module Urbit.Vere.Ports (HasPortControlApi(..), PortControlApi, buildInactivePorts, buildNatPorts, requestPortAccess) where import Control.Monad.STM (check) import Urbit.Prelude import Network.NatPmp import Data.Time.Clock.POSIX import Network.Socket import qualified Data.Heap as DH -- This module deals with ports and port requests. When a component wants to -- ensure that it is externally reachable, possibly from outside a NAT, it -- makes a request to this module to hole-punch. class HasPortControlApi a where portControlApiL :: Lens' a PortControlApi data PortControlApi = PortControlApi { pAddPortRequest :: Word16 -> IO () , pRemovePortRequest :: Word16 -> IO () } -- | Builds a PortControlApi struct which does nothing when called. buildInactivePorts :: PortControlApi buildInactivePorts = PortControlApi noop noop where noop x = pure () -- | Builds a PortControlApi struct which tries to hole-punch by talking to the -- NAT gateway over NAT-PMP. buildNatPorts :: (HasLogFunc e) => (Text -> RIO e ()) -> RIO e PortControlApi buildNatPorts stderr = do q <- newTQueueIO async $ portThread q stderr let addRequest port = do resp <- newEmptyTMVarIO atomically $ writeTQueue q (PTMOpen port (putTMVar resp True)) atomically $ takeTMVar resp pure () let removeRequest port = atomically $ writeTQueue q (PTMClose port) pure $ PortControlApi addRequest removeRequest portLeaseLifetime :: Word32 portLeaseLifetime = 15 * 60 -- Be paranoid and renew leases a full minute before they would naturally expire. portRenewalTime :: Word32 portRenewalTime = portLeaseLifetime - 60 -- Messages sent from the main thread to the port mapping communication thread. data PortThreadMsg = PTMOpen Word16 (STM ()) -- ^ Does the open request, and then calls the passed in stm action to -- singal completion to the main thread. We want to block on the initial -- setting opening because we want the forwarding set up before we actually -- start using the port. | PTMClose Word16 -- ^ Close command. No synchronization because there's nothing we can do if -- it fails. -- We get requests to acquire a port as an RAII condition, but the actual APIs -- are timeout based, so we have to maintain a heap of the next timer to -- rerequest port access. data RenewAction = RenewAction Word16 -- The port thread is an async which reads commands from an STM queue and then -- executes them. This thread is here to bind the semantics that we want to how -- NAT-PMP sees the world. We want for an RAcquire to be able to start a -- request for port forwarding and then to release it when it goes out of -- scope. OTOH, NAT-PMP is all timeout based, and we want that timeout to be -- fairly short, such as 15 minutes, so the portThread needs to keep track of -- the time of the next port request. portThread :: forall e. (HasLogFunc e) => TQueue PortThreadMsg -> (Text -> RIO e ()) -> RIO e () portThread q stderr = do initNatPmp >>= \case Left err -> do likelyIPAddress >>= \case Just ip@(192, 168, c, d) -> warnBehindRouterAndErr ip err Just ip@(10, _, _, _) -> warnBehindRouterAndErr ip err _ -> assumeOnPublicInternet Right pmp -> foundRouter pmp where warnBehindRouterAndErr (a, b, c, d) err = do stderr $ "port: you appear to be behind a router since your ip " ++ "is " ++ (tshow a) ++ "." ++ (tshow b) ++ "." ++ (tshow c) ++ "." ++ (tshow d) ++ ", but " ++ "we could not request port forwarding (NAT-PMP error: " ++ (tshow err) ++ ")" stderr $ "port: urbit performance will be degregaded unless you " ++ "manually forward your ames port." loopErr q assumeOnPublicInternet = do stderr $ "port: couldn't find router; assuming on public internet" loopErr q foundRouter :: NatPmpHandle -> RIO e () foundRouter pmp = do getPublicAddress pmp >>= \case Left _ -> pure () Right addr -> do let (a, b, c, d) = hostAddressToTuple