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This module offers Authentication and Authorization features to Play2.x applications
This module targets the Scala version of Play2.x.
The existing Security
trait in Play2.x API does not define an identifier that identifies a user.
If you use an Email or a userID as an identifier, users can not invalidate their session if the session cookie is intercepted.
This module creates a unique SessionID using a secure random number generator. Even if the sessionId cookie is intercepted, users can invalidate the session by logging in again. Your application can expire sessions after a set time limit.
Since the Security
trait in Play2.x API returns Action
,
complicated action methods wind up deeply nested.
Play2x-Auth provides a way of composition.
for Play2.3.x, Please see previous version 0.13.5 README
for Play2.2.x, Please see previous version 0.11.1 README
Since Play2.3's SimpleResult
is renamed to Result
, The play2.auth trait signatures are changed at version 0.12.0
Since Play2.2's Result
is deprecated, The play2.auth trait signatures are changed at version 0.11.0
Add dependency declarations into your Build.scala
or build.sbt
file:
-
for Play2.4.x
"jp.t2v" %% "play2-auth" % "0.14.2", "jp.t2v" %% "play2-auth-social" % "0.14.2", // for social login "jp.t2v" %% "play2-auth-test" % "0.14.2" % "test", play.sbt.Play.autoImport.cache // only when you use default IdContainer
For example your Build.scala
might look like this:
val appDependencies = Seq(
"jp.t2v" %% "play2-auth" % "0.14.2",
"jp.t2v" %% "play2-auth-social" % "0.14.2",
"jp.t2v" %% "play2-auth-test" % "0.14.2" % "test",
play.sbt.Play.autoImport.cache
)
-
First create a trait that extends
jp.t2v.lab.play2.auth.AuthConfig
inapp/controllers
.// Example import jp.t2v.lab.play2.auth._ trait AuthConfigImpl extends AuthConfig { /** * A type that is used to identify a user. * `String`, `Int`, `Long` and so on. */ type Id = String /** * A type that represents a user in your application. * `User`, `Account` and so on. */ type User = Account /** * A type that is defined by every action for authorization. * This sample uses the following trait: * * sealed trait Role * case object Administrator extends Role * case object NormalUser extends Role */ type Authority = Role /** * A `ClassTag` is used to retrieve an id from the Cache API. * Use something like this: */ val idTag: ClassTag[Id] = classTag[Id] /** * The session timeout in seconds */ val sessionTimeoutInSeconds: Int = 3600 /** * A function that returns a `User` object from an `Id`. * You can alter the procedure to suit your application. */ def resolveUser(id: Id)(implicit ctx: ExecutionContext): Future[Option[User]] = Account.findById(id) /** * Where to redirect the user after a successful login. */ def loginSucceeded(request: RequestHeader)(implicit ctx: ExecutionContext): Future[Result] = Future.successful(Redirect(routes.Message.main)) /** * Where to redirect the user after logging out */ def logoutSucceeded(request: RequestHeader)(implicit ctx: ExecutionContext): Future[Result] = Future.successful(Redirect(routes.Application.login)) /** * If the user is not logged in and tries to access a protected resource then redirect them as follows: */ def authenticationFailed(request: RequestHeader)(implicit ctx: ExecutionContext): Future[Result] = Future.successful(Redirect(routes.Application.login)) /** * If authorization failed (usually incorrect password) redirect the user as follows: */ override def authorizationFailed(request: RequestHeader, user: User, authority: Option[Authority])(implicit context: ExecutionContext): Future[Result] = { Future.successful(Forbidden("no permission")) } /** * A function that determines what `Authority` a user has. * You should alter this procedure to suit your application. */ def authorize(user: User, authority: Authority)(implicit ctx: ExecutionContext): Future[Boolean] = Future.successful { (user.role, authority) match { case (Administrator, _) => true case (NormalUser, NormalUser) => true case _ => false } } /** * (Optional) * You can custom SessionID Token handler. * Default implementation use Cookie. */ override lazy val tokenAccessor = new CookieTokenAccessor( /* * Whether use the secure option or not use it in the cookie. * Following code is default. */ cookieSecureOption = play.api.Play.isProd(play.api.Play.current), cookieMaxAge = Some(sessionTimeoutInSeconds) ) }
-
Next create a
Controller
that defines both login and logout actions. ThisController
mixes in thejp.t2v.lab.play2.auth.LoginLogout
