§Working with public assets
Serving a public resource in Play is the same as serving any other HTTP request. It uses the same routing as regular resources using the controller/action path to distribute CSS, JavaScript or image files to the client.
§The public/ folder
By convention public assets are stored in the public
folder of your application. This folder can be organized the way that you prefer. We recommend the following organization:
public
└ javascripts
└ stylesheets
└ images
If you follow this structure it will be simpler to get started, but nothing stops you to modifying it once you understand how it works.
§WebJars
WebJars provide a convenient and conventional packaging mechanism that is a part of Activator and sbt. For example you can declare that you will be using the popular Bootstrap library simply by adding the following dependency in your build file:
libraryDependencies += "org.webjars" % "bootstrap" % "3.3.6"
WebJars are automatically extracted into a lib
folder relative to your public assets for convenience. For example, if you declared a dependency on RequireJs then you can reference it from a view using a line like:
<script data-main="@routes.Assets.at("javascripts/main.js")" type="text/javascript" src="@routes.Assets.at("lib/requirejs/require.js")"></script>
Note the lib/requirejs/require.js
path. The lib
folder denotes the extract WebJar assets, the requirejs
folder corresponds to the WebJar artifactId, and the require.js
refers to the required asset at the root of the WebJar. To clarify, the requirejs
webjar dependency is declared at your build file like:
libraryDependencies += "org.webjars" % "requirejs" % "2.2.0"
§How are public assets packaged?
During the build process, the contents of the public
folder are processed and added to the application classpath.
When you package your application, all assets for the application, including all sub projects, are aggregated into a single jar, in target/my-first-app-1.0.0-assets.jar
. This jar is included in the distribution so that your Play application can serve them. This jar can also be used to deploy the assets to a CDN or reverse proxy.
§The Assets controller
Play comes with a built-in controller to serve public assets. By default, this controller provides caching, ETag, gzip and compression support.
The controller is available in the default Play JAR as controllers.Assets
and defines a single at
action with two parameters:
Assets.at(path: String, file: String)
The path
parameter must be fixed and defines the directory managed by the action. The file
parameter is usually dynamically extracted from the request path.
Here is the typical mapping of the Assets
controller in your conf/routes
file:
GET /assets/*file controllers.Assets.at(path="/public", file)
Note that we define the *file
dynamic part that will match the .*
regular expression. So for example, if you send this request to the server:
GET /assets/javascripts/jquery.js
The router will invoke the Assets.at
action with the following parameters:
controllers.Assets.at("/public", "javascripts/jquery.js")
To route to a single static file, both the path and file has to be specified:
GET /favicon.ico controllers.Assets.at(path="/public", file="favicon.ico")
§Reverse routing for public assets
As for any controller mapped in the routes file, a reverse controller is created in controllers.routes.Assets
. You use this to reverse the URL needed to fetch a public resource. For example, from a template:
<script src="@routes.Assets.at("javascripts/jquery.js")"></script>
In DEV
mode this will by default produce the following result:
<script src="/assets/javascripts/jquery.js"></script>
If your app is not running in DEV
mode and a jquery.min.js
or jquery-min.js
file exists then by default the minified file will be used instead:
<script src="/assets/javascripts/jquery.min.js"></script>
This makes debugging of JavaScript files easier during development. Of course this not only works for JavaScript files but for any file extension.
If you don’t want Play to automatically resolve the .min.*
or -min.*
files, regardless of the mode your application is running in, you can set assets.checkForMinified = false
in your application.conf
(or to true
to always resolve the min file, even in DEV
mode).
Note that we don’t specify the first folder
parameter when we reverse the route. This is because our routes file defines a single mapping for the Assets.at
action, where the folder
parameter is fixed. So it doesn’t need to be specified.