addr stderr $ "port: router reports that our public IP is " ++ (tshow a) ++ "." ++ (tshow b) ++ "." ++ (tshow c) ++ "." ++ (tshow d) loop pmp mempty loop :: NatPmpHandle -> DH.MinPrioHeap POSIXTime RenewAction -> RIO e () loop pmp nextRenew = do now <- io $ getPOSIXTime delay <- case DH.viewHead nextRenew of Nothing -> newTVarIO False Just (fireTime, _) -> do let timeTo = fireTime - now let ms = round $ timeTo * 1000000 registerDelay ms command <- atomically $ (Left <$> fini delay) <|> (Right <$> readTQueue q) case command of Left () -> handleRenew pmp nextRenew Right msg -> handlePTM pmp msg nextRenew handlePTM :: NatPmpHandle -> PortThreadMsg -> DH.MinPrioHeap POSIXTime RenewAction -> RIO e () handlePTM pmp msg nextRenew = case msg of PTMOpen p notifyComplete -> do logInfo $ displayShow ("port: sending initial request to NAT-PMP for port ", p) setPortMapping pmp PTUdp p p portLeaseLifetime >>= \case Left err -> do logError $ displayShow ("port: failed to request NAT-PMP for port ", p, ":", err, ", disabling NAT-PMP") loopErr q Right _ -> do -- Filter any existing references to this port on the heap to ensure -- we don't double up on tasks. let filteredHeap = filterPort p nextRenew now <- io $ getPOSIXTime let withRenew = DH.insert (now + fromIntegral portRenewalTime, RenewAction p) filteredHeap atomically notifyComplete loop pmp withRenew PTMClose p -> do logInfo $ displayShow ("port: releasing lease for ", p) setPortMapping pmp PTUdp p p 0 let removed = filterPort p nextRenew loop pmp removed handleRenew :: NatPmpHandle -> DH.MinPrioHeap POSIXTime RenewAction -> RIO e () handleRenew pmp nextRenew = do case (DH.view nextRenew) of Nothing -> error "Internal heap managing error." Just ((_, RenewAction p), rest) -> do logInfo $ displayShow ("port: sending renewing request to NAT-PMP for port ", p) setPortMapping pmp PTUdp p p portLeaseLifetime >>= \case Left err -> do logError $ displayShow ("port: failed to request NAT-PMP for port ", p, ":", err, ", disabling NAT-PMP") loopErr q Right _ -> do -- We don't need to filter the port because we just did. now <- io $ getPOSIXTime let withRenew = DH.insert (now + fromIntegral portRenewalTime, RenewAction p) rest loop pmp withRenew filterPort :: Word16 -> DH.MinPrioHeap POSIXTime RenewAction -> DH.MinPrioHeap POSIXTime RenewAction filterPort p = DH.filter okPort where okPort (_, RenewAction x) = p /= x -- block (retry) until the delay TVar is set to True fini :: TVar Bool -> STM () fini = check <=< readTVar -- The NAT system is considered "off" but we still need to signal back to -- the main thread that blocking actions are complete. loopErr q = forever $ do (atomically $ readTQueue q) >>= \case PTMOpen _ onComplete -> atomically onComplete PTMClose _ -> pure () -- When we were unable to connect to a router, get the ip address on the -- default ipv4 interface to check if we look like we're on an internal network -- or not. likelyIPAddress :: MonadIO m => m (Maybe (Word8, Word8, Word8, Word8)) likelyIPAddress = liftIO do -- Try opening a socket to 1.1.1.1 to get our own IP address. Since UDP is -- stateless and we aren't sending anything, we aren't actually contacting -- them in any way. sock <- socket AF_INET Datagram 0 connect sock (SockAddrInet 53 (tupleToHostAddress (1, 1, 1, 1))) sockAddr <- getSocketName sock case sockAddr of SockAddrInet _ addr -> pure $ Just $ hostAddressToTuple addr _ -> pure $ Nothing -- Acquire a port for the duration of the RAcquire. requestPortAccess :: forall e. (HasPortControlApi e) => Word16 -> RAcquire e () requestPortAccess port = do mkRAcquire request release where request :: RIO e () request = do api <- view portControlApiL io $ pAddPortRequest api port release :: () -> RIO e () release _ = do api <- view portControlApiL io $ pRemovePortRequest api port