type === 'hasMany') { $assocResultSet = array(); $prefetched = false; if (($type === 'hasOne' || $type === 'belongsTo') && isset($row[$LinkModel->alias], $joined[$Model->alias]) && in_array($LinkModel->alias, $joined[$Model->alias]) ) { $joinedData = Hash::filter($row[$LinkModel->alias]); if (!empty($joinedData)) { $assocResultSet[0] = array($LinkModel->alias => $row[$LinkModel->alias]); } $prefetched = true; } else { $query = $this->insertQueryData($queryTemplate, $row, $association, $Model, $stack); if ($query !== false) { $assocResultSet = $this->fetchAll($query, $Model->cacheQueries); } } } if (!empty($assocResultSet) && is_array($assocResultSet)) { if ($recursive > 0) { foreach ($LinkModel->associations() as $type1) { foreach ($LinkModel->{$type1} as $assoc1 => $assocData1) { $DeepModel = $LinkModel->{$assoc1}; if ($type1 === 'belongsTo' || ($type === 'belongsTo' && $DeepModel->alias === $modelAlias) || ($DeepModel->alias !== $modelAlias) ) { $tmpStack = $stack; $tmpStack[] = $assoc1; $db = $LinkModel->useDbConfig === $DeepModel->useDbConfig ? $this : $DeepModel->getDataSource(); $db->queryAssociation($LinkModel, $DeepModel, $type1, $assoc1, $assocData1, $queryData, true, $assocResultSet, $recursive - 1, $tmpStack); } } } } if ($type === 'hasAndBelongsToMany') { $merge = array(); foreach ($assocResultSet as $data) { if (isset($data[$with]) && $data[$with][$foreignKey] === $row[$modelAlias][$primaryKey]) { if ($habtmFieldsCount <= 2) { unset($data[$with]); } $merge[] = $data; } } if (empty($merge) && !isset($row[$association])) { $row[$association] = $merge; } else { $this->_mergeAssociation($row, $merge, $association, $type); } } else { if (!$prefetched && $LinkModel->useConsistentAfterFind) { if ($queryData['callbacks'] === true || $queryData['callbacks'] === 'after') { $this->_filterResultsInclusive($assocResultSet, $Model, array($association)); } } $this->_mergeAssociation($row, $assocResultSet, $association, $type, $selfJoin); } if ($type !== 'hasAndBelongsToMany' && isset($row[$association]) && !$prefetched && !$LinkModel->useConsistentAfterFind) { $row[$association] = $LinkModel->afterFind($row[$association], false); } } else { $tempArray[0][$association] = false; $this->_mergeAssociation($row, $tempArray, $association, $type, $selfJoin); } } } /** * Fetch 'hasMany' associations. * * This is just a proxy to maintain BC. * * @param Model $Model Primary model object. * @param string $query Association query template. * @param array $ids Array of IDs of associated records. * @return array Association results. * @see DboSource::_fetchHasMany() */ public function fetchAssociated(Model $Model, $query, $ids) { return $this->_fetchHasMany($Model, $query, $ids); } /** * Fetch 'hasMany' associations. * * @param Model $Model Primary model object. * @param string $query Association query template. * @param array $ids Array of IDs of associated records. * @return array Association results. */ protected function _fetchHasMany(Model $Model, $query, $ids) { $ids = array_unique($ids); if (count($ids) > 1) { $query = str_replace('= ({$__cakeID__$}', 'IN ({$__cakeID__$}', $query); } $query = str_replace('{$__cakeID__$}', implode(', ', $ids), $query); return $this->fetchAll($query, $Model->cacheQueries); } /** * Fetch 'hasAndBelongsToMany' associations. * * @param Model $Model Primary model object. * @param string $query Association query. * @param array $ids Array of IDs of associated records. * @param string $association Association name. * @return array Association results. */ protected function _fetchHasAndBelongsToMany(Model $Model, $query, $ids, $association) { $ids = array_unique($ids); if (count($ids) > 1) { $query = str_replace('{$__cakeID__$}', '(' . implode(', ', $ids) . ')', $query); $query = str_replace('= (', 'IN (', $query); } else { $query = str_replace('{$__cakeID__$}', $ids[0], $query); } $query = str_replace(' WHERE 1 = 1', '', $query); return $this->fetchAll($query, $Model->cacheQueries); } /** * Merge the results of 'hasMany' associations. * * Note: this function also deals with the formatting of the data. * * @param array &$resultSet Data to merge into. * @param array $assocResultSet Data to merge. * @param string $association Name of Model being merged. * @param Model $Model Model being merged onto. * @return void */ protected function _mergeHasMany(&$resultSet, $assocResultSet, $association, Model $Model) { $modelAlias = $Model->alias; $primaryKey = $Model->primaryKey; $foreignKey = $Model->hasMany[$association]['foreignKey']; // Make one pass through children and collect by parent key // Make second pass through parents and associate children $mergedByFK = array(); if (is_array($assocResultSet)) { foreach ($assocResultSet as $data) { $fk = $data[$association][$foreignKey]; if (! array_key_exists($fk, $mergedByFK)) { $mergedByFK[$fk] = array(); } if (count($data) > 1) { $data = array_merge($data[$association], $data); unset($data[$association]); foreach ($data as $key => $name) { if (is_numeric($key)) { $data[$association][] = $name; unset($data[$key]); } } $mergedByFK[$fk][] = $data; } else { $mergedByFK[$fk][] = $data[$association]; } } } foreach ($resultSet as &$result) { if (!isset($result[$modelAlias])) { continue; } $merged = array(); $pk = $result[$modelAlias][$primaryKey]; if (isset($mergedByFK[$pk])) { $merged = $mergedByFK[$pk]; } $result = Hash::mergeDiff($result, array($association => $merged)); } } /** * Merge association of merge into data * * @param array &$data The data to merge. * @param array &$merge The data to merge. * @param string $association The association name to merge. * @param string $type The type of association * @param bool $selfJoin Whether or not this is a self join. * @return void */ protected function _mergeAssociation(&$data, &$merge, $association, $type, $selfJoin = false) { if (isset($merge[0]) && !isset($merge[0][$association])) { $association = Inflector::pluralize($association); } $dataAssociation =& $data[$association]; if ($type === 'belongsTo' || $type === 'hasOne') { if (isset($merge[$association])) { $dataAssociation = $merge[$association][0]; } else { if (!empty($merge[0][$association])) { foreach ($merge[0] as $assoc => $data2) { if ($assoc !== $association) { $merge[0][$association][$assoc] = $data2; } } } if (!isset($dataAssociation)) { $dataAssociation = array(); if ($merge[0][$association]) { $dataAssociation = $merge[0][$association]; } } else { if (is_array($merge[0][$association])) { $mergeAssocTmp = array(); foreach ($dataAssociation as $k => $v) { if (!is_array($v)) { $dataAssocTmp[$k] = $v; } } foreach ($merge[0][$association] as $k => $v) { if (!is_array($v)) { $mergeAssocTmp[$k] = $v; } } $dataKeys = array_keys($data); $mergeKeys = array_keys($merge[0]); if ($mergeKeys[0] === $dataKeys[0] || $mergeKeys === $dataKeys) { $dataAssociation[$association] = $merge[0][$association]; } else { $diff = Hash::diff($dataAssocTmp, $mergeAssocTmp); $dataAssociation = array_merge($merge[0][$association], $diff); } } elseif ($selfJoin && array_key_exists($association, $merge[0])) { $dataAssociation = array_merge($dataAssociation, array($association => array())); } } } } else { if (isset($merge[0][$association]) && $merge[0][$association] === false) { if (!isset($dataAssociation)) { $dataAssociation = array(); } } else { foreach ($merge as $row) { $insert = array(); if (count($row) === 1) { $insert = $row[$association]; } elseif (isset($row[$association])) { $insert = array_merge($row[$association], $row); unset($insert[$association]); } if (empty($dataAssociation) || (isset($dataAssociation) && !in_array($insert, $dataAssociation, true))) { $dataAssociation[] = $insert; } } } } } /** * Prepares fields required by an SQL statement. * * When no fields are set, all the $Model fields are returned. * * @param Model $Model The model to prepare. * @param array $queryData An array of queryData information containing keys similar to Model::find(). * @return array Array containing SQL fields. */ public function prepareFields(Model $Model, $queryData) { if (empty($queryData['fields'])) { $queryData['fields'] = $this->fields($Model); } elseif (!empty($Model->hasMany) && $Model->recursive > -1) { // hasMany relationships need the $Model primary key. $assocFields = $this->fields($Model, null, "{$Model->alias}.