Introduction

The PHP Data Objects (PDO) extension defines a lightweight, consistent interface for accessing databases in PHP. Each database driver that implements the PDO interface can expose database-specific features as regular extension functions. Note that you cannot perform any database functions using the PDO extension by itself; you must use a database-specific PDO driver to access a database server.

PDO provides a data-access abstraction layer, which means that, regardless of which database you're using, you use the same functions to issue queries and fetch data. PDO does not provide a database abstraction; it doesn't rewrite SQL or emulate missing features. You should use a full-blown abstraction layer if you need that facility.

PDO ships with PHP 5.1, and is available as a PECL extension for PHP 5.0; PDO requires the new OO features in the core of PHP 5, and so will not run with earlier versions of PHP.

Installation

Runtime Configuration

The behaviour of these functions is affected by settings in php.ini.

Here's a short explanation of the configuration directives.

PDO Drivers

The following drivers currently implement the PDO interface:

Connections and Connection management

Connections are established by creating instances of the PDO base class. It doesn't matter which driver you want to use; you always use the PDO class name. The constructor accepts parameters for specifying the database source (known as the DSN) and optionally for the username and password (if any).

Example 1. Connecting to MySQL <?php $dbh = new PDO('mysql:host=localhost;dbname=test', $user, $pass); ?>

If there are any connection errors, a PDOException object will be thrown. You may catch the exception if you want to handle the error condition, or you may opt to leave it for an application global exception handler that you set up via set_exception_handler().

Example 2. Handling connection errors <?php try {    $dbh = new PDO('mysql:host=localhost;dbname=test', $user, $pass);    foreach ($dbh->query('SELECT * from FOO') as $row) {       print_r($row);    }    $dbh = null; } catch (PDOException $e) {    print "Error!: " . $e->getMessage() . "<br/>";    die(); } ?>

Upon successful connection to the database, an instance of the PDO class is returned to your script. The connection remains active for the lifetime of that PDO object. To close the connection, you need to destroy the object by ensuring that all remaining references to it are deleted--you do this by assigning NULL to the variable that holds the object. If you don't do this explicitly, PHP will automatically close the connection when your script ends.

Example 3. Closing a connection <?php $dbh = new PDO('mysql:host=localhost;dbname=test', $user, $pass); // use the connection here // and now we're done; close it $dbh = null; ?>

Many web applications will benefit from making persistent connections to database servers. Persistent connections are not closed at the end of the script, but are cached and re-used when another script requests a connection using the same credentials. The persistent connection cache allows you to avoid the overhead of establishing a new connection every time a script needs to talk to a database, resulting in a faster web application.

Example 4. Persistent connections <?php $dbh = new PDO('mysql:host=localhost;dbname=test', $user, $pass, array(   PDO::ATTR_PERSISTENT => true )); ?>

Transactions and auto-commit

Now that you're connected via PDO, you must understand how PDO manages transactions before you start issuing queries. If you've never encountered transactions before, they offer 4 major features: Atomicity, Consistency, Isolation and Durability (ACID). In layman's terms, any work carried out in a transaction, even if it is carried out in stages, is guaranteed to be applied to the database safely, and without interference from other connections, when it is committed. Transactional work can also be automatically undone at your request (provided you haven't already committed it), which makes error handling in your scripts easier.

Transactions are typically implemented by "saving-up" your batch of changes to be applied all at once; this has the nice side effect of drastically improving the efficiency of those updates. In other words, transactions can make your scripts faster and potentially more robust (you still need to use them correctly to reap that benefit).

Unfortunately, not every database supports transactions, so PDO needs to run in what is known as "auto-commit" mode when you first open the connection. Auto-commit mode means that every query that you run has its own implicit transaction, if the database supports it, or no transaction if the database doesn't support transactions. If you need a transaction, you must use the PDO::beginTransaction() method to initiate one. If the underlying driver does not support transactions, a PDOException will be thrown (regardless of your error handling settings: this is always a serious error condition). Once you are in a transaction, you may use PDO::commit() or PDO::rollBack() to finish it, depending on the success of the code you run during the transaction.

When the script ends or when a connection is about to be closed, if you have an outstanding transaction, PDO will automatically roll it back. This is a safety measure to help avoid inconsistency in the cases where the script terminates unexpectedly--if you didn't explicitly commit the transaction, then it is assumed that something went awry, so the rollback is performed for the safety of your data.

