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|
-- |
-- Copyright : (c) Sam Truzjan 2013
-- License : BSD3
-- Maintainer : pxqr.sta@gmail.com
-- Stability : experimental
-- Portability : portable
--
-- This module provides straightforward implementation of KRPC
-- protocol. In many situations 'Network.KRPC' should be prefered
-- since it gives more safe, convenient and high level api.
--
-- See <http://www.bittorrent.org/beps/bep_0005.html#krpc-protocol>
--
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE TypeSynonymInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE DefaultSignatures #-}
{-# LANGUAGE DeriveDataTypeable #-}
module Network.KRPC.Protocol
( -- * Error
KError(..)
, ErrorCode
, errorCode
, mkKError
-- * Query
, KQuery(queryMethod, queryArgs)
, MethodName
, ParamName
, kquery
-- * Response
, KResponse(respVals)
, ValName
, kresponse
, sendMessage
, recvResponse
-- * Remote
, withRemote
, remoteServer
) where
import Control.Applicative
import Control.Exception.Lifted as Lifted
import Control.Monad
import Control.Monad.IO.Class
import Control.Monad.Trans.Control
import Data.BEncode as BE
import Data.BEncode.BDict as BE
import Data.BEncode.Types as BE
import Data.ByteString as B
import Data.ByteString.Char8 as BC
import qualified Data.ByteString.Lazy as LB
import Data.Typeable
import Network.Socket hiding (recvFrom)
import Network.Socket.ByteString
-- | Errors used to signal that some error occurred while processing a
-- procedure call. Error may be send only from server to client but
-- not in the opposite direction.
--
-- Errors are encoded as bencoded dictionary:
--
-- > { "y" : "e", "e" : [<error_code>, <human_readable_error_reason>] }
--
data KError
-- | Some error doesn't fit in any other category.
= GenericError { errorMessage :: !ByteString }
-- | Occur when server fail to process procedure call.
| ServerError { errorMessage :: !ByteString }
-- | Malformed packet, invalid arguments or bad token.
| ProtocolError { errorMessage :: !ByteString }
-- | Occur when client trying to call method server don't know.
| MethodUnknown { errorMessage :: !ByteString }
deriving (Show, Read, Eq, Ord, Typeable)
instance BEncode KError where
{-# SPECIALIZE instance BEncode KError #-}
{-# INLINE toBEncode #-}
toBEncode e = toDict $
"e" .=! (errorCode e, errorMessage e)
.: "y" .=! ("e" :: ByteString)
.: endDict
{-# INLINE fromBEncode #-}
fromBEncode be @ (BDict d)
| BE.lookup "y" d == Just (BString "e")
= (`fromDict` be) $ do
uncurry mkKError <$>! "e"
fromBEncode _ = decodingError "KError"
instance Exception KError
type ErrorCode = Int
errorCode :: KError -> ErrorCode
errorCode (GenericError _) = 201
errorCode (ServerError _) = 202
errorCode (ProtocolError _) = 203
errorCode (MethodUnknown _) = 204
{-# INLINE errorCode #-}
mkKError :: ErrorCode -> ByteString -> KError
mkKError 201 = GenericError
mkKError 202 = ServerError
mkKError 203 = ProtocolError
mkKError 204 = MethodUnknown
mkKError _ = GenericError
{-# INLINE mkKError #-}
serverError :: SomeException -> KError
serverError = ServerError . BC.pack . show
type MethodName = ByteString
type ParamName = ByteString
-- | Query used to signal that caller want to make procedure call to
-- callee and pass arguments in. Therefore query may be only sent from
-- client to server but not in the opposite direction.
