I want to implement efficient single-threaded socket communication using "
epoll"-style event management.
If I were to write a very imperative program "from scratch," I would do it basically like this (just some pseudo-ish code I just typed out - probably won't compile):
import Control.Concurrent import Data.ByteString (ByteString) import qualified Data.ByteString as ByteString import qualified GHC.Event as Event import Network import Network.Socket import Network.Socket.ByteString main = withSocketFromSomewhere $ \ socket -> do let fd = fromIntegral . fdSocket $ socket -- Some app logic state <- newMVar "Bla" -- Event manager manager <- Event.new -- Do an initial write initialWrite socket state manager -- Manager does its thing Event.loop manager write manager socket bs = -- Should be pretty straight-forward Event.registerFd manager theWrite fd Event.evtWrite where fd = fromIntegral . fdSocket $ socket theWrite key _ = do Event.unregisterFd manager key sendAll socket bs read manager socket cont = -- Ditto Event.registerFd manager theRead fd Event.evtRead where fd = fromIntegral . fdSocket $ socket theRead key _ = do Event.unregisterFd manager key bs <- recv socket 4096 cont bs initialWrite socket state manager = do msg <- readMVar state write manager socket msg read manager socket $ \ bs -> do ByteString.putStrLn bs putMVar state msg
Imagine that there also are some functions that add timeout events to the manager, and such.
However, this code isn't particularly nice, for a few reasons:
- I carry around the event manager manually.
- I have to use an
MVarfor my application logic, because I can't tell the opaque event manager that it should pass around some state for me, even though I know that it only uses one thread and therefore could potentially be used as the base of a monad transformer stack.
- I have to create explicit delimited continuations for reads (And I might even have to do this for writes; I don't know what would be wiser in this situation).
Now, this just screams for the use of a plethora of monad transformers etc. I'd like to be able to just do this:
main = withSocketFromSomewhere $ \ socket -> runEvents . flip runStateT "Bla" $ initialWrite socket initialWrite socket = do msg <- lift get write socket msg resp <- read socket liftIO $ ByteString.putStrLn resp lift $ put msg
This code should have the same behavior as the above code; e.g. by suspending the computation until a read has been received on the
resp <- read socket line, and letting me manage multiple sockets on the same thread/manager.
- Is there a more high-level interface to the GHC events API/libevent/equivalent that gives the user some more power? Is it even worth it considering the synchronous IO scheduling changes that have happened in recent GHCs (I'm on 7.4.1)?
- What if I want to implement cooperative concurrency, by for example having one function that always handles reads from the socket, but having this function share the same state monad as the write "thread"? Can this be done with whatever solution from (1)?