芝麻web文件管理V1.00
编辑当前文件:/home/mgatv524/vision.mgaplay.com.br/vendor/illuminate/database/Connection.php
pdo = $pdo; // First we will setup the default properties. We keep track of the DB // name we are connected to since it is needed when some reflective // type commands are run such as checking whether a table exists. $this->database = $database; $this->tablePrefix = $tablePrefix; $this->config = $config; // We need to initialize a query grammar and the query post processors // which are both very important parts of the database abstractions // so we initialize these to their default values while starting. $this->useDefaultQueryGrammar(); $this->useDefaultPostProcessor(); } /** * Set the query grammar to the default implementation. * * @return void */ public function useDefaultQueryGrammar() { $this->queryGrammar = $this->getDefaultQueryGrammar(); } /** * Get the default query grammar instance. * * @return \Illuminate\Database\Query\Grammars\Grammar */ protected function getDefaultQueryGrammar() { return new QueryGrammar; } /** * Set the schema grammar to the default implementation. * * @return void */ public function useDefaultSchemaGrammar() { $this->schemaGrammar = $this->getDefaultSchemaGrammar(); } /** * Get the default schema grammar instance. * * @return \Illuminate\Database\Schema\Grammars\Grammar */ protected function getDefaultSchemaGrammar() { // } /** * Set the query post processor to the default implementation. * * @return void */ public function useDefaultPostProcessor() { $this->postProcessor = $this->getDefaultPostProcessor(); } /** * Get the default post processor instance. * * @return \Illuminate\Database\Query\Processors\Processor */ protected function getDefaultPostProcessor() { return new Processor; } /** * Get a schema builder instance for the connection. * * @return \Illuminate\Database\Schema\Builder */ public function getSchemaBuilder() { if (is_null($this->schemaGrammar)) { $this->useDefaultSchemaGrammar(); } return new SchemaBuilder($this); } /** * Begin a fluent query against a database table. * * @param string $table * @return \Illuminate\Database\Query\Builder */ public function table($table) { return $this->query()->from($table); } /** * Get a new query builder instance. * * @return \Illuminate\Database\Query\Builder */ public function query() { return new QueryBuilder( $this, $this->getQueryGrammar(), $this->getPostProcessor() ); } /** * Get a new raw query expression. * * @param mixed $value * @return \Illuminate\Database\Query\Expression */ public function raw($value) { return new Expression($value); } /** * Run a select statement and return a single result. * * @param string $query * @param array $bindings * @return mixed */ public function selectOne($query, $bindings = []) { $records = $this->select($query, $bindings); return count($records) > 0 ? reset($records) : null; } /** * Run a select statement against the database. * * @param string $query * @param array $bindings * @return array */ public function selectFromWriteConnection($query, $bindings = []) { return $this->select($query, $bindings, false); } /** * Run a select statement against the database. * * @param string $query * @param array $bindings * @param bool $useReadPdo * @return array */ public function select($query, $bindings = [], $useReadPdo = true) { return $this->run($query, $bindings, function ($me, $query, $bindings) use ($useReadPdo) { if ($me->pretending()) { return []; } // For select statements, we'll simply execute the query and return an array // of the database result set. Each element in the array will be a single // row from the database table, and will either be an array or objects. $statement = $this->getPdoForSelect($useReadPdo)->prepare($query); $statement->execute($me->prepareBindings($bindings)); $fetchMode = $me->getFetchMode(); $fetchArgument = $me->getFetchArgument(); $fetchConstructorArgument = $me->getFetchConstructorArgument(); if ($fetchMode === PDO::FETCH_CLASS && ! isset($fetchArgument)) { $fetchArgument = 'StdClass'; $fetchConstructorArgument = null; } return isset($fetchArgument) ? $statement->fetchAll($fetchMode, $fetchArgument, $fetchConstructorArgument) : $statement->fetchAll($fetchMode); }); } /** * Run a select statement against the database and returns a generator. * * @param string $query * @param array $bindings * @param bool $useReadPdo * @return \Generator */ public function cursor($query, $bindings = [], $useReadPdo = true) { $statement = $this->run($query, $bindings, function ($me, $query, $bindings) use ($useReadPdo) { if ($me->pretending()) { return []; } $statement = $this->getPdoForSelect($useReadPdo)->prepare($query); $fetchMode = $me->getFetchMode(); $fetchArgument = $me->getFetchArgument(); $fetchConstructorArgument = $me->getFetchConstructorArgument(); if ($fetchMode === PDO::FETCH_CLASS && ! isset($fetchArgument)) { $fetchArgument = 'StdClass'; $fetchConstructorArgument = null; } if (isset($fetchArgument)) { $statement->setFetchMode($fetchMode, $fetchArgument, $fetchConstructorArgument); } else { $statement->setFetchMode($fetchMode); } $statement->execute($me->prepareBindings($bindings)); return $statement; }); while ($record = $statement->fetch()) { yield $record; } } /** * Get the PDO connection to use for a select query. * * @param bool $useReadPdo * @return \PDO */ protected function getPdoForSelect($useReadPdo = true) { return $useReadPdo ? $this->getReadPdo() : $this->getPdo(); } /** * Run an insert statement against the database. * * @param string $query * @param array $bindings * @return bool */ public function insert($query, $bindings = []) { return $this->statement($query, $bindings); } /** * Run an update statement against the database. * * @param string $query * @param array $bindings * @return int */ public function update($query, $bindings = []) { return $this->affectingStatement($query, $bindings); } /** * Run a delete statement against the database. * * @param string $query * @param array $bindings * @return int */ public function delete($query, $bindings = []) { return $this->affectingStatement($query, $bindings); } /** * Execute an SQL statement and return the boolean result. * * @param string $query * @param array $bindings * @return bool */ public function statement($query, $bindings = []) { return $this->run($query, $bindings, function ($me, $query, $bindings) { if ($me->pretending()) { return true; } $bindings = $me->prepareBindings($bindings); return $me->getPdo()->prepare($query)->execute($bindings); }); } /** * Run an SQL statement and get the number of rows affected. * * @param string $query * @param array $bindings * @return int */ public function affectingStatement($query, $bindings = []) { return $this->run($query, $bindings, function ($me, $query, $bindings) { if ($me->pretending()) { return 0; } // For update or delete statements, we want to get the number of rows affected // by the statement and return that back to the developer. We'll first need // to execute the statement and then we'll use PDO to fetch the affected. $statement = $me->getPdo()->prepare($query); $statement->execute($me->prepareBindings($bindings)); return $statement->rowCount(); }); } /** * Run a raw, unprepared query against the PDO connection. * * @param string $query * @return bool */ public function unprepared($query) { return $this->run($query, [], function ($me, $query) { if ($me->pretending()) { return true; } return (bool) $me->getPdo()->exec($query); }); } /** * Prepare the query bindings for execution. * * @param array $bindings * @return array */ public function prepareBindings(array $bindings) { $grammar = $this->getQueryGrammar(); foreach ($bindings as $key => $value) { // We need to transform all instances of DateTimeInterface into the actual // date string. Each query grammar maintains its own date string format // so we'll just ask the grammar for the format to get from the date. if ($value instanceof DateTimeInterface) { $bindings[$key] = $value->format($grammar->getDateFormat()); } elseif ($value === false) { $bindings[$key] = 0; } } return $bindings; } /** * Execute a Closure within a transaction. * * @param \Closure $callback * @return mixed * * @throws \Exception|\Throwable */ public function transaction(Closure $callback) { $this->beginTransaction(); // We'll simply execute the given callback within a try / catch block // and if we catch any exception we can rollback the transaction // so that none of the changes are persisted to the database. try { $result = $callback($this); $this->commit(); } // If we catch an exception, we will roll back so nothing gets messed // up in the database. Then we'll re-throw the exception so it can // be handled how the developer sees fit for their applications. catch (Exception $e) { $this->rollBack(); throw $e; } catch (Throwable $e) { $this->rollBack(); throw $e; } return $result; } /** * Start a new database transaction. * * @return void * @throws Exception */ public function beginTransaction() { ++$this->transactions; if ($this->transactions == 1) { try { $this->getPdo()->beginTransaction(); } catch (Exception $e) { --$this->transactions; throw $e; } } elseif ($this->transactions > 1 && $this->queryGrammar->supportsSavepoints()) { $this->getPdo()->exec( $this->queryGrammar->compileSavepoint('trans'.