A database-backed ActiveSupport::Cache::Store
Solid Cache is a database-backed Active Support cache store that let’s you keep a much larger cache than is typically possible with traditional memory-only Redis or Memcached stores. This is thanks to the speed of modern SSD drives, which make the access-time penalty of using disk vs RAM insignificant for most caching purposes. Simply put, you’re now usually better off keeping a huge cache on disk rather than a small cache in memory.
Solid Cache is configured by default in new Rails 8 applications. But if you’re running an earlier version, you can add it manually following these steps:
bundle add solid_cache
bin/rails solid_cache:install
This will configure Solid Cache as the production cache store, create config/cache.yml
, and create db/cache_schema.rb
.
You will then have to add the configuration for the cache database in config/database.yml
. If you’re using sqlite, it’ll look like this:
production:
primary:
<<: *default
database: storage/production.sqlite3
cache:
<<: *default
database: storage/production_cache.sqlite3
migrations_paths: db/cache_migrate
…or if you’re using MySQL/PostgreSQL/Trilogy:
production:
primary: &primary_production
<<: *default
database: app_production
username: app
password: <%= ENV["APP_DATABASE_PASSWORD"] %>
cache:
<<: *primary_production
database: app_production_cache
migrations_paths: db/cache_migrate
Then run db:prepare
in production to ensure the database is created and the schema is loaded.
Configuration will be read from config/cache.yml
or config/solid_cache.yml
. You can change the location of the config file by setting the SOLID_CACHE_CONFIG
env variable.
The format of the file is:
default:
store_options: &default_store_options
max_age: <%= 60.days.to_i %>
namespace: <%= Rails.env %>
size_estimate_samples: 1000
development: &development
database: development_cache
store_options:
<<: *default_store_options
max_size: <%= 256.gigabytes %>
production: &production
databases: [production_cache1, production_cache2]
store_options:
<<: *default_store_options
max_entries: <%= 256.gigabytes %>
For the full list of keys for store_options
see Cache configuration. Any options passed to the cache lookup will overwrite those specified here.
After running solid_cache:install
, environments/production.rb
will replace your cache store with Solid Cache, but you can also do this manually:
# config/environments/production.rb
config.cache_store = :solid_cache_store
You can set one of database
, databases
and connects_to
in the config file. They will be used to configure the cache databases in SolidCache::Record#connects_to
.
Setting database
to cache_db
will configure with:
SolidCache::Record.connects_to database: { writing: :cache_db }
Setting databases
to [cache_db, cache_db2]
is the equivalent of:
SolidCache::Record.connects_to shards: { cache_db1: { writing: :cache_db1 }, cache_db2: { writing: :cache_db2 } }
If connects_to
is set, it will be passed directly.
If none of these are set, Solid Cache will use the ActiveRecord::Base
connection pool. This means that cache reads and writes will be part of any wrapping database transaction.
There are five options that can be set on the engine:
executor
- the Rails executor used to wrap asynchronous operations, defaults to the app executorconnects_to
- a custom connects to value for the abstract SolidCache::Record
active record model. Required for sharding and/or using a separate cache database to the main app. This will overwrite any value set in config/solid_cache.yml
size_estimate_samples
- if max_size
is set on the cache, the number of the samples used to estimate the size.encrypted
- whether cache values should be encrypted (see Enabling encryption)encryption_context_properties
- custom encryption context propertiesThese can be set in your Rails configuration:
Rails.application.configure do
config.solid_cache.size_estimate_samples = 1000
end
Solid Cache supports these options in addition to the standard ActiveSupport::Cache::Store
options:
error_handler
- a Proc to call to handle any transient database errors that are raised (default: log errors as warnings)expiry_batch_size
- the batch size to use when deleting old records (default: 100
)expiry_method
- what expiry method to use thread
or job
(default: thread
)expiry_queue
- which queue to add expiry jobs to (default: default
)max_age
- the maximum age of entries in the cache (default: 2.weeks.to_i
). Can be set to nil
, but this is not recommended unless using max_entries
to limit the size of the cache.max_entries
- the maximum number of entries allowed in the cache (default: nil
, meaning no limit)max_size
- the maximum size of the cache entries (default nil
, meaning no limit)cluster
- (deprecated) a Hash of options for the cache database cluster, e.g { shards: [:database1, :database2, :database3] }
clusters
- (deprecated) an Array of Hashes for multiple cache clusters (ignored if :cluster
is set)shards
- an Array of databasesactive_record_instrumentation
- whether to instrument the cache’s queries (default: true
)clear_with
- clear the cache with :truncate
or :delete
(default truncate
, except for when Rails.env.test?
