Performance Tuning Yii 2
Performance Tuning Yii 2

Performance Tuning

There are many factors affecting the performance of your Web application. Some are environmental, some are related with your code, while some others are related with Yii itself. In this section, we will enumerate most of these factors and explain how you can improve your application performance by adjusting these factors.

Optimizing your PHP Environment

A well configured PHP environment is very important. In order to get maximum performance,

  • Use the latest stable PHP version. Major releases of PHP may bring significant performance improvements.
  • Enable bytecode caching with Opcache (PHP 5.5 or later) or APC (PHP 5.4). Bytecode caching avoids the time spent in parsing and including PHP scripts for every incoming request.
  • Tune realpath() cache.

Disabling Debug Mode

When running an application in production, you should disable debug mode. Yii uses the value of a constant named YII_DEBUG to indicate whether debug mode should be enabled. When debug mode is enabled, Yii will take extra time to generate and record debugging information.

You may place the following line of code at the beginning of the entry script to disable debug mode:

defined('YII_DEBUG') or define('YII_DEBUG', false);

Info: The default value of YII_DEBUG is false. So if you are certain that you do not change its default value somewhere else in your application code, you may simply remove the above line to disable debug mode.

Using Caching Techniques

You can use various caching techniques to significantly improve the performance of your application. For example, if your application allows users to enter text in Markdown format, you may consider caching the parsed Markdown content to avoid parsing the same Markdown text repeatedly in every request. Please refer to the Caching section to learn about the caching support provided by Yii.

Enabling Schema Caching

Schema caching is a special caching feature that should be enabled whenever you are using Active Record. As you know, Active Record is intelligent enough to detect schema information (e.g. column names, column types, constraints) about a DB table without requiring you to manually describe them. Active Record obtains this information by executing extra SQL queries. By enabling schema caching, the retrieved schema information will be saved in the cache and reused in future requests.

To enable schema caching, configure a cache application component to store the schema information and set [[yii\db\Connection::enableSchemaCache]] to be true in the application configuration:

return [
    // ...
    'components' => [
        // ...
        'cache' => [
            'class' => 'yii\caching\FileCache',
        'db' => [
            'class' => 'yii\db\Connection',
            'dsn' => 'mysql:host=localhost;dbname=mydatabase',
            'username' => 'root',
            'password' => '',
            'enableSchemaCache' => true,

            // Duration of schema cache.
            'schemaCacheDuration' => 3600,

            // Name of the cache component used to store schema information
            'schemaCache' => 'cache',

Combining and Minimizing Assets

A complex Web page often includes many CSS and/or JavaScript asset files. To reduce the number of HTTP requests and the overall download size of these assets, you should consider combining them into one single file and compressing it. This may greatly improve the page loading time and reduce the server load. For more details, please refer to the Assets section.

Optimizing Session Storage

By default session data are stored in files. The implementation is locking a file from opening a session to the point it's closed either by session_write_close() (in Yii it could be done as Yii::$app->session->close()) or at the end of request. While session file is locked all other requests which are trying to use the same session are blocked i.e. waiting for the initial request to release session file. This is fine for development and probably small projects. But when it comes to handling massive concurrent requests, it is better to use more sophisticated storage, such as database. Yii supports a variety of session storage out of box. You can use these storage by configuring the session component in the application configuration like the following,

return [
    // ...
    'components' => [
        'session' => [
            'class' => 'yii\web\DbSession',

            // Set the following if you want to use DB component other than
            // default 'db'.
            // 'db' => 'mydb',

            // To override default session table, set the following
            // 'sessionTable' => 'my_session',

The above configuration uses a database table to store session data. By default, it will use the db application component as the database connection and store the session data in the session table. You do have to create the session table as follows in advance, though,

CREATE TABLE session (
    expire INTEGER,
    data BLOB

You may also store session data in a cache by using [[yii\web\CacheSession]]. In theory, you can use any supported cache storage. Note, however, that some cache storage may flush cached data when the storage limit is reached. For this reason, you should mainly use those cache storage that do not enforce storage limit.

If you have Redis on your server, it is highly recommended you use it as session storage by using [[yii\redis\Session]].

Optimizing Databases

Executing DB queries and fetching data from databases are often the main performance bottleneck in a Web application. Although using data caching techniques may alleviate the performance hit, it does not fully solve the problem. When the database contains enormous amounts of data and the cached data is invalid, fetching the latest data could be prohibitively expensive without proper database and query design.

A general technique to improve the performance of DB queries is to create indices for table columns that need to be filtered by. For example, if you need to look for a user record by username, you should create an index on username. Note that while indexing can make SELECT queries much faster, it will slow down INSERT, UPDATE and DELETE queries.

For complex DB queries, it is recommended that you create database views to save the query parsing and preparation time.

Last but not least, use LIMIT in your SELECT queries. This avoids fetching an overwhelming amount of data from the database and exhausting the memory allocated to PHP.

Using Plain Arrays

Although Active Record is very convenient to use, it is not as efficient as using plain arrays when you need to retrieve a large amount of data from database. In this case, you may consider calling asArray() while using Active Record to query data so that the retrieved data is represented as arrays instead of bulky Active Record objects. For example,

class PostController extends Controller
    public function actionIndex()
        $posts = Post::find()->limit(100)->asArray()->all();
        return $this->render('index', ['posts' => $posts]);

In the above code, $posts will be populated as an array of table rows. Each row is a plain array. To access the title column of the i-th row, you may use the expression $posts[$i]['title'].

You may also use DAO to build queries and retrieve data in plain arrays.

Optimizing Composer Autoloader

Because Composer autoloader is used to include most third-party class files, you should consider optimizing it by executing the following command:

composer dumpautoload -o

Additionally you may consider using authoritative class maps and APCu cache. Note that both opmizations may or may not be suitable for your particular case.

Processing Data Offline

When a request involves some resource intensive operations, you should think of ways to perform those operations in offline mode without having users wait for them to finish.

There are two methods to process data offline: pull and push.

In the pull method, whenever a request involves some complex operation, you create a task and save it in a persistent storage, such as database. You then use a separate process (such as a cron job) to pull the tasks and process them. This method is easy to implement, but it has some drawbacks. For example, the task process needs to periodically pull from the task storage. If the pull frequency is too low, the tasks may be processed with great delay, but if the frequency is too high, it will introduce high overhead.

In the push method, you would use a message queue (e.g. RabbitMQ, ActiveMQ, Amazon SQS, etc.) to manage the tasks. Whenever a new task is put on the queue, it will initiate or notify the task handling process to trigger the task processing.

Performance Profiling

You should profile your code to find out the performance bottlenecks and take appropriate measures accordingly. The following profiling tools may be useful:

Prepare application for scaling

When nothing helps you may try making your application scalabe. A good introduction is provided in Configuring a Yii 2 Application for an Autoscaling Stack.

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