This component enables caching of an application’s response contents on both page- and fragment-levels. Output cached in this manner is persisted, until it expires or is actively expired, in a configurable store of your choosing. Several common caching stores are supported out of the box.
Padrino-cache can reduce the processing load on your site very effectively with minimal configuration.
By default, the component caches pages in a file store at tmp/cache
within your project root. Entries in this store correspond directly to the request issued to your server. In other words, responses are cached based on request URL, with one cache entry per URL.
This behavior is referred to as “page-level caching.” If this strategy meets your needs, you can enable it very easily:
# Basic, page-level caching
class SimpleApp < Padrino::Application
register Padrino::Cache
enable :caching
get '/foo', :cache => true do
expires_in 30 # expire cached version at least every 30 seconds
'Hello world'
end
end
By default the “cache_key” in these instances is the request.path_info
and the query string is not considered. You can also provide a custom cache_key
for any route:
class SimpleApp < Padrino::Application
register Padrino::Cache
enable :caching
get '/post/:id', :cache => true do
@post = Post.find(params[:id])
cache_key :my_name
end
end
In this way you can manually expire cache with CachedApp.cache.delete(:my_name) for example from the Post model after an update.
You can also cache on a controller-wide basis:
# Controller-wide caching example
class SimpleApp < Padrino::Application
register Padrino::Cache
enable :caching
get '/' do
'Hello world'
end
# Requests to routes within '/admin'
controller '/admin', :cache => true do
expires_in 60
get '/foo' do
'Url is /admin/foo'
end
get '/bar' do
'Url is /admin/bar'
end
post '/baz' do # We cache only GET and HEAD request
'This will not be cached'
end
end
end
If you specify :cache => true
but do not invoke expires_in
, the response will be cached indefinitely. Most of the time, you will want to specify the expiry of a cache entry by expires_in
. Even a relatively low value—1 or 2 seconds—can greatly increase application efficiency, especially when enabled on a very active part of your domain.
As described above in the “Caching Quickstart” section, page caching is very easy to integrate into your application. To turn it on, simply provide the :cache => true
option on either a controller or one of its routes.
By default, cached content is persisted with a “file store”—that is, in a subdirectory of your application root.
This helper is used within a controller or route to indicate how often cached page-level content should persist in the cache.
After seconds
seconds have passed, content previously cached will be discarded and re-rendered. Code associated with that route will not be executed; rather, its previous output will be sent to the client with a 200 OK status code.
# Setting content expiry time
class CachedApp < Padrino::Application
register Padrino::Cache # includes helpers
enable :caching # turns on caching
controller '/blog', :cache => true do
expires_in 15
get '/entries' do
'just broke up eating twinkies lol'
end
end
end
Note that the “latest” method call to expires_in
determines its value: if called within a route, as opposed to a controller definition, the route’s value will be assumed.
If set, the cache key used to store the response will be name
. If this is not specified the default cache_key
for a request is request.path_info
. One use of cache_key
is when you’d like to include query string parameters as part of the key:
class SimpleApp < Padrino::Application
get '/post/:id', :cache => true do
cache_key request.path_info + "?" + params.slice("name", "page").to_param
@post = Post.find(params[:id])
end
end
This will modify the cache key to include the “name” and “page” query parameters.
Whereas page-level caching, described in the first section of this document, works by grabbing the entire output of a route, fragment caching gives the developer fine-grained control of what gets cached. This type of caching occurs at whatever level you choose.
Possible uses for fragment caching might include:
This helper is used anywhere in your application you would like to associate a fragment to be cached. It can be used in within a route:
# Caching a fragment
class MyTweets < Padrino::Application
register Padrino::Cache # includes helpers
enable :caching # turns on caching
controller '/tweets' do
get :feed, :map => '/:username' do
username = params[:username]
@feed = cache( "feed_for_#{username}", :expires_in => 3 ) do
@tweets = Tweet.all( :username => username )
render 'partials/feedcontent'
end
# Below outputs @feed somewhere in its markup
render 'feeds/show'
end
end
end
This example adds a key to the cache of format feed_for_#{username}
which contains the contents of that user’s feed. Any subsequent action within the next 3 seconds will fetch the pre-rendered version of feed_for_#{username}
from the cache instead of re-rendering it. The rest of the page code will, however, be re-executed.
Note that any other action will reference the same content if it uses the same key:
# Multiple routes sharing the same cached fragment
class MyTweets < Padrino::Application
register Padrino::Cache # includes helpers
enable :caching # turns on caching
controller :tweets do
get :feed, :map => '/:username' do
username = params[:username]
@feed = cache( "feed_for_#{username}", :expires_in => 3 ) do
@tweets = Tweet.all( :username => username )
render 'partials/feedcontent'
end
# Below outputs @feed somewhere in its markup
render 'feeds/show'
end
get :mobile_feed, :map => '/:username.iphone' do
username = params[:username]
@feed = cache( "feed_for_#{username}", :expires_in => 3 ) do
@tweets = Tweet.all( :username => username )
render 'partials/feedcontent'
end
render 'feeds/show.iphone'
end
end
end
The opts
argument is actually passed to the underlying store. All stores included with Padrino support the :expires_in
option out of the box.
