{-# OPTIONS_GHC -fno-warn-orphans #-} {-# Language TemplateHaskell #-} {-# Language AllowAmbiguousTypes #-} {-# Language UndecidableInstances #-} {-# Language MultiWayIf #-} module Main where import HBS2.Actors.Peer import HBS2.Base58 import HBS2.Clock import HBS2.Defaults import HBS2.Events import HBS2.Hash import HBS2.Data.Types.Refs (RefLogKey(..)) import HBS2.Net.Auth.Credentials import HBS2.Net.IP.Addr import HBS2.Net.Messaging.UDP import HBS2.Net.PeerLocator import HBS2.Net.Proto import HBS2.Net.Proto.Definition import HBS2.Net.Proto.Peer import HBS2.Net.Proto.PeerAnnounce import HBS2.Net.Proto.PeerExchange import HBS2.Net.Proto.RefLog import HBS2.Net.Proto.Sessions import HBS2.OrDie import HBS2.Prelude.Plated import HBS2.Storage.Simple import HBS2.System.Logger.Simple hiding (info) import HBS2.System.Logger.Simple qualified as Log import RPC import PeerTypes import BlockDownload import DownloadQ import PeerInfo import PeerConfig import Bootstrap import CheckMetrics import RefLog qualified import RefLog (reflogWorker) import HttpWorker import Codec.Serialise import Control.Concurrent.Async import Control.Concurrent.STM import Control.Exception as Exception import Control.Monad.Reader import Control.Monad.Trans.Maybe import Crypto.Saltine (sodiumInit) import Data.ByteString.Lazy (ByteString) import Data.ByteString.Lazy qualified as LBS import Data.ByteString qualified as BS import Data.Either import Data.Foldable (for_) import Data.Function import Data.List qualified as L import Data.Map qualified as Map import Data.Maybe import Data.Set qualified as Set import Data.Set (Set) import Data.Text qualified as Text import Data.Text (Text) import GHC.Stats import GHC.TypeLits import Lens.Micro.Platform import Network.Socket import Options.Applicative import Prettyprinter import System.Directory import System.Exit import System.IO import System.Metrics defStorageThreads :: Integral a => a defStorageThreads = 4 defListenUDP :: String defListenUDP = "0.0.0.0:7351" defRpcUDP :: String defRpcUDP = "localhost:13331" defLocalMulticast :: String defLocalMulticast = "239.192.152.145:10153" data PeerListenKey data PeerRpcKey data PeerKeyFileKey data PeerBlackListKey data PeerStorageKey data PeerAcceptAnnounceKey data PeerTraceKey data AcceptAnnounce = AcceptAnnounceAll | AcceptAnnounceFrom (Set (PubKey 'Sign UDP)) instance Pretty AcceptAnnounce where pretty = \case AcceptAnnounceAll -> parens ("accept-announce" <+> "*") -- FIXME: better-pretty-for-AcceptAnnounceFrom AcceptAnnounceFrom xs -> parens ("accept-announce" <+> pretty (fmap AsBase58 (Set.toList xs))) instance HasCfgKey PeerTraceKey FeatureSwitch where key = "trace" instance HasCfgKey PeerListenKey (Maybe String) where key = "listen" instance HasCfgKey PeerRpcKey (Maybe String) where key = "rpc" instance HasCfgKey PeerKeyFileKey (Maybe String) where key = "key" instance HasCfgKey PeerStorageKey (Maybe String) where key = "storage" instance HasCfgKey PeerBlackListKey (Set String) where key = "blacklist" instance HasCfgKey PeerAcceptAnnounceKey AcceptAnnounce where key = "accept-block-announce" instance