Contributors: getpantheon, danielbachhuber, mboynes, Outlandish Josh
Tags: cache, plugin, redis
Requires at least: 3.0.1
Tested up to: 5.0
Stable tag: 0.7.1
License: GPLv2 or later
License URI: http://www.gnu.org/licenses/gpl-2.0.html
Back your WP Object Cache with Redis, a high-performance in-memory storage backend.
For sites concerned with high traffic, speed for logged-in users, or dynamic pageloads, a high-speed and persistent object cache is a must. You also need something that can scale across multiple instances of your application, so using local file caches or APC are out.
Redis is a great answer, and one we bundle on the Pantheon platform. This is our plugin for integrating with the cache, but you can use it on any self-hosted WordPress site if you have Redis. Install from WordPress.org or Github.
It's important to note that a persistent object cache isn't a panacea - a page load with 2,000 Redis calls can be 2 full seconds of object cache transactions. Make sure you use the object cache wisely: keep to a sensible number of keys, don't store a huge amount of data on each key, and avoid stampeding frontend writes and deletes.
wp-content/object-cache.phpwith a symlink or by copying the file.
If you're not running on Pantheon, edit wp-config.php to add your cache credentials, e.g.:
$redis_server = array( 'host' => '127.0.0.1', 'port' => 6379, 'auth' => '12345', 'database' => 0, // Optionally use a specific numeric Redis database. Default is 0. );
Engage thrusters: you are now backing WP's Object Cache with Redis.
(Optional) To use the
wp redisWP-CLI commands, activate the WP Redis plugin. No activation is necessary if you're solely using the object cache drop-in.
(Optional) To use the same Redis server with multiple, discreet WordPress installs, you can use the
WP_CACHE_KEY_SALTconstant to define a unique salt for each install.
(Optional) To use true cache groups, with the ability to delete all keys for a given group, register groups with
wp_cache_add_redis_hash_groups(), or define the
WP_REDIS_USE_CACHE_GROUPSconstant to true to enable with all groups. However, when enabled, the expiration value is not respected because expiration on group keys isn't a feature supported by Redis.
(Optional) On an existing site previously using WordPress' transient cache, use WP-CLI to delete all (
%_transient_%) transients from the options table:
wp transient delete-all. WP Redis assumes responsibility for the transient cache.
This plugin implements a variety of WP-CLI commands. All commands are grouped into the
wp redis namespace.
$ wp help redis NAME wp redis SYNOPSIS wp redis <command> SUBCOMMANDS cli Launch redis-cli using Redis configuration for WordPress debug Debug object cache hit / miss ratio for any page URL. enable Enable WP Redis by creating the symlink for object-cache.php info Provide details on the Redis connection.
wp help redis <command> to learn more about each command.
The best way to contribute to the development of this plugin is by participating on the GitHub project:
Pull requests and issues are welcome!
You may notice there are two sets of tests running, on two different services:
- Travis CI runs the PHPUnit test suite in a variety of environment configurations (e.g. Redis enabled vs. Redis disabled).
- Circle CI runs the Behat test suite against a Pantheon site, to ensure the plugin's compatibility with the Pantheon platform.
Both of these test suites can be run locally, with a varying amount of setup.
PHPUnit requires the WordPress PHPUnit test suite, and access to a database with name
wordpress_test. If you haven't already configured the test suite locally, you can run
bash bin/install-wp-tests.sh wordpress_test root '' localhost. You'll also need to enable Redis and the PHPRedis extension in order to run the test suite against Redis.
Behat requires a Pantheon site with Redis enabled. Once you've created the site, you'll need install Terminus, and set the
TERMINUS_ENV environment variables. Then, you can run
./bin/behat-prepare.sh to prepare the site for the test suite.
If you are concerned with the speed of your site, backing it with a high-performance, persistent object cache can have a huge impact. It takes load off your database, and is faster for loading all the data objects WordPress needs to run.
This plugin is for the internal application object cache. It doesn't have anything to do with page caches. On Pantheon you do not need additional page caching, but if you are self-hosted you can use your favorite page cache plugins in conjunction with WP Redis.
A page load with 2,000 Redis calls can be 2 full seonds of object cache transactions. If a plugin you're using is erroneously creating a huge number of cache keys, you might be able to mitigate the problem by disabling cache persistency for the plugin's group:
wp_cache_add_non_persistent_groups( array( 'bad-actor' ) );
This declaration means use of
wp_cache_set( 'foo', 'bar', 'bad-actor' ); and
wp_cache_get( 'foo', 'bad-actor' ); will not use Redis, and instead fall back to WordPress' default runtime object cache.
There's a known issue with WordPress
alloptions cache design. Specifically, a race condition between two requests can cause the object cache to have stale values. If you think you might be impacted by this, review this GitHub issue for links to more context, including a workaround.
- Better support in
wp_cache_init()for drop-ins like LudicrousDB [#231].
- Cleans up PHPCS issues.
- Adds filterable connection methods to permit use of Predis. See humanmade/wp-redis-predis-client for more details.
- Bug fix: Preserves null values in internal cache.
- Bug fix: Converts numeric values to their true type when getting.
- Bug fix: correctly passes an empty password to
- Variety of improvements to the test suite.
- Introduces three new WP-CLI commands:
wp redis debugto display cache hit/miss ratio for any URL;
wp redis infoto display high-level Redis statistics;
wp redis enableto create the
- Permits a Redis database to be defined with
wp_cache_add_redis_hash_groups(), which permits registering specific groups to use Redis hashes, and is more precise than our existing
- Performance boost! Removes redundant
wp_cache_get(), which easily halves the number of Redis calls.
$wpdbin a safer manner for compatibility with Batcache, which loads the object cache before aforementioned APIs are available.
- For debugging purposes, tracks number of calls to Redis, and includes breakdown of call types.
- Adds a slew of more explicit test coverage against existing features.
- For consistency with the actual Redis call, calls
- Bug fix: If a group isn't persistent, don't ever make an
existscall against Redis.
wp redis-cli, a WP-CLI command to launch redis-cli with WordPress' Redis credentials.
- Bug fix: Ensures fail back mechanism works as expected on multisite, by writing to sitemeta table instead of the active site's options table.
- Bug fix: Uses 'default' as the default cache group, mirroring WordPress core, such that
$wp_object_cache->add( 'foo', 'bar' )===
wp_cache_add( 'foo', 'bar' ).
- Introduces opt-in support for Redis cache groups. Enable with
define( 'WP_REDIS_USE_CACHE_GROUPS', true );. When enabled, WP Redis persists cache groups in a structured manner, instead of hashing the cache key and group together.
- Uses PHP_CodeSniffer and WordPress Coding Standards sniffs to ensure WP Redis adheres to WordPress coding standards.
- Bug fix: Permits use of a Unix socket in
$redis_server['host']by ensuring the supplied
- Bug fix: use
INSERT IGNORE INTOinstead of
INSERT INTOto prevent SQL errors when two concurrent processes attempt to write failback flag at the same time.
- Bug fix: use
- Bug fix: catch Exceptions thrown during authentication to permit failing back to internal object cache.
- Bug fix: prevent SQL error when
$wpdb->optionsisn't yet initialized on multisite.
- Gracefully fails back to the WordPress object cache when Redis is unavailable or intermittent. Previously, WP Redis would hard fatal.
- Triggers a PHP error if Redis goes away mid-request, for you to monitor in your logs. Attempts one reconnect based on specific error messages.
- Forces a flushAll on Redis when Redis comes back after failing. This behavior can be disabled with the
- Show an admin notice when Redis is unavailable but is expected to be.
- Initial commit of working code for the benefit of all.