{$Model->primaryKey}"); $passedFields = $queryData['fields']; if (count($passedFields) > 1 || (strpos($passedFields[0], $assocFields[0]) === false && !preg_match('/^[a-z]+\(/i', $passedFields[0])) ) { $queryData['fields'] = array_merge($passedFields, $assocFields); } } return array_unique($queryData['fields']); } /** * Builds an SQL statement. * * This is merely a convenient wrapper to DboSource::buildStatement(). * * @param Model $Model The model to build an association query for. * @param array $queryData An array of queryData information containing keys similar to Model::find(). * @return string String containing an SQL statement. * @see DboSource::buildStatement() */ public function buildAssociationQuery(Model $Model, $queryData) { $queryData = $this->_scrubQueryData($queryData); return $this->buildStatement( array( 'fields' => $this->prepareFields($Model, $queryData), 'table' => $this->fullTableName($Model), 'alias' => $Model->alias, 'limit' => $queryData['limit'], 'offset' => $queryData['offset'], 'joins' => $queryData['joins'], 'conditions' => $queryData['conditions'], 'order' => $queryData['order'], 'group' => $queryData['group'], 'having' => $queryData['having'], 'lock' => $queryData['lock'], ), $Model ); } /** * Generates a query or part of a query from a single model or two associated models. * * Builds a string containing an SQL statement template. * * @param Model $Model Primary Model object. * @param Model|null $LinkModel Linked model object. * @param string $type Association type, one of the model association types ie. hasMany. * @param string $association Association name. * @param array $assocData Association data. * @param array &$queryData An array of queryData information containing keys similar to Model::find(). * @param bool $external Whether or not the association query is on an external datasource. * @return mixed * String representing a query. * True, when $external is false and association $type is 'hasOne' or 'belongsTo'. */ public function generateAssociationQuery(Model $Model, $LinkModel, $type, $association, $assocData, &$queryData, $external) { $assocData = $this->_scrubQueryData($assocData); $queryData = $this->_scrubQueryData($queryData); if ($LinkModel === null) { return $this->buildStatement( array( 'fields' => array_unique($queryData['fields']), 'table' => $this->fullTableName($Model), 'alias' => $Model->alias, 'limit' => $queryData['limit'], 'offset' => $queryData['offset'], 'joins' => $queryData['joins'], 'conditions' => $queryData['conditions'], 'order' => $queryData['order'], 'group' => $queryData['group'] ), $Model ); } if ($external && !empty($assocData['finderQuery'])) { return $assocData['finderQuery']; } if ($type === 'hasMany' || $type === 'hasAndBelongsToMany') { if (empty($assocData['offset']) && !empty($assocData['page'])) { $assocData['offset'] = ($assocData['page'] - 1) * $assocData['limit']; } } switch ($type) { case 'hasOne': case 'belongsTo': $conditions = $this->_mergeConditions( $assocData['conditions'], $this->getConstraint($type, $Model, $LinkModel, $association, array_merge($assocData, compact('external'))) ); if ($external) { // Not self join if ($Model->name !== $LinkModel->name) { $modelAlias = $Model->alias; foreach ($conditions as $key => $condition) { if (is_numeric($key) && strpos($condition, $modelAlias . '.') !== false) { unset($conditions[$key]); } } } $query = array_merge($assocData, array( 'conditions' => $conditions, 'table' => $this->fullTableName($LinkModel), 'fields' => $this->fields($LinkModel, $association, $assocData['fields']), 'alias' => $association, 'group' => null )); } else { $join = array( 'table' => $LinkModel, 'alias' => $association, 'type' => isset($assocData['type']) ? $assocData['type'] : 'LEFT', 'conditions' => trim($this->conditions($conditions, true, false, $Model)) ); $fields = array(); if ($assocData['fields'] !== false) { $fields = $this->fields($LinkModel, $association, $assocData['fields']); } $queryData['fields'] = array_merge($this->prepareFields($Model, $queryData), $fields); if (!empty($assocData['order'])) { $queryData['order'][] = $assocData['order']; } if (!in_array($join, $queryData['joins'], true)) { $queryData['joins'][] = $join; } return true; } break; case 'hasMany': $assocData['fields'] = $this->fields($LinkModel, $association, $assocData['fields']); if (!empty($assocData['foreignKey'])) { $assocData['fields'] = array_merge($assocData['fields'], $this->fields($LinkModel, $association, array("{$association}.{$assocData['foreignKey']}"))); } $query = array( 'conditions' => $this->_mergeConditions($this->getConstraint('hasMany', $Model, $LinkModel, $association, $assocData), $assocData['conditions']), 'fields' => array_unique($assocData['fields']), 'table' => $this->fullTableName($LinkModel), 'alias' => $association, 'order' => $assocData['order'], 'limit' => $assocData['limit'], 'offset' => $assocData['offset'], 'group' => null ); break; case 'hasAndBelongsToMany': $joinFields = array(); $joinAssoc = null; if (isset($assocData['with']) && !empty($assocData['with'])) { $joinKeys = array($assocData['foreignKey'], $assocData['associationForeignKey']); list($with, $joinFields) = $Model->joinModel($assocData['with'], $joinKeys); $joinTbl = $Model->{$with}; $joinAlias = $joinTbl; if (is_array($joinFields) && !empty($joinFields)) { $joinAssoc = $joinAlias = $joinTbl->alias; $joinFields = $this->fields($joinTbl, $joinAlias, $joinFields); } else { $joinFields = array(); } } else { $joinTbl = $assocData['joinTable']; $joinAlias = $this->fullTableName($assocData['joinTable']); } $query = array( 'conditions' => $assocData['conditions'], 'limit' => $assocData['limit'], 'offset' => $assocData['offset'], 'table' => $this->fullTableName($LinkModel), 'alias' => $association, 'fields' => array_merge($this->fields($LinkModel, $association, $assocData['fields']), $joinFields), 'order' => $assocData['order'], 'group' => null, 'joins' => array(array( 'table' => $joinTbl, 'alias' => $joinAssoc, 'conditions' => $this->getConstraint('hasAndBelongsToMany', $Model, $LinkModel, $joinAlias, $assocData, $association) )) ); break; } if (isset($query)) { return $this->buildStatement($query, $Model); } return null; } /** * Returns a conditions array for the constraint between two models. * * @param string $type Association type. * @param Model $Model Primary Model object. * @param Model $LinkModel Linked model object. * @param string $association Association name. * @param array $assocData Association data. * @param string $association2 HABTM association name. * @return array Conditions array defining the constraint between $Model and $LinkModel. */ public function getConstraint($type, Model $Model, Model $LinkModel, $association, $assocData, $association2 = null) { $assocData += array('external' => false); if (empty($assocData['foreignKey'])) { return array(); } switch ($type) { case 'hasOne': if ($assocData['external']) { return array( "{$association}.{$assocData['foreignKey']}" => '{$__cakeID__$}' ); } else { return array( "{$association}.{$assocData['foreignKey']}" => $this->identifier("{$Model->alias}.{$Model->primaryKey}") ); } case 'belongsTo': if ($assocData['external']) { return array( "{$association}.{$LinkModel->primaryKey}" => '{$__cakeForeignKey__$}' ); } else { return array( "{$Model->alias}.{$assocData['foreignKey']}" => $this->identifier("{$association}.{$LinkModel->primaryKey}") ); } case 'hasMany': return array("{$association}.{$assocData['foreignKey']}" => array('{$__cakeID__$}')); case 'hasAndBelongsToMany': return array( array( "{$association}.