However, if you define two mappings for the Assets.at
action, like this:
GET /javascripts/*file controllers.Assets.at(path="/public/javascripts", file)
GET /images/*file controllers.Assets.at(path="/public/images", file)
You will then need to specify both parameters when using the reverse router:
<script src="@routes.Assets.at("/public/javascripts", "jquery.js")"></script>
<img src="@routes.Assets.at("/public/images", "logo.png")" />
§Reverse routing and fingerprinting for public assets
sbt-web brings the notion of a highly configurable asset pipeline to Play e.g. in your build file:
pipelineStages := Seq(rjs, digest, gzip)
The above will order the RequireJs optimizer (sbt-rjs), the digester (sbt-digest) and then compression (sbt-gzip). Unlike many sbt tasks, these tasks will execute in the order declared, one after the other.
In essence asset fingerprinting permits your static assets to be served with aggressive caching instructions to a browser. This will result in an improved experience for your users given that subsequent visits to your site will result in less assets requiring to be downloaded. Rails also describes the benefits of asset fingerprinting.
The above declaration of pipelineStages
and the requisite addSbtPlugin
declarations in your plugins.sbt
for the plugins you require are your start point. You must then declare to Play what assets are to be versioned. The following routes file entry declares that all assets are to be versioned:
GET /assets/*file controllers.Assets.versioned(path="/public", file: Asset)
Note: Make sure you indicate that
file
is an asset by writingfile: Asset
.
You then use the reverse router, for example within a scala.html
view:
<link rel="stylesheet" href="@routes.Assets.versioned("assets/css/app.css")">
We highly encourage the use of asset fingerprinting.
§Etag support
The Assets
controller automatically manages ETag HTTP Headers. The ETag value is generated from the digest (if sbt-digest
is being used in the asset pipeline) or otherwise the resource name and the file’s last modification date. If the resource file is embedded into a file, the JAR file’s last modification date is used.
When a web browser makes a request specifying this Etag then the server can respond with 304 NotModified.
§Gzip support
If a resource with the same name but using a .gz
suffix is found then the Assets
controller will also serve the latter and add the following HTTP header:
Content-Encoding: gzip
Including the sbt-gzip
plugin in your build and declaring its position in the pipelineStages
is all that is required to generate gzip files.
§Additional Cache-Control
directive
Using Etag is usually enough for the purposes of caching. However if you want to specify a custom Cache-Control
header for a particular resource, you can specify it in your application.conf
file. For example:
# Assets configuration
# ~~~~~
"assets.cache./public/stylesheets/bootstrap.min.css"="max-age=3600"
§Managed assets
Starting with Play 2.3 managed assets are processed by sbt-web based plugins. Prior to 2.3 Play bundled managed asset processing in the form of CoffeeScript, LESS, JavaScript linting (ClosureCompiler) and RequireJS optimization. The following sections describe sbt-web and how the equivalent 2.2 functionality can be achieved. Note though that Play is not limited to this asset processing technology as many plugins should become available to sbt-web over time. Please check-in with the sbt-web project to learn more about what plugins are available.
Many plugins use sbt-web’s js-engine plugin. js-engine is able to execute plugins written to the Node API either within the JVM via the excellent Trireme project, or directly on Node.js for superior performance. Note that these tools are used during the development cycle only and have no involvement during the runtime execution of your Play application. If you have Node.js installed then you are encouraged to declare the following environment variable. For Unix, if SBT_OPTS
has been defined elsewhere then you can:
export SBT_OPTS="$SBT_OPTS -Dsbt.jse.engineType=Node"
The above declaration ensures that Node.js is used when executing any sbt-web plugin.
§Range requests support
Assets
controller automatically supports part of RFC 7233 which defines how range requests and partial responses works. The Assets
controller will delivery a 206 Partial Content
if a satisfiable Range
header is present in the request. It will also returns a Accept-Ranges: bytes
for all assets delivery.
Note: Besides the fact that some parsing is done to better handle multiple ranges,
multipart/byteranges
is not fully supported yet.
You can also return 206 Partial Content
when delivering files without using the Assets
controller:
§Scala version
def video(videoId: Long) = Action { implicit request =>
val videoFile = getVideoFile(videoId)
RangeResult.ofFile(videoFile, request.headers.get(RANGE), Some("video/mp4"))
}
§Java version
public Result video(Long videoId) {
File videoFile = getVideoFile(videoId);
return RangeResults.ofFile(videoFile);
}
Both examples will delivery just part of the video file, according to the requested range.
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