# Hoist Server With Context for Custom Monads In this example we'll combine some of the patterns we've seen in other examples in order to demonstrate using a custom monad with Servant's `Context` and the function `hoistServerWithContext`. `hoistServerWithContext` is a pattern you may encounter if you are trying to use a library such as [servant-auth-server](https://hackage.haskell.org/package/servant-auth-server) along with your own custom monad. In this example, our custom monad will be based on the commonly used `ReaderT env IO a` stack. We'll create an `AppCtx` to represent our `env` and include some logging utilities as well as other variables we'd like to have available. In addition, in order to demonstrate a custom `Context`, we'll also include authentication in our example. As noted previously (in [jwt-and-basic-auth](../jwt-and-basic-auth/JWTAndBasicAuth.lhs)), while basic authentication comes with Servant itself, [servant-auth](https://hackage.haskell.org/package/servant-auth) and [servant-auth-server](https://hackage.haskell.org/package/servant-auth-server) packages are needed for JWT-based authentication. Finally, we're going to use [fast-logger](http://hackage.haskell.org/package/fast-logger) for our logging example below. This recipe uses the following ingredients: ```haskell {-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} import Prelude () import Prelude.Compat import Control.Monad.IO.Class (liftIO) import Control.Monad.Reader import Data.Aeson import Data.Default import Data.Proxy import Data.Text import Data.Time.Clock ( UTCTime, getCurrentTime ) import GHC.Generics import Network.Wai (Middleware) import Network.Wai.Handler.Warp as Warp import Network.Wai.Middleware.RequestLogger import Network.Wai.Middleware.RequestLogger.JSON import Servant as S import Servant.Auth as SA import Servant.Auth.Server as SAS import System.Log.FastLogger ( ToLogStr(..) , LoggerSet , defaultBufSize , newStdoutLoggerSet , flushLogStr , pushLogStrLn ) port :: Int port = 3001 ``` ## Custom Monad Let's say we'd like to create a custom monad based on `ReaderT env` in order to hold access to a config object as well as some logging utilities. With that, we could define an `AppCtx` and `AppM` like this: ```haskell type AppM = ReaderT AppCtx Handler data AppCtx = AppCtx { _getConfig :: SiteConfig , _getLogger :: LoggerSet } data SiteConfig = SiteConfig { environment :: !Text , version :: !Text , adminUsername :: !Text , adminPasswd :: !Text } deriving (Generic, Show) ``` This `SiteConfig` is a simple example: it refers to our deployment environment as well as an application version. For instance, we may do something different based on the environment our app is deployed into. When emitting log messages, we may want to include information about the deployed version of our application. In addition, we're going to identify a single admin user in our config and use that definition to authenticate requests inside our handlers. This is not too flexible (and probably not too secure...), but it works as a simple example. ## Logging A common contemporary pattern is to emit log messages as JSON for later ingestion into a database like Elasticsearch. To emit JSON log messages, we'll create a `LogMessage` object and make it so we can turn it into a JSON-encoded `LogStr` (a type from `fast-logger`). ```haskell data LogMessage = LogMessage { message :: !Text , timestamp :: !UTCTime , level :: !Text , lversion :: !Text , lenvironment :: !Text } deriving (Eq, Show, Generic) instance FromJSON LogMessage instance ToJSON LogMessage where toEncoding = genericToEncoding defaultOptions instance ToLogStr LogMessage where toLogStr = toLogStr . encode ``` Eventually, when we'd like to emit a log message inside one of our Handlers, it'll look like this: ```haskell sampleHandler :: AppM LogMessage sampleHandler = do config <- asks _getConfig logset <- asks _getLogger tstamp <- liftIO getCurrentTime let logMsg = LogMessage { message = "let's do some logging!" , timestamp = tstamp , level = "info" , lversion = version config , lenvironment = environment config } -- emit log message liftIO $ pushLogStrLn logset $ toLogStr logMsg -- return handler result (for simplicity, result is also a LogMessage) pure logMsg ``` ## Authentication To demonstrate the other part of this recipe, we are going to use a simple representation of a user, someone who may have access to an admin section of our site: ```haskell data