-- | -- Copyright : (c) Sam Truzjan 2013 -- (c) Daniel Gröber 2013 -- License : BSD3 -- Maintainer : pxqr.sta@gmail.com -- Stability : experimental -- Portability : portable -- -- Every tracker should support announce query. This query is used -- to discover peers within a swarm and have two-fold effect: -- -- * peer doing announce discover other peers using peer list from -- the response to the announce query. -- -- * tracker store peer information and use it in the succeeding -- requests made by other peers, until the peer info expires. -- -- By convention most trackers support another form of request — -- scrape query — which queries the state of a given torrent (or -- a list of torrents) that the tracker is managing. -- {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE DeriveFunctor #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeFamilies #-} {-# OPTIONS -fno-warn-orphans #-} module Network.BitTorrent.Tracker.Message ( -- * Announce -- ** Query AnnounceEvent (..) , AnnounceQuery (..) , renderAnnounceQuery , ParamParseFailure , parseAnnounceQuery -- ** Info , PeerList (..) , getPeerList , AnnounceInfo(..) , defaultNumWant , defaultMaxNumWant , defaultReannounceInterval -- * Scrape -- ** Query , ScrapeQuery , renderScrapeQuery , parseScrapeQuery -- ** Info , ScrapeEntry (..) , ScrapeInfo -- * HTTP specific -- ** Routes , PathPiece , defaultAnnouncePath , defaultScrapePath -- ** Preferences , AnnouncePrefs (..) , renderAnnouncePrefs , parseAnnouncePrefs -- ** Request , AnnounceRequest (..) , parseAnnounceRequest , renderAnnounceRequest -- ** Response , announceType , scrapeType , parseFailureStatus -- ** Extra , queryToSimpleQuery -- * UDP specific -- ** Connection , ConnectionId , initialConnectionId -- ** Messages , Request (..) , Response (..) , responseName -- ** Transaction , genTransactionId , TransactionId , Transaction (..) ) where import Control.Applicative import Control.Monad import Data.BEncode as BE hiding (Result) import Data.BEncode.BDict as BE import Data.ByteString as BS import Data.ByteString.Char8 as BC import Data.Char as Char import Data.Convertible import Data.Default import Data.Either import Data.List as L import Data.Maybe import Data.Monoid import Data.Serialize as S hiding (Result) import Data.String import Data.Text (Text) import Data.Text.Encoding import Data.Typeable import Data.Word import Data.IP import Network import Network.HTTP.Types.QueryLike import Network.HTTP.Types.URI hiding (urlEncode) import Network.HTTP.Types.Status import Network.Socket hiding (Connected) import Numeric import System.Entropy import Text.Read (readMaybe) import Data.Torrent import Data.Torrent.Progress import Network.BitTorrent.Core {----------------------------------------------------------------------- -- Events -----------------------------------------------------------------------} -- | Events are used to specify which kind of announce query is performed. data AnnounceEvent -- | For the first request: when download first begins. = Started -- | This peer stopped downloading /and/ uploading the torrent or -- just shutting down. | Stopped -- | This peer completed downloading the torrent. This only happen -- right after last piece have been verified. No 'Completed' is -- sent if the file was completed when 'Started'. | Completed deriving (Show, Read, Eq, Ord, Enum, Bounded, Typeable) -- | HTTP tracker protocol compatible encoding. instance QueryValueLike AnnounceEvent where toQueryValue e = toQueryValue (Char.toLower x : xs) where (x : xs) = show e -- INVARIANT: this is always nonempty list type EventId = Word32 -- | UDP tracker encoding event codes. eventId :: AnnounceEvent -> EventId eventId Completed = 1 eventId Started = 2 eventId Stopped = 3 -- TODO add Regular event putEvent :: Putter (Maybe AnnounceEvent) putEvent Nothing = putWord32be 0 putEvent (Just e) = putWord32be (eventId e) getEvent :: S.Get (Maybe AnnounceEvent) getEvent = do eid <- getWord32be case eid of 0 -> return Nothing 1 -> return $ Just Completed 2 -> return $ Just Started 3 -> return $ Just Stopped _ -> fail "unknown event id" {----------------------------------------------------------------------- Announce query -----------------------------------------------------------------------} -- TODO add &ipv6= and &ipv4= params to AnnounceQuery -- http://www.bittorrent.org/beps/bep_0007.html#announce-parameter -- | A tracker request is HTTP GET request; used to include metrics -- from clients that help the tracker keep overall statistics about -- the torrent. The most important, requests are used by the tracker -- to keep track lists of active peer for a particular torrent. -- data AnnounceQuery = AnnounceQuery { -- | Hash of info part of the torrent usually obtained from -- 'Torrent' or 'Magnet'. reqInfoHash :: !InfoHash -- | ID of the peer doing request. , reqPeerId :: !PeerId -- | Port to listen to for connections from other -- peers. Tracker should respond with this port when -- some /other/ peer request the tracker with the same info hash. -- Normally, this port is choosed from 'defaultPorts'. , reqPort :: !PortNumber -- | Current progress of peer doing request. , reqProgress :: !Progress -- | The peer IP. Needed only when client communicated with -- tracker throught a proxy. , reqIP :: Maybe HostAddress -- | Number of peers that the peers wants to receive from. It is -- optional for trackers to honor this limit. See note for -- 'defaultNumWant'. , reqNumWant :: Maybe Int -- | If not specified, the request is regular periodic -- request. Regular request should be sent , reqEvent :: Maybe AnnounceEvent } deriving (Show, Eq, Typeable) -- | UDP tracker protocol compatible encoding. instance Serialize AnnounceQuery where put AnnounceQuery {..} = do put reqInfoHash put reqPeerId put reqProgress putEvent reqEvent putWord32host $ fromMaybe 0 reqIP putWord32be $ 0 -- TODO what the fuck is "key"? putWord32be $ fromIntegral $ fromMaybe (-1) reqNumWant put reqPort get = do ih <- get pid <- get progress <- get ev <- getEvent ip <- getWord32be -- key <- getWord32be -- TODO want <- getWord32be port <- get return $ AnnounceQuery { reqInfoHash = ih , reqPeerId = pid , reqPort = port , reqProgress = progress , reqIP = if ip == 0 then Nothing else Just ip , reqNumWant = if want == -1 then Nothing else Just (fromIntegral want) , reqEvent = ev } instance QueryValueLike PortNumber where toQueryValue = toQueryValue . show . fromEnum instance QueryValueLike Word32 where toQueryValue = toQueryValue . show instance QueryValueLike Int where toQueryValue = toQueryValue . show -- | HTTP tracker protocol compatible encoding. instance QueryLike AnnounceQuery where toQuery AnnounceQuery {..