Example 5. Executing a batch in a transaction In the following sample, let's assume that we are creating a set of entries for a new employee, who has been assigned an ID number of 23. In addition to entering the basic data for that person, we also need to record their salary. It's pretty simple to make two separate updates, but by enclosing them within the PDO::beginTransaction() and PDO::commit() calls, we are guaranteeing that no one else will be able to see those changes until they are complete. If something goes wrong, the catch block rolls back all changes made since the transaction was started, and then prints out an error message. <?php try {   $dbh = new PDO('odbc:SAMPLE', 'db2inst1', 'ibmdb2',       array(PDO::ATTR_PERSISTENT => true));   echo "Connected\n";   $dbh->setAttribute(PDO::ATTR_ERRMODE, PDO::ERRMODE_EXCEPTION);   $dbh->beginTransaction();   $dbh->exec("insert into staff (id, first, last) values (23, 'Joe', 'Bloggs')");   $dbh->exec("insert into salarychange (id, amount, changedate)       values (23, 50000, NOW())");   $dbh->commit();    } catch (Exception $e) {   $dbh->rollBack();   echo "Failed: " . $e->getMessage(); } ?>

You're not limited to making updates in a transaction; you can also issue complex queries to extract data, and possibly use that information to build up more updates and queries; while the transaction is active, you are guaranteed that no one else can make changes while you are in the middle of your work. In truth, this isn't 100% correct, but it is a good-enough introduction, if you've never heard of transactions before.

Prepared statements and stored procedures

Many of the more mature databases support the concept of prepared statements. What are they? You can think of them as a kind of compiled template for the SQL that you want to run, that can be customized using variable parameters. Prepared statements offer two major benefits:

• The query only needs to be parsed (or prepared) once, but can be executed multiple times with the same or different parameters. When the query is prepared, the database will analyze, compile and optimize it's plan for executing the query. For complex queries this process can take up enough time that it will noticeably slow down your application if you need to repeat the same query many times with different parameters. By using a prepared statement you avoid repeating the analyze/compile/optimize cycle. In short, prepared statements use fewer resources and thus run faster.

• The parameters to prepared statements don't need to be quoted; the driver handles it for you. If your application exclusively uses prepared statements, you can be sure that no SQL injection will occur. (However, if you're still building up other parts of the query based on untrusted input, you're still at risk).

Prepared statements are so useful that they are the only feature that PDO will emulate for drivers that don't support them. This ensures that you will be able to use the same data access paradigm regardless of the capabilities of the database.

Example 6. Repeated inserts using prepared statements This example performs an INSERT query by substituting a name and a value for the named placeholders. <?php $stmt = $dbh->prepare("INSERT INTO REGISTRY (name, value) VALUES (:name, :value)"); $stmt->bindParam(':name', $name); $stmt->bindParam(':value', $value); // insert one row $name = 'one'; $value = 1; $stmt->execute(); // insert another row with different values $name = 'two'; $value = 2; $stmt->execute(); ?>

Example 7. Repeated inserts using prepared statements This example performs an INSERT query by substituting a name and a value for the positional ? placeholders. <?php $stmt = $dbh->prepare("INSERT INTO REGISTRY (name, value) VALUES (?, ?)"); $stmt->bindParam(1, $name); $stmt->bindParam(2, $value); // insert one row $name = 'one'; $value = 1; $stmt->execute(); // insert another row with different values $name = 'two'; $value = 2; $stmt->execute(); ?>

Example 8. Fetching data using prepared statements This example fetches data based on a key value supplied by a form. The user input is automatically quoted, so there is no risk of a SQL injection attack. <?php $stmt = $dbh->prepare("SELECT * FROM REGISTRY where name = ?"); if ($stmt->execute(array($_GET['name']))) {   while ($row = $stmt->fetch()) {     print_r($row);   } } ?>

If the database driver supports it, you may also bind parameters for output as well as input. Output parameters are typically used to retrieve values from stored procedures. Output parameters are slightly more complex to use than input parameters, in that you must know how large a given parameter might be when you bind it. If the value turns out to be larger than the size you suggested, an error is raised.

Example 9. Calling a stored procedure with an output parameter <?php $stmt = $dbh->prepare("CALL sp_returns_string(?)"); $stmt->bindParam(1, $return_value, PDO::PARAM_STR, 4000); // call the stored procedure $stmt->execute(); print "procedure returned $return_value\n"; ?>

You may also specify parameters that hold values both input and output; the syntax is similar to output parameters. In this next example, the string 'hello' is passed into the stored procedure, and when it returns, hello is replaced with the return value of the procedure.

Example 10. Calling a stored procedure with an input/output parameter <?php $stmt = $dbh->prepare("CALL sp_takes_string_returns_string(?)"); $value = 'hello'; $stmt->bindParam(1, $value, PDO::PARAM_STR|PDO::PARAM_INPUT_OUTPUT, 4000); // call the stored procedure $stmt->execute(); print "procedure returned $value\n"; ?>

Example 11. Invalid use of placeholder <?php $stmt = $dbh->prepare("SELECT * FROM REGISTRY where name LIKE '%?%'"); $stmt->execute(array($_GET['name'])); // placeholder must be used in the place of the whole value $stmt = $dbh->prepare("SELECT * FROM REGISTRY where name LIKE ?"); $stmt->execute(array("%$_GET[name]%")); ?>

Errors and error handling

PDO offers you a choice of 3 different error handling strategies, to fit your style of application development.