AdminUser = AdminUser { name :: Text } deriving (Eq, Show, Read, Generic) ``` The following instances are needed for JWT: ```haskell instance ToJSON AdminUser instance FromJSON AdminUser instance SAS.ToJWT AdminUser instance SAS.FromJWT AdminUser ``` ## API Now we can define our API. We'll have an `admin` endpoint and a `login` endpoint that takes a `LoginForm`: ```haskell type AdminApi = "admin" :> Get '[JSON] LogMessage type LoginApi = "login" :> ReqBody '[JSON] LoginForm :> Post '[JSON] (Headers '[ Header "Set-Cookie" SetCookie, Header "Set-Cookie" SetCookie] LogMessage) data LoginForm = LoginForm { username :: Text , password :: Text } deriving (Eq, Show, Generic) instance ToJSON LoginForm instance FromJSON LoginForm ``` We can combine both APIs into one like so: ```haskell type AdminAndLogin auths = (SAS.Auth auths AdminUser :> AdminApi) :<|> LoginApi ``` ## Server When we define our server, we'll have to define handlers for the `AdminApi` and the `LoginApi` and we'll have to supply `JWTSettings` and `CookieSettings` so our `login` handler can authenticate users: ```haskell adminServer :: SAS.CookieSettings -> SAS.JWTSettings -> ServerT (AdminAndLogin auths) AppM adminServer cs jwts = adminHandler :<|> loginHandler cs jwts ``` The `admin` route should receive an authenticated `AdminUser` as an argument or it should return a `401`: ```haskell adminHandler :: AuthResult AdminUser -> AppM LogMessage adminHandler (SAS.Authenticated adminUser) = do config <- asks _getConfig logset <- asks _getLogger tstamp <- liftIO getCurrentTime let logMsg = LogMessage { message = "Admin User accessing admin: " <> name adminUser , timestamp = tstamp , level = "info" , lversion = version config , lenvironment = environment config } -- emit log message liftIO $ pushLogStrLn logset $ toLogStr logMsg -- return handler result (for simplicity, result is a LogMessage) pure logMsg adminHandler _ = throwError err401 ``` By contrast, the `login` handler is waiting for a `POST` with a login form. If login is successful, it will set session cookies and return a value. Here we're going to include lots of log messages: ```haskell loginHandler :: CookieSettings -> JWTSettings -> LoginForm -> AppM (Headers '[ Header "Set-Cookie" SetCookie, Header "Set-Cookie" SetCookie] LogMessage) loginHandler cookieSettings jwtSettings form = do config <- asks _getConfig logset <- asks _getLogger tstamp <- liftIO getCurrentTime let logMsg = LogMessage { message = "AdminUser login attempt failed!" , timestamp = tstamp , level = "info" , lversion = version config , lenvironment = environment config } case validateLogin config form of Nothing -> do liftIO $ pushLogStrLn logset $ toLogStr logMsg throwError err401 Just usr -> do mApplyCookies <- liftIO $ SAS.acceptLogin cookieSettings jwtSettings usr case mApplyCookies of Nothing -> do liftIO $ pushLogStrLn logset $ toLogStr logMsg throwError err401 Just applyCookies -> do let successMsg = logMsg{message = "AdminUser successfully authenticated!"} liftIO $ pushLogStrLn logset $ toLogStr successMsg pure $ applyCookies successMsg loginHandler _ _ _ = throwError err401 validateLogin :: SiteConfig -> LoginForm -> Maybe AdminUser validateLogin config (LoginForm uname passwd ) = if (uname == adminUsername config) && (passwd == adminPasswd config) then Just $ AdminUser uname else Nothing ``` ## `serveWithContext` and `hoistServerWithContext` In order to build a working server, we'll need to `hoist` our custom monad into Servant's Handler monad. We'll also need to pass in the proper context to ensure authentication will work. This will require both `serveWithContext` and `hoistServerWithContext`. Let's define the function which will create our `Application`: ```haskell adminLoginApi :: Proxy (AdminAndLogin '[JWT]) adminLoginApi = Proxy mkApp :: Context '[SAS.CookieSettings, SAS.JWTSettings] -> CookieSettings -> JWTSettings -> AppCtx -> Application mkApp cfg cs jwts ctx = serveWithContext adminLoginApi cfg $ hoistServerWithContext adminLoginApi (Proxy :: Proxy '[SAS.CookieSettings, SAS.JWTSettings]) (flip runReaderT ctx) (adminServer cs jwts) ``` One footenote: because we'd like our logs to be in JSON form, we'll also create a `Middleware` object so that `Warp` *also* will emit logs as JSON. This will ensure *all* logs are emitted as JSON: ```haskell jsonRequestLogger :: IO Middleware jsonRequestLogger = mkRequestLogger $ def { outputFormat = CustomOutputFormatWithDetails formatAsJSON } ``` We now have all the pieces we need to serve our application inside a `main` function: ```haskell main :: IO () main = do -- typically, we'd create our config from environment variables -- but we're going to just make one here let config = SiteConfig "dev" "1.0.0" "admin" "secretPassword" warpLogger <- jsonRequestLogger appLogger <- newStdoutLoggerSet defaultBufSize tstamp <- getCurrentTime myKey <- generateKey let lgmsg = LogMessage { message = "My app starting up!" , timestamp = tstamp , level = "info" , lversion = version config , lenvironment = environment config } pushLogStrLn appLogger (toLogStr lgmsg) >> flushLogStr appLogger let ctx = AppCtx config appLogger warpSettings = Warp.defaultSettings portSettings = Warp.setPort port warpSettings settings = Warp.setTimeout 55 portSettings jwtCfg = defaultJWTSettings myKey cookieCfg = if environment config == "dev" then defaultCookieSettings{cookieIsSecure=SAS.NotSecure} else defaultCookieSettings cfg = cookieCfg :. jwtCfg :. EmptyContext Warp.runSettings settings $ warpLogger $ mkApp cfg cookieCfg jwtCfg ctx ``` ## Usage Now we can run it and try it out with `curl`. In one terminal, let's run our application and see what our log output looks like: ```$ ./cookbook-hoist-server-with-context {"message":"My app starting up!","timestamp":"2018-10-04T00:33:12.482568Z","level":"info","lversion":"1.0.0","lenvironment":"dev"} ``` In another terminal, let's ensure that it fails with `err401` if we're not authenticated: ``` $ curl -v 'http://localhost:3001/admin' … < HTTP/1.1 401 Unauthorized ``` ``` $ curl -v -XPOST 'http://localhost:3001/login' \ -H "Content-Type:application/json" \ -d '{"username": "bad", "password": "wrong"}' … < HTTP/1.1 401 Unauthorized ``` And in the other terminal with our log messages (from our JSON `Middleware`): ``` {"time":"03/Oct/2018:17:35:56 -0700","response":{"status":401,"size":null,"body":""},"request":{"httpVersion":"1.1","path":"/admin","size":0,"body":"","durationMs":0.22,"remoteHost":{"hostAddress":"127.0.0.1","port":51029},"headers":[["Host","localhost:3001"],["User-Agent","curl/7.60.0"],["Accept","*/*"]],"queryString":[],"method":"GET"}} ``` Now let's see that authentication works, and that we get JWTs: ``` $ curl -v -XPOST 'http://localhost:3001/login' \ -H "Content-Type:application/json" \ -d '{"username": "admin", "password": "secretPassword"}' … < HTTP/1.1 200 OK ... < Server: Warp/3.2.25 < Content-Type: application/json;charset=utf-8 < Set-Cookie: JWT-Cookie=eyJhbGciOiJIUzUxMiJ9.eyJkYXQiOnsibmFtZSI6ImFkbWluIn19.SIoRcABKSO4mXnRifzqPWlHJUhVwuy32Qon7s1E_c3vHOsLXdXyX4V4eXOw9tMFoeIqgsXMZucqoFb36vAdKwQ; Path=/; HttpOnly; SameSite=Lax < Set-Cookie: XSRF-TOKEN=y5PmrYHX3ywFUCwGRQqHh1TDheTLiQpwRQB3FFRd8N4=; Path=/ ... {"message":"AdminUser succesfully authenticated!","timestamp":"2018-10-04T00:37:44.455441Z","level":"info","lversion":"1.0.0","lenvironment":"dev"} ``` And in the other terminal with our log messages (note that logging out passwords is insecure...): ``` {"message":"AdminUser succesfully authenticated!","timestamp":"2018-10-04T00:37:44.455441Z","level":"info","lversion":"1.0.0","lenvironment":"dev"} {"time":"03/Oct/2018:17:37:44 -0700","response":{"status":200,"size":null,"body":null},"request":{"httpVersion":"1.1","path":"/login","size":51,"body":"{\"username\": \"admin\", \"password\": \"secretPassword\"}","durationMs":0.23,"remoteHost":{"hostAddress":"127.0.0.1","port":51044},"headers":[["Host","localhost:3001"],["User-Agent","curl/7.60.0"],["Accept","*/*"],["Content-Type","application/json"],["Content-Length","51"]],"queryString":[],"method":"POST"}} ``` Finally, let's make sure we can access a protected resource with our tokens: ``` $ export jwt=eyJhbGciOiJIUzUxMiJ9.eyJkYXQiOnsibmFtZSI6ImFkbWluIn19.SIoRcABKSO4mXnRifzqPWlHJUhVwuy32Qon7s1E_c3vHOsLXdXyX4V4eXOw9tMFoeIqgsXMZucqoFb36vAdKwQ $ curl -v \ -H "Authorization: Bearer $jwt" \ 'http://localhost:3001/admin' … < HTTP/1.1 200 OK {"message":"Admin User accessing admin: admin","timestamp":"2018-10-04T00:58:07.216605Z","level":"info","lversion":"1.0.0","lenvironment":"dev"} ``` And we should see this message logged-out as well: ``` {"message":"Admin User accessing admin: admin","timestamp":"2018-10-04T00:58:07.216605Z","level":"info","lversion":"1.0.0","lenvironment":"dev"} ``` This program is available as a cabal project [here](https://github.com/haskell-servant/servant/tree/master/doc/cookbook/hoist-server-with-context).