{$assocData['foreignKey']}" => '{$__cakeID__$}' ), array( "{$association}.{$assocData['associationForeignKey']}" => $this->identifier("{$association2}.{$LinkModel->primaryKey}") ) ); } return array(); } /** * Builds and generates a JOIN condition from an array. Handles final clean-up before conversion. * * @param array $join An array defining a JOIN condition in a query. * @return string An SQL JOIN condition to be used in a query. * @see DboSource::renderJoinStatement() * @see DboSource::buildStatement() */ public function buildJoinStatement($join) { $data = array_merge(array( 'type' => null, 'alias' => null, 'table' => 'join_table', 'conditions' => '', ), $join); if (!empty($data['alias'])) { $data['alias'] = $this->alias . $this->name($data['alias']); } if (!empty($data['conditions'])) { $data['conditions'] = trim($this->conditions($data['conditions'], true, false)); } if (!empty($data['table']) && (!is_string($data['table']) || strpos($data['table'], '(') !== 0)) { $data['table'] = $this->fullTableName($data['table']); } return $this->renderJoinStatement($data); } /** * Builds and generates an SQL statement from an array. Handles final clean-up before conversion. * * @param array $query An array defining an SQL query. * @param Model $Model The model object which initiated the query. * @return string An executable SQL statement. * @see DboSource::renderStatement() */ public function buildStatement($query, Model $Model) { $query = array_merge($this->_queryDefaults, $query); if (!empty($query['joins'])) { $count = count($query['joins']); for ($i = 0; $i < $count; $i++) { if (is_array($query['joins'][$i])) { $query['joins'][$i] = $this->buildJoinStatement($query['joins'][$i]); } } } return $this->renderStatement('select', array( 'conditions' => $this->conditions($query['conditions'], true, true, $Model), 'fields' => implode(', ', $query['fields']), 'table' => $query['table'], 'alias' => $this->alias . $this->name($query['alias']), 'order' => $this->order($query['order'], 'ASC', $Model), 'limit' => $this->limit($query['limit'], $query['offset']), 'joins' => implode(' ', $query['joins']), 'group' => $this->group($query['group'], $Model), 'having' => $this->having($query['having'], true, $Model), 'lock' => $this->getLockingHint($query['lock']), )); } /** * Renders a final SQL JOIN statement * * @param array $data The data to generate a join statement for. * @return string */ public function renderJoinStatement($data) { if (strtoupper($data['type']) === 'CROSS' || empty($data['conditions'])) { return "{$data['type']} JOIN {$data['table']} {$data['alias']}"; } return trim("{$data['type']} JOIN {$data['table']} {$data['alias']} ON ({$data['conditions']})"); } /** * Renders a final SQL statement by putting together the component parts in the correct order * * @param string $type type of query being run. e.g select, create, update, delete, schema, alter. * @param array $data Array of data to insert into the query. * @return string|null Rendered SQL expression to be run, otherwise null. */ public function renderStatement($type, $data) { extract($data); $aliases = null; switch (strtolower($type)) { case 'select': $having = !empty($having) ? " $having" : ''; $lock = !empty($lock) ? " $lock" : ''; return trim("SELECT {$fields} FROM {$table} {$alias} {$joins} {$conditions} {$group}{$having} {$order} {$limit}{$lock}"); case 'create': return "INSERT INTO {$table} ({$fields}) VALUES ({$values})"; case 'update': if (!empty($alias)) { $aliases = "{$this->alias}{$alias} {$joins} "; } return trim("UPDATE {$table} {$aliases}SET {$fields} {$conditions}"); case 'delete': if (!empty($alias)) { $aliases = "{$this->alias}{$alias} {$joins} "; } return trim("DELETE {$alias} FROM {$table} {$aliases}{$conditions}"); case 'schema': foreach (array('columns', 'indexes', 'tableParameters') as $var) { if (is_array(${$var})) { ${$var} = "\t" . implode(",\n\t", array_filter(${$var})); } else { ${$var} = ''; } } if (trim($indexes) !== '') { $columns .= ','; } return "CREATE TABLE {$table} (\n{$columns}{$indexes}) {$tableParameters};"; case 'alter': return null; } } /** * Merges a mixed set of string/array conditions. * * @param mixed $query The query to merge conditions for. * @param mixed $assoc The association names. * @return array */ protected function _mergeConditions($query, $assoc) { if (empty($assoc)) { return $query; } if (is_array($query)) { return array_merge((array)$assoc, $query); } if (!empty($query)) { $query = array($query); if (is_array($assoc)) { $query = array_merge($query, $assoc); } else { $query[] = $assoc; } return $query; } return $assoc; } /** * Generates and executes an SQL UPDATE statement for given model, fields, and values. * For databases that do not support aliases in UPDATE queries. * * @param Model $Model The model to update. * @param array $fields The fields to update * @param array $values The values fo the fields. * @param mixed $conditions The conditions for the update. When non-empty $values will not be quoted. * @return bool Success */ public function update(Model $Model, $fields = array(), $values = null, $conditions = null) { if (!$values) { $combined = $fields; } else { $combined = array_combine($fields, $values); } $fields = implode(', ', $this->_prepareUpdateFields($Model, $combined, empty($conditions))); $alias = $joins = null; $table = $this->fullTableName($Model); $conditions = $this->_matchRecords($Model, $conditions); if ($conditions === false) { return false; } $query = compact('table', 'alias', 'joins', 'fields', 'conditions'); if (!$this->execute($this->renderStatement('update', $query))) { $Model->onError(); return false; } return true; } /** * Quotes and prepares fields and values for an SQL UPDATE statement * * @param Model $Model The model to prepare fields for. * @param array $fields The fields to update. * @param bool $quoteValues If values should be quoted, or treated as SQL snippets * @param bool $alias Include the model alias in the field name * @return array Fields and values, quoted and prepared */ protected function _prepareUpdateFields(Model $Model, $fields, $quoteValues = true, $alias = false) { $quotedAlias = $this->startQuote . $Model->alias . $this->endQuote; $schema = $Model->schema(); $updates = array(); foreach ($fields as $field => $value) { if ($alias && strpos($field, '.') === false) { $quoted = $Model->escapeField($field); } elseif (!$alias && strpos($field, '.') !== false) { $quoted = $this->name(str_replace($quotedAlias . '.', '', str_replace( $Model->alias . '.', '', $field ))); } else { $quoted = $this->name($field); } if ($value === null) { $updates[] = $quoted . ' = NULL'; continue; } $update = $quoted . ' = '; if ($quoteValues) { $update .= $this->value($value, $Model->getColumnType($field), isset($schema[$field]['null']) ? $schema[$field]['null'] : true); } elseif ($Model->getColumnType($field) === 'boolean' && (is_int($value) || is_bool($value))) { $update .= $this->boolean($value, true); } elseif (!$alias) { $update .= str_replace($quotedAlias . '.', '', str_replace( $Model->alias . '.', '', $value )); } else { $update .= $value; } $updates[] = $update; } return $updates; } /** * Generates and executes an SQL DELETE statement. * For databases that do not support aliases in UPDATE queries. * * @param Model $Model The model to delete from * @param mixed $conditions The conditions to use. If empty the model's primary key will be used. * @return bool Success */ public function delete(Model $Model, $conditions = null) { $alias = $joins = null; $table = $this->fullTableName($Model); $conditions = $this->_matchRecords($Model, $conditions); if ($conditions === false) { return false; } if ($this->execute($this->renderStatement('delete', compact('alias', 'table', 'joins', 'conditions'))) === false) { $Model->onError(); return false; } return true; } /** * Gets a list of record IDs for the given conditions. Used for multi-record updates and deletes * in databases that do not support aliases in UPDATE/DELETE queries. * * @param Model $Model The model to find matching records for. * @param mixed $conditions The conditions to match against. * @return array List of record IDs */ protected function _matchRecords(Model $Model, $conditions = null) { if ($conditions === true) { $conditions = $this->conditions(true); } elseif ($conditions === null) { $conditions = $this->conditions($this->defaultConditions($Model, $conditions, false), true, true, $Model); } else { $noJoin = true; foreach ($conditions as $field => $value) { $originalField = $field; if (strpos($field, '.') !