servant/servant-client/src/Servant/Client.hs

{-# LANGUAGE CPP                    #-}
{-# LANGUAGE DataKinds              #-}
{-# LANGUAGE FlexibleContexts       #-}
{-# LANGUAGE FlexibleInstances      #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE InstanceSigs           #-}
{-# LANGUAGE MultiParamTypeClasses  #-}
{-# LANGUAGE OverloadedStrings      #-}
{-# LANGUAGE PolyKinds              #-}
{-# LANGUAGE ScopedTypeVariables    #-}
{-# LANGUAGE TypeFamilies           #-}
{-# LANGUAGE TypeOperators          #-}
{-# LANGUAGE UndecidableInstances   #-}

#include "overlapping-compat.h"
-- | This module provides 'client' which can automatically generate
-- querying functions for each endpoint just from the type representing your
-- API.
module Servant.Client
  ( AuthClientData
  , AuthenticateReq(..)
  , client
  , staticClient
  , HasClient(..)
  , ClientM
  , mkAuthenticateReq
  , ServantError(..)
  , module Servant.Common.BaseUrl
  ) where

#if !MIN_VERSION_base(4,8,0)
import           Control.Applicative        ((<$>))
#endif
import           Data.ByteString.Lazy       (ByteString)
import           Data.List
import           Data.Proxy
import           Data.String.Conversions
import           Data.Text                  (unpack)
import           GHC.TypeLits
import           Network.HTTP.Client        (Manager, Response)
import           Network.HTTP.Media
import qualified Network.HTTP.Types         as H
import qualified Network.HTTP.Types.Header  as HTTP
import           Servant.API
import           Servant.Client.Experimental.Auth
import           Servant.Common.BaseUrl
import           Servant.Common.BasicAuth
import           Servant.Common.Req

-- * Accessing APIs as a Client

-- | 'client' allows you to produce operations to query an API from a client.
--
-- > type MyApi = "books" :> Get '[JSON] [Book] -- GET /books
-- >         :<|> "books" :> ReqBody '[JSON] Book :> Post '[JSON] Book -- POST /books
-- >
-- > myApi :: Proxy MyApi
-- > myApi = Proxy
-- >
-- > getAllBooks :: Manager -> BaseUrl -> ClientM [Book]
-- > postNewBook :: Book -> Manager -> BaseUrl -> ClientM Book
-- > (getAllBooks :<|> postNewBook) = client myApi
client :: HasClient layout => Proxy layout -> Client layout
client p = clientWithRoute p defReq


class Foo layout where
  type StaticClient layout :: *
  staticClient :: Proxy layout -> BaseUrl -> StaticClient layout

instance (Foo left, Foo right) => Foo (left :<|> right) where
  type StaticClient (left :<|> right) = StaticClient left :<|> StaticClient right
  staticClient p url =
    staticClient pleft url :<|>
    staticClient pright url
    where pleft = Proxy :: Proxy left
          pright = Proxy :: Proxy right

instance OVERLAPPABLE_ (Client (combinator :> api) ~ Client api, Foo api) => Foo (combinator :> api) where
  type StaticClient (combinator :> api) = StaticClient api
  staticClient p url = staticClient (Proxy :: Proxy api) url

instance OVERLAPPING_ (MimeRender ct a, Client (ReqBody (ct ': cts) a :> sublayout) ~ (a -> Client sublayout), Foo sublayout)
      => Foo (ReqBody (ct ': cts) a :> sublayout) where
  type StaticClient (ReqBody (ct ': cts) a :> sublayout) = a -> Client sublayout
  staticClient p url = _

instance (Client (Verb method status ctypes result) ~ (Manager -> BaseUrl -> ClientM result), ctypes ~ (c ': ct), MimeUnrender c result, ReflectMethod method) => Foo (Verb method status ctypes result) where
  type StaticClient (Verb method status ctypes result) = Manager -> ClientM result
  staticClient p url = \ mgr -> (client p) mgr url

instance Foo Raw where
  type StaticClient Raw = H.Method -> Manager -> ClientM (Int, ByteString, MediaType, [HTTP.Header], Response ByteString)
  staticClient p url = \h m -> (client p) h m url

-- | This class lets us define how each API combinator
-- influences the creation of an HTTP request. It's mostly
-- an internal class, you can just use 'client'.
class HasClient layout where
  type Client layout :: *
  clientWithRoute :: Proxy layout -> Req -> Client layout