trait and the trait that you created in first step.object Application extends Controller with LoginLogout with AuthConfigImpl { /** Your application's login form. Alter it to fit your application */ val loginForm = Form { mapping("email" -> email, "password" -> text)(Account.authenticate)(_.map(u => (u.email, ""))) .verifying("Invalid email or password", result => result.isDefined) } /** Alter the login page action to suit your application. */ def login = Action { implicit request => Ok(html.login(loginForm)) } /** * Return the `gotoLogoutSucceeded` method's result in the logout action. * * Since the `gotoLogoutSucceeded` returns `Future[Result]`, * you can add a procedure like the following. * * gotoLogoutSucceeded.map(_.flashing( * "success" -> "You've been logged out" * )) */ def logout = Action.async { implicit request => // do something... gotoLogoutSucceeded } /** * Return the `gotoLoginSucceeded` method's result in the login action. * * Since the `gotoLoginSucceeded` returns `Future[Result]`, * you can add a procedure like the `gotoLogoutSucceeded`. */ def authenticate = Action.async { implicit request => loginForm.bindFromRequest.fold( formWithErrors => Future.successful(BadRequest(html.login(formWithErrors))), user => gotoLoginSucceeded(user.get.id) ) } }
-
Lastly, mix
jp.t2v.lab.play2.auth.AuthElement
trait and the trait that was created in the first step into your Controllers:object Message extends Controller with AuthElement with AuthConfigImpl { // The `StackAction` method // takes `(AuthorityKey, Authority)` as the first argument and // a function signature `RequestWithAttributes[AnyContent] => Result` as the second argument and // returns an `Action` // The `loggedIn` method // returns current logged in user def main = StackAction(AuthorityKey -> NormalUser) { implicit request => val user = loggedIn val title = "message main" Ok(html.message.main(title)) } def list = StackAction(AuthorityKey -> NormalUser) { implicit request => val user = loggedIn val title = "all messages" Ok(html.message.list(title)) } def detail(id: Int) = StackAction(AuthorityKey -> NormalUser) { implicit request => val user = loggedIn val title = "messages detail " Ok(html.message.detail(title + id)) } // Only Administrator can execute this action. def write = StackAction(AuthorityKey -> Administrator) { implicit request => val user = loggedIn val title = "write message" Ok(html.message.write(title)) } }
play2.auth provides test module at version 0.8
You can use FakeRequest
with logged-in status.
package test
import org.specs2.mutable._
import play.api.test._
import play.api.test.Helpers._
import controllers.{AuthConfigImpl, Messages}
import jp.t2v.lab.play2.auth.test.Helpers._
class ApplicationSpec extends Specification {
object config extends AuthConfigImpl
"Messages" should {
"return list when user is authorized" in new WithApplication {
val result = Messages.list(FakeRequest().withLoggedIn(config)(1))
contentType(result) must equalTo("text/html")
}
}
}
-
Import
jp.t2v.lab.play2.auth.test.Helpers._
-
Define instance what is mixed-in
AuthConfigImpl
object config extends AuthConfigImpl
-
Call
withLoggedIn
method onFakeRequest
- first argument:
AuthConfigImpl
instance. - second argument: user ID of the user who is logged-in at this request
- first argument:
It makes enable to test controllers with play2.auth
For example, a Social networking application has a function to edit messages.
A user must be able to edit their own messages but not other people's messages.
To achieve this you could define Authority
as a Function
:
trait AuthConfigImpl extends AuthConfig {
// Other setup is omitted.
type Authority = User => Future[Boolean]
def authorize(user: User, authority: Authority)(implicit ctx: ExecutionContext): Future[Boolean] = authority(user)
}
object Application extends Controller with AuthElement with AuthConfigImpl {
private def sameAuthor(messageId: Int)(account: Account): Future[Boolean] =
Message.getAutherAsync(messageId).map(_ == account)
def edit(messageId: Int) = StackAction(AuthorityKey -> sameAuthor(messageId)) { implicit request =>
val user = loggedIn
val target = Message.findById(messageId)
Ok(html.message.edit(messageForm.fill(target)))
}
}
When an unauthenticated user requests access to page requiring authentication, you first redirect the user to the login page, then, after the user successfully logs in, you redirect the user to the page they originally requested.
To achieve this change authenticationFailed
and loginSucceeded
:
trait AuthConfigImpl extends AuthConfig {
// Other settings are omitted.
def authenticationFailed(request: RequestHeader)(implicit ctx: ExecutionContext): Future[Result] =
Future.successful(Redirect(routes.Application.login).withSession("access_uri" -> request.uri))
def loginSucceeded(request: RequestHeader)(implicit ctx: ExecutionContext): Future[Result] = {
val uri = request.session.get("access_uri").getOrElse(routes.Message.main.url.toString)
Future.successful(Redirect(uri).withSession(request.session - "access_uri"))
}
}
If you want to display the application's index differently to non-logged-in users
and logged-in users, you can use OptionalAuthElement
instead of AuthElement
:
object Application extends Controller with OptionalAuthElement with AuthConfigImpl {
// maybeUser is an instance of `Option[User]`.