} = toQuery reqProgress ++ [ ("info_hash", toQueryValue reqInfoHash) -- TODO use 'paramName' , ("peer_id" , toQueryValue reqPeerId) , ("port" , toQueryValue reqPort) , ("ip" , toQueryValue reqIP) , ("numwant" , toQueryValue reqNumWant) , ("event" , toQueryValue reqEvent) ] -- | Filter @param=value@ pairs with the unset value. queryToSimpleQuery :: Query -> SimpleQuery queryToSimpleQuery = catMaybes . L.map f where f (_, Nothing) = Nothing f (a, Just b ) = Just (a, b) -- | Encode announce query to query string. renderAnnounceQuery :: AnnounceQuery -> SimpleQuery renderAnnounceQuery = queryToSimpleQuery . toQuery data QueryParam -- announce query = ParamInfoHash | ParamPeerId | ParamPort | ParamUploaded | ParamLeft | ParamDownloaded | ParamIP | ParamNumWant | ParamEvent -- announce query ext | ParamCompact | ParamNoPeerId deriving (Show, Eq, Ord, Enum) paramName :: QueryParam -> BS.ByteString paramName ParamInfoHash = "info_hash" paramName ParamPeerId = "peer_id" paramName ParamPort = "port" paramName ParamUploaded = "uploaded" paramName ParamLeft = "left" paramName ParamDownloaded = "downloaded" paramName ParamIP = "ip" paramName ParamNumWant = "numwant" paramName ParamEvent = "event" paramName ParamCompact = "compact" paramName ParamNoPeerId = "no_peer_id" {-# INLINE paramName #-} class FromParam a where fromParam :: BS.ByteString -> Maybe a instance FromParam Bool where fromParam "0" = Just False fromParam "1" = Just True fromParam _ = Nothing instance FromParam InfoHash where fromParam = either (const Nothing) pure . safeConvert instance FromParam PeerId where fromParam = either (const Nothing) pure . safeConvert instance FromParam Word32 where fromParam = readMaybe . BC.unpack instance FromParam Word64 where fromParam = readMaybe . BC.unpack instance FromParam Int where fromParam = readMaybe . BC.unpack instance FromParam PortNumber where fromParam bs = fromIntegral <$> (fromParam bs :: Maybe Word32) instance FromParam AnnounceEvent where fromParam bs = do (x, xs) <- BC.uncons bs readMaybe $ BC.unpack $ BC.cons (Char.toUpper x) xs -- | 'ParamParseFailure' represent errors can occur while parsing HTTP -- tracker requests. In case of failure, this can be used to provide -- more informative 'statusCode' and 'statusMessage' in tracker -- responses. -- data ParamParseFailure = Missing QueryParam -- ^ param not found in query string; | Invalid QueryParam BS.ByteString -- ^ param present but not valid. deriving (Show, Eq) type ParseResult = Either ParamParseFailure withError :: ParamParseFailure -> Maybe a -> ParseResult a withError e = maybe (Left e) Right reqParam :: FromParam a => QueryParam -> SimpleQuery -> ParseResult a reqParam param xs = do val <- withError (Missing param) $ L.lookup (paramName param) xs withError (Invalid param val) (fromParam val) optParam :: FromParam a => QueryParam -> SimpleQuery -> ParseResult (Maybe a) optParam param ps | Just x <- L.lookup (paramName param) ps = pure <$> withError (Invalid param x) (fromParam x) | otherwise = pure Nothing parseProgress :: SimpleQuery -> ParseResult Progress parseProgress params = Progress <$> reqParam ParamDownloaded params <*> reqParam ParamLeft params <*> reqParam ParamUploaded params -- | Parse announce request from a query string. parseAnnounceQuery :: SimpleQuery -> ParseResult AnnounceQuery parseAnnounceQuery params = AnnounceQuery <$> reqParam ParamInfoHash params <*> reqParam ParamPeerId params <*> reqParam ParamPort params <*> parseProgress params <*> optParam ParamIP params <*> optParam ParamNumWant params <*> optParam ParamEvent params {----------------------------------------------------------------------- -- Announce Info -----------------------------------------------------------------------} -- TODO check if announceinterval/complete/incomplete is positive ints -- | Tracker can return peer list in either compact(BEP23) or not -- compact form. -- -- For more info see: -- data PeerList ip = PeerList [PeerAddr IP] | CompactPeerList [PeerAddr ip] deriving (Show, Eq, Typeable, Functor) -- | The empty non-compact peer list. instance Default (PeerList