• PDO::ERRMODE_SILENT

  This is the default mode. PDO will simply set the error code for you to inspect using the PDO::errorCode() and PDO::errorInfo() methods on both the statement and database objects; if the error resulted from a call on a statement object, you would invoke the PDOStatement::errorCode() or PDOStatement::errorInfo() method on that object. If the error resulted from a call on the database object, you would invoke those methods on the database object instead.

• PDO::ERRMODE_WARNING

  In addition to setting the error code, PDO will emit a traditional E_WARNING message. This setting is useful during debugging/testing, if you just want to see what problems occurred without interrupting the flow of the application.

• PDO::ERRMODE_EXCEPTION

  In addition to setting the error code, PDO will throw a PDOException and set its properties to reflect the error code and error information. This setting is also useful during debugging, as it will effectively "blow up" the script at the point of the error, very quickly pointing a finger at potential problem areas in your code (remember: transactions are automatically rolled back if the exception causes the script to terminate).

  Exception mode is also useful because you can structure your error handling more clearly than with traditional PHP-style warnings, and with less code/nesting than by running in silent mode and explicitly checking the return value of each database call.

  See Exceptions for more information about Exceptions in PHP.

PDO standardizes on using SQL-92 SQLSTATE error code strings; individual PDO drivers are responsible for mapping their native codes to the appropriate SQLSTATE codes. The PDO::errorCode() method returns a single SQLSTATE code. If you need more specific information about an error, PDO also offers an PDO::errorInfo() method which returns an array containing the SQLSTATE code, the driver specific error code and driver specific error string.

Large Objects (LOBs)

At some point in your application, you might find that you need to store "large" data in your database. Large typically means "around 4kb or more", although some databases can happily handle up to 32kb before data becomes "large". Large objects can be either textual or binary in nature. PDO allows you to work with this large data type by using the PDO::PARAM_LOB type code in your PDOStatement::bindParam() or PDOStatement::bindColumn() calls. PDO::PARAM_LOB tells PDO to map the data as a stream, so that you can manipulate it using the PHP Streams API.

Example 12. Displaying an image from a database This example binds the LOB into the variable named $lob and then sends it to the browser using fpassthru(). Since the LOB is represented as a stream, functions such as fgets(), fread() and stream_get_contents() can be used on it. <?php $db = new PDO('odbc:SAMPLE', 'db2inst1', 'ibmdb2'); $stmt = $db->prepare("select contenttype, imagedata from images where id=?"); $stmt->execute(array($_GET['id'])); $stmt->bindColumn(1, $type, PDO::PARAM_STR, 256); $stmt->bindColumn(2, $lob, PDO::PARAM_LOB); $stmt->fetch(PDO::FETCH_BOUND); header("Content-Type: $type"); fpassthru($lob); ?>

Example 13. Inserting an image into a database This example opens up a file and passes the file handle to PDO to insert it as a LOB. PDO will do its best to get the contents of the file up to the database in the most efficient manner possible. <?php $db = new PDO('odbc:SAMPLE', 'db2inst1', 'ibmdb2'); $stmt = $db->prepare("insert into images (id, contenttype, imagedata) values (?, ?, ?)"); $id = get_new_id(); // some function to allocate a new ID // assume that we are running as part of a file upload form // You can find more information in the PHP documentation $fp = fopen($_FILES['file']['tmp_name'], 'rb'); $stmt->bindParam(1, $id); $stmt->bindParam(2, $_FILES['file']['type']); $stmt->bindParam(3, $fp, PDO::PARAM_LOB); $stmt->beginTransaction(); $stmt->execute(); $stmt->commit(); ?>

Example 14. Inserting an image into a database: Oracle Oracle requires a slightly different syntax for inserting a lob from a file. It's also essential that you perform the insert under a transaction, otherwise your newly inserted LOB will be committed with a zero-length as part of the implicit commit that happens when the query is executed: <?php $db = new PDO('oci:', 'scott', 'tiger'); $stmt = $db->prepare("insert into images (id, contenttype, imagedata) " .   "VALUES (?, ?, EMPTY_BLOB()) RETURNING imagedata INTO ?"); $id = get_new_id(); // some function to allocate a new ID // assume that we are running as part of a file upload form // You can find more information in the PHP documentation $fp = fopen($_FILES['file']['tmp_name'], 'rb'); $stmt->bindParam(1, $id); $stmt->bindParam(2, $_FILES['file']['type']); $stmt->bindParam(3, $fp, PDO::PARAM_LOB); $stmt->beginTransaction(); $stmt->execute(); $stmt->commit(); ?>

Predefined Classes

Predefined Constants

The constants below are defined by this extension, and will only be available when the extension has either been compiled into PHP or dynamically loaded at runtime.