$this->transactions) ); } $this->fireConnectionEvent('beganTransaction'); } /** * Commit the active database transaction. * * @return void */ public function commit() { if ($this->transactions == 1) { $this->getPdo()->commit(); } $this->transactions = max(0, $this->transactions - 1); $this->fireConnectionEvent('committed'); } /** * Rollback the active database transaction. * * @return void */ public function rollBack() { if ($this->transactions == 1) { $this->getPdo()->rollBack(); } elseif ($this->transactions > 1 && $this->queryGrammar->supportsSavepoints()) { $this->getPdo()->exec( $this->queryGrammar->compileSavepointRollBack('trans'.$this->transactions) ); } $this->transactions = max(0, $this->transactions - 1); $this->fireConnectionEvent('rollingBack'); } /** * Get the number of active transactions. * * @return int */ public function transactionLevel() { return $this->transactions; } /** * Execute the given callback in "dry run" mode. * * @param \Closure $callback * @return array */ public function pretend(Closure $callback) { $loggingQueries = $this->loggingQueries; $this->enableQueryLog(); $this->pretending = true; $this->queryLog = []; // Basically to make the database connection "pretend", we will just return // the default values for all the query methods, then we will return an // array of queries that were "executed" within the Closure callback. $callback($this); $this->pretending = false; $this->loggingQueries = $loggingQueries; return $this->queryLog; } /** * Run a SQL statement and log its execution context. * * @param string $query * @param array $bindings * @param \Closure $callback * @return mixed * * @throws \Illuminate\Database\QueryException */ protected function run($query, $bindings, Closure $callback) { $this->reconnectIfMissingConnection(); $start = microtime(true); // Here we will run this query. If an exception occurs we'll determine if it was // caused by a connection that has been lost. If that is the cause, we'll try // to re-establish connection and re-run the query with a fresh connection. try { $result = $this->runQueryCallback($query, $bindings, $callback); } catch (QueryException $e) { if ($this->transactions >= 1) { throw $e; } $result = $this->tryAgainIfCausedByLostConnection( $e, $query, $bindings, $callback ); } // Once we have run the query we will calculate the time that it took to run and // then log the query, bindings, and execution time so we will report them on // the event that the developer needs them. We'll log time in milliseconds. $time = $this->getElapsedTime($start); $this->logQuery($query, $bindings, $time); return $result; } /** * Run a SQL statement. * * @param string $query * @param array $bindings * @param \Closure $callback * @return mixed * * @throws \Illuminate\Database\QueryException */ protected function runQueryCallback($query, $bindings, Closure $callback) { // To execute the statement, we'll simply call the callback, which will actually // run the SQL against the PDO connection. Then we can calculate the time it // took to execute and log the query SQL, bindings and time in our memory. try { $result = $callback($this, $query, $bindings); } // If an exception occurs when attempting to run a query, we'll format the error // message to include the bindings with SQL, which will make this exception a // lot more helpful to the developer instead of just the database's errors. catch (Exception $e) { throw new QueryException( $query, $this->prepareBindings($bindings), $e ); } return $result; } /** * Handle a query exception that occurred during query execution. * * @param \Illuminate\Database\QueryException $e * @param string $query * @param array $bindings * @param \Closure $callback * @return mixed * * @throws \Illuminate\Database\QueryException */ protected function tryAgainIfCausedByLostConnection(QueryException $e, $query, $bindings, Closure $callback) { if ($this->causedByLostConnection($e->getPrevious())) { $this->reconnect(); return $this->runQueryCallback($query, $bindings, $callback); } throw $e; } /** * Disconnect from the underlying PDO connection. * * @return void */ public function disconnect() { $this->setPdo(null)->setReadPdo(null); } /** * Reconnect to the database. * * @return void * * @throws \LogicException */ public function reconnect() { if (is_callable($this->reconnector)) { return call_user_func($this->reconnector, $this); } throw new LogicException('Lost connection and no reconnector available.'); } /** * Reconnect to the database if a PDO connection is missing. * * @return void */ protected function reconnectIfMissingConnection() { if (is_null($this->getPdo()) || is_null($this->getReadPdo())) { $this->reconnect(); } } /** * Log a query in the connection's query log. * * @param string $query * @param array $bindings * @param float|null $time * @return void */ public function logQuery($query, $bindings, $time = null) { if (isset($this->events)) { $this->events->fire(new Events\QueryExecuted( $query, $bindings, $time, $this )); } if ($this->loggingQueries) { $this->queryLog[] = compact('query', 'bindings', 'time'); } } /** * Register a database query listener with the connection. * * @param \Closure $callback * @return void */ public function listen(Closure $callback) { if (isset($this->events)) { $this->events->listen(Events\QueryExecuted::class, $callback); } } /** * Fire an event for this connection. * * @param string $event * @return void */ protected function fireConnectionEvent($event) { if (! isset($this->events)) { return; } switch ($event) { case 'beganTransaction': return $this->events->fire(new Events\TransactionBeginning($this)); case 'committed': return $this->events->fire(new Events\TransactionCommitted($this)); case 'rollingBack': return $this->events->fire(new Events\TransactionRolledBack($this)); } } /** * Get the elapsed time since a given starting point. * * @param int $start * @return float */ protected function getElapsedTime($start) { return round((microtime(true) - $start) * 1000, 2); } /** * Is Doctrine available? * * @return bool */ public function isDoctrineAvailable() { return class_exists('Doctrine\DBAL\Connection'); } /** * Get a Doctrine Schema Column instance. * * @param string $table * @param string $column * @return \Doctrine\DBAL\Schema\Column */ public function getDoctrineColumn($table, $column) { $schema = $this->getDoctrineSchemaManager(); return $schema->listTableDetails($table)->getColumn($column); } /** * Get the Doctrine DBAL schema manager for the connection. * * @return \Doctrine\DBAL\Schema\AbstractSchemaManager */ public function getDoctrineSchemaManager() { return $this->getDoctrineDriver()->getSchemaManager($this->getDoctrineConnection()); } /** * Get the Doctrine DBAL database connection instance. * * @return \Doctrine\DBAL\Connection */ public function getDoctrineConnection() { if (is_null($this->doctrineConnection)) { $driver = $this->getDoctrineDriver(); $data = ['pdo' => $this->getPdo(), 'dbname' => $this->getConfig('database')]; $this->doctrineConnection = new DoctrineConnection($data, $driver); } return $this->doctrineConnection; } /** * Get the current PDO connection. * * @return \PDO */ public function getPdo() { if ($this->pdo instanceof Closure) { return $this->pdo = call_user_func($this->pdo); } return $this->pdo; } /** * Get the current PDO connection used for reading. * * @return \PDO */ public function getReadPdo() { if ($this->transactions >= 1) { return $this->getPdo(); } return $this->readPdo ?: $this->getPdo(); } /** * Set the PDO connection. * * @param \PDO|null $pdo * @return $this * * @throws \RuntimeException */ public function setPdo($pdo) { if ($this->transactions >= 1) { throw new RuntimeException("Can't swap PDO instance while within transaction."); } $this->pdo = $pdo; return $this; } /** * Set the PDO connection used for reading. * * @param \PDO|null $pdo * @return $this */ public function setReadPdo($pdo) { $this->readPdo = $pdo; return $this; } /** * Set the reconnect instance on the connection. * * @param callable $reconnector * @return $this */ public function setReconnector(callable $reconnector) { $this->reconnector = $reconnector; return $this; } /** * Get the database connection name. * * @return string|null */ public function getName() { return $this->getConfig('name'); } /** * Get an option from the configuration options. * * @param string $option * @return mixed */ public function