Symfony is fast, right out of the box. However, you can make it faster if you optimize your servers and your applications as explained in the following performance checklists.
Use these checklists to verify that your application and server are configured for maximum performance:
- Symfony Application Checklist:
- Production Server Checklist:
- :ref:`Dump the service container into a single file <performance-service-container-single-file>`
- :ref:`Use the OPcache byte code cache <performance-use-opcache>`
- :ref:`Configure OPcache for maximum performance <performance-configure-opcache>`
- :ref:`Don't check PHP files timestamps <performance-dont-check-timestamps>`
- :ref:`Configure the PHP realpath Cache <performance-configure-realpath-cache>`
- :ref:`Optimize Composer Autoloader <performance-optimize-composer-autoloader>`
If your production server still uses the legacy APC PHP extension instead of OPcache, install the APCu Polyfill component in your application to enable compatibility with APCu PHP functions and unlock support for advanced Symfony features, such as the APCu Cache adapter.
Use the :ref:`framework.enabled_locales <reference-enabled-locales>` option to only generate the translation files actually used in your application.
Symfony compiles the :doc:`service container </service_container>` into multiple
small files by default. Set this parameter to true
to compile the entire
container into a single file, which could improve performance when using
"class preloading" in PHP 7.4 or newer versions:
.. configuration-block:: .. code-block:: yaml # config/services.yaml parameters: # ... .container.dumper.inline_factories: true .. code-block:: xml <!-- config/services.xml --> <?xml version="1.0" encoding="UTF-8" ?> <container xmlns="http://symfony.com/schema/dic/services" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://symfony.com/schema/dic/services https://symfony.com/schema/dic/services/services-1.0.xsd"> <parameters> <!-- ... --> <parameter key=".container.dumper.inline_factories">true</parameter> </parameters> </container> .. code-block:: php // config/services.php namespace Symfony\Component\DependencyInjection\Loader\Configurator; return function(ContainerConfigurator $container): void { $container->parameters()->set('.container.dumper.inline_factories', true); };
Tip
The .
prefix denotes a parameter that is only used during compilation of the container.
See :ref:`Configuration Parameters <configuration-parameters>` for more details.
OPcache stores the compiled PHP files to avoid having to recompile them for every request. There are some byte code caches available, but as of PHP 5.5, PHP comes with OPcache built-in. For older versions, the most widely used byte code cache is APC.
Starting from PHP 7.4, OPcache can compile and load classes at start-up and make them available to all requests until the server is restarted, improving performance significantly.
During container compilation (e.g. when running the cache:clear
command),
Symfony generates a file with the list of classes to preload in the
var/cache/
directory. Rather than use this file directly, use the
config/preload.php
file that is created when
:doc:`using Symfony Flex in your project </setup/flex>`:
; php.ini
opcache.preload=/path/to/project/config/preload.php
; required for opcache.preload:
opcache.preload_user=www-data
If this file is missing, run this command to update the Symfony Flex recipe:
composer recipes:update symfony/framework-bundle
.
Use the :ref:`container.preload <dic-tags-container-preload>` and :ref:`container.no_preload <dic-tags-container-nopreload>` service tags to define which classes should or should not be preloaded by PHP.
The default OPcache configuration is not suited for Symfony applications, so it's recommended to change these settings as follows:
; php.ini
; maximum memory that OPcache can use to store compiled PHP files
opcache.memory_consumption=256
; maximum number of files that can be stored in the cache
opcache.max_accelerated_files=20000
In production servers, PHP files should never change, unless a new application version is deployed. However, by default OPcache checks if cached files have changed their contents since they were cached. This check introduces some overhead that can be avoided as follows:
; php.ini
opcache.validate_timestamps=0
After each deployment, you must empty and regenerate the cache of OPcache. Otherwise you won't see the updates made in the application. Given that in PHP, the CLI and the web processes don't share the same OPcache, you cannot clear the web server OPcache by executing some command in your terminal. These are some of the possible solutions:
- Restart the web server;
- Call the
apc_clear_cache()
oropcache_reset()
functions via the web server (i.e. by having these in a script that you execute over the web); - Use the cachetool utility to control APC and OPcache from the CLI.
When a relative path is transformed into its real and absolute path, PHP caches the result to improve performance. Applications that open many PHP files, such as Symfony projects, should use at least these values:
; php.ini
; maximum memory allocated to store the results
realpath_cache_size=4096K
; save the results for 10 minutes (600 seconds)
realpath_cache_ttl=600
Note
PHP disables the realpath
cache when the open_basedir config option
is enabled.