IP) where def = PeerList [] {-# INLINE def #-} getPeerList :: PeerList IP -> [PeerAddr IP] getPeerList (PeerList xs) = xs getPeerList (CompactPeerList xs) = xs instance Serialize a => BEncode (PeerList a) where toBEncode (PeerList xs) = toBEncode xs toBEncode (CompactPeerList xs) = toBEncode $ runPut (mapM_ put xs) fromBEncode (BList l ) = PeerList <$> fromBEncode (BList l) fromBEncode (BString s ) = CompactPeerList <$> runGet (many get) s fromBEncode _ = decodingError "PeerList: should be a BString or BList" -- | The tracker response includes a peer list that helps the client -- participate in the torrent. The most important is 'respPeer' list -- used to join the swarm. -- data AnnounceInfo = Failure !Text -- ^ Failure reason in human readable form. | AnnounceInfo { -- | Number of peers completed the torrent. (seeders) respComplete :: !(Maybe Int) -- | Number of peers downloading the torrent. (leechers) , respIncomplete :: !(Maybe Int) -- | Recommended interval to wait between requests, in seconds. , respInterval :: !Int -- | Minimal amount of time between requests, in seconds. A -- peer /should/ make timeout with at least 'respMinInterval' -- value, otherwise tracker might not respond. If not specified -- the same applies to 'respInterval'. , respMinInterval :: !(Maybe Int) -- | Peers that must be contacted. , respPeers :: !(PeerList IP) -- | Human readable warning. , respWarning :: !(Maybe Text) } deriving (Show, Eq, Typeable) -- | Empty peer list with default reannounce interval. instance Default AnnounceInfo where def = AnnounceInfo { respComplete = Nothing , respIncomplete = Nothing , respInterval = defaultReannounceInterval , respMinInterval = Nothing , respPeers = def , respWarning = Nothing } -- | HTTP tracker protocol compatible encoding. instance BEncode AnnounceInfo where toBEncode (Failure t) = toDict $ "failure reason" .=! t .: endDict toBEncode AnnounceInfo {..} = toDict $ "complete" .=? respComplete .: "incomplete" .=? respIncomplete .: "interval" .=! respInterval .: "min interval" .=? respMinInterval .: "peers" .=! peers .: "peers6" .=? peers6 .: "warning message" .=? respWarning .: endDict where (peers, peers6) = prttn respPeers prttn :: PeerList IP -> (PeerList IPv4, Maybe (PeerList IPv6)) prttn (PeerList xs) = (PeerList xs, Nothing) prttn (CompactPeerList xs) = mk $ partitionEithers $ toEither <$> xs where mk (v4s, v6s) | L.null v6s = (CompactPeerList v4s, Nothing) | otherwise = (CompactPeerList v4s, Just (CompactPeerList v6s)) toEither :: PeerAddr IP -> Either (PeerAddr IPv4) (PeerAddr IPv6) toEither PeerAddr {..} = case peerHost of IPv4 ipv4 -> Left $ PeerAddr peerId ipv4 peerPort IPv6 ipv6 -> Right $ PeerAddr peerId ipv6 peerPort fromBEncode (BDict d) | Just t <- BE.lookup "failure reason" d = Failure <$> fromBEncode t | otherwise = (`fromDict` (BDict d)) $ AnnounceInfo <$>? "complete" <*>? "incomplete" <*>! "interval" <*>? "min interval" <*> (uncurry merge =<< (,) <$>! "peers" <*>? "peers6") <*>? "warning message" where merge :: PeerList IPv4 -> Maybe (PeerList IPv6) -> BE.Get (PeerList IP) merge (PeerList ips) Nothing = pure (PeerList ips) merge (PeerList _ ) (Just _) = fail "PeerList: non-compact peer list provided, \ \but the `peers6' field present" merge (CompactPeerList ipv4s) Nothing = pure $ CompactPeerList (fmap IPv4 <$> ipv4s) merge (CompactPeerList _ ) (Just (PeerList _)) = fail "PeerList: the `peers6' field value \ \should contain *compact* peer list" merge (CompactPeerList ipv4s) (Just (CompactPeerList ipv6s)) = pure $ CompactPeerList $ (fmap IPv4 <$> ipv4s) <> (fmap IPv6 <$> ipv6s) fromBEncode _ = decodingError "Announce info" -- | UDP tracker protocol compatible encoding. instance Serialize AnnounceInfo where put (Failure msg) = put $ encodeUtf8 msg put AnnounceInfo {..