Cache
Using a cache is a great way of making your application run quicker. The Symfony cache component ships with many adapters to different storages. Every adapter is developed for high performance.
The following example shows a typical usage of the cache:
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use Symfony\Contracts\Cache\ItemInterface;
// The callable will only be executed on a cache miss.
$value = $pool->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
$pool->delete('my_cache_key');
Symfony supports Cache Contracts and PSR-6/16 interfaces. You can read more about these at the component documentation.
Configuring Cache with FrameworkBundle
When configuring the cache component there are a few concepts you should know of:
- Pool
- This is a service that you will interact with. Each pool will always have its own namespace and cache items. There is never a conflict between pools.
- Adapter
- An adapter is a template that you use to create pools.
- Provider
- A provider is a service that some adapters use to connect to the storage. Redis and Memcached are examples of such adapters. If a DSN is used as the provider then a service is automatically created.
There are two pools that are always enabled by default. They are cache.app
and
cache.system
. The system cache is used for things like annotations, serializer,
and validation. The cache.app
can be used in your code. You can configure which
adapter (template) they use by using the app
and system
key like:
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# config/packages/cache.yaml
framework:
cache:
app: cache.adapter.filesystem
system: cache.adapter.system
Tip
While it is possible to reconfigure the system
cache, it's recommended
to keep the default configuration applied to it by Symfony.
The Cache component comes with a series of adapters pre-configured:
- cache.adapter.apcu
- cache.adapter.array
- cache.adapter.doctrine_dbal
- cache.adapter.filesystem
- cache.adapter.memcached
- cache.adapter.pdo
- cache.adapter.psr6
- cache.adapter.redis
- cache.adapter.redis_tag_aware (Redis adapter optimized to work with tags)
Note
There's also a special cache.adapter.system
adapter. It's recommended to
use it for the system cache. This adapter uses some
logic to dynamically select the best possible storage based on your system
(either PHP files or APCu).
Some of these adapters could be configured via shortcuts.
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# config/packages/cache.yaml
framework:
cache:
directory: '%kernel.cache_dir%/pools' # Only used with cache.adapter.filesystem
default_doctrine_dbal_provider: 'doctrine.dbal.default_connection'
default_psr6_provider: 'app.my_psr6_service'
default_redis_provider: 'redis://localhost'
default_memcached_provider: 'memcached://localhost'
default_pdo_provider: 'pgsql:host=localhost'
7.1
Using a DSN as the provider for the PDO adapter was introduced in Symfony 7.1.
Creating Custom (Namespaced) Pools
You can also create more customized pools:
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# config/packages/cache.yaml
framework:
cache:
default_memcached_provider: 'memcached://localhost'
pools:
# creates a "custom_thing.cache" service
# autowireable via "CacheInterface $customThingCache"
# uses the "app" cache configuration
custom_thing.cache:
adapter: cache.app
# creates a "my_cache_pool" service
# autowireable via "CacheInterface $myCachePool"
my_cache_pool:
adapter: cache.adapter.filesystem
# uses the default_memcached_provider from above
acme.cache:
adapter: cache.adapter.memcached
# control adapter's configuration
foobar.cache:
adapter: cache.adapter.memcached
provider: 'memcached://user:password@example.com'
# uses the "foobar.cache" pool as its backend but controls
# the lifetime and (like all pools) has a separate cache namespace
short_cache:
adapter: foobar.cache
default_lifetime: 60
Each pool manages a set of independent cache keys: keys from different pools never collide, even if they share the same backend. This is achieved by prefixing keys with a namespace that's generated by hashing the name of the pool, the name of the cache adapter class and a configurable seed that defaults to the project directory and compiled container class.
Each custom pool becomes a service whose service ID is the name of the pool
(e.g. custom_thing.cache
). An autowiring alias is also created for each pool
using the camel case version of its name - e.g. custom_thing.cache
can be
injected automatically by naming the argument $customThingCache
and type-hinting it
with either CacheInterface or
Psr\Cache\CacheItemPoolInterface
:
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use Symfony\Contracts\Cache\CacheInterface;
// ...
// from a controller method
public function listProducts(CacheInterface $customThingCache): Response
{
// ...
}
// in a service
public function __construct(private CacheInterface $customThingCache)
{
// ...
