{-| Eyre: Http Server Driver -} module Urbit.Vere.Eyre ( eyre ) where import Urbit.Prelude hiding (Builder) import Urbit.Arvo hiding (ServerId, reqUrl, secure) import Urbit.King.Config import Urbit.Vere.Eyre.PortsFile import Urbit.Vere.Eyre.Serv import Urbit.Vere.Eyre.Service import Urbit.Vere.Eyre.Multi import Urbit.Vere.Eyre.Wai import Urbit.Vere.Pier.Types import Data.List.NonEmpty (NonEmpty((:|))) import Data.PEM (pemParseBS, pemWriteBS) import RIO.Prelude (decodeUtf8Lenient) import System.Random (randomIO) import Urbit.Vere.Http (convertHeaders, unconvertHeaders) import qualified Network.HTTP.Types as H -- Types ----------------------------------------------------------------------- type HasShipEnv e = (HasLogFunc e, HasNetworkConfig e, HasPierConfig e) type ReqId = UD newtype Drv = Drv (MVar (Maybe Serv)) data SockOpts = SockOpts { soLocalhost :: Bool , soWhich :: ServPort } data PortsToTry = PortsToTry { pttSec :: SockOpts , pttIns :: SockOpts , pttLop :: SockOpts } data Serv = Serv { sServId :: ServId , sConfig :: HttpServerConf , sLop :: ServApi , sIns :: ServApi , sSec :: Maybe ServApi , sPorts :: Ports , sPortsFile :: FilePath , sLiveReqs :: TVar LiveReqs } -- Utilities for Constructing Events ------------------------------------------- servEv :: HttpServerEv -> Ev servEv = EvBlip . BlipEvHttpServer bornEv :: KingId -> Ev bornEv king = servEv $ HttpServerEvBorn (king, ()) () liveEv :: ServId -> Ports -> Ev liveEv sId Ports {..} = servEv $ HttpServerEvLive (sId, ()) pHttp pHttps cancelEv :: ServId -> ReqId -> Ev cancelEv sId reqId = servEv $ HttpServerEvCancelRequest (sId, reqId, 1, ()) () reqEv :: ServId -> ReqId -> WhichServer -> Address -> HttpRequest -> Ev reqEv sId reqId which addr req = case which of Loopback -> servEv $ HttpServerEvRequestLocal (sId, reqId, 1, ()) $ HttpServerReq False addr req _ -> servEv $ HttpServerEvRequest (sId, reqId, 1, ()) $ HttpServerReq (which == Secure) addr req -- Based on Pier+Config, which ports should each server run? ------------------- httpServerPorts :: HasShipEnv e => Bool -> RIO e PortsToTry httpServerPorts fak = do ins <- view (networkConfigL . ncHttpPort . to (fmap fromIntegral)) sec <- view (networkConfigL . ncHttpsPort . to (fmap fromIntegral)) lop <- view (networkConfigL . ncLocalPort . to (fmap fromIntegral)) localMode <- view (networkConfigL . ncNetMode . to (== NMLocalhost)) let local = localMode || fak let pttSec = case (sec, fak) of (Just p , _ ) -> SockOpts local (SPChoices $ singleton p) (Nothing, False) -> SockOpts local (SPChoices (443 :| [8443 .. 8453])) (Nothing, True ) -> SockOpts local (SPChoices (8443 :| [8444 .. 8453])) let pttIns = case (ins, fak) of (Just p , _ ) -> SockOpts local (SPChoices $ singleton p) (Nothing, False) -> SockOpts local (SPChoices (80 :| [8080 .. 8090])) (Nothing, True ) -> SockOpts local (SPChoices (8080 :| [8081 .. 8090])) let pttLop = case (lop, fak) of (Just p , _) -> SockOpts local (SPChoices $ singleton p) (Nothing, _) -> SockOpts local SPAnyPort pure (PortsToTry { .. }) -- Convert Between Urbit and WAI types. ---------------------------------------- parseTlsConfig :: (Key, Cert) -> Maybe TlsConfig parseTlsConfig (PEM key, PEM certs) = do let (cerByt, keyByt) = (wainBytes certs, wainBytes key) pems <- pemParseBS cerByt & either (const Nothing) Just (cert, chain) <- case pems of [] -> Nothing p : ps -> pure (pemWriteBS p, pemWriteBS <$> ps) pure $ TlsConfig keyByt cert chain where wainBytes :: Wain -> ByteString wainBytes = encodeUtf8 . unWain parseHttpEvent :: HttpEvent -> [RespAct] parseHttpEvent = \case Start h b True -> [RAFull (hSta h) (hHdr h) (fByt $ fromMaybe "" b)] Start h b False -> [RAHead (hSta h) (hHdr h) (fByt $ fromMaybe "" b)] Cancel () -> [RADone] Continue b done -> toList (RABloc . fByt <$> b) <> if done then [RADone] else [] where hHdr :: ResponseHeader -> [H.Header] hHdr = unconvertHeaders . headers hSta :: ResponseHeader -> H.Status hSta = toEnum . fromIntegral . statusCode fByt :: File -> ByteString fByt = unOcts . unFile requestEvent :: ServId -> WhichServer -> Word64 -> ReqInfo -> Ev requestEvent srvId which reqId ReqInfo{..