} = do putWord32be $ fromIntegral respInterval putWord32be $ fromIntegral $ fromMaybe 0 respIncomplete putWord32be $ fromIntegral $ fromMaybe 0 respComplete forM_ (fmap ipv4 <$> getPeerList respPeers) put get = do interval <- getWord32be leechers <- getWord32be seeders <- getWord32be peers <- many $ fmap IPv4 <$> get return $ AnnounceInfo { respWarning = Nothing , respInterval = fromIntegral interval , respMinInterval = Nothing , respIncomplete = Just $ fromIntegral leechers , respComplete = Just $ fromIntegral seeders , respPeers = PeerList peers } -- | Decodes announce response from bencoded string, for debugging only. instance IsString AnnounceInfo where fromString str = either (error . format) id $ BE.decode (fromString str) where format msg = "fromString: unable to decode AnnounceInfo: " ++ msg -- | Above 25, new peers are highly unlikely to increase download -- speed. Even 30 peers is /plenty/, the official client version 3 -- in fact only actively forms new connections if it has less than -- 30 peers and will refuse connections if it has 55. -- -- -- defaultNumWant :: Int defaultNumWant = 50 -- | Reasonable upper bound of numwant parameter. defaultMaxNumWant :: Int defaultMaxNumWant = 200 -- | Widely used reannounce interval. Note: tracker clients should not -- use this value! defaultReannounceInterval :: Int defaultReannounceInterval = 30 * 60 {----------------------------------------------------------------------- Scrape message -----------------------------------------------------------------------} -- | Scrape query used to specify a set of torrent to scrape. -- If list is empty then tracker should return scrape info about each -- torrent. type ScrapeQuery = [InfoHash] -- TODO -- data ScrapeQuery -- = ScrapeAll -- | ScrapeSingle InfoHash -- | ScrapeMulti (HashSet InfoHash) -- deriving (Show) -- -- data ScrapeInfo -- = ScrapeAll (HashMap InfoHash ScrapeEntry) -- | ScrapeSingle InfoHash ScrapeEntry -- | ScrapeMulti (HashMap InfoHash ScrapeEntry) -- scrapeParam :: BS.ByteString scrapeParam = "info_hash" isScrapeParam :: BS.ByteString -> Bool isScrapeParam = (==) scrapeParam -- | Parse scrape query to query string. parseScrapeQuery :: SimpleQuery -> ScrapeQuery parseScrapeQuery = catMaybes . L.map (fromParam . snd) . L.filter (isScrapeParam . fst) -- | Render scrape query to query string. renderScrapeQuery :: ScrapeQuery -> SimpleQuery renderScrapeQuery = queryToSimpleQuery . L.map mkPair where mkPair ih = (scrapeParam, toQueryValue ih) -- | Overall information about particular torrent. data ScrapeEntry = ScrapeEntry { -- | Number of seeders - peers with the entire file. siComplete :: {-# UNPACK #-} !Int -- | Total number of times the tracker has registered a completion. , siDownloaded :: {-# UNPACK #-} !Int -- | Number of leechers. , siIncomplete :: {-# UNPACK #-} !Int -- | Name of the torrent file, as specified by the "name" -- file in the info section of the .torrent file. , siName :: !(Maybe Text) } deriving (Show, Eq, Typeable) -- | HTTP tracker protocol compatible encoding. instance BEncode ScrapeEntry where toBEncode ScrapeEntry {..} = toDict $ "complete" .=! siComplete .: "downloaded" .=! siDownloaded .: "incomplete" .=! siIncomplete .: "name" .=? siName .: endDict fromBEncode = fromDict $ ScrapeEntry <$>! "complete" <*>! "downloaded" <*>! "incomplete" <*>? "name" -- | UDP tracker protocol compatible encoding. instance Serialize ScrapeEntry where put ScrapeEntry {..