{-# LANGUAGE MultiParamTypeClasses, Rank2Types, TypeOperators, OverloadedStrings #-} -- | Functions for implementing the server side of JSON RPC 2.0. -- See <http://www.jsonrpc.org/specification>. module Network.JsonRpc.Server ( -- ** Instructions -- $instructions -- ** Unnamed and Optional Arguments -- $arguments -- ** Example -- $example -- ** Methods RpcResult , Method , toMethod , Methods , toMethods , call , callWithBatchStrategy , Parameter(..) , (:+:) (..) , MethodParams -- ** Errors , RpcError , rpcError , rpcErrorWithData) where import Network.JsonRpc.Types import Data.Text (Text, append, pack) import Data.Maybe (catMaybes) import qualified Data.ByteString.Lazy as B import qualified Data.Aeson as A import qualified Data.Vector as V import qualified Data.HashMap.Strict as H import Control.Applicative ((<$>)) import Control.Monad (liftM) import Control.Monad.Identity (Identity, runIdentity) import Control.Monad.Error (ErrorT, runErrorT, throwError) import Prelude hiding (length) -- $instructions -- * Create methods by calling 'toMethod' and providing the method -- names, lists of parameters, and functions to be called. -- -- * Create a set of methods by calling 'toMethods'. -- -- * Process a request by calling 'call' or 'callWithBatchStrategy' -- on the 'Methods' and input 'B.ByteString'. -- $arguments -- RPC methods can have any mix of required and optional parameters. -- When a request uses unnamed arguments, the function is applied to -- the arguments in order. The function will be called as long as -- all required arguments are specified, and the number of arguments -- provided is not greater than the total number of required and -- optional parameters. -- $example -- Here is an example of a simple Happstack server with three methods. -- Compile it with the build flag @demo@. -- -- > {-# LANGUAGE OverloadedStrings #-} -- > -- > module Main (main) where -- > -- > import Network.JsonRpc.Server -- > import Happstack.Server.SimpleHTTP( ServerPartT, simpleHTTP, nullConf -- > , askRq, rqBody, unBody, toResponse) -- > import Data.List (intercalate) -- > import Data.Maybe (fromMaybe) -- > import Control.Monad (when) -- > import Control.Monad.Trans (liftIO) -- > import Control.Monad.Error (throwError) -- > import Control.Monad.Reader (ReaderT, ask, runReaderT) -- > import Control.Concurrent.MVar (MVar, newMVar, readMVar, modifyMVar) -- > -- > main :: IO () -- > main = newMVar 0 >>= \count -> -- > simpleHTTP nullConf $ do -- > request <- askRq -- > body <- liftIO $ getBody request -- > result <- runReaderT (call methods body) count -- > let resultStr = fromMaybe "" result -- > return $ toResponse resultStr -- > where getBody r = unBody `fmap` readMVar (rqBody r) -- > -- > type Server = ReaderT (MVar Integer) (ServerPartT IO) -- > -- > methods :: Methods Server -- > methods = toMethods [printSequence, getCount, add] -- > -- > printSequence, getCount, add :: Method Server -- > -- > printSequence = toMethod "print" f params -- > where params = Required "string" :+: -- > Optional "count" 1 :+: -- > Optional "separator" ',' :+: () -- > f :: String -> Int -> Char -> RpcResult Server () -- > f str count sep = do -- > when (count < 0) $ throwError negativeCount -- > liftIO $ print $ intercalate [sep] $ replicate count str -- > negativeCount = rpcError (-32000) "negative count" -- > -- > getCount = toMethod "get_count" f () -- > where f :: RpcResult Server Integer -- > f = ask >>= \count -> liftIO $ modifyMVar count inc -- > where inc x = return (x + 1, x + 1) -- > -- > add = toMethod "add" f (Required "x" :+: Required "y" :+: ()) -- > where f :: Double -> Double -> RpcResult Server Double -- > f x y = liftIO $ return (x + y) -- -- | Creates a method from a name, function, and parameter descriptions. -- The parameter names must be unique. toMethod :: (MethodParams f p m r, A.ToJSON r, Monad m) => Text -> f -> p -> Method m toMethod name f params = let f' args = A.toJSON <$> apply f params args in Method name f' -- | Creates a set of methods to be called by name. The names must be unique. toMethods :: [Method m] -> Methods m toMethods fs = Methods $ H.fromList $ map pair fs where pair mth@(Method name _) = (name, mth) -- | Handles one JSON RPC request. It is the same as -- @callWithBatchStrategy sequence@. call :: Monad m => Methods m -- ^ Choice of methods to call. -> B.ByteString -- ^ JSON RPC request. -> m (Maybe B.ByteString) -- ^ The response wrapped in 'Just', or -- 'Nothing' in the case of a notification, -- all wrapped in the given monad. call = callWithBatchStrategy sequence -- | Handles one JSON RPC request. callWithBatchStrategy :: Monad m => (forall a . [m a] -> m [a]) -- ^ Function specifying the -- evaluation strategy. -> Methods m -- ^ Choice of methods to call. -> B.ByteString -- ^ JSON RPC request. -> m (Maybe B.ByteString) -- ^ The response wrapped in 'Just', or -- 'Nothing' in the case of a notification, -- all wrapped in the given monad. callWithBatchStrategy strategy fs input = either returnErr callMethod request where request :: Either RpcError (Either A.Value [A.Value]) request = runIdentity $ runErrorT $ parseVal =<< parseJson input parseJson = maybe invalidJson return . A.decode parseVal val = case val of obj@(A.Object _) -> return $ Left obj A.Array vec | V.null vec -> throwError $ invalidRpcError "Empty batch request" | otherwise -> return $ Right $ V.toList vec _ -> throwError $ invalidRpcError "Not a JSON object or array" callMethod rq = case rq of Left val -> encodeJust `liftM` singleCall fs val Right vals -> encodeJust `liftM` batchCall strategy fs vals where encodeJust r = (A.encode . A.toJSON) <$> r returnErr = return . Just . A.encode . A.toJSON . nullIdResponse invalidJson = throwError $ rpcError (-32700) "Invalid JSON" singleCall :: Monad m => Methods m -> A.Value -> m (Maybe Response) singleCall (Methods fs) val = case parsed of Left err -> return $ nullIdResponse err Right (Request name args i) -> toResponse i `liftM` runErrorT (applyMethodTo args =<< method) where method = lookupMethod name fs where parsed = runIdentity $ runErrorT $ parseValue val applyMethodTo args (Method _ f) = f args nullIdResponse :: RpcError -> Maybe Response nullIdResponse err = toResponse (Just IdNull) (Left err :: Either RpcError ()) parseValue :: (A.FromJSON a, Monad m) => A.Value -> RpcResult m a parseValue val = case A.fromJSON val of A.Error msg -> throwError $ invalidRpcError $ pack msg A.Success x -> return x lookupMethod :: Monad m => Text -> H.HashMap Text (Method m) -> RpcResult m (Method m) lookupMethod name = maybe notFound return . H.lookup name where notFound = throwError $ rpcError (-32601) ("Method not found: " `append` name) invalidRpcError :: Text -> RpcError invalidRpcError = rpcErrorWithData (-32600) "Invalid JSON RPC 2.0 request" batchCall :: Monad m => (forall a. [m a] -> m [a]) -> Methods m -> [A.Value] -> m (Maybe [Response]) batchCall strategy mths vals = (noNull . catMaybes) `liftM` results where results = strategy $ map (singleCall mths) vals noNull rs = if null rs then Nothing else Just rs toResponse :: A.ToJSON a => Maybe Id -> Either RpcError a -> Maybe Response toResponse (Just i) r = Just $ Response i $ A.toJSON <$> r toResponse Nothing _ = Nothing