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218 lines
6.7 KiB
Haskell
218 lines
6.7 KiB
Haskell
{-|
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Handles sending packets to galaxies. We need to get their IP addresses
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from DNS, which is more complicated.
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-- Asynchronous thread per galaxy which handles domain resolution, and can
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-- block its own queue of ByteStrings to send.
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--
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-- Maybe perform the resolution asynchronously, injecting into the resolver
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-- queue as a message.
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--
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-- TODO: Figure out how the real haskell time library works.
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-- We've failed to lookup the IP. Drop the outbound packet
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-- because we have no IP for our galaxy, including possible
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-- previous IPs.
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{-
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- Sending Packets to Galaxies.
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- Each galaxy has it's own DNS resolution thread.
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- Initially, no threads are started.
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- To send a message to a galaxy,
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- Check to see if it already has a resolution thread.
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- If it does, pass the packet to that thread.
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- If it doesn't, start a new thread and give it the packet.
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- Galaxy resolution threads work as follows:
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- First, they are given:
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- They know which galaxy they are responsible for.
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- They have access to the turfs TVar (shared state with Ames driver).
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- They can be given packets (to be send to their galaxy).
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- They must be given a way to send UDP packets.
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- Next, we loop forever
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- In the loop we track:
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- the last-known IP address.
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- the time when we last looked up the IP address.
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- We wait to be given a packet.
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- We get the IP address.
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- If we looked up the IP address in the last 5 minute, use the
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cached IP address.
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- Just use the one from last time.
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- Otherwise,
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- Do a DNS lookup.
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- Go through the turf list one item at a time.
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- Try each one.
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- If it resolves to one-or-more IP addresses,
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- Use the first one.
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- If it resolves to zero IP addresses, move on to the next turf.
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- If none of the turfs can be used to resolve the IP address,
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then we don't know where the galaxy is.
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- Drop the packet.
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-}
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-}
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module Urbit.Vere.Ames.DNS
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( NetworkMode(..)
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, ResolvServ(..)
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, resolvServ
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, galaxyPort
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, renderGalaxy
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)
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where
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import Urbit.Prelude
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import Network.Socket
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import Urbit.Arvo hiding (Fake)
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import qualified Data.Map.Strict as M
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import qualified Urbit.Noun.Time as Time
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import qualified Urbit.Ob as Ob
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-- Types -----------------------------------------------------------------------
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data NetworkMode = Fake | Localhost | Real | NoNetwork
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deriving (Eq, Ord, Show)
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data ResolvServ = ResolvServ
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{ rsSend :: Galaxy -> ByteString -> IO ()
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, rsKill :: IO ()
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}
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-- Utils -----------------------------------------------------------------------
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galaxyPort :: NetworkMode -> Galaxy -> PortNumber
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galaxyPort Fake (Patp g) = fromIntegral g + 31337
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galaxyPort Localhost (Patp g) = fromIntegral g + 13337
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galaxyPort Real (Patp g) = fromIntegral g + 13337
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galaxyPort NoNetwork _ = fromIntegral 0
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turfText :: Turf -> Text
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turfText = intercalate "." . reverse . fmap unCord . unTurf
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renderGalaxy :: Galaxy -> Text
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renderGalaxy = Ob.renderPatp . Ob.patp . fromIntegral . unPatp
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galaxyHostname :: Galaxy -> Turf -> Text
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galaxyHostname g t = galaName g ++ "." ++ turfText t
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where
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stripSig :: Text -> Text
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stripSig inp = fromMaybe inp (stripPrefix "~" inp)
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galaName :: Galaxy -> Text
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galaName = stripSig . renderGalaxy
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resolv :: Galaxy -> [Turf] -> IO (Maybe (Turf, Text, PortNumber, SockAddr))
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resolv gal = go
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where