Finally, to DRY up things a bit, we might do:
# Multiple routes sharing the same cached fragment
class MyTweets < Padrino::Application
register Padrino::Cache # includes helpers
enable :caching # turns on caching
controller :tweets do
# This works because all routes in this controller specify :username
before do
@feed = cache( "feed_for_#{params[:username]}", :expires_in => 3 ) do
@tweets = Tweet.all( :username => params[:username] )
render 'partials/feedcontent'
end
end
get :feed, :map => '/:username' do
render 'feeds/show'
end
get :mobile_feed, :map => '/:username.iphone' do
render 'feeds/show.iphone'
end
end
end
Of course, this example assumes the markup generated by rendering partials/feedcontent
would be suitable for both feed formats. This may or may not be the case in your application, but the principle applies: fragments are shared between all code which accesses the cache using the same key.
In certain circumstances, cached content becomes stale. The expire
helper removes content associated with a key or keys, which your app is then
free to re-generate.
Using the example above of a tweet server, let’s suppose our users have a tendency to post things they quickly regret. When we query our database for new tweets, let’s check to see if any have been deleted. If so, we’ll do our user a favor and instantly re-render the feed.
# Expiring fragment-level cached content
class MyTweets < Padrino::Application
register Padrino::Cache # includes helpers
enable :caching # turns on caching
enable :session # we'll use this to store last time visited
COMPANY_FOUNDING = Time.utc( 2010, "April" )
controller :tweets do
get :feed, :map => '/:username' do
last_visit = session[:last_visit] || params[:since] || COMPANY_FOUNDING
username = params[:username]
@tweets = Tweet.since( last_visit, :username => username ).limit( 100 )
expire( "feed since #{last_visit}" ) if @tweets.any? { |t| t.deleted_since?( last_visit ) }
session[:last_visit] = Time.now
@feed = cache( "feed since #{last_visit}", :expires_in => 60 ) do
@tweets = @tweets.find_all { |t| !t.deleted? }
render 'partials/feedcontent'
end
render 'feeds/show'
end
end
end
Normally, this example will only re-cache feed content every 60 seconds, but it will do so immediately if any tweets have been deleted.
Page-level expiration works exactly like the example above by using expire
in your controller.
The key is typically env[‘PATH_INFO’]
.
You can set a global caching option or a per app caching options.
Padrino.cache = Padrino::Cache::Store::Memcache.new(::Memcached.new('127.0.0.1:11211', :exception_retry_limit => 1))
Padrino.cache = Padrino::Cache::Store::Memcache.new(::Dalli::Client.new('127.0.0.1:11211', :exception_retry_limit => 1))
Padrino.cache = Padrino::Cache::Store::Redis.new(::Redis.new(:host => '127.0.0.1', :port => 6379, :db => 0))
Padrino.cache = Padrino::Cache::Store::Memory.new(50)
Padrino.cache = Padrino::Cache::Store::File.new(/my/cache/path)
You can manage your cache from anywhere in your app:
Padrino.cache = Padrino::Cache::Store::Memcache.new(::Memcached.new('127.0.0.1:11211', :exception_retry_limit => 1))
Padrino.cache = Padrino::Cache::Store::Memcache.new(::Dalli::Client.new('127.0.0.1:11211', :exception_retry_limit => 1))
Padrino.cache = Padrino::Cache::Store::Redis.new(::Redis.new(:host => '127.0.0.1', :port => 6379, :db => 0))
Padrino.cache = Padrino::Cache::Store::Memory.new(50)
Padrino.cache = Padrino::Cache::Store::File.new(/my/cache/path)
set :cache, Padrino::Cache::Store::Memcache.new(::Memcached.new('127.0.0.1:11211', :exception_retry_limit => 1))
set :cache, Padrino::Cache::Store::Memcache.new(::Dalli::Client.new('127.0.0.1:11211', :exception_retry_limit => 1))
set :cache, Padrino::Cache::Store::Redis.new(::Redis.new(:host => '127.0.0.1', :port => 6379, :db => 0))
set :cache, Padrino::Cache::Store::Memory.new(50)
set :cache, Padrino::Cache::Store::File.new(Padrino.root('tmp', app_name, 'cache') # default choice
You can manage your cache from anywhere in your app:
MyApp.cache.set('val', 'test')
MyApp.cache.get('val') # => 'test'
MyApp.cache.delete('val')
MyApp.cache.flush
Padrino Cache can be used with various types of stores. At the moment, Padrino Cache comes shipped with:
set :cache, Padrino::Cache::Store::Memory.new(10000)
The Memory Store takes an integer that sets the size to use.
set :cache, Padrino::Cache::Store::File.new("/path/to/")
The File Store takes a path to store the cache
set :cache, Padrino::Cache::Store::Memcache.new(::Memcached.new)
The Memcache Store takes a Memcache client instance. If you wanted to use another memcached library such as Dalli instead, you would do:
set :cache, Padrino::Cache::Store::Memcache.new(::Dalli::Client.new)
set :cache, Padrino::Cache::Store::Redis.new(::Redis.new)
The Redis Store takes a Redis client instance.
set :cache, Padrino::Cache::Store::Mongo.new(::Mongo::Connection.new(...))
The Mongo Store takes a Mongo connection instance.