== false) { list(, $field) = explode('.', $field); $field = ltrim($field, $this->startQuote); $field = rtrim($field, $this->endQuote); } if (!$Model->hasField($field)) { $noJoin = false; break; } if ($field !== $originalField) { $conditions[$field] = $value; unset($conditions[$originalField]); } } if ($noJoin === true) { return $this->conditions($conditions); } $idList = $Model->find('all', array( 'fields' => "{$Model->alias}.{$Model->primaryKey}", 'conditions' => $conditions )); if (empty($idList)) { return false; } $conditions = $this->conditions(array( $Model->primaryKey => Hash::extract($idList, "{n}.{$Model->alias}.{$Model->primaryKey}") )); } return $conditions; } /** * Returns an array of SQL JOIN conditions from a model's associations. * * @param Model $Model The model to get joins for.2 * @return array */ protected function _getJoins(Model $Model) { $join = array(); $joins = array_merge($Model->getAssociated('hasOne'), $Model->getAssociated('belongsTo')); foreach ($joins as $assoc) { if (!isset($Model->{$assoc})) { continue; } $LinkModel = $Model->{$assoc}; if ($Model->useDbConfig !== $LinkModel->useDbConfig) { continue; } $assocData = $Model->getAssociated($assoc); $join[] = $this->buildJoinStatement(array( 'table' => $LinkModel, 'alias' => $assoc, 'type' => isset($assocData['type']) ? $assocData['type'] : 'LEFT', 'conditions' => trim($this->conditions( $this->_mergeConditions($assocData['conditions'], $this->getConstraint($assocData['association'], $Model, $LinkModel, $assoc, $assocData)), true, false, $Model )) )); } return $join; } /** * Returns an SQL calculation, i.e. COUNT() or MAX() * * @param Model $Model The model to get a calculated field for. * @param string $func Lowercase name of SQL function, i.e. 'count' or 'max' * @param array $params Function parameters (any values must be quoted manually) * @return string An SQL calculation function */ public function calculate(Model $Model, $func, $params = array()) { $params = (array)$params; switch (strtolower($func)) { case 'count': if (!isset($params[0])) { $params[0] = '*'; } if (!isset($params[1])) { $params[1] = 'count'; } if ($Model->isVirtualField($params[0])) { $arg = $this->_quoteFields($Model->getVirtualField($params[0])); } else { $arg = $this->name($params[0]); } return 'COUNT(' . $arg . ') AS ' . $this->name($params[1]); case 'max': case 'min': if (!isset($params[1])) { $params[1] = $params[0]; } if ($Model->isVirtualField($params[0])) { $arg = $this->_quoteFields($Model->getVirtualField($params[0])); } else { $arg = $this->name($params[0]); } return strtoupper($func) . '(' . $arg . ') AS ' . $this->name($params[1]); } } /** * Deletes all the records in a table and resets the count of the auto-incrementing * primary key, where applicable. * * @param Model|string $table A string or model class representing the table to be truncated * @return bool SQL TRUNCATE TABLE statement, false if not applicable. */ public function truncate($table) { return $this->execute('TRUNCATE TABLE ' . $this->fullTableName($table)); } /** * Check if the server support nested transactions * * @return bool */ public function nestedTransactionSupported() { return false; } /** * Begin a transaction * * @return bool True on success, false on fail * (i.e. if the database/model does not support transactions, * or a transaction has not started). */ public function begin() { if ($this->_transactionStarted) { if ($this->nestedTransactionSupported()) { return $this->_beginNested(); } $this->_transactionNesting++; return $this->_transactionStarted; } $this->_transactionNesting = 0; if ($this->fullDebug) { $this->took = $this->numRows = $this->affected = false; $this->logQuery('BEGIN'); } return $this->_transactionStarted = $this->_connection->beginTransaction(); } /** * Begin a nested transaction * * @return bool */ protected function _beginNested() { $query = 'SAVEPOINT LEVEL' . ++$this->_transactionNesting; if ($this->fullDebug) { $this->took = $this->numRows = $this->affected = false; $this->logQuery($query); } $this->_connection->exec($query); return true; } /** * Commit a transaction * * @return bool True on success, false on fail * (i.e. if the database/model does not support transactions, * or a transaction has not started). */ public function commit() { if (!$this->_transactionStarted) { return false; } if ($this->_transactionNesting === 0) { if ($this->fullDebug) { $this->took = $this->numRows = $this->affected = false; $this->logQuery('COMMIT'); } $this->_transactionStarted = false; return $this->_connection->commit(); } if ($this->nestedTransactionSupported()) { return $this->_commitNested(); } $this->_transactionNesting--; return true; } /** * Commit a nested transaction * * @return bool */ protected function _commitNested() { $query = 'RELEASE SAVEPOINT LEVEL' . $this->_transactionNesting--; if ($this->fullDebug) { $this->took = $this->numRows = $this->affected = false; $this->logQuery($query); } $this->_connection->exec($query); return true; } /** * Rollback a transaction * * @return bool True on success, false on fail * (i.e. if the database/model does not support transactions, * or a transaction has not started). */ public function rollback() { if (!$this->_transactionStarted) { return false; } if ($this->_transactionNesting === 0) { if ($this->fullDebug) { $this->took = $this->numRows = $this->affected = false; $this->logQuery('ROLLBACK'); } $this->_transactionStarted = false; return $this->_connection->rollBack(); } if ($this->nestedTransactionSupported()) { return $this->_rollbackNested(); } $this->_transactionNesting--; return true; } /** * Rollback a nested transaction * * @return bool */ protected function _rollbackNested() { $query = 'ROLLBACK TO SAVEPOINT LEVEL' . $this->_transactionNesting--; if ($this->fullDebug) { $this->took = $this->numRows = $this->affected = false; $this->logQuery($query); } $this->_connection->exec($query); return true; } /** * Returns the ID generated from the previous INSERT operation. * * @param mixed $source The source to get an id for. * @return mixed */ public function lastInsertId($source = null) { return $this->_connection->lastInsertId(); } /** * Creates a default set of conditions from the model if $conditions is null/empty. * If conditions are supplied then they will be returned. If a model doesn't exist and no conditions * were provided either null or false will be returned based on what was input. * * @param Model $Model The model to get conditions for. * @param string|array|bool $conditions Array of conditions, conditions string, null or false. If an array of conditions, * or string conditions those conditions will be returned. With other values the model's existence will be checked. * If the model doesn't exist a null or false will be returned depending on the input value. * @param bool $useAlias Use model aliases rather than table names when generating conditions * @return mixed Either null, false, $conditions or an array of default conditions to use. * @see DboSource::update() * @see DboSource::conditions() */ public function defaultConditions(Model $Model, $conditions, $useAlias = true) { if (!empty($conditions)) { return $conditions; } $exists = $Model->exists(); if (!$exists && ($conditions !== null || !empty($Model->__safeUpdateMode))) { return false; } elseif (!$exists) { return null; } $alias = $Model->alias; if (!