}
Tip
If you need the namespace to be interoperable with a third-party app,
you can take control over auto-generation by setting the namespace
attribute of the cache.pool
service tag. For example, you can
override the service definition of the adapter:
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# config/services.yaml
services:
# ...
app.cache.adapter.redis:
parent: 'cache.adapter.redis'
tags:
- { name: 'cache.pool', namespace: 'my_custom_namespace' }
Custom Provider Options
Some providers have specific options that can be configured. The
RedisAdapter allows you to
create providers with the options timeout
, retry_interval
. etc. To use these
options with non-default values you need to create your own \Redis
provider
and use that when configuring the pool.
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# config/packages/cache.yaml
framework:
cache:
pools:
cache.my_redis:
adapter: cache.adapter.redis
provider: app.my_custom_redis_provider
services:
app.my_custom_redis_provider:
class: \Redis
factory: ['Symfony\Component\Cache\Adapter\RedisAdapter', 'createConnection']
arguments:
- 'redis://localhost'
- { retry_interval: 2, timeout: 10 }
Creating a Cache Chain
Different cache adapters have different strengths and weaknesses. Some might be really quick but optimized to store small items and some may be able to contain a lot of data but are quite slow. To get the best of both worlds you may use a chain of adapters.
A cache chain combines several cache pools into a single one. When storing an item in a cache chain, Symfony stores it in all pools sequentially. When retrieving an item, Symfony tries to get it from the first pool. If it's not found, it tries the next pools until the item is found or an exception is thrown. Because of this behavior, it's recommended to define the adapters in the chain in order from fastest to slowest.
If an error happens when storing an item in a pool, Symfony stores it in the other pools and no exception is thrown. Later, when the item is retrieved, Symfony stores the item automatically in all the missing pools.
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# config/packages/cache.yaml
framework:
cache:
pools:
my_cache_pool:
default_lifetime: 31536000 # One year
adapters:
- cache.adapter.array
- cache.adapter.apcu
- {name: cache.adapter.redis, provider: 'redis://user:password@example.com'}
Using Cache Tags
In applications with many cache keys it could be useful to organize the data stored to be able to invalidate the cache more efficiently. One way to achieve that is to use cache tags. One or more tags could be added to the cache item. All items with the same tag could be invalidated with one function call:
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use Symfony\Contracts\Cache\ItemInterface;
use Symfony\Contracts\Cache\TagAwareCacheInterface;
class SomeClass
{
// using autowiring to inject the cache pool
public function __construct(
private TagAwareCacheInterface $myCachePool,
) {
}
public function someMethod(): void
{
$value0 = $this->myCachePool->get('item_0', function (ItemInterface $item): string {
$item->tag(['foo', 'bar']);
return 'debug';
});
$value1 = $this->myCachePool->get('item_1', function (ItemInterface $item): string {
$item->tag('foo');
return 'debug';
});
// Remove all cache keys tagged with "bar"
$this->myCachePool->invalidateTags(['bar']);
}
}
The cache adapter needs to implement TagAwareCacheInterface to enable this feature. This could be added by using the following configuration.
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# config/packages/cache.yaml
framework:
cache:
pools:
my_cache_pool:
adapter: cache.adapter.redis_tag_aware
Tags are stored in the same pool by default. This is good in most scenarios. But sometimes it might be better to store the tags in a different pool. That could be achieved by specifying the adapter.
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# config/packages/cache.yaml
framework:
cache:
pools:
my_cache_pool:
adapter: cache.adapter.redis
tags: tag_pool
tag_pool:
adapter: cache.adapter.apcu
Note
The interface TagAwareCacheInterface is
autowired to the cache.app
service.
Clearing the Cache
To clear the cache you can use the bin/console cache:pool:clear [pool]
command.
That will remove all the entries from your storage and you will have to recalculate
all the values. You can also group your pools into "cache clearers". There are 3 cache
clearers by default:
cache.global_clearer
cache.system_clearer
cache.app_clearer
The global clearer clears all the cache items in every pool. The system cache clearer
is used in the bin/console cache:clear
command. The app clearer is the default
clearer.