} = reqEv srvId reqUd which riAdr evReq where evBod = bodFile riBod evHdr = convertHeaders riHdr evUrl = Cord (decodeUtf8Lenient riUrl) evReq = HttpRequest riMet evUrl evHdr evBod reqUd = fromIntegral reqId bodFile :: ByteString -> Maybe File bodFile "" = Nothing bodFile bs = Just $ File $ Octs bs -- Running Servers ------------------------------------------------------------- execRespActs :: HasLogFunc e => Drv -> Ship -> Word64 -> HttpEvent -> RIO e () execRespActs (Drv v) who reqId ev = readMVar v >>= \case Nothing -> logError "Got a response to a request that does not exist." Just sv -> do logTrace $ displayShow ev for_ (parseHttpEvent ev) $ \act -> do atomically (routeRespAct who (sLiveReqs sv) reqId act) startServ :: (HasPierConfig e, HasLogFunc e, HasNetworkConfig e) => MultiEyreApi -> Ship -> Bool -> HttpServerConf -> (Ev -> STM ()) -> RIO e Serv startServ multi who isFake conf plan = do logTrace (displayShow ("EYRE", "startServ")) let vLive = meaLive multi srvId <- io $ ServId . UV . fromIntegral <$> (randomIO :: IO Word32) let mTls = hscSecure conf >>= parseTlsConfig mCre <- mTls & \case Nothing -> pure Nothing Just tc -> configCreds tc & \case Right rs -> pure (Just rs) Left err -> do logError "Couldn't Load TLS Credentials." pure Nothing ptt <- httpServerPorts isFake {- TODO If configuration requests a redirect, get the HTTPS port (if configuration specifies a specific port, use that. Otherwise, wait for the HTTPS server to start and then use the port that it chose). and run an HTTP server that simply redirects to the HTTPS server. -} let secRedi = Nothing let soHost :: SockOpts -> ServHost soHost so = if soLocalhost so then SHLocalhost else SHAnyHostOk let onReq :: WhichServer -> Ship -> Word64 -> ReqInfo -> STM () onReq which _ship reqId reqInfo = plan (requestEvent srvId which reqId reqInfo) let onKilReq :: Ship -> Word64 -> STM () onKilReq _ship = plan . cancelEv srvId . fromIntegral logTrace (displayShow ("EYRE", "joinMultiEyre", who, mTls, mCre)) atomically (joinMultiEyre multi who mCre onReq onKilReq) logTrace $ displayShow ("EYRE", "Starting loopback server") lop <- serv vLive $ ServConf { scHost = soHost (pttLop ptt) , scPort = soWhich (pttLop ptt) , scRedi = Nothing , scType = STHttp who $ ReqApi { rcReq = onReq Loopback , rcKil = onKilReq } } logTrace $ displayShow ("EYRE", "Starting insecure server") ins <- serv vLive $ ServConf { scHost = soHost (pttIns ptt) , scPort = soWhich (pttIns ptt) , scRedi = secRedi , scType = STHttp who $ ReqApi { rcReq = onReq Insecure , rcKil = onKilReq } } mSec <- for mTls $ \tls -> do logTrace "Starting secure server" serv vLive $ ServConf { scHost = soHost (pttSec ptt) , scPort = soWhich (pttSec ptt) , scRedi = Nothing , scType = STHttps who tls $ ReqApi { rcReq = onReq Secure , rcKil = onKilReq } } pierPath <- view pierPathL lopPor <- atomically (fmap fromIntegral $ saPor lop) insPor <- atomically (fmap fromIntegral $ saPor ins) secPor <- for mSec (fmap fromIntegral . atomically . saPor) let por = Ports secPor insPor lopPor fil = pierPath <> "/.http.ports" logTrace $ displayShow ("EYRE", "All Servers Started.", srvId, por, fil) pure (Serv srvId conf lop ins mSec por fil vLive) -- Eyre Driver ----------------------------------------------------------------- eyre :: forall e . HasShipEnv e => KingId -> MultiEyreApi -> Ship -> QueueEv -> Bool -> ([Ev], RAcquire e (EffCb e HttpServerEf)) eyre king multi who plan isFake = (initialEvents, runHttpServer) where initialEvents :: [Ev] initialEvents = [bornEv king] runHttpServer :: RAcquire e (EffCb e HttpServerEf) runHttpServer = handleEf <$> mkRAcquire (Drv <$> newMVar Nothing) (\(Drv v) -> stopService v kill >>= fromEither) kill :: HasLogFunc e => Serv -> RIO e () kill Serv{..} = do atomically (leaveMultiEyre multi who) atomically (saKil sLop) atomically (saKil sIns) for_ sSec (\sec -> atomically (saKil sec)) io (removePortsFile sPortsFile) restart :: Drv -> HttpServerConf -> RIO e Serv restart (Drv var) conf = do logDebug "Restarting http server" let startAct = startServ multi who isFake conf plan res <- fromEither =<< restartService var startAct kill logDebug "Done restating http server" pure res handleEf :: Drv -> HttpServerEf -> RIO e () handleEf drv = \case HSESetConfig (i, ()) conf -> do logDebug (displayShow ("EYRE", "%set-config")) Serv {..} <- restart drv conf logDebug (displayShow ("EYRE", "%set-config", "Sending %live")) atomically $ plan (liveEv sServId sPorts) logDebug "Write ports file" io (writePortsFile sPortsFile sPorts) HSEResponse (i, req, _seq, ()) ev -> do logDebug (displayShow ("EYRE", "%response")) execRespActs drv who (fromIntegral req) ev