$useAlias) { $alias = $this->fullTableName($Model, false); } return array("{$alias}.{$Model->primaryKey}" => $Model->getID()); } /** * Returns a key formatted like a string Model.fieldname(i.e. Post.title, or Country.name) * * @param Model $Model The model to get a key for. * @param string $key The key field. * @param string $assoc The association name. * @return string */ public function resolveKey(Model $Model, $key, $assoc = null) { if (strpos('.', $key) !== false) { return $this->name($Model->alias) . '.' . $this->name($key); } return $key; } /** * Private helper method to remove query metadata in given data array. * * @param array $data The data to scrub. * @return array */ protected function _scrubQueryData($data) { static $base = null; if ($base === null) { $base = array_fill_keys(array('conditions', 'fields', 'joins', 'order', 'limit', 'offset', 'group'), array()); $base['having'] = null; $base['lock'] = null; $base['callbacks'] = null; } return (array)$data + $base; } /** * Converts model virtual fields into sql expressions to be fetched later * * @param Model $Model The model to get virtual fields for. * @param string $alias Alias table name * @param array $fields virtual fields to be used on query * @return array */ protected function _constructVirtualFields(Model $Model, $alias, $fields) { $virtual = array(); foreach ($fields as $field) { $virtualField = $this->name($alias . $this->virtualFieldSeparator . $field); $virtualFieldExpression = $Model->getVirtualField($field); if (is_object($virtualFieldExpression) && $virtualFieldExpression->type == 'expression') { $expression = $virtualFieldExpression->value; } else { $expression = $this->_quoteFields($virtualFieldExpression); } $virtual[] = '(' . $expression . ") {$this->alias} {$virtualField}"; } return $virtual; } /** * Generates the fields list of an SQL query. * * @param Model $Model The model to get fields for. * @param string $alias Alias table name * @param mixed $fields The provided list of fields. * @param bool $quote If false, returns fields array unquoted * @return array */ public function fields(Model $Model, $alias = null, $fields = array(), $quote = true) { if (empty($alias)) { $alias = $Model->alias; } $virtualFields = $Model->getVirtualField(); $cacheKey = array( $alias, get_class($Model), $Model->alias, $virtualFields, $fields, $quote, ConnectionManager::getSourceName($this), $Model->schemaName, $Model->table ); $cacheKey = $this->cacheMethodHasher(serialize($cacheKey)); if ($return = $this->cacheMethod(__FUNCTION__, $cacheKey)) { return $return; } $allFields = empty($fields); if ($allFields) { $fields = array_keys($Model->schema()); } elseif (!is_array($fields)) { $fields = CakeText::tokenize($fields); } $fields = array_values(array_filter($fields)); $allFields = $allFields || in_array('*', $fields) || in_array($Model->alias . '.*', $fields); $virtual = array(); if (!empty($virtualFields)) { $virtualKeys = array_keys($virtualFields); foreach ($virtualKeys as $field) { $virtualKeys[] = $Model->alias . '.' . $field; } $virtual = ($allFields) ? $virtualKeys : array_intersect($virtualKeys, $fields); foreach ($virtual as $i => $field) { if (strpos($field, '.') !== false) { $virtual[$i] = str_replace($Model->alias . '.', '', $field); } $fields = array_diff($fields, array($field)); } $fields = array_values($fields); } if (!$quote) { if (!empty($virtual)) { $fields = array_merge($fields, $this->_constructVirtualFields($Model, $alias, $virtual)); } return $fields; } $count = count($fields); if ($count >= 1 && !in_array($fields[0], array('*', 'COUNT(*)'))) { for ($i = 0; $i < $count; $i++) { if (is_string($fields[$i]) && in_array($fields[$i], $virtual)) { unset($fields[$i]); continue; } if (is_object($fields[$i]) && isset($fields[$i]->type) && $fields[$i]->type === 'expression') { $fields[$i] = $fields[$i]->value; } elseif (preg_match('/^\(.*\)\s' . $this->alias . '.*/i', $fields[$i])) { continue; } elseif (!preg_match('/^.+\\(.*\\)/', $fields[$i])) { $prepend = ''; if (strpos($fields[$i], 'DISTINCT') !== false) { $prepend = 'DISTINCT '; $fields[$i] = trim(str_replace('DISTINCT', '', $fields[$i])); } $dot = strpos($fields[$i], '.'); if ($dot === false) { $prefix = !( strpos($fields[$i], ' ') !== false || strpos($fields[$i], '(') !== false ); $fields[$i] = $this->name(($prefix ? $alias . '.' : '') . $fields[$i]); } else { if (strpos($fields[$i], ',') === false) { $build = explode('.', $fields[$i]); if (!Hash::numeric($build)) { $fields[$i] = $this->name(implode('.', $build)); } } } $fields[$i] = $prepend . $fields[$i]; } elseif (preg_match('/\(([\.\w]+)\)/', $fields[$i], $field)) { if (isset($field[1])) { if (strpos($field[1], '.') === false) { $field[1] = $this->name($alias . '.' . $field[1]); } else { $field[0] = explode('.', $field[1]); if (!Hash::numeric($field[0])) { $field[0] = implode('.', array_map(array(&$this, 'name'), $field[0])); $fields[$i] = preg_replace('/\(' . $field[1] . '\)/', '(' . $field[0] . ')', $fields[$i], 1); } } } } } } if (!empty($virtual)) { $fields = array_merge($fields, $this->_constructVirtualFields($Model, $alias, $virtual)); } return $this->cacheMethod(__FUNCTION__, $cacheKey, array_unique($fields)); } /** * Creates a WHERE clause by parsing given conditions data. If an array or string * conditions are provided those conditions will be parsed and quoted. If a boolean * is given it will be integer cast as condition. Null will return 1 = 1. * * Results of this method are stored in a memory cache. This improves performance, but * because the method uses a hashing algorithm it can have collisions. * Setting DboSource::$cacheMethods to false will disable the memory cache. * * @param mixed $conditions Array or string of conditions, or any value. * @param bool $quoteValues If true, values should be quoted * @param bool $where If true, "WHERE " will be prepended to the return value * @param Model $Model A reference to the Model instance making the query * @return string SQL fragment */ public function conditions($conditions, $quoteValues = true, $where = true, Model $Model = null) { $clause = $out = ''; if ($where) { $clause = ' WHERE '; } if (is_array($conditions) && !empty($conditions)) { $out = $this->conditionKeysToString($conditions, $quoteValues, $Model); if (empty($out)) { return $clause . ' 1 = 1'; } return $clause . implode(' AND ', $out); } if (is_bool($conditions)) { return $clause . (int)$conditions . ' = 1'; } if (empty($conditions) || trim($conditions) === '') { return $clause . '1 = 1'; } $clauses = '/^WHERE\\x20|^GROUP\\x20BY\\x20|^HAVING\\x20|^ORDER\\x20BY\\x20/i'; if (preg_match($clauses, $conditions)) { $clause = ''; } $conditions = $this->_quoteFields($conditions); return $clause . $conditions; } /** * Creates a WHERE clause by parsing given conditions array. Used by DboSource::conditions(). * * @param array $conditions Array or string of conditions * @param bool $quoteValues If true, values should be quoted * @param Model $Model A reference to the Model instance making the query * @return string SQL fragment */ public function conditionKeysToString($conditions, $quoteValues = true, Model $Model = null) { $out = array(); $data = $columnType = null; foreach ($conditions as $key => $value) { $join = ' AND '; $not = null; if (is_array($value)) { $valueInsert = ( !empty($value) && (substr_count($key, '?') === count($value) || substr_count($key, ':') === count($value)) ); } if (is_numeric($key) && empty($value)) { continue; } elseif (is_numeric($key) && is_string($value)) { $out[] = $this->_quoteFields($value); } elseif ((is_numeric($key) && is_array($value)) || in_array(strtolower(trim($key)), $this->_sqlBoolOps)) { if (in_array(strtolower(trim($key)), $this->_sqlBoolOps)) { $join = ' ' . strtoupper($key) . ' '; } else { $key = $join; } $value = $this->conditionKeysToString($value, $quoteValues, $Model); if (strpos($join, 'NOT') !