--
-- Queries are encoded as bencoded dictionary:
--
-- > { "y" : "q", "q" : "<method_name>", "a" : [<arg1>, <arg2>, ...] }
--
data KQuery = KQuery {
queryMethod :: !MethodName
, queryArgs :: BDict
} deriving (Show, Read, Eq, Ord, Typeable)
instance BEncode KQuery where
{-# SPECIALIZE instance BEncode KQuery #-}
{-# INLINE toBEncode #-}
toBEncode (KQuery m args) = toDict $
"a" .=! BDict args
.: "q" .=! m
.: "y" .=! ("q" :: ByteString)
.: endDict
{-# INLINE fromBEncode #-}
fromBEncode bv @ (BDict d)
| BE.lookup "y" d == Just (BString "q") = (`fromDict` bv) $ do
a <- field (req "a")
q <- field (req "q")
return $! KQuery q a
fromBEncode _ = decodingError "KQuery"
kquery :: MethodName -> BDict -> KQuery
kquery = KQuery
{-# INLINE kquery #-}
type ValName = ByteString
-- | KResponse used to signal that callee successufully process a
-- procedure call and to return values from procedure. KResponse should
-- not be sent if error occurred during RPC. Thus KResponse may be only
-- sent from server to client.
--
-- Responses are encoded as bencoded dictionary:
--
-- > { "y" : "r", "r" : [<val1>, <val2>, ...] }
--
newtype KResponse = KResponse { respVals :: BDict }
deriving (Show, Read, Eq, Ord, Typeable)
instance BEncode KResponse where
{-# INLINE toBEncode #-}
toBEncode (KResponse vals) = toDict $
"r" .=! vals
.: "y" .=! ("r" :: ByteString)
.: endDict
{-# INLINE fromBEncode #-}
fromBEncode bv @ (BDict d)
| BE.lookup "y" d == Just (BString "r") = (`fromDict` bv) $ do
KResponse <$>! "r"
fromBEncode _ = decodingError "KDict"
kresponse :: BDict -> KResponse
kresponse = KResponse
{-# INLINE kresponse #-}
sockAddrFamily :: SockAddr -> Family
sockAddrFamily (SockAddrInet _ _ ) = AF_INET
sockAddrFamily (SockAddrInet6 _ _ _ _) = AF_INET6
sockAddrFamily (SockAddrUnix _ ) = AF_UNIX
withRemote :: (MonadBaseControl IO m, MonadIO m) => (Socket -> m a) -> m a
withRemote = bracket (liftIO (socket AF_INET6 Datagram defaultProtocol))
(liftIO . sClose)
{-# SPECIALIZE withRemote :: (Socket -> IO a) -> IO a #-}
maxMsgSize :: Int
--maxMsgSize = 512 -- release: size of payload of one udp packet
maxMsgSize = 64 * 1024 -- bench: max UDP MTU
{-# INLINE maxMsgSize #-}
sendMessage :: BEncode msg => msg -> SockAddr -> Socket -> IO ()
sendMessage msg addr sock = sendManyTo sock (LB.toChunks (encode msg)) addr
{-# INLINE sendMessage #-}
recvResponse :: Socket -> IO (Either KError KResponse)
recvResponse sock = do
(raw, _) <- recvFrom sock maxMsgSize
return $ case decode raw of
Right resp -> Right resp
Left decE -> Left $ case decode raw of
Right kerror -> kerror
_ -> ProtocolError (BC.pack decE)
-- | Run server using a given port. Method invocation should be done manually.
remoteServer :: (MonadBaseControl IO remote, MonadIO remote)
=> SockAddr -- ^ Port number to listen.
-> (SockAddr -> KQuery -> remote (Either KError KResponse))
-> remote ()
remoteServer servAddr action = bracket (liftIO bindServ) (liftIO . sClose) loop
where
bindServ = do
let family = sockAddrFamily servAddr
sock <- socket family Datagram defaultProtocol
when (family == AF_INET6) $ do
setSocketOption sock IPv6Only 0
bindSocket sock servAddr
return sock
loop sock = forever $ do
(bs, addr) <- liftIO $ recvFrom sock maxMsgSize
reply <- handleMsg bs addr
liftIO $ sendMessage reply addr sock
where
handleMsg bs addr = case decode bs of
Right query -> (either toBEncode toBEncode <$> action addr query)
`Lifted.catch` (return . toBEncode . serverError)
Left decodeE -> return $ toBEncode (ProtocolError (BC.pack decodeE))
|