Some of the data retrieval or processing tasks performed by your application could be CPU intensive or take several seconds to complete. When this is the case, it is common to cache the retrieved data for a time so it can be retrieved quickly on subsequent requests for the same data. The cached data is usually stored in a very fast data store such as Memcached or Redis.
Thankfully, Laravel provides an expressive, unified API for various cache backends, allowing you to take advantage of their blazing fast data retrieval and speed up your web application.
Your application's cache configuration file is located at config/cache.php
. In this file, you may specify which cache store you would like to be used by default throughout your application. Laravel supports popular caching backends like Memcached, Redis, DynamoDB, and relational databases out of the box. In addition, a file based cache driver is available, while array
and "null" cache drivers provide convenient cache backends for your automated tests.
The cache configuration file also contains a variety of other options that you may review. By default, Laravel is configured to use the database
cache driver, which stores the serialized, cached objects in your application's database.
When using the database
cache driver, you will need a database table to contain the cache data. Typically, this is included in Laravel's default 0001_01_01_000001_create_cache_table.php
database migration; however, if your application does not contain this migration, you may use the make:cache-table
Artisan command to create it:
php artisan make:cache-table
php artisan migrate
Using the Memcached driver requires the Memcached PECL package to be installed. You may list all of your Memcached servers in the config/cache.php
configuration file. This file already contains a memcached.servers
entry to get you started:
'memcached' => [
// ...
'servers' => [
[
'host' => env('MEMCACHED_HOST', '127.0.0.1'),
'port' => env('MEMCACHED_PORT', 11211),
'weight' => 100,
],
],
],
If needed, you may set the host
option to a UNIX socket path. If you do this, the port
option should be set to 0
:
'memcached' => [
// ...
'servers' => [
[
'host' => '/var/run/memcached/memcached.sock',
'port' => 0,
'weight' => 100
],
],
],
Before using a Redis cache with Laravel, you will need to either install the PhpRedis PHP extension via PECL or install the predis/predis
package (~2.0) via Composer. Laravel Sail already includes this extension. In addition, official Laravel deployment platforms such as Laravel Forge and Laravel Vapor have the PhpRedis extension installed by default.
For more information on configuring Redis, consult its Laravel documentation page.
Before using the DynamoDB cache driver, you must create a DynamoDB table to store all of the cached data. Typically, this table should be named cache
. However, you should name the table based on the value of the stores.dynamodb.table
configuration value within the cache
configuration file. The table name may also be set via the DYNAMODB_CACHE_TABLE
environment variable.
This table should also have a string partition key with a name that corresponds to the value of the stores.dynamodb.attributes.key
configuration item within your application's cache
configuration file. By default, the partition key should be named key
.
Typically, DynamoDB will not proactively remove expired items from a table. Therefore, you should enable Time to Live (TTL) on the table. When configuring the table's TTL settings, you should set the TTL attribute name to expires_at
.
Next, install the AWS SDK so that your Laravel application can communicate with DynamoDB:
composer require aws/aws-sdk-php
In addition, you should ensure that values are provided for the DynamoDB cache store configuration options. Typically these options, such as AWS_ACCESS_KEY_ID
and AWS_SECRET_ACCESS_KEY
, should be defined in your application's .env
configuration file:
'dynamodb' => [
'driver' => 'dynamodb',
'key' => env('AWS_ACCESS_KEY_ID'),
'secret' => env('AWS_SECRET_ACCESS_KEY'),
'region' => env('AWS_DEFAULT_REGION', 'us-east-1'),
'table' => env('DYNAMODB_CACHE_TABLE', 'cache'),
'endpoint' => env('DYNAMODB_ENDPOINT'),
],
If you are using MongoDB, a mongodb
cache driver is provided by the official mongodb/laravel-mongodb
package and can be configured using a mongodb
database connection. MongoDB supports TTL indexes, which can be used to automatically clear expired cache items.
For more information on configuring MongoDB, please refer to the MongoDB Cache and Locks documentation.
To obtain a cache store instance, you may use the Cache
facade, which is what we will use throughout this documentation. The Cache
facade provides convenient, terse access to the underlying implementations of the Laravel cache contracts:
<?php
namespace App\Http\Controllers;
use Illuminate\Support\Facades\Cache;
class UserController extends Controller
{
/**
* Show a list of all users of the application.
*/
public function index(): array
{
$value = Cache::get('key');
return [
// ...
];
}
}
Using the Cache
facade, you may access various cache stores via the store
method. The key passed to the store
method should correspond to one of the stores listed in the stores
configuration array in your cache
configuration file:
$value = Cache::store('file')->get('foo');
Cache::store('redis')->put('bar', 'baz', 600); // 10 Minutes
The Cache
facade's get
method is used to retrieve items from the cache. If the item does not exist in the cache, null
will be returned. If you wish, you may pass a second argument to the get
method specifying the default value you wish to be returned if the item doesn't exist:
$value = Cache::get('key');
$value = Cache::get('key', 'default');
You may even pass a closure as the default value. The result of the closure will be returned if the specified item does not exist in the cache. Passing a closure allows you to defer the retrieval of default values from a database or other external service:
$value = Cache::get('key', function () {
return DB::table(/* ... */)->get();
});
The has
method may be used to determine if an item exists in the cache. This method will also return false
if the item exists but its value is null
:
if (Cache::has('key')) {
// ...