== false) { if (strtoupper(trim($key)) === 'NOT') { $key = 'AND ' . trim($key); } $not = 'NOT '; } if (empty($value)) { continue; } if (empty($value[1])) { if ($not) { $out[] = $not . '(' . $value[0] . ')'; } else { $out[] = $value[0]; } } else { $out[] = '(' . $not . '(' . implode(') ' . strtoupper($key) . ' (', $value) . '))'; } } else { if (is_object($value) && isset($value->type)) { if ($value->type === 'identifier') { $data .= $this->name($key) . ' = ' . $this->name($value->value); } elseif ($value->type === 'expression') { if (is_numeric($key)) { $data .= $value->value; } else { $data .= $this->name($key) . ' = ' . $value->value; } } } elseif (is_array($value) && !empty($value) && !$valueInsert) { $keys = array_keys($value); if ($keys === array_values($keys)) { if (count($value) === 1 && !preg_match('/\s+(?:NOT|IN|\!=)$/', $key)) { $data = $this->_quoteFields($key) . ' = ('; if ($quoteValues) { if ($Model !== null) { $columnType = $Model->getColumnType($key); } $data .= implode(', ', $this->value($value, $columnType)); } $data .= ')'; } else { $data = $this->_parseKey($key, $value, $Model); } } else { $ret = $this->conditionKeysToString($value, $quoteValues, $Model); if (count($ret) > 1) { $data = '(' . implode(') AND (', $ret) . ')'; } elseif (isset($ret[0])) { $data = $ret[0]; } } } elseif (is_numeric($key) && !empty($value)) { $data = $this->_quoteFields($value); } else { $data = $this->_parseKey(trim($key), $value, $Model); } if ($data) { $out[] = $data; $data = null; } } } return $out; } /** * Extracts a Model.field identifier and an SQL condition operator from a string, formats * and inserts values, and composes them into an SQL snippet. * * @param string $key An SQL key snippet containing a field and optional SQL operator * @param mixed $value The value(s) to be inserted in the string * @param Model $Model Model object initiating the query * @return string */ protected function _parseKey($key, $value, Model $Model = null) { $operatorMatch = '/^(((' . implode(')|(', $this->_sqlOps); $operatorMatch .= ')\\x20?)|<[>=]?(?![^>]+>)\\x20?|[>=!]{1,3}(?!<)\\x20?)/is'; $bound = (strpos($key, '?') !== false || (is_array($value) && strpos($key, ':') !== false)); $key = trim($key); if (strpos($key, ' ') === false) { $operator = '='; } else { list($key, $operator) = explode(' ', $key, 2); if (!preg_match($operatorMatch, trim($operator)) && strpos($operator, ' ') !== false) { $key = $key . ' ' . $operator; $split = strrpos($key, ' '); $operator = substr($key, $split); $key = substr($key, 0, $split); } } $virtual = false; $type = null; if ($Model !== null) { if ($Model->isVirtualField($key)) { $virtualField = $Model->getVirtualField($key); if (is_object($virtualField) && $virtualField->type == 'expression') { $key = $virtualField->value; } else { $key = $this->_quoteFields($virtualField); } $virtual = true; } $type = $Model->getColumnType($key); } $null = $value === null || (is_array($value) && empty($value)); if (strtolower($operator) === 'not') { $data = $this->conditionKeysToString( array($operator => array($key => $value)), true, $Model ); return $data[0]; } $value = $this->value($value, $type); if (!$virtual && $key !== '?') { $isKey = ( strpos($key, '(') !== false || strpos($key, ')') !== false || strpos($key, '|') !== false || strpos($key, '->') !== false ); $key = $isKey ? $this->_quoteFields($key) : $this->name($key); } if ($bound) { return CakeText::insert($key . ' ' . trim($operator), $value); } if (!preg_match($operatorMatch, trim($operator))) { $operator .= is_array($value) ? ' IN' : ' ='; } $operator = trim($operator); if (is_array($value)) { $value = implode(', ', $value); switch ($operator) { case '=': $operator = 'IN'; break; case '!=': case '<>': $operator = 'NOT IN'; break; } $value = "({$value})"; } elseif ($null || $value === 'NULL') { switch ($operator) { case '=': $operator = 'IS'; break; case '!=': case '<>': $operator = 'IS NOT'; break; } } if ($virtual) { return "({$key}) {$operator} {$value}"; } return "{$key} {$operator} {$value}"; } /** * Quotes Model.fields * * @param string $conditions The conditions to quote. * @return string or false if no match */ protected function _quoteFields($conditions) { $start = $end = null; $original = $conditions; if (!empty($this->startQuote)) { $start = preg_quote($this->startQuote); } if (!empty($this->endQuote)) { $end = preg_quote($this->endQuote); } // Remove quotes and requote all the Model.field names. $conditions = str_replace(array($start, $end), '', $conditions); $conditions = preg_replace_callback( '/(?:[\'\"][^\'\"\\\]*(?:\\\.[^\'\"\\\]*)*[\'\"])|([a-z0-9_][a-z0-9\\-_]*\\.[a-z0-9_][a-z0-9_\\-]*[a-z0-9_])|([a-z0-9_][a-z0-9_\\-]*)(?=->)/i', array(&$this, '_quoteMatchedField'), $conditions ); // Quote `table_name AS Alias` $conditions = preg_replace( '/(\s[a-z0-9\\-_.' . $start . $end . ']*' . $end . ')\s+AS\s+([a-z0-9\\-_]+)/i', '\1 AS ' . $this->startQuote . '\2' . $this->endQuote, $conditions ); if ($conditions !== null) { return $conditions; } return $original; } /** * Auxiliary function to quote matches `Model.fields` from a preg_replace_callback call * * @param string $match matched string * @return string quoted string */ protected function _quoteMatchedField($match) { if (is_numeric($match[0])) { return $match[0]; } return $this->name($match[0]); } /** * Returns a limit statement in the correct format for the particular database. * * @param int $limit Limit of results returned * @param int $offset Offset from which to start results * @return string SQL limit/offset statement */ public function limit($limit, $offset = null) { if ($limit) { $rt = ' LIMIT'; if ($offset) { $rt .= sprintf(' %u,', $offset); } $rt .= sprintf(' %u', $limit); return $rt; } return null; } /** * Returns an ORDER BY clause as a string. * * @param array|string $keys Field reference, as a key (i.e. Post.title) * @param string $direction Direction (ASC or DESC) * @param Model $Model Model reference (used to look for virtual field) * @return string ORDER BY clause */ public function order($keys, $direction = 'ASC', Model $Model = null) { if (!is_array($keys)) { $keys = array($keys); } $keys = array_filter($keys); $result = array(); while (!empty($keys)) { $key = key($keys); $dir = current($keys); array_shift($keys); if (is_numeric($key)) { $key = $dir; $dir = $direction; } if (is_string($key) && strpos($key, ',') !== false && !preg_match('/\(.+\,.+\)/', $key)) { $key = array_map('trim', explode(',', $key)); } if (is_array($key)) { //Flatten the array $key = array_reverse($key, true); foreach ($key as $k => $v) { if (is_numeric($k)) { array_unshift($keys, $v); } else { $keys = array($k => $v) + $keys; } } continue; } elseif (is_object($key) && isset($key->type) && $key->type === 'expression') { $result[] = $key->value; continue; } if (preg_match('/\\x20(ASC|DESC).*/i', $key, $_dir)) { $dir = $_dir[0]; $key = preg_replace('/\\x20(ASC|DESC).*/i', '', $key); } $key = trim($key); if ($Model !== null) { if ($Model->isVirtualField($key)) { $key = '(' . $this->_quoteFields($Model->getVirtualField($key)) . ')'; } list($alias) = pluginSplit($key); if ($alias !== $Model->alias && is_object($Model->{$alias}) && $Model->{$alias}->isVirtualField($key)) { $key = '(' . $this->_quoteFields($Model->{$alias}->getVirtualField($key)) . ')'; } } if (strpos($key, '.')) { $key = preg_replace_callback('/([a-zA-Z0-9_-]{1,})\\.([a-zA-Z0-9_-]{1,})/', array(&$this, '_quoteMatchedField'), $key); } if (!preg_match('/\s/', $key) && strpos($key, '.') === false) { $key = $this->name($key); } $key .= ' ' . trim($dir); $result[] = $key; } if (!empty($result)) { return ' ORDER BY ' . implode(', ', $result); } return ''; } /** * Create a GROUP BY SQL clause. * * @param string|array $fields Group By fields * @param Model $Model The model to get group by fields for. * @return string Group By clause or null. */ public function group($fields, Model $Model = null) { if (empty($fields)) { return null; } if (!is_array($fields)) { $fields = array($fields); } if ($Model !