2017-12-08 22:52:33 +01:00
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# Structuring APIs
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In this recipe, we will see a few simple ways to
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structure your APIs by splitting them up into smaller
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"sub-APIs" or by sharing common structure between
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different parts. Let's start with the usual throat
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clearing.
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``` haskell
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{-# LANGUAGE DataKinds #-}
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{-# LANGUAGE DeriveGeneric #-}
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{-# LANGUAGE TypeOperators #-}
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{-# LANGUAGE KindSignatures #-}
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import Data.Aeson
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import GHC.Generics
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import GHC.TypeLits
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import Network.Wai.Handler.Warp
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import Servant
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```
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Our application will consist of three different
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"sub-APIs", with a few endpoints in each of them.
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Our global API is defined as follows.
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``` haskell
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type API = FactoringAPI
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:<|> SimpleAPI "users" User UserId
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:<|> SimpleAPI "products" Product ProductId
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```
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We simply join the three different parts with `:<|>`,
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as if each sub-API was just a simple endpoint.
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The first part, `FactoringAPI`, shows how we can
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"factor out" combinators that are common to several
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endpoints, just like we turn `a * b + a * c` into
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`a * (b + c)` in algebra.
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``` haskell
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-- Two endpoints:
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-- - GET /x/<some 'Int'>[?y=<some 'Int'>]
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-- - POST /x/<some 'Int'>
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type FactoringAPI =
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"x" :> Capture "x" Int :>
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( QueryParam "y" Int :> Get '[JSON] Int
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:<|> Post '[JSON] Int
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)
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{- this is equivalent to:
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type FactoringAPI' =
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"x" :> Capture "x" Int :> QueryParam "y" Int :> Get '[JSON] Int :<|>
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"x" :> Capture "x" Int :> Post '[JSON] Int
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-}
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```
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You can see that both endpoints start with a static
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path fragment, `/"x"`, then capture some arbitrary
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`Int` until they finally differ. Now, this also has
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an effect on the server for such an API, and its type
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in particular. While the server for `FactoringAPI'` would
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be made of a function of type `Int -> Maybe Int -> Handler Int`
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and a function of type `Int -> Handler Int` glued with `:<|>`,
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2017-12-08 23:21:00 +01:00
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a server for `FactoringAPI` (without the `'`) reflects the
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2017-12-08 22:52:33 +01:00
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"factorisation" and therefore, `Server FactoringAPI` is
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`Int -> (Maybe Int -> Handler Int :<|> Handler Int)`. That is, the
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server must be a function that takes an `Int` (the `Capture`) and
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returns two values glued with `:<|>`, one of type `Maybe Int -> Handler Int`
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and the other of type `Handler Int`. Let's provide such a server
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implementation.
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_Note_: you can load this module in ghci and ask for the concrete
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type that `Server FactoringAPI` "resolves to" by typing
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`:kind! Server FactoringAPI`.
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``` haskell
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factoringServer :: Server FactoringAPI
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factoringServer x = getXY :<|> postX
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where getXY Nothing = return x
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getXY (Just y) = return (x + y)
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postX = return (x - 1)
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```
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Next come the two sub-APIs defined in terms of this `SimpleAPI`
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type, but with different parameters. That type is just a good old
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Haskell type synonym that abstracts away a pretty common structure in
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web services, where you have:
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- one endpoint for listing a bunch of entities of some type
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- one endpoint for accessing the entity with a given identifier
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- one endpoint for creating a new entity
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There are many variants on this theme (endpoints for deleting,
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paginated listings, etc). The simple definition below reproduces
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such a structure, but instead of picking concrete types for
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the entities and their identifiers, we simply let the user
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of the type decide, by making those types parameters of
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`SimpleAPI`. While we're at it, we'll put all our endpoints
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under a common prefix that we also take as a parameter.
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``` haskell
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-- Three endpoints:
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-- - GET /<name>
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-- - GET /<name>/<some 'i'>
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-- - POST /<name>
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type SimpleAPI (name :: Symbol) a i = name :>
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( Get '[JSON] [a]
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:<|> Capture "id" i :> Get '[JSON] a
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:<|> ReqBody '[JSON] a :> Post '[JSON] NoContent
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)
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```
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`Symbol` is the [kind](https://wiki.haskell.org/Kind)
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of type-level strings, which is what servant uses for
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representing static path fragments. We can even provide
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a little helper function for creating a server for that API
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given one handler for each endpoint as arguments.
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``` haskell
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simpleServer
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:: Handler [a]
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-> (i -> Handler a)
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-> (a -> Handler NoContent)
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-> Server (SimpleAPI name a i)
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simpleServer listAs getA postA =
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listAs :<|> getA :<|> postA
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{- you could alternatively provide such a definition
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but with the handlers running in another monad,
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or even an arbitrary one!
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simpleAPIServer
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:: m [a]
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-> (i -> m a)
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-> (a -> m NoContent)
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-> Server (SimpleAPI name a i) m
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simpleAPIServer listAs getA postA =
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listAs :<|> getA :<|> postA
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and use 'hoistServer' on the result of `simpleAPIServer`
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applied to your handlers right before you call `serve`.
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-}
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```
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We can use this to define servers for the user and product
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related sections of the API.
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``` haskell
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userServer :: Server (SimpleAPI "users" User UserId)
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userServer = simpleServer
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(return [])
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(\userid -> return $
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if userid == 0
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then User "john" 64
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else User "everybody else" 10
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)
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(\_user -> return NoContent)
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productServer :: Server (SimpleAPI "products" Product ProductId)
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productServer = simpleServer
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(return [])
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(\_productid -> return $ Product "Great stuff")
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(\_product -> return NoContent)
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```
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Finally, some dummy types and the serving part.
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``` haskell
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type UserId = Int
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data User = User { username :: String, age :: Int }
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deriving Generic
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instance FromJSON User
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instance ToJSON User
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type ProductId = Int
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data Product = Product { productname :: String }
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deriving Generic
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instance FromJSON Product
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instance ToJSON Product
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api :: Proxy API
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api = Proxy
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main :: IO ()
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main = run 8080 . serve api $
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factoringServer :<|> userServer :<|> productServer
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```
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2017-12-08 23:21:00 +01:00
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This program is available as a cabal project
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[here](https://github.com/haskell-servant/servant/tree/master/doc/cookbook/structuring-apis).
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