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The Cache Component

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Read the updated version of this page for Symfony 7.2 (the current stable version).

The Cache component provides features covering simple to advanced caching needs. It natively implements PSR-6 and the Cache Contracts for greatest interoperability. It is designed for performance and resiliency, ships with ready to use adapters for the most common caching backends. It enables tag-based invalidation and cache stampede protection via locking and early expiration.

Tip

The component also contains adapters to convert between PSR-6 and PSR-16. See Adapters For Interoperability between PSR-6 and PSR-16 Cache.

Installation

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$ composer require symfony/cache

Note

If you install this component outside of a Symfony application, you must require the vendor/autoload.php file in your code to enable the class autoloading mechanism provided by Composer. Read this article for more details.

Cache Contracts versus PSR-6

This component includes two different approaches to caching:

PSR-6 Caching:
A generic cache system, which involves cache "pools" and cache "items".
Cache Contracts:
A simpler yet more powerful way to cache values based on recomputation callbacks.

Tip

Using the Cache Contracts approach is recommended: it requires less code boilerplate and provides cache stampede protection by default.

Cache Contracts

All adapters support the Cache Contracts. They contain only two methods: get() and delete(). There's no set() method because the get() method both gets and sets the cache values.

The first thing you need is to instantiate a cache adapter. The FilesystemAdapter is used in this example:

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use Symfony\Component\Cache\Adapter\FilesystemAdapter;

$cache = new FilesystemAdapter();

Now you can retrieve and delete cached data using this object. The first argument of the get() method is a key, an arbitrary string that you associate to the cached value so you can retrieve it later. The second argument is a PHP callable which is executed when the key is not found in the cache to generate and return the value:

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use Symfony\Contracts\Cache\ItemInterface;

// The callable will only be executed on a cache miss.
$value = $cache->get('my_cache_key', function (ItemInterface $item): string {
    $item->expiresAfter(3600);

    // ... do some HTTP request or heavy computations
    $computedValue = 'foobar';

    return $computedValue;
});

echo $value; // 'foobar'

// ... and to remove the cache key
$cache->delete('my_cache_key');

Note

Use cache tags to delete more than one key at the time. Read more at Cache Invalidation.

Stampede Prevention

The Cache Contracts also come with built in Stampede prevention. This will remove CPU spikes at the moments when the cache is cold. If an example application spends 5 seconds to compute data that is cached for 1 hour and this data is accessed 10 times every second, this means that you mostly have cache hits and everything is fine. But after 1 hour, we get 10 new requests to a cold cache. So the data is computed again. The next second the same thing happens. So the data is computed about 50 times before the cache is warm again. This is where you need stampede prevention.

The first solution is to use locking: only allow one PHP process (on a per-host basis) to compute a specific key at a time. Locking is built-in by default, so you don't need to do anything beyond leveraging the Cache Contracts.

The second solution is also built-in when using the Cache Contracts: instead of waiting for the full delay before expiring a value, recompute it ahead of its expiration date. The Probabilistic early expiration algorithm randomly fakes a cache miss for one user while others are still served the cached value. You can control its behavior with the third optional parameter of get(), which is a float value called "beta".

By default the beta is 1.0 and higher values mean earlier recompute. Set it to 0 to disable early recompute and set it to INF to force an immediate recompute:

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use Symfony\Contracts\Cache\ItemInterface;

$beta = 1.0;
$value = $cache->get('my_cache_key', function (ItemInterface $item): string {
    $item->expiresAfter(3600);
    $item->tag(['tag_0', 'tag_1']);

    return '...';
}, $beta);

Generic Caching (PSR-6)

To use the generic PSR-6 Caching abilities, you'll need to learn its key concepts:

Item
A single unit of information stored as a key/value pair, where the key is the unique identifier of the information and the value is its contents; see the Cache Items article for more details.
Pool
A logical repository of cache items. All cache operations (saving items, looking for items, etc.) are performed through the pool. Applications can define as many pools as needed.
Adapter
It implements the actual caching mechanism to store the information in the filesystem, in a database, etc. The component provides several ready to use adapters for common caching backends (Redis, APCu, PDO, etc.)

Basic Usage (PSR-6)

This part of the component is an implementation of PSR-6, which means that its basic API is the same as defined in the document. Before starting to cache information, create the cache pool using any of the built-in adapters. For example, to create a filesystem-based cache, instantiate FilesystemAdapter:

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use Symfony\Component\Cache\Adapter\FilesystemAdapter;

$cache = new FilesystemAdapter();

Now you can create, retrieve, update and delete items using this cache pool:

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// create a new item by trying to get it from the cache
$productsCount = $cache->getItem('stats.products_count');

// assign a value to the item and save it
$productsCount->set(4711);
$cache->save($productsCount);

// retrieve the cache item
$productsCount = $cache->getItem('stats.products_count');
if (!$productsCount->isHit()) {
    // ... item does not exist in the cache
}
// retrieve the value stored by the item
$total = $productsCount->get();

// remove the cache item
$cache->deleteItem('stats.products_count');

For a list of all of the supported adapters, see Cache Pools and Supported Adapters.

Marshalling (Serializing) Data

Note

Marshalling and serializing are similar concepts. Serializing is the process of translating an object state into a format that can be stored (e.g. in a file). Marshalling is the process of translating both the object state and its codebase into a format that can be stored or transmitted.

Unmarshalling an object produces a copy of the original object, possibly by automatically loading the class definitions of the object.

Symfony uses marshallers (classes which implement MarshallerInterface) to process the cache items before storing them.

The DefaultMarshaller uses PHP's serialize() or igbinary_serialize() if the Igbinary extension is installed. There are other marshallers that can encrypt or compress the data before storing it:

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use Symfony\Component\Cache\Adapter\RedisAdapter;
use Symfony\Component\Cache\DefaultMarshaller;
use Symfony\Component\Cache\DeflateMarshaller;

$marshaller = new DeflateMarshaller(new DefaultMarshaller());
$cache = new RedisAdapter(new \Redis(), 'namespace', 0, $marshaller);
This work, including the code samples, is licensed under a Creative Commons BY-SA 3.0 license.
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