// `OptionalAuthElement` dont need `AuthorityKey`
def index = StackAction { implicit request =>
val maybeUser: Option[User] = loggedIn
val user: User = maybeUser.getOrElse(GuestUser)
Ok(html.index(user))
}
}
you can AuthenticationElement
instead of AuthElement
for authentication without authorization.
object Application extends Controller with AuthenticationElement with AuthConfigImpl {
def index = StackAction { implicit request =>
val user: User = loggedIn
Ok(html.index(user))
}
}
Normally, you want to return a login page redirection at a authentication failed. Although, when the request is sent by Ajax you want to instead return 401, Unauthorized.
You can do it as follows.
def authenticationFailed(request: RequestHeader)(implicit ctx: ExecutionContext) = Future.successful {
request.headers.get("X-Requested-With") match {
case Some("XMLHttpRequest") => Unauthorized("Authentication failed")
case _ => Redirect(routes.Application.login)
}
}
play2.auth use stackable-controller
Suppose you want to validate a token at every action in order to defeat a Cross Site Request Forgery attack.
Since it is impractical to perform the validation in all actions, you would define a trait like this:
import jp.t2v.lab.play2.stackc.{RequestWithAttributes, StackableController}
import scala.concurrent.Future
import play.api.mvc.{Result, Request, Controller}
import play.api.data._
import play.api.data.Forms._
trait TokenValidateElement extends StackableController {
self: Controller =>
private val tokenForm = Form("token" -> text)
private def validateToken(request: Request[_]): Boolean = (for {
tokenInForm <- tokenForm.bindFromRequest()(request).value
tokenInSession <- request.session.get("token")
} yield tokenInForm == tokenInSession).getOrElse(false)
override def proceed[A](request: RequestWithAttributes[A])(f: RequestWithAttributes[A] => Future[Result]): Future[Result] = {
if (validateToken(request)) super.proceed(request)(f)
else Future.successful(BadRequest)
}
}
You can use TokenValidateElement
trait with AuthElement
trait.
object Application extends Controller with TokenValidateElement with AuthElement with AuthConfigImpl {
def page1 = StackAction(AuthorityKey -> NormalUser) { implicit request =>
// do something
Ok(html.page1("result"))
}
def page2 = StackAction(AuthorityKey -> NormalUser) { implicit request =>
// do something
Ok(html.page2("result"))
}
}
There are asynchronous libraries ( for example: ReactiveMongo, ScalikeJDBC-Async, and so on ).
You should use Future[Result]
instead of AsyncResult
from Play2.2.
You can use AsyncStack
instead of StackAction
for Future[Result]
trait HogeController extends AuthElement with AuthConfigImpl {
def hoge = AsyncStack { implicit req =>
val messages: Future[Seq[Message]] = AsyncDB.withPool { implicit s => Message.findAll }
messages.map(Ok(html.view.messages(_)))
}
}
Play2x-Auth follows the Play framework's stateless policy. However, Play2x-Auth's default implementation is stateful, because the stateless implementation has the following security risk:
If user logs-in to your application in a internet-cafe, then returns home neglecting to logout. If the user logs in again at home they will not invalidate the session.
Nevertheless, you want to use a fully stateless implementation then just override the idContainer
method of AuthConfig
like this:
trait AuthConfigImpl extends AuthConfig {
// Other settings omitted.
override lazy val idContainer: AsyncIdContainer[Id] = AsyncIdContainer(new CookieIdContainer[Id])
}
You could also store the session data in a Relational Database by overriding the id container.
Note: CookieIdContainer
doesn't support session timeout.
git clone https://github.com/t2v/play2-auth.git
cd play2-auth
sbt "project sample" run
- access to
http://localhost:9000/
on your browser.-
click
Apply this script now!
-
login
defined accounts
Email | Password | Role [email protected] | secret | Administrator [email protected] | secret | NormalUser [email protected] | secret | NormalUser
-
Ehcache, the default cache implementation used by Play2.x, does not work on distributed application servers.
If you have distributed servers, use the Memcached Plugin or something similar.
This library is released under the Apache Software License, version 2,
which should be included with the source in a file named LICENSE
.