} = do putWord32be $ fromIntegral siComplete putWord32be $ fromIntegral siDownloaded putWord32be $ fromIntegral siIncomplete get = ScrapeEntry <$> (fromIntegral <$> getWord32be) <*> (fromIntegral <$> getWord32be) <*> (fromIntegral <$> getWord32be) <*> pure Nothing -- | Scrape info about a set of torrents. type ScrapeInfo = [(InfoHash, ScrapeEntry)] {----------------------------------------------------------------------- -- HTTP specific -----------------------------------------------------------------------} -- | Some HTTP trackers allow to choose prefered representation of the -- 'AnnounceInfo'. It's optional for trackers to honor any of this -- options. data AnnouncePrefs = AnnouncePrefs { -- | If specified, "compact" parameter is used to advise the -- tracker to send peer id list as: -- -- * bencoded list (extCompact = Just False); -- * or more compact binary string (extCompact = Just True). -- -- The later is prefered since compact peer list will reduce the -- size of tracker responses. Hovewer, if tracker do not support -- this extension then it can return peer list in either form. -- -- For more info see: -- extCompact :: !(Maybe Bool) -- | If specified, "no_peer_id" parameter is used advise tracker -- to either send or not to send peer id in tracker response. -- Tracker may not support this extension as well. -- -- For more info see: -- -- , extNoPeerId :: !(Maybe Bool) } deriving (Show, Eq, Typeable) instance Default AnnouncePrefs where def = AnnouncePrefs Nothing Nothing instance QueryLike AnnouncePrefs where toQuery AnnouncePrefs {..} = [ ("compact", toQueryFlag <$> extCompact) -- TODO use 'paramName' , ("no_peer_id", toQueryFlag <$> extNoPeerId) ] where toQueryFlag False = "0" toQueryFlag True = "1" -- | Parse announce query extended part from query string. parseAnnouncePrefs :: SimpleQuery -> AnnouncePrefs parseAnnouncePrefs params = either (const def) id $ AnnouncePrefs <$> optParam ParamCompact params <*> optParam ParamNoPeerId params -- | Render announce preferences to query string. renderAnnouncePrefs :: AnnouncePrefs -> SimpleQuery renderAnnouncePrefs = queryToSimpleQuery . toQuery -- | HTTP tracker request with preferences. data AnnounceRequest = AnnounceRequest { announceQuery :: AnnounceQuery -- ^ Request query params. , announcePrefs :: AnnouncePrefs -- ^ Optional advises to the tracker. } deriving (Show, Eq, Typeable) instance QueryLike AnnounceRequest where toQuery AnnounceRequest{..} = toQuery announcePrefs <> toQuery announceQuery -- | Parse announce request from query string. parseAnnounceRequest :: SimpleQuery -> ParseResult AnnounceRequest parseAnnounceRequest params = AnnounceRequest <$> parseAnnounceQuery params <*> pure (parseAnnouncePrefs params) -- | Render announce request to query string. renderAnnounceRequest :: AnnounceRequest -> SimpleQuery renderAnnounceRequest = queryToSimpleQuery . toQuery type PathPiece = BS.ByteString defaultAnnouncePath :: PathPiece defaultAnnouncePath = "announce" defaultScrapePath :: PathPiece defaultScrapePath = "scrape" missingOffset :: Int missingOffset = 101 invalidOffset :: Int invalidOffset = 150 parseFailureCode :: ParamParseFailure -> Int parseFailureCode (Missing param ) = missingOffset + fromEnum param parseFailureCode (Invalid param _) = invalidOffset + fromEnum param parseFailureMessage :: ParamParseFailure -> BS.ByteString parseFailureMessage e = BS.concat $ case e of Missing p -> ["Missing parameter: ", paramName p] Invalid p v -> ["Invalid parameter: ", paramName p, " = ", v] -- | HTTP response /content type/ for