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go = \case
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[] -> pure Nothing
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turf : turfs -> do
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let host = galaxyHostname gal turf
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port = galaxyPort Real gal
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getAddrInfo Nothing (Just (unpack host)) (Just (show port)) >>= \case
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[] -> go turfs
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ip : _ -> pure $ Just (turf, host, port, addrAddress ip)
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doResolv
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:: HasLogFunc e
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=> Galaxy
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-> (Time.Wen, Maybe SockAddr)
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-> [Turf]
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-> (Text -> RIO e ())
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-> RIO e (Maybe SockAddr, Time.Wen)
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doResolv gal (prevWen, prevIP) turfs stderr = do
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current <- io $ Time.now
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if (Time.gap current prevWen ^. Time.secs) < 300
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then pure (prevIP, prevWen)
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else do
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tim <- io (Time.now)
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io (resolv gal turfs) >>= \case
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Nothing -> do
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stderr $ "ames: czar at " ++ galStr ++ ": not found"
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logInfo $ displayShow ("(ames) Failed to lookup IP for ", gal)
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pure (prevIP, tim)
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Just (turf, host, port, addr) -> do
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when (Just addr /= prevIP) (printCzar addr)
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logInfo $ displayShow ("(ames) Looked up ", host, port, turf, addr)
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pure (Just addr, tim)
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where
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galStr = renderGalaxy gal
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printCzar addr = stderr $ "ames: czar " ++ galStr ++ ": ip " ++ tshow addr
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resolvWorker
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:: forall e
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. HasLogFunc e
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=> Galaxy
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-> TVar (Maybe [Turf])
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-> TVar (Time.Wen, Maybe SockAddr)
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-> STM ByteString
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-> (SockAddr -> ByteString -> IO ())
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-> (Text -> RIO e ())
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-> RIO e (Async ())
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resolvWorker gal vTurfs vLast waitMsg send stderr = async (forever go)
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where
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logDrop =
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logInfo $ displayShow ("(ames) Dropping packet; no ip for galaxy ", gal)
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go :: RIO e ()
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go = do
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(packt, turfs, (lastTime, lastAddr)) <- atomically
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((,,) <$> waitMsg <*> readTVar vTurfs <*> readTVar vLast)
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(newAddr, newTime) <- doResolv gal
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(lastTime, lastAddr)
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(fromMaybe [] turfs)
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stderr
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maybe logDrop (\ip -> io (send ip packt)) newAddr
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atomically $ writeTVar vLast (newTime, newAddr)
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resolvServ
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:: HasLogFunc e
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=> TVar (Maybe [Turf])
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-> (SockAddr -> ByteString -> IO ())
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-> (Text -> RIO e ())
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-> RIO e ResolvServ
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resolvServ vTurfs send stderr = do
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vGala <- newTVarIO (mempty :: Map Galaxy (Async (), TQueue ByteString))
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vDead <- newTVarIO False
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envir <- ask
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let spawnWorker :: Galaxy -> IO (Async (), TQueue ByteString)
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spawnWorker gal = runRIO envir $ do
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que <- newTQueueIO
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las <- newTVarIO (Time.unixEpoch, Nothing)
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tid <- resolvWorker gal vTurfs las (readTQueue que) send stderr
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pure (tid, que)
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let getWorker :: Galaxy -> IO (Async (), TQueue ByteString)
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getWorker gal = do
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(fmap (lookup gal) $ atomically $ readTVar vGala) >>= \case
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Just (tid, que) -> do
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pure (tid, que)
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Nothing -> do
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(tid, que) <- spawnWorker gal
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atomically $ modifyTVar' vGala (M.insert gal (tid, que))
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pure (tid, que)
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let doSend :: Galaxy -> ByteString -> IO ()
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doSend gal byt = do
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dead <- atomically (readTVar vDead)
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unless dead $ do
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(_, que) <- getWorker gal
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atomically (writeTQueue que byt)
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let doKill :: IO ()
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doKill = do
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galas <- atomically $ do
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writeTVar vDead True
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readTVar vGala
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for_ galas (cancel . fst)
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pure (ResolvServ doSend doKill)
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