To see all available cache pools:
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$ php bin/console cache:pool:list
Clear one pool:
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$ php bin/console cache:pool:clear my_cache_pool
Clear all custom pools:
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$ php bin/console cache:pool:clear cache.app_clearer
Clear all cache pools:
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$ php bin/console cache:pool:clear --all
Clear all cache pools except some:
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$ php bin/console cache:pool:clear --all --exclude=my_cache_pool --exclude=another_cache_pool
Clear all caches everywhere:
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$ php bin/console cache:pool:clear cache.global_clearer
Clear cache by tag(s):
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# invalidate tag1 from all taggable pools
$ php bin/console cache:pool:invalidate-tags tag1
# invalidate tag1 & tag2 from all taggable pools
$ php bin/console cache:pool:invalidate-tags tag1 tag2
# invalidate tag1 & tag2 from cache.app pool
$ php bin/console cache:pool:invalidate-tags tag1 tag2 --pool=cache.app
# invalidate tag1 & tag2 from cache1 & cache2 pools
$ php bin/console cache:pool:invalidate-tags tag1 tag2 -p cache1 -p cache2
Encrypting the Cache
To encrypt the cache using libsodium
, you can use the
SodiumMarshaller.
First, you need to generate a secure key and add it to your secret
store as CACHE_DECRYPTION_KEY
:
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$ php -r 'echo base64_encode(sodium_crypto_box_keypair());'
Then, register the SodiumMarshaller
service using this key:
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# config/packages/cache.yaml
# ...
services:
Symfony\Component\Cache\Marshaller\SodiumMarshaller:
decorates: cache.default_marshaller
arguments:
- ['%env(base64:CACHE_DECRYPTION_KEY)%']
# use multiple keys in order to rotate them
#- ['%env(base64:CACHE_DECRYPTION_KEY)%', '%env(base64:OLD_CACHE_DECRYPTION_KEY)%']
- '@.inner'
Danger
This will encrypt the values of the cache items, but not the cache keys. Be careful not to leak sensitive data in the keys.
When configuring multiple keys, the first key will be used for reading and
writing, and the additional key(s) will only be used for reading. Once all
cache items encrypted with the old key have expired, you can completely remove
OLD_CACHE_DECRYPTION_KEY
.
Computing Cache Values Asynchronously
The Cache component uses the probabilistic early expiration algorithm to protect against the cache stampede problem. This means that some cache items are elected for early-expiration while they are still fresh.
By default, expired cache items are computed synchronously. However, you can compute them asynchronously by delegating the value computation to a background worker using the Messenger component. In this case, when an item is queried, its cached value is immediately returned and a EarlyExpirationMessage is dispatched through a Messenger bus.
When this message is handled by a message consumer, the refreshed cache value is computed asynchronously. The next time the item is queried, the refreshed value will be fresh and returned.
First, create a service that will compute the item's value:
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// src/Cache/CacheComputation.php
namespace App\Cache;
use Symfony\Contracts\Cache\ItemInterface;
class CacheComputation
{
public function compute(ItemInterface $item): string
{
$item->expiresAfter(5);
// this is just a random example; here you must do your own calculation
return sprintf('#%06X', mt_rand(0, 0xFFFFFF));
}
}
This cache value will be requested from a controller, another service, etc. In the following example, the value is requested from a controller:
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// src/Controller/CacheController.php
namespace App\Controller;
use App\Cache\CacheComputation;
use Symfony\Bundle\FrameworkBundle\Controller\AbstractController;
use Symfony\Component\Routing\Attribute\Route;
use Symfony\Contracts\Cache\CacheInterface;
use Symfony\Contracts\Cache\ItemInterface;
class CacheController extends AbstractController
{
#[Route('/cache', name: 'cache')]
public function index(CacheInterface $asyncCache): Response
{
// pass to the cache the service method that refreshes the item
$cachedValue = $asyncCache->get('my_value', [CacheComputation::class, 'compute'])
// ...
}
}
Finally, configure a new cache pool (e.g. called async.cache
) that will use
a message bus to compute values in a worker:
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# config/packages/framework.yaml
framework:
cache:
pools:
async.cache:
early_expiration_message_bus: messenger.default_bus
messenger:
transports:
async_bus: '%env(MESSENGER_TRANSPORT_DSN)%'
routing:
'Symfony\Component\Cache\Messenger\EarlyExpirationMessage': async_bus
You can now start the consumer:
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$ php bin/console messenger:consume async_bus
That's it! Now, whenever an item is queried from this cache pool, its cached value will be returned immediately. If it is elected for early-expiration, a message will be sent through to bus to schedule a background computation to refresh the value.