== null) { foreach ($fields as $index => $key) { if ($Model->isVirtualField($key)) { $fields[$index] = '(' . $Model->getVirtualField($key) . ')'; } } } $fields = implode(', ', $fields); return ' GROUP BY ' . $this->_quoteFields($fields); } /** * Create a HAVING SQL clause. * * @param mixed $fields Array or string of conditions * @param bool $quoteValues If true, values should be quoted * @param Model $Model A reference to the Model instance making the query * @return string|null HAVING clause or null */ public function having($fields, $quoteValues = true, Model $Model = null) { if (!$fields) { return null; } return ' HAVING ' . $this->conditions($fields, $quoteValues, false, $Model); } /** * Returns a locking hint for the given mode. * * Currently, this method only returns FOR UPDATE when the mode is set to true. * * @param mixed $mode Lock mode * @return string|null FOR UPDATE clause or null */ public function getLockingHint($mode) { if ($mode !== true) { return null; } return ' FOR UPDATE'; } /** * Disconnects database, kills the connection and says the connection is closed. * * @return void */ public function close() { $this->disconnect(); } /** * Checks if the specified table contains any record matching specified SQL * * @param Model $Model Model to search * @param string $sql SQL WHERE clause (condition only, not the "WHERE" part) * @return bool True if the table has a matching record, else false */ public function hasAny(Model $Model, $sql) { $sql = $this->conditions($sql); $table = $this->fullTableName($Model); $alias = $this->alias . $this->name($Model->alias); $where = $sql ? "{$sql}" : ' WHERE 1 = 1'; $id = $Model->escapeField(); $out = $this->fetchRow("SELECT COUNT({$id}) {$this->alias}count FROM {$table} {$alias}{$where}"); if (is_array($out)) { return $out[0]['count']; } return false; } /** * Gets the length of a database-native column description, or null if no length * * @param string $real Real database-layer column type (i.e. "varchar(255)") * @return mixed An integer or string representing the length of the column, or null for unknown length. */ public function length($real) { preg_match('/([\w\s]+)(?:\((.+?)\))?(\sunsigned)?/i', $real, $result); $types = array( 'int' => 1, 'tinyint' => 1, 'smallint' => 1, 'mediumint' => 1, 'integer' => 1, 'bigint' => 1 ); $type = $length = null; if (isset($result[1])) { $type = $result[1]; } if (isset($result[2])) { $length = $result[2]; } $sign = isset($result[3]); $isFloat = in_array($type, array('dec', 'decimal', 'float', 'numeric', 'double')); if ($isFloat && strpos($length, ',') !== false) { return $length; } if ($length === null) { return null; } if (isset($types[$type])) { return (int)$length; } if (in_array($type, array('enum', 'set'))) { $values = array_map(function ($value) { return trim(trim($value), '\'"'); }, explode(',', $length)); $maxLength = 0; foreach ($values as $key => $enumValue) { $tmpLength = strlen($enumValue); if ($tmpLength > $maxLength) { $maxLength = $tmpLength; } } return $maxLength; } return (int)$length; } /** * Translates between PHP boolean values and Database (faked) boolean values * * @param mixed $data Value to be translated * @param bool $quote Whether or not the field should be cast to a string. * @return string|bool Converted boolean value */ public function boolean($data, $quote = false) { if ($quote) { return !empty($data) ? '1' : '0'; } return !empty($data); } /** * Inserts multiple values into a table * * @param string $table The table being inserted into. * @param array $fields The array of field/column names being inserted. * @param array $values The array of values to insert. The values should * be an array of rows. Each row should have values keyed by the column name. * Each row must have the values in the same order as $fields. * @return bool */ public function insertMulti($table, $fields, $values) { $table = $this->fullTableName($table); $holder = implode(',', array_fill(0, count($fields), '?')); $fields = implode(', ', array_map(array(&$this, 'name'), $fields)); $pdoMap = array( 'integer' => PDO::PARAM_INT, 'float' => PDO::PARAM_STR, 'boolean' => PDO::PARAM_BOOL, 'string' => PDO::PARAM_STR, 'text' => PDO::PARAM_STR ); $columnMap = array(); $sql = "INSERT INTO {$table} ({$fields}) VALUES ({$holder})"; $statement = $this->_connection->prepare($sql); $this->begin(); foreach ($values[key($values)] as $key => $val) { $type = $this->introspectType($val); $columnMap[$key] = $pdoMap[$type]; } foreach ($values as $value) { $i = 1; foreach ($value as $col => $val) { $statement->bindValue($i, $val, $columnMap[$col]); $i += 1; } $t = microtime(true); $statement->execute(); $statement->closeCursor(); if ($this->fullDebug) { $this->took = round((microtime(true) - $t) * 1000, 0); $this->numRows = $this->affected = $statement->rowCount(); $this->logQuery($sql, $value); } } return $this->commit(); } /** * Reset a sequence based on the MAX() value of $column. Useful * for resetting sequences after using insertMulti(). * * This method should be implemented by datasources that require sequences to be used. * * @param string $table The name of the table to update. * @param string $column The column to use when resetting the sequence value. * @return bool Success. */ public function resetSequence($table, $column) { } /** * Returns an array of the indexes in given datasource name. * * @param string $model Name of model to inspect * @return array Fields in table. Keys are column and unique */ public function index($model) { return array(); } /** * Generate a database-native schema for the given Schema object * * @param CakeSchema $schema An instance of a subclass of CakeSchema * @param string $tableName Optional. If specified only the table name given will be generated. * Otherwise, all tables defined in the schema are generated. * @return string */ public function createSchema($schema, $tableName = null) { if (!$schema instanceof CakeSchema) { trigger_error(__d('cake_dev', 'Invalid schema object'), E_USER_WARNING); return null; } $out = ''; foreach ($schema->tables as $curTable => $columns) { if (!$tableName || $tableName === $curTable) { $cols = $indexes = $tableParameters = array(); $primary = null; $table = $this->fullTableName($curTable); $primaryCount = 0; foreach ($columns as $col) { if (isset($col['key']) && $col['key'] === 'primary') { $primaryCount++; } } foreach ($columns as $name => $col) { if (is_string($col)) { $col = array('type' => $col); } $isPrimary = isset($col['key']) && $col['key'] === 'primary'; // Multi-column primary keys are not supported. if ($isPrimary && $primaryCount > 1) { unset($col['key']); $isPrimary = false; } if ($isPrimary) { $primary = $name; } if ($name !== 'indexes' && $name !== 'tableParameters') { $col['name'] = $name; if (!isset($col['type'])) { $col['type'] = 'string'; } $cols[] = $this->buildColumn($col); } elseif ($name === 'indexes') { $indexes = array_merge($indexes, $this->buildIndex($col, $table)); } elseif ($name === 'tableParameters') { $tableParameters = array_merge($tableParameters, $this->buildTableParameters($col, $table)); } } if (!isset($columns['indexes']['PRIMARY']) && !empty($primary)) { $col = array('PRIMARY' => array('column' => $primary, 'unique' => 1)); $indexes = array_merge($indexes, $this->buildIndex($col, $table)); } $columns = $cols; $out .= $this->renderStatement('schema', compact('table', 'columns', 'indexes', 'tableParameters')) . "\n\n"; } } return $out; } /** * Generate an alter syntax from CakeSchema::compare() * * @param mixed $compare The comparison data. * @param string $table The table name. * @return bool */ public function alterSchema($compare, $table = null) { return false; } /** * Generate a "drop table" statement for the given Schema object * * @param CakeSchema $schema An instance of a subclass of CakeSchema * @param string $table Optional. If specified only the table name given will be generated. * Otherwise, all tables defined in the schema are generated. * @return string */ public function dropSchema(CakeSchema $schema, $table = null) { $out = ''; if ($table && array_key_exists($table, $schema->tables)) { return $this->_dropTable($table) . "\n"; } elseif ($table) { return $out; } foreach (array_keys($schema->tables) as $curTable) { $out .