final class CSRF[F[_], G[_]] extends AnyRef

Middleware to avoid Cross-site request forgery attacks. More info on CSRF at: https://www.owasp.org/index.php/Cross-Site_Request_Forgery_(CSRF)

This middleware is modeled after the double submit cookie pattern: https://www.owasp.org/index.php/Cross-Site_Request_Forgery_(CSRF)_Prevention_Cheat_Sheet#Double_Submit_Cookie

When a user authenticates, embedNew is used to send a random CSRF value as a cookie. (Alternatively, an authenticating service can be wrapped in withNewToken).

By default, for requests that are unsafe (PUT, POST, DELETE, PATCH), services protected by the validated method in the middleware will check that the csrf token is present in both the header headerName and the cookie cookieName. Due to the Same-Origin policy, an attacker will be unable to reproduce this value in a custom header, resulting in a 403 Forbidden response.

By default, requests with safe methods (such as GET, OPTIONS, HEAD) will have a new token embedded in them if there isn't one, or will receive a refreshed token based off of the previous token to mitigate the BREACH vulnerability. If a request contains an invalid token, regardless of whether it is a safe method, this middleware will fail it with 403 Forbidden. In this situation, your user(s) should clear their cookies for your page, to receive a new token.

The default can be overridden by modifying the predicate in validate. It will, by default, check if the method is safe. Thus, you can provide some whitelisting capability for certain kinds of requests.

We'd like to emphasize that you please follow proper design principles in creating endpoints, as to not mutate in what should otherwise be idempotent methods (i.e no dropping your DB in a GET method, or altering user data). Please do not use the CSRF protection from this middleware as a safety net for bad design.

Self Type
CSRF[F, G]
Source
CSRF.scala
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  1. final def !=(arg0: Any): Boolean
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  2. final def ##(): Int
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  3. final def ==(arg0: Any): Boolean
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  4. final def asInstanceOf[T0]: T0
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  5. def checkCSRF(r: Request[G], http: F[Response[G]]): F[Response[G]]

    Check for CSRF validity for an unsafe action.

  6. def checkCSRFToken(r: Request[G], respAction: F[Response[G]], rawToken: String)(implicit F: Async[F]): F[Response[G]]

    Check for CSRF validity for an unsafe action.

    Check for CSRF validity for an unsafe action.

    Exposed to users in case of manual plumbing of csrf token (i.e websocket or query param)

  7. def clone(): AnyRef
    Attributes
    protected[lang]
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    @throws( ... ) @native()
  8. def createRequestCookie(token: CSRFToken): RequestCookie
  9. def createResponseCookie(token: CSRFToken): ResponseCookie

    Create a Response cookie from a signed CSRF token

    Create a Response cookie from a signed CSRF token

    token

    the signed csrf token

  10. def embedInRequestCookie(r: Request[G], token: CSRFToken): Request[G]
  11. def embedInResponseCookie(r: Response[G], token: CSRFToken): Response[G]
  12. def embedNewInResponseCookie[M[_]](res: Response[G])(implicit arg0: Async[M]): M[Response[G]]

    Embed a token into a response

  13. final def eq(arg0: AnyRef): Boolean
    Definition Classes
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  14. def equals(arg0: Any): Boolean
    Definition Classes
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  15. def extractRaw[M[_]](rawToken: String)(implicit arg0: Async[M]): M[Either[CSRFCheckFailed, String]]

    Decode our CSRF token, check the signature and extract the original token string to sign

  16. def finalize(): Unit
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    protected[lang]
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    @throws( classOf[java.lang.Throwable] )
  17. def generateToken[M[_]](implicit F: Async[M]): M[CSRFToken]

    Generate a new token

  18. final def getClass(): Class[_]
    Definition Classes
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    @native()
  19. def getHeaderToken(r: Request[G]): Option[String]
  20. def hashCode(): Int
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    @native()
  21. final def isInstanceOf[T0]: Boolean
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  22. final def ne(arg0: AnyRef): Boolean
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  23. final def notify(): Unit
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  24. final def notifyAll(): Unit
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  25. def onfailureF: F[Response[G]]
  26. def refreshOrCreate[M[_]](r: Request[G])(implicit F: Async[M]): EitherT[M, CSRFCheckFailed, CSRFToken]

    Extract a CsrfToken, if present, from the request, then try generate a new token signature, or fail with a validation error.

    Extract a CsrfToken, if present, from the request, then try generate a new token signature, or fail with a validation error. If not present, generate a new token

    returns

    newly refreshed token

  27. def refreshedToken[M[_]](r: Request[G])(implicit F: Async[M]): EitherT[M, CSRFCheckFailed, CSRFToken]

    Extract a CsrfToken, if present, from the request, then try to generate a new token signature, or fail with a validation error

    Extract a CsrfToken, if present, from the request, then try to generate a new token signature, or fail with a validation error

    returns

    newly refreshed token

  28. def signToken[M[_]](rawToken: String)(implicit F: Async[M]): M[CSRFToken]

    Sign our token using the current time in milliseconds as a nonce Signing and generating a token is potentially a unsafe operation if constructed with a bad key.

  29. final def synchronized[T0](arg0: ⇒ T0): T0
    Definition Classes
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  30. def toString(): String
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  31. def validate(predicate: (Request[G]) ⇒ Boolean = _.method.isSafe): Middleware[F, Request[G], Response[G], Request[G], Response[G]]

    Constructs a middleware that will check for the csrf token presence on both the proper cookie, and header values, if the predicate is not satisfied

    Constructs a middleware that will check for the csrf token presence on both the proper cookie, and header values, if the predicate is not satisfied

    If it is a valid token, it will then embed a new one, to effectively randomize the complete token while avoiding the generation of a new secure random Id, to guard against [BREACH](http://breachattack.com/)

  32. final def wait(): Unit
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    @throws( ... )
  33. final def wait(arg0: Long, arg1: Int): Unit
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    @throws( ... )
  34. final def wait(arg0: Long): Unit
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    @throws( ... ) @native()

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