then delete
)max_key_bytesize
- the maximum size of a normalized key in bytes (default 1024
)For more information on cache clusters, see Sharding the cache
Solid Cache tracks writes to the cache. For every write it increments a counter by 1. Once the counter reaches 50% of the expiry_batch_size
it adds a task to run on a background thread. That task will:
max_entries
or max_size
values (if set).SolidCache::Entry
table.byte_size
columns.expiry_batch_size
entries.expiry_batch_size
entries, provided they are all older than max_age
.Expiring when we reach 50% of the batch size allows us to expire records from the cache faster than we write to it when we need to reduce the cache size.
Only triggering expiry when we write means that if the cache is idle, the background thread is also idle.
If you want the cache expiry to be run in a background job instead of a thread, you can set expiry_method
to :job
. This will enqueue a SolidCache::ExpiryJob
.
Solid Cache uses the Maglev consistent hashing scheme to shard the cache across multiple databases.
To shard:
config.solid_cache.connects_to
.For example:
# config/database.yml
production:
cache_shard1:
database: cache1_production
host: cache1-db
cache_shard2:
database: cache2_production
host: cache2-db
cache_shard3:
database: cache3_production
host: cache3-db
# config/cache.yml
production:
databases: [cache_shard1, cache_shard2, cache_shard3]
To encrypt the cache values, you can add the encrypt property.
# config/cache.yml
production:
encrypt: true
or
# application.rb
config.solid_cache.encrypt = true
You will need to set up your application to use Active Record Encryption.
Solid Cache by default uses a custom encryptor and message serializer that are optimised for it.
Firstly it disabled compression with the encryptor ActiveRecord::Encryption::Encryptor.new(compress: false)
- the cache already compresses the data.
Secondly it uses ActiveRecord::Encryption::MessagePackMessageSerializer.new
as the serializer. This serializer can only be used for binary columns,
but can store about 40% more data than the standard serializer.
You can choose your own context properties instead if you prefer:
# application.rb
config.solid_cache.encryption_context_properties = {
encryptor: ActiveRecord::Encryption::Encryptor.new,
message_serializer: ActiveRecord::Encryption::MessageSerializer.new
}
The Solid Cache migrations try to create an index with 1024 byte entries. If that is too big for your database, you should:
max_key_bytesize
on your cache to the new value.Run the tests with bin/rake test
. By default, these will run against SQLite.
You can also run the tests against MySQL and PostgreSQL. First start up the databases:
$ docker compose up -d
Next, setup the database schema:
$ TARGET_DB=mysql bin/rails db:setup
$ TARGET_DB=postgres bin/rails db:setup
Then run the tests for the target database:
$ TARGET_DB=mysql bin/rake test
$ TARGET_DB=postgres bin/rake test
Solid Cache relies on appraisal to test
multiple Rails versions.
To run a test for a specific version run:
bundle exec appraisal rails-7-1 bin/rake test
After updating the dependencies in the Gemfile
please run:
$ bundle
$ appraisal update
This ensures that all the Rails versions dependencies are updated.
Solid Cache is a FIFO (first in, first out) cache. While this is not as efficient as an LRU (least recently used) cache, it is mitigated by the longer cache lifespan.
A FIFO cache is much easier to manage:
Upgrading from v0.3.0 or earlier? Please see upgrading to version v0.4.x and beyond
Solid Cache is licensed under MIT.