The class loader used while developing the application is optimized to find new
and changed classes. In production servers, PHP files should never change,
unless a new application version is deployed. That's why you can optimize
Composer's autoloader to scan the entire application once and build an
optimized "class map", which is a big array of the locations of all the classes
and it's stored in vendor/composer/autoload_classmap.php
.
Execute this command to generate the new class map (and make it part of your deployment process too):
$ composer dump-autoload --no-dev --classmap-authoritative
--no-dev
excludes the classes that are only needed in the development environment (i.e.require-dev
dependencies andautoload-dev
rules);--classmap-authoritative
creates a class map for PSR-0 and PSR-4 compatible classes used in your application and prevents Composer from scanning the file system for classes that are not found in the class map. (see: Composer's autoloader optimization).
In :ref:`debug mode <debug-mode>`, Symfony generates an XML file with all the
:doc:`service container </service_container>` information (services, arguments, etc.)
This XML file is used by various debugging commands such as debug:container
and debug:autowiring
.
When the container grows larger and larger, so does the size of the file and the time to generate it. If the benefit of this XML file does not outweigh the decrease in performance, you can stop generating the file as follows:
.. configuration-block:: .. code-block:: yaml # config/services.yaml parameters: # ... debug.container.dump: false .. code-block:: xml <!-- config/services.xml --> <?xml version="1.0" encoding="UTF-8" ?> <container xmlns="http://symfony.com/schema/dic/services" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://symfony.com/schema/dic/services https://symfony.com/schema/dic/services/services-1.0.xsd"> <parameters> <!-- ... --> <parameter key="debug.container.dump">false</parameter> </parameters> </container> .. code-block:: php // config/services.php // ... $container->parameters()->set('debug.container.dump', false);
Blackfire is the best tool to profile and optimize performance of Symfony applications during development, test and production. It's a commercial service, but provides a full-featured demo.
Symfony provides a basic performance profiler in the development :ref:`config environment <configuration-environments>`. Click on the "time panel" of the :ref:`web debug toolbar <web-debug-toolbar>` to see how much time Symfony spent on tasks such as making database queries and rendering templates.
You can measure the execution time and memory consumption of your own code and display the result in the Symfony profiler thanks to the Stopwatch component.
When using :ref:`autowiring <services-autowire>`, type-hint any controller or
service argument with the :class:`Symfony\\Component\\Stopwatch\\Stopwatch` class
and Symfony will inject the debug.stopwatch
service:
use Symfony\Component\Stopwatch\Stopwatch; class DataExporter { public function __construct( private Stopwatch $stopwatch, ) { } public function export(): void { // the argument is the name of the "profiling event" $this->stopwatch->start('export-data'); // ...do things to export data... // reset the stopwatch to delete all the data measured so far // $this->stopwatch->reset(); $this->stopwatch->stop('export-data'); } }
If the request calls this service during its execution, you'll see a new
event called export-data
in the Symfony profiler.
The start()
, stop()
and getEvent()
methods return a
:class:`Symfony\\Component\\Stopwatch\\StopwatchEvent` object that provides
information about the current event, even while it's still running. This
object can be converted to a string for a quick summary:
// ... dump((string) $this->stopwatch->getEvent('export-data')); // dumps e.g. '4.50 MiB - 26 ms'
You can also profile your template code with the :ref:`stopwatch Twig tag <reference-twig-tag-stopwatch>`:
{% stopwatch 'render-blog-posts' %}
{% for post in blog_posts %}
{# ... #}
{% endfor %}
{% endstopwatch %}
Use the second optional argument of the start()
method to define the
category or tag of the event. This helps keep events organized by type:
$this->stopwatch->start('export-data', 'export');
A real-world stopwatch not only includes the start/stop button but also a
"lap button" to measure each partial lap. This is exactly what the lap()
method does, which stops an event and then restarts it immediately:
$this->stopwatch->start('process-data-records', 'export'); foreach ($records as $record) { // ... some code goes here $this->stopwatch->lap('process-data-records'); } $event = $this->stopwatch->stop('process-data-records'); // $event->getDuration(), $event->getMemory(), etc. // Lap information is stored as "periods" within the event: // $event->getPeriods();
Sections are a way to split the profile timeline into groups. Example:
$this->stopwatch->openSection(); $this->stopwatch->start('validating-file', 'validation'); $this->stopwatch->stopSection('parsing'); $events = $this->stopwatch->getSectionEvents('parsing'); // later you can reopen a section passing its name to the openSection() method $this->stopwatch->openSection('parsing'); $this->stopwatch->start('processing-file'); $this->stopwatch->stopSection('parsing');
All events that don't belong to any named section are added to the special section
called __root__
. This way you can get all stopwatch events, even if you don't
know their names, as follows:
foreach($this->stopwatch->getSectionEvents('__root__') as $event) { echo (string) $event; }