= $this->_dropTable($curTable) . "\n"; } return $out; } /** * Generate a "drop table" statement for a single table * * @param type $table Name of the table to drop * @return string Drop table SQL statement */ protected function _dropTable($table) { return 'DROP TABLE ' . $this->fullTableName($table) . ";"; } /** * Generate a database-native column schema string * * @param array $column An array structured like the following: array('name' => 'value', 'type' => 'value'[, options]), * where options can be 'default', 'length', or 'key'. * @return string */ public function buildColumn($column) { $name = $type = null; extract(array_merge(array('null' => true), $column)); if (empty($name) || empty($type)) { trigger_error(__d('cake_dev', 'Column name or type not defined in schema'), E_USER_WARNING); return null; } if (!isset($this->columns[$type])) { trigger_error(__d('cake_dev', 'Column type %s does not exist', $type), E_USER_WARNING); return null; } $real = $this->columns[$type]; $out = $this->name($name) . ' ' . $real['name']; if (isset($column['length'])) { $length = $column['length']; } elseif (isset($column['limit'])) { $length = $column['limit']; } elseif (isset($real['length'])) { $length = $real['length']; } elseif (isset($real['limit'])) { $length = $real['limit']; } if (isset($length)) { $out .= '(' . $length . ')'; } if (($column['type'] === 'integer' || $column['type'] === 'float') && isset($column['default']) && $column['default'] === '') { $column['default'] = null; } $out = $this->_buildFieldParameters($out, $column, 'beforeDefault'); if (isset($column['key']) && $column['key'] === 'primary' && ($type === 'integer' || $type === 'biginteger')) { $out .= ' ' . $this->columns['primary_key']['name']; } elseif (isset($column['key']) && $column['key'] === 'primary') { $out .= ' NOT NULL'; } elseif (isset($column['default']) && isset($column['null']) && $column['null'] === false) { $out .= ' DEFAULT ' . $this->value($column['default'], $type) . ' NOT NULL'; } elseif (isset($column['default'])) { $out .= ' DEFAULT ' . $this->value($column['default'], $type); } elseif ($type !== 'timestamp' && !empty($column['null'])) { $out .= ' DEFAULT NULL'; } elseif ($type === 'timestamp' && !empty($column['null'])) { $out .= ' NULL'; } elseif (isset($column['null']) && $column['null'] === false) { $out .= ' NOT NULL'; } if (in_array($type, array('timestamp', 'datetime')) && isset($column['default']) && strtolower($column['default']) === 'current_timestamp') { $out = str_replace(array("'CURRENT_TIMESTAMP'", "'current_timestamp'"), 'CURRENT_TIMESTAMP', $out); } return $this->_buildFieldParameters($out, $column, 'afterDefault'); } /** * Build the field parameters, in a position * * @param string $columnString The partially built column string * @param array $columnData The array of column data. * @param string $position The position type to use. 'beforeDefault' or 'afterDefault' are common * @return string a built column with the field parameters added. */ protected function _buildFieldParameters($columnString, $columnData, $position) { foreach ($this->fieldParameters as $paramName => $value) { if (isset($columnData[$paramName]) && $value['position'] == $position) { if (isset($value['options']) && !in_array($columnData[$paramName], $value['options'], true)) { continue; } if (isset($value['types']) && !in_array($columnData['type'], $value['types'], true)) { continue; } $val = $columnData[$paramName]; if ($value['quote']) { $val = $this->value($val); } $columnString .= ' ' . $value['value'] . (empty($value['noVal']) ? $value['join'] . $val : ''); } } return $columnString; } /** * Format indexes for create table. * * @param array $indexes The indexes to build * @param string $table The table name. * @return array */ public function buildIndex($indexes, $table = null) { $join = array(); foreach ($indexes as $name => $value) { $out = ''; if ($name === 'PRIMARY') { $out .= 'PRIMARY '; $name = null; } else { if (!empty($value['unique'])) { $out .= 'UNIQUE '; } $name = $this->startQuote . $name . $this->endQuote; } if (is_array($value['column'])) { $out .= 'KEY ' . $name . ' (' . implode(', ', array_map(array(&$this, 'name'), $value['column'])) . ')'; } else { $out .= 'KEY ' . $name . ' (' . $this->name($value['column']) . ')'; } $join[] = $out; } return $join; } /** * Read additional table parameters * * @param string $name The table name to read. * @return array */ public function readTableParameters($name) { $parameters = array(); if (method_exists($this, 'listDetailedSources')) { $currentTableDetails = $this->listDetailedSources($name); foreach ($this->tableParameters as $paramName => $parameter) { if (!empty($parameter['column']) && !empty($currentTableDetails[$parameter['column']])) { $parameters[$paramName] = $currentTableDetails[$parameter['column']]; } } } return $parameters; } /** * Format parameters for create table * * @param array $parameters The parameters to create SQL for. * @param string $table The table name. * @return array */ public function buildTableParameters($parameters, $table = null) { $result = array(); foreach ($parameters as $name => $value) { if (isset($this->tableParameters[$name])) { if ($this->tableParameters[$name]['quote']) { $value = $this->value($value); } $result[] = $this->tableParameters[$name]['value'] . $this->tableParameters[$name]['join'] . $value; } } return $result; } /** * Guesses the data type of an array * * @param string $value The value to introspect for type data. * @return string */ public function introspectType($value) { if (!is_array($value)) { if (is_bool($value)) { return 'boolean'; } if (is_float($value) && (float)$value === $value) { return 'float'; } if (is_int($value) && (int)$value === $value) { return 'integer'; } if (is_string($value) && strlen($value) > 255) { return 'text'; } return 'string'; } $isAllFloat = $isAllInt = true; $containsInt = $containsString = false; foreach ($value as $valElement) { $valElement = trim($valElement); if (!is_float($valElement) && !preg_match('/^[\d]+\.[\d]+$/', $valElement)) { $isAllFloat = false; } else { continue; } if (!is_int($valElement) && !preg_match('/^[\d]+$/', $valElement)) { $isAllInt = false; } else { $containsInt = true; continue; } $containsString = true; } if ($isAllFloat) { return 'float'; } if ($isAllInt) { return 'integer'; } if ($containsInt && !$containsString) { return 'integer'; } return 'string'; } /** * Empties the query caches. * * @return void */ public function flushQueryCache() { $this->_queryCache = array(); } /** * Writes a new key for the in memory sql query cache * * @param string $sql SQL query * @param mixed $data result of $sql query * @param array $params query params bound as values * @return void */ protected function _writeQueryCache($sql, $data, $params = array()) { if (preg_match('/^\s*select/i', $sql)) { $this->_queryCache[$sql][serialize($params)] = $data; } } /** * Returns the result for a sql query if it is already cached * * @param string $sql SQL query * @param array $params query params bound as values * @return mixed results for query if it is cached, false otherwise */ public function getQueryCache($sql, $params = array()) { if (isset($this->_queryCache[$sql]) && preg_match('/^\s*select/i', $sql)) { $serialized = serialize($params); if (isset($this->_queryCache[$sql][$serialized])) { return $this->_queryCache[$sql][$serialized]; } } return false; } /** * Used for storing in cache the results of the in-memory methodCache */ public function __destruct() { if ($this->_methodCacheChange) { Cache::write('method_cache', static::$methodCache, '_cake_core_'); } parent::__destruct(); } }