}
The increment
and decrement
methods may be used to adjust the value of integer items in the cache. Both of these methods accept an optional second argument indicating the amount by which to increment or decrement the item's value:
// Initialize the value if it does not exist...
Cache::add('key', 0, now()->addHours(4));
// Increment or decrement the value...
Cache::increment('key');
Cache::increment('key', $amount);
Cache::decrement('key');
Cache::decrement('key', $amount);
Sometimes you may wish to retrieve an item from the cache, but also store a default value if the requested item doesn't exist. For example, you may wish to retrieve all users from the cache or, if they don't exist, retrieve them from the database and add them to the cache. You may do this using the Cache::remember
method:
$value = Cache::remember('users', $seconds, function () {
return DB::table('users')->get();
});
If the item does not exist in the cache, the closure passed to the remember
method will be executed and its result will be placed in the cache.
You may use the rememberForever
method to retrieve an item from the cache or store it forever if it does not exist:
$value = Cache::rememberForever('users', function () {
return DB::table('users')->get();
});
When using the Cache::remember
method, some users may experience slow response times if the cached value has expired. For certain types of data, it can be useful to allow partially stale data to be served while the cached value is recalculated in the background, preventing some users from experiencing slow response times while cached values are calculated. This is often referred to as the "stale-while-revalidate" pattern, and the Cache::flexible
method provides an implementation of this pattern.
The flexible method accepts an array that specifies how long the cached value is considered “fresh” and when it becomes “stale.” The first value in the array represents the number of seconds the cache is considered fresh, while the second value defines how long it can be served as stale data before recalculation is necessary.
If a request is made within the fresh period (before the first value), the cache is returned immediately without recalculation. If a request is made during the stale period (between the two values), the stale value is served to the user, and a deferred function is registered to refresh the cached value after the response is sent to the user. If a request is made after the second value, the cache is considered expired, and the value is recalculated immediately, which may result in a slower response for the user:
$value = Cache::flexible('users', [5, 10], function () {
return DB::table('users')->get();
});
If you need to retrieve an item from the cache and then delete the item, you may use the pull
method. Like the get
method, null
will be returned if the item does not exist in the cache:
$value = Cache::pull('key');
$value = Cache::pull('key', 'default');
You may use the put
method on the Cache
facade to store items in the cache:
Cache::put('key', 'value', $seconds = 10);
If the storage time is not passed to the put
method, the item will be stored indefinitely:
Cache::put('key', 'value');
Instead of passing the number of seconds as an integer, you may also pass a DateTime
instance representing the desired expiration time of the cached item:
Cache::put('key', 'value', now()->addMinutes(10));
The add
method will only add the item to the cache if it does not already exist in the cache store. The method will return true
if the item is actually added to the cache. Otherwise, the method will return false
. The add
method is an atomic operation:
Cache::add('key', 'value', $seconds);
The forever
method may be used to store an item in the cache permanently. Since these items will not expire, they must be manually removed from the cache using the forget
method:
Cache::forever('key', 'value');
[!NOTE]
If you are using the Memcached driver, items that are stored "forever" may be removed when the cache reaches its size limit.
You may remove items from the cache using the forget
method:
Cache::forget('key');
You may also remove items by providing a zero or negative number of expiration seconds:
Cache::put('key', 'value', 0);
Cache::put('key', 'value', -5);
You may clear the entire cache using the flush
method:
Cache::flush();
[!WARNING]
Flushing the cache does not respect your configured cache "prefix" and will remove all entries from the cache. Consider this carefully when clearing a cache which is shared by other applications.
In addition to using the Cache
facade, you may also use the global cache
function to retrieve and store data via the cache. When the cache
function is called with a single, string argument, it will return the value of the given key:
$value = cache('key');
If you provide an array of key / value pairs and an expiration time to the function, it will store values in the cache for the specified duration:
cache(['key' => 'value'], $seconds);
cache(['key' => 'value'], now()->addMinutes(10));
When the cache
function is called without any arguments, it returns an instance of the Illuminate\Contracts\Cache\Factory
implementation, allowing you to call other caching methods:
cache()->remember('users', $seconds, function () {
return DB::table('users')->get();
});
[!NOTE]
When testing call to the globalcache
function, you may use theCache::shouldReceive
method just as if you were testing the facade.
[!WARNING]
To utilize this feature, your application must be using thememcached
,redis
,dynamodb
,database
,file
, orarray
cache driver as your application's default cache driver. In addition, all servers must be communicating with the same central cache server.