HasCfgValue PeerAcceptAnnounceKey AcceptAnnounce where cfgValue (PeerConfig syn) = fromMaybe (AcceptAnnounceFrom lst) fromAll where fromAll = headMay [ AcceptAnnounceAll | ListVal @C (Key s [SymbolVal "*"]) <- syn, s == kk ] lst = Set.fromList $ catMaybes [ fromStringMay @(PubKey 'Sign UDP) (Text.unpack e) | ListVal @C (Key s [LitStrVal e]) <- syn, s == kk ] kk = key @PeerAcceptAnnounceKey @AcceptAnnounce data RPCOpt = RPCOpt { _rpcOptConf :: Maybe FilePath , _rpcOptAddr :: Maybe String } makeLenses 'RPCOpt data RPCCommand = POKE | ANNOUNCE (Hash HbSync) | PING (PeerAddr UDP) (Maybe (Peer UDP)) | CHECK PeerNonce (PeerAddr UDP) (Hash HbSync) | FETCH (Hash HbSync) | PEERS | SETLOG SetLogging | REFLOGUPDATE ByteString | REFLOGFETCH (PubKey 'Sign UDP) | REFLOGGET (PubKey 'Sign UDP) data PeerOpts = PeerOpts { _storage :: Maybe StoragePrefix , _listenOn :: Maybe String , _listenRpc :: Maybe String , _peerCredFile :: Maybe FilePath , _peerConfig :: Maybe FilePath } deriving stock (Data) makeLenses 'PeerOpts logPrefix s = set loggerTr (s <>) tracePrefix :: SetLoggerEntry tracePrefix = logPrefix "[trace] " debugPrefix :: SetLoggerEntry debugPrefix = logPrefix "[debug] " errorPrefix :: SetLoggerEntry errorPrefix = logPrefix "[error] " warnPrefix :: SetLoggerEntry warnPrefix = logPrefix "[warn] " noticePrefix :: SetLoggerEntry noticePrefix = logPrefix "[notice] " main :: IO () main = do sodiumInit setLogging @DEBUG debugPrefix setLogging @INFO defLog setLogging @ERROR errorPrefix setLogging @WARN warnPrefix setLogging @NOTICE noticePrefix setLoggingOff @TRACE withSimpleLogger runCLI runCLI :: IO () runCLI = join . customExecParser (prefs showHelpOnError) $ info (helper <*> parser) ( fullDesc <> header "hbs2-peer daemon" <> progDesc "serves HBS2 protocol" ) where parser :: Parser (IO ()) parser = hsubparser ( command "init" (info pInit (progDesc "creates default config")) <> command "run" (info pRun (progDesc "run peer")) <> command "poke" (info pPoke (progDesc "poke peer by rpc")) <> command "announce" (info pAnnounce (progDesc "announce block")) <> command "ping" (info pPing (progDesc "ping another peer")) <> command "fetch" (info pFetch (progDesc "fetch block")) <> command "reflog" (info pRefLog (progDesc "reflog commands")) <> command "peers" (info pPeers (progDesc "show known peers")) <> command "log" (info pLog (progDesc "set logging level")) ) confOpt = strOption ( long "config" <> short 'c' <> help "config" ) rpcOpt = strOption ( short 'r' <> long "rpc" <> help "addr:port" ) common = do pref <- optional $ strOption ( short 'p' <> long "prefix" <> help "storage prefix" ) l <- optional $ strOption ( short 'l' <> long "listen" <> help "addr:port" ) r <- optional rpcOpt k <- optional $ strOption ( short 'k' <> long "key" <> help "peer keys file" ) c <- optional confOpt pure $ PeerOpts pref l r k c pRun = do runPeer <$> common pRpcCommon = do RPCOpt <$> optional confOpt <*> optional rpcOpt pPoke = do rpc <- pRpcCommon pure $ runRpcCommand rpc POKE pAnnounce = do rpc <- pRpcCommon h <- strArgument ( metavar "HASH" ) pure $ runRpcCommand rpc (ANNOUNCE h) pFetch = do rpc <- pRpcCommon h <- strArgument ( metavar "HASH" ) pure $ runRpcCommand rpc (FETCH h) pPing = do rpc <- pRpcCommon h <- strArgument ( metavar "ADDR" ) pure $ runRpcCommand rpc (PING h Nothing) pPeers = do rpc <- pRpcCommon pure $ runRpcCommand rpc PEERS onOff l = hsubparser ( command "on" (info (pure (l True) ) (progDesc "on") ) ) <|> hsubparser ( command "off" (info (pure (l False) ) (progDesc "off") ) ) pLog = do rpc <- pRpcCommon setlog <- SETLOG <$> ( hsubparser ( command "trace" (info (onOff TraceOn) (progDesc "set trace") ) ) <|> hsubparser ( command "debug" (info (onOff DebugOn) (progDesc "set debug") ) ) ) pure $ runRpcCommand rpc setlog pInit = do pref <- optional $ strArgument ( metavar "DIR" ) pure $ peerConfigInit pref pRefLog = hsubparser ( command "send" (info pRefLogSend (progDesc "send reflog transaction" )) <> command "send-raw" (info pRefLogSendRaw (progDesc "send reflog raw transaction" )) <> command "fetch" (info pRefLogFetch (progDesc "fetch reflog from all" )) <> command "get" (info pRefLogGet (progDesc "get own reflog from all" )) ) pRefLogSend = do rpc <- pRpcCommon kr <- strOption (long "keyring" <> short 'k' <> help "reflog keyring" <> metavar "FILE") pure $ do setLogging @TRACE tracePrefix trace "pRefLogSend" s <- BS.readFile kr -- FIXME: UDP is weird here creds <- pure (parseCredentials @UDP (AsCredFile s)) `orDie` "bad keyring file" bs <- BS.take defChunkSize <$> BS.hGetContents stdin let pubk = view peerSignPk creds let privk = view peerSignSk creds msg <- makeRefLogUpdate @UDP pubk privk bs <&> serialise runRpcCommand rpc (REFLOGUPDATE msg) pRefLogSendRaw = do rpc <- pRpcCommon pure $ do setLogging @TRACE tracePrefix trace "pRefLogSendRaw" bs <- LBS.take defChunkSize <$> LBS.hGetContents stdin runRpcCommand rpc (REFLOGUPDATE bs) pRefLogFetch = do rpc <- pRpcCommon ref <- strArgument ( metavar "REFLOG-KEY" ) pure $ do href <- pure (fromStringMay ref) `orDie` "invalid REFLOG-KEY" setLogging @TRACE tracePrefix trace "pRefLogFetch" runRpcCommand rpc (REFLOGFETCH href) pRefLogGet = do rpc <- pRpcCommon ref <- strArgument ( metavar "REFLOG-KEY" ) pure $ do href <- pure (fromStringMay ref) `orDie` "invalid REFLOG-KEY" setLogging @TRACE tracePrefix runRpcCommand rpc (REFLOGGET href) myException :: SomeException -> IO () myException e = die ( show e ) >> exitFailure newtype CredentialsM e m a = CredentialsM { fromCredentials :: ReaderT (PeerCredentials e) m a } deriving newtype ( Functor , Applicative , Monad , MonadIO , MonadReader (PeerCredentials e) , MonadTrans) withCredentials :: forall e m a . (HasOwnPeer e m, Monad m) => PeerCredentials e -> CredentialsM e m a -> m a withCredentials pc m = runReaderT (fromCredentials m) pc instance (Monad m, HasTimeLimits e p m) => HasTimeLimits e p (CredentialsM e m) where tryLockForPeriod p m = lift $ tryLockForPeriod p m instance (HasOwnPeer e m) => HasOwnPeer e (CredentialsM e m) where ownPeer = lift ownPeer instance (Monad m, HasFabriq e m) => HasFabriq e (CredentialsM e m) where getFabriq = lift getFabriq instance (Sessions