I'm trying to figure out how to properly use the OpenSSL.Session API in a concurrent context
E.g. assume I want to implement a
stunnel-style ssl-wrapper, I'd expect to have the following basic skeleton structure, which implements a naive
runProxy :: PortID -> AddrInfo -> IO () runProxy localPort@(PortNumber lpn) serverAddrInfo = do listener <- listenOn localPort forever $ do (sClient, clientAddr) <- accept listener let finalize sServer = do sClose sServer sClose sClient forkIO $ do tidToServer <- myThreadId bracket (connectToServer serverAddrInfo) finalize $ \sServer -> do -- execute one 'copySocket' thread for each data direction -- and make sure that if one direction dies, the other gets -- pulled down as well bracket (forkIO (copySocket sServer sClient `finally` killThread tidToServer)) (killThread) $ \_ -> do copySocket sClient sServer -- "controlling" thread where -- |Copy data from source to dest until EOF occurs on source -- Copying may also be aborted due to exceptions copySocket :: Socket -> Socket -> IO () copySocket src dst = go where go = do buf <- B.recv src 4096 unless (B.null buf) $ do B.sendAll dst buf go -- |Create connection to given AddrInfo target and return socket connectToServer saddr = do sServer <- socket (addrFamily saddr) Stream defaultProtocol connect sServer (addrAddress saddr) return sServer
How do I transform the above skeleton into a
full-duplex ssl-wrapping tcp-forwarding proxy? Where are the dangers W.R.T to concurrent/parallel execution (in the context of the above use-case) of the function calls provided by the HsOpenSSL API?
PS: I'm still struggling to fully comprehend how to make the code robust w.r.t. to exceptions and resource-leaks. So, albeit not being the primary focus of this question, if you notice something bad in the code above, please leave a comment.