Atomic locks allow for the manipulation of distributed locks without worrying about race conditions. For example, Laravel Forge uses atomic locks to ensure that only one remote task is being executed on a server at a time. You may create and manage locks using the Cache::lock
method:
use Illuminate\Support\Facades\Cache;
$lock = Cache::lock('foo', 10);
if ($lock->get()) {
// Lock acquired for 10 seconds...
$lock->release();
}
The get
method also accepts a closure. After the closure is executed, Laravel will automatically release the lock:
Cache::lock('foo', 10)->get(function () {
// Lock acquired for 10 seconds and automatically released...
});
If the lock is not available at the moment you request it, you may instruct Laravel to wait for a specified number of seconds. If the lock cannot be acquired within the specified time limit, an Illuminate\Contracts\Cache\LockTimeoutException
will be thrown:
use Illuminate\Contracts\Cache\LockTimeoutException;
$lock = Cache::lock('foo', 10);
try {
$lock->block(5);
// Lock acquired after waiting a maximum of 5 seconds...
} catch (LockTimeoutException $e) {
// Unable to acquire lock...
} finally {
$lock->release();
}
The example above may be simplified by passing a closure to the block
method. When a closure is passed to this method, Laravel will attempt to acquire the lock for the specified number of seconds and will automatically release the lock once the closure has been executed:
Cache::lock('foo', 10)->block(5, function () {
// Lock acquired after waiting a maximum of 5 seconds...
});
Sometimes, you may wish to acquire a lock in one process and release it in another process. For example, you may acquire a lock during a web request and wish to release the lock at the end of a queued job that is triggered by that request. In this scenario, you should pass the lock's scoped "owner token" to the queued job so that the job can re-instantiate the lock using the given token.
In the example below, we will dispatch a queued job if a lock is successfully acquired. In addition, we will pass the lock's owner token to the queued job via the lock's owner
method:
$podcast = Podcast::find($id);
$lock = Cache::lock('processing', 120);
if ($lock->get()) {
ProcessPodcast::dispatch($podcast, $lock->owner());
}
Within our application's ProcessPodcast
job, we can restore and release the lock using the owner token:
Cache::restoreLock('processing', $this->owner)->release();
If you would like to release a lock without respecting its current owner, you may use the forceRelease
method:
Cache::lock('processing')->forceRelease();
To create our custom cache driver, we first need to implement the Illuminate\Contracts\Cache\Store
contract. So, a MongoDB cache implementation might look something like this:
<?php
namespace App\Extensions;
use Illuminate\Contracts\Cache\Store;
class MongoStore implements Store
{
public function get($key) {}
public function many(array $keys) {}
public function put($key, $value, $seconds) {}
public function putMany(array $values, $seconds) {}
public function increment($key, $value = 1) {}
public function decrement($key, $value = 1) {}
public function forever($key, $value) {}
public function forget($key) {}
public function flush() {}
public function getPrefix() {}
}
We just need to implement each of these methods using a MongoDB connection. For an example of how to implement each of these methods, take a look at the Illuminate\Cache\MemcachedStore
in the Laravel framework source code. Once our implementation is complete, we can finish our custom driver registration by calling the Cache
facade's extend
method:
Cache::extend('mongo', function (Application $app) {
return Cache::repository(new MongoStore);
});
[!NOTE]
If you're wondering where to put your custom cache driver code, you could create anExtensions
namespace within yourapp
directory. However, keep in mind that Laravel does not have a rigid application structure and you are free to organize your application according to your preferences.
To register the custom cache driver with Laravel, we will use the extend
method on the Cache
facade. Since other service providers may attempt to read cached values within their boot
method, we will register our custom driver within a booting
callback. By using the booting
callback, we can ensure that the custom driver is registered just before the boot
method is called on our application's service providers but after the register
method is called on all of the service providers. We will register our booting
callback within the register
method of our application's App\Providers\AppServiceProvider
class:
<?php
namespace App\Providers;
use App\Extensions\MongoStore;
use Illuminate\Contracts\Foundation\Application;
use Illuminate\Support\Facades\Cache;
use Illuminate\Support\ServiceProvider;
class AppServiceProvider extends ServiceProvider
{
/**
* Register any application services.
*/
public function register(): void
{
$this->app->booting(function () {
Cache::extend('mongo', function (Application $app) {
return Cache::repository(new MongoStore);
});
});
}
/**
* Bootstrap any application services.
*/
public function boot(): void
{
// ...
}
}
The first argument passed to the extend
method is the name of the driver. This will correspond to your driver
option in the config/cache.php
configuration file. The second argument is a closure that should return an Illuminate\Cache\Repository
instance. The closure will be passed an $app
instance, which is an instance of the service container.
Once your extension is registered, update the CACHE_STORE
environment variable or default
option within your application's config/cache.php
configuration file to the name of your extension.
To execute code on every cache operation, you may listen for various events dispatched by the cache:
To increase performance, you may disable cache events by setting the events
configuration option to false
for a given cache store in your application's config/cache.php
configuration file:
'database' => [
'driver' => 'database',
// ...
'events' => false,
],
last update:2024-11-20 15:01