getConfig($option) { return Arr::get($this->config, $option); } /** * Get the PDO driver name. * * @return string */ public function getDriverName() { return $this->getConfig('driver'); } /** * Get the query grammar used by the connection. * * @return \Illuminate\Database\Query\Grammars\Grammar */ public function getQueryGrammar() { return $this->queryGrammar; } /** * Set the query grammar used by the connection. * * @param \Illuminate\Database\Query\Grammars\Grammar $grammar * @return void */ public function setQueryGrammar(Query\Grammars\Grammar $grammar) { $this->queryGrammar = $grammar; } /** * Get the schema grammar used by the connection. * * @return \Illuminate\Database\Schema\Grammars\Grammar */ public function getSchemaGrammar() { return $this->schemaGrammar; } /** * Set the schema grammar used by the connection. * * @param \Illuminate\Database\Schema\Grammars\Grammar $grammar * @return void */ public function setSchemaGrammar(Schema\Grammars\Grammar $grammar) { $this->schemaGrammar = $grammar; } /** * Get the query post processor used by the connection. * * @return \Illuminate\Database\Query\Processors\Processor */ public function getPostProcessor() { return $this->postProcessor; } /** * Set the query post processor used by the connection. * * @param \Illuminate\Database\Query\Processors\Processor $processor * @return void */ public function setPostProcessor(Processor $processor) { $this->postProcessor = $processor; } /** * Get the event dispatcher used by the connection. * * @return \Illuminate\Contracts\Events\Dispatcher */ public function getEventDispatcher() { return $this->events; } /** * Set the event dispatcher instance on the connection. * * @param \Illuminate\Contracts\Events\Dispatcher $events * @return void */ public function setEventDispatcher(Dispatcher $events) { $this->events = $events; } /** * Determine if the connection in a "dry run". * * @return bool */ public function pretending() { return $this->pretending === true; } /** * Get the default fetch mode for the connection. * * @return int */ public function getFetchMode() { return $this->fetchMode; } /** * Get the fetch argument to be applied when selecting. * * @return mixed */ public function getFetchArgument() { return $this->fetchArgument; } /** * Get custom constructor arguments for the PDO::FETCH_CLASS fetch mode. * * @return array */ public function getFetchConstructorArgument() { return $this->fetchConstructorArgument; } /** * Set the default fetch mode for the connection, and optional arguments for the given fetch mode. * * @param int $fetchMode * @param mixed $fetchArgument * @param array $fetchConstructorArgument * @return int */ public function setFetchMode($fetchMode, $fetchArgument = null, array $fetchConstructorArgument = []) { $this->fetchMode = $fetchMode; $this->fetchArgument = $fetchArgument; $this->fetchConstructorArgument = $fetchConstructorArgument; } /** * Get the connection query log. * * @return array */ public function getQueryLog() { return $this->queryLog; } /** * Clear the query log. * * @return void */ public function flushQueryLog() { $this->queryLog = []; } /** * Enable the query log on the connection. * * @return void */ public function enableQueryLog() { $this->loggingQueries = true; } /** * Disable the query log on the connection. * * @return void */ public function disableQueryLog() { $this->loggingQueries = false; } /** * Determine whether we're logging queries. * * @return bool */ public function logging() { return $this->loggingQueries; } /** * Get the name of the connected database. * * @return string */ public function getDatabaseName() { return $this->database; } /** * Set the name of the connected database. * * @param string $database * @return string */ public function setDatabaseName($database) { $this->database = $database; } /** * Get the table prefix for the connection. * * @return string */ public function getTablePrefix() { return $this->tablePrefix; } /** * Set the table prefix in use by the connection. * * @param string $prefix * @return void */ public function setTablePrefix($prefix) { $this->tablePrefix = $prefix; $this->getQueryGrammar()->setTablePrefix($prefix); } /** * Set the table prefix and return the grammar. * * @param \Illuminate\Database\Grammar $grammar * @return \Illuminate\Database\Grammar */ public function withTablePrefix(Grammar $grammar) { $grammar->setTablePrefix($this->tablePrefix); return $grammar; } }