announce info. announceType :: ByteString announceType = "text/plain" -- | HTTP response /content type/ for scrape info. scrapeType :: ByteString scrapeType = "text/plain" -- | Get HTTP response status from a announce params parse failure. -- -- For more info see: -- -- parseFailureStatus :: ParamParseFailure -> Status parseFailureStatus = mkStatus <$> parseFailureCode <*> parseFailureMessage {----------------------------------------------------------------------- -- UDP specific message types -----------------------------------------------------------------------} genToken :: IO Word64 genToken = do bs <- getEntropy 8 either err return $ runGet getWord64be bs where err = error "genToken: impossible happen" -- | Connection Id is used for entire tracker session. newtype ConnectionId = ConnectionId Word64 deriving (Eq, Serialize) instance Show ConnectionId where showsPrec _ (ConnectionId cid) = showString "0x" <> showHex cid initialConnectionId :: ConnectionId initialConnectionId = ConnectionId 0x41727101980 -- | Transaction Id is used within a UDP RPC. newtype TransactionId = TransactionId Word32 deriving (Eq, Ord, Enum, Bounded, Serialize) instance Show TransactionId where showsPrec _ (TransactionId tid) = showString "0x" <> showHex tid genTransactionId :: IO TransactionId genTransactionId = (TransactionId . fromIntegral) <$> genToken data Request = Connect | Announce AnnounceQuery | Scrape ScrapeQuery deriving Show data Response = Connected ConnectionId | Announced AnnounceInfo | Scraped [ScrapeEntry] | Failed Text deriving Show responseName :: Response -> String responseName (Connected _) = "connected" responseName (Announced _) = "announced" responseName (Scraped _) = "scraped" responseName (Failed _) = "failed" data family Transaction a data instance Transaction Request = TransactionQ { connIdQ :: {-# UNPACK #-} !ConnectionId , transIdQ :: {-# UNPACK #-} !TransactionId , request :: !Request } deriving Show data instance Transaction Response = TransactionR { transIdR :: {-# UNPACK #-} !TransactionId , response :: !Response } deriving Show -- TODO newtype newtype MessageId = MessageId Word32 deriving (Show, Eq, Num, Serialize) connectId, announceId, scrapeId, errorId :: MessageId connectId = 0 announceId = 1 scrapeId = 2 errorId = 3 instance Serialize (Transaction Request) where put TransactionQ {..} = do case request of Connect -> do put initialConnectionId put connectId put transIdQ Announce ann -> do put connIdQ put announceId put transIdQ put ann Scrape hashes -> do put connIdQ put scrapeId put transIdQ forM_ hashes put get = do cid <- get mid <- get TransactionQ cid <$> S.get <*> getBody mid where getBody :: MessageId -> S.Get Request getBody msgId | msgId == connectId = pure Connect | msgId == announceId = Announce <$> get | msgId == scrapeId = Scrape <$> many get | otherwise = fail errMsg where errMsg = "unknown request: " ++ show msgId instance Serialize (Transaction Response) where put TransactionR {..} = do case response of Connected conn -> do put connectId put transIdR put conn Announced info -> do put announceId put transIdR put info Scraped infos -> do put scrapeId put transIdR forM_ infos put Failed info -> do put errorId put transIdR put (encodeUtf8 info) get = do mid <- get TransactionR <$> get <*> getBody mid where getBody :: MessageId -> S.Get Response getBody msgId | msgId == connectId = Connected <$> get | msgId == announceId = Announced <$> get | msgId == scrapeId = Scraped <$> many get | msgId == errorId = (Failed . decodeUtf8) <$> get | otherwise = fail msg where msg = "unknown response: " ++ show msgId