-- | A client querying function for @a ':<|>' b@ will actually hand you
--   one function for querying @a@ and another one for querying @b@,
--   stitching them together with ':<|>', which really is just like a pair.
--
-- > type MyApi = "books" :> Get '[JSON] [Book] -- GET /books
-- >         :<|> "books" :> ReqBody '[JSON] Book :> Post Book -- POST /books
-- >
-- > myApi :: Proxy MyApi
-- > myApi = Proxy
-- >
-- > getAllBooks :: Manager -> BaseUrl -> ClientM [Book]
-- > postNewBook :: Book -> Manager -> BaseUrl -> ClientM Book
-- > (getAllBooks :<|> postNewBook) = client myApi
instance (HasClient a, HasClient b) => HasClient (a :<|> b) where
  type Client (a :<|> b) = Client a :<|> Client b
  clientWithRoute Proxy req =
    clientWithRoute (Proxy :: Proxy a) req :<|>
    clientWithRoute (Proxy :: Proxy b) req

-- | If you use a 'Capture' in one of your endpoints in your API,
-- the corresponding querying function will automatically take
-- an additional argument of the type specified by your 'Capture'.
-- That function will take care of inserting a textual representation
-- of this value at the right place in the request path.
--
-- You can control how values for this type are turned into
-- text by specifying a 'ToHttpApiData' instance for your type.
--
-- Example:
--
-- > type MyApi = "books" :> Capture "isbn" Text :> Get '[JSON] Book
-- >
-- > myApi :: Proxy MyApi
-- > myApi = Proxy
-- >
-- > getBook :: Text -> Manager -> BaseUrl -> ClientM Book
-- > getBook = client myApi
-- > -- then you can just use "getBook" to query that endpoint
instance (KnownSymbol capture, ToHttpApiData a, HasClient sublayout)
      => HasClient (Capture capture a :> sublayout) where

  type Client (Capture capture a :> sublayout) =
    a -> Client sublayout

  clientWithRoute Proxy req val =
    clientWithRoute (Proxy :: Proxy sublayout)
                    (appendToPath p req)

    where p = unpack (toUrlPiece val)

instance OVERLAPPABLE_
  -- Note [Non-Empty Content Types]
  (MimeUnrender ct a, ReflectMethod method, cts' ~ (ct ': cts)
  ) => HasClient (Verb method status cts' a) where
  type Client (Verb method status cts' a) = Manager -> BaseUrl -> ClientM a
  clientWithRoute Proxy req manager baseurl =
    snd <$> performRequestCT (Proxy :: Proxy ct) method req manager baseurl
      where method = reflectMethod (Proxy :: Proxy method)

instance OVERLAPPING_
  (ReflectMethod method) => HasClient (Verb method status cts NoContent) where
  type Client (Verb method status cts NoContent)
    = Manager -> BaseUrl -> ClientM NoContent
  clientWithRoute Proxy req manager baseurl =
    performRequestNoBody method req manager baseurl >> return NoContent
      where method = reflectMethod (Proxy :: Proxy method)

instance OVERLAPPING_
  -- Note [Non-Empty Content Types]
  ( MimeUnrender ct a, BuildHeadersTo ls, ReflectMethod method, cts' ~ (ct ': cts)
  ) => HasClient (Verb method status cts' (Headers ls a)) where
  type Client (Verb method status cts' (Headers ls a))
    = Manager -> BaseUrl -> ClientM (Headers ls a)
  clientWithRoute Proxy req manager baseurl = do
    let method = reflectMethod (Proxy :: Proxy method)
    (hdrs, resp) <- performRequestCT (Proxy :: Proxy ct) method req manager baseurl
    return $ Headers { getResponse = resp
                     , getHeadersHList = buildHeadersTo hdrs
                     }

instance OVERLAPPING_
  ( BuildHeadersTo ls, ReflectMethod method
  ) => HasClient (Verb method status cts (Headers ls NoContent)) where
  type Client (Verb method status cts (Headers ls NoContent))
    = Manager -> BaseUrl -> ClientM (Headers ls NoContent)
  clientWithRoute Proxy req manager baseurl = do
    let method = reflectMethod (Proxy :: Proxy method)
    hdrs <- performRequestNoBody method req manager baseurl
    return $ Headers { getResponse = NoContent
                     , getHeadersHList = buildHeadersTo hdrs
                     }


-- | If you use a 'Header' in one of your endpoints in your API,
-- the corresponding querying function will automatically take
-- an additional argument of the type specified by your 'Header',
-- wrapped in Maybe.
--
-- That function will take care of encoding this argument as Text
-- in the request headers.
--
-- All you need is for your type to have a 'ToHttpApiData' instance.
--
-- Example:
--
-- > newtype Referer = Referer { referrer :: Text }
-- >   deriving (Eq, Show, Generic, ToHttpApiData)
-- >
-- >            -- GET /view-my-referer
-- > type MyApi = "view-my-referer" :> Header "Referer" Referer :> Get '[JSON] Referer
-- >
-- > myApi :: Proxy MyApi
-- > myApi = Proxy
-- >
-- > viewReferer :: Maybe Referer -> Manager -> BaseUrl -> ClientM Book
-- > viewReferer = client myApi
-- > -- then you can just use "viewRefer" to query that endpoint
-- > -- specifying Nothing or e.g Just "http://haskell.org/" as arguments
instance (KnownSymbol sym, ToHttpApiData a, HasClient sublayout)
      => HasClient (Header sym a :> sublayout) where

  type Client (Header sym a :> sublayout) =
    Maybe a -> Client sublayout

  clientWithRoute Proxy req mval =
    clientWithRoute (Proxy :: Proxy sublayout)
                    (maybe req
                           (\value -> Servant.Common.Req.addHeader hname value req)
                           mval
                    )

    where hname = symbolVal (Proxy :: Proxy sym)

-- | Using a 'HttpVersion' combinator in your API doesn't affect the client
-- functions.
instance HasClient sublayout
  => HasClient (HttpVersion :> sublayout) where

  type Client (HttpVersion :> sublayout) =
    Client sublayout

  clientWithRoute Proxy =
    clientWithRoute (Proxy :: Proxy sublayout)

-- | If you use a 'QueryParam' in one of your endpoints in your API,
-- the corresponding querying function will automatically take
-- an additional argument of the type specified by your 'QueryParam',
-- enclosed in Maybe.
--
-- If you give Nothing, nothing will be added to the query string.
--
-- If you give a non-'Nothing' value, this function will take care
-- of inserting a textual representation of this value in the query string.
--
-- You can control how values for your type are turned into
-- text by specifying a 'ToHttpApiData' instance for your type.
--
-- Example:
--
-- > type MyApi = "books" :> QueryParam "author" Text :> Get '[JSON] [Book]
-- >
-- > myApi :: Proxy MyApi
-- > myApi = Proxy
-- >
-- > getBooksBy :: Maybe Text -> Manager -> BaseUrl -> ClientM [Book]
-- > getBooksBy = client myApi
-- > -- then you can just use "getBooksBy" to query that endpoint.
-- > -- 'getBooksBy Nothing' for all books
-- > -- 'getBooksBy (Just "Isaac Asimov")' to get all books by Isaac Asimov
instance (KnownSymbol sym, ToHttpApiData a, HasClient sublayout)
      => HasClient (QueryParam sym a :> sublayout) where

  type Client (QueryParam sym a :> sublayout) =
    Maybe a -> Client sublayout

  -- if mparam = Nothing, we don't add it to the query string
  clientWithRoute Proxy req mparam =
    clientWithRoute (Proxy :: Proxy sublayout)
                    (maybe req
                           (flip (appendToQueryString pname) req . Just)
                           mparamText
                    )

    where pname  = cs pname'
          pname' = symbolVal (Proxy :: Proxy sym)
          mparamText = fmap toQueryParam mparam

-- | If you use a 'QueryParams' in one of your endpoints in your API,
-- the corresponding querying function will automatically take
-- an additional argument, a list of values of the type specified
-- by your 'QueryParams'.
--
-- If you give an empty list, nothing will be added to the query string.
--
-- Otherwise, this function will take care
-- of inserting a textual representation of your values in the query string,
-- under the same query string parameter name.
--
-- You can control how values for your type are turned into
-- text by specifying a 'ToHttpApiData' instance for your type.
--
-- Example:
--
-- > type MyApi = "books" :> QueryParams "authors" Text :> Get '[JSON] [Book]
-- >
-- > myApi :: Proxy MyApi
-- > myApi = Proxy
-- >
-- > getBooksBy :: [Text] -> Manager -> BaseUrl -> ClientM [Book]
-- > getBooksBy = client myApi
-- > -- then you can just use "getBooksBy" to query that endpoint.
-- > -- 'getBooksBy []' for all books
-- > -- 'getBooksBy ["Isaac Asimov", "Robert A. Heinlein"]'
-- > --   to get all books by Asimov and Heinlein
instance (KnownSymbol sym, ToHttpApiData a, HasClient sublayout)
      => HasClient (QueryParams sym a :> sublayout) where

  type Client (QueryParams sym a :> sublayout) =
    [a] -> Client sublayout

  clientWithRoute Proxy req paramlist =
    clientWithRoute (Proxy :: Proxy sublayout)
                    (foldl' (\ req' -> maybe req' (flip (appendToQueryString pname) req' . Just))
                            req
                            paramlist'
                    )

    where pname  = cs pname'
          pname' = symbolVal (Proxy :: Proxy sym)
          paramlist' = map (Just . toQueryParam) paramlist

-- | If you use a 'QueryFlag' in one of your endpoints in your API,
-- the corresponding querying function will automatically take
-- an additional 'Bool' argument.
--
-- If you give 'False', nothing will be added to the query string.
--
-- Otherwise, this function will insert a value-less query string
-- parameter under the name associated to your 'QueryFlag'.
--
-- Example:
--
-- > type MyApi = "books" :> QueryFlag "published" :> Get '[JSON] [Book]
-- >
-- > myApi :: Proxy MyApi
-- > myApi = Proxy
-- >
-- > getBooks :: Bool -> Manager -> BaseUrl -> ClientM [Book]
-- > getBooks = client myApi
-- > -- then you can just use "getBooks" to query that endpoint.
-- > -- 'getBooksBy False' for all books
-- > -- 'getBooksBy True' to only get _already published_ books
instance (KnownSymbol sym, HasClient sublayout)
      => HasClient (QueryFlag sym :> sublayout) where

  type Client (QueryFlag sym :> sublayout) =
    Bool -> Client sublayout

  clientWithRoute Proxy req flag =
    clientWithRoute (Proxy :: Proxy sublayout)
                    (if flag
                       then appendToQueryString paramname Nothing req
                       else req
                    )

    where paramname = cs $ symbolVal (Proxy :: Proxy sym)


-- | Pick a 'Method' and specify where the server you want to query is. You get
-- back the full `Response`.
instance HasClient Raw where
  type Client Raw
    = H.Method -> Manager -> BaseUrl -> ClientM (Int, ByteString, MediaType, [HTTP.Header], Response ByteString)

  clientWithRoute :: Proxy Raw -> Req -> Client Raw
  clientWithRoute Proxy req httpMethod = do
    performRequest httpMethod req

-- | If you use a 'ReqBody' in one of your endpoints in your API,
-- the corresponding querying function will automatically take
-- an additional argument of the type specified by your 'ReqBody'.
-- That function will take care of encoding this argument as JSON and
-- of using it as the request body.
--
-- All you need is for your type to have a 'ToJSON' instance.
--
-- Example:
--
-- > type MyApi = "books" :> ReqBody '[JSON] Book :> Post '[JSON] Book
-- >
-- > myApi :: Proxy MyApi
-- > myApi = Proxy
-- >
-- > addBook :: Book -> Manager -> BaseUrl -> ClientM Book
-- > addBook = client myApi
-- > -- then you can just use "addBook" to query that endpoint
instance (MimeRender ct a, HasClient sublayout)
      => HasClient (ReqBody (ct ': cts) a :> sublayout) where

  type Client (ReqBody (ct ': cts) a :> sublayout) =
    a -> Client sublayout

  clientWithRoute Proxy req body =
    clientWithRoute (Proxy :: Proxy sublayout)
                    (let ctProxy = Proxy :: Proxy ct
                     in setRQBody (mimeRender ctProxy body)
                                  (contentType ctProxy)
                                  req
                    )

-- | Make the querying function append @path@ to the request path.
instance (KnownSymbol path, HasClient sublayout) => HasClient (path :> sublayout) where
  type Client (path :> sublayout) = Client sublayout

  clientWithRoute Proxy req =
     clientWithRoute (Proxy :: Proxy sublayout)
                     (appendToPath p req)

    where p = symbolVal (Proxy :: Proxy path)

instance HasClient api => HasClient (Vault :> api) where
  type Client (Vault :> api) = Client api

  clientWithRoute Proxy req =
    clientWithRoute (Proxy :: Proxy api) req

instance HasClient api => HasClient (RemoteHost :> api) where
  type Client (RemoteHost :> api) = Client api

  clientWithRoute Proxy req =
    clientWithRoute (Proxy :: Proxy api) req

instance HasClient api => HasClient (IsSecure :> api) where
  type Client (IsSecure :> api) = Client api

  clientWithRoute Proxy req =
    clientWithRoute (Proxy :: Proxy api) req

instance HasClient subapi =>
  HasClient (WithNamedContext name context subapi) where

  type Client (WithNamedContext name context subapi) = Client subapi
  clientWithRoute Proxy = clientWithRoute (Proxy :: Proxy subapi)

instance ( HasClient api
         ) => HasClient (AuthProtect tag :> api) where
  type Client (AuthProtect tag :> api)
    = AuthenticateReq (AuthProtect tag) -> Client api

  clientWithRoute Proxy req (AuthenticateReq (val,func)) =
    clientWithRoute (Proxy :: Proxy api) (func val req)

-- * Basic Authentication

instance HasClient api => HasClient (BasicAuth realm usr :> api) where
  type Client (BasicAuth realm usr :> api) = BasicAuthData -> Client api

  clientWithRoute Proxy req val =
    clientWithRoute (Proxy :: Proxy api) (basicAuthReq val req)


{- Note [Non-Empty Content Types]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Rather than have

   instance (..., cts' ~ (ct ': cts)) => ... cts' ...

It may seem to make more sense to have:

   instance (...) => ... (ct ': cts) ...

But this means that if another instance exists that does *not* require
non-empty lists, but is otherwise more specific, no instance will be overall
more specific. This in turn generally means adding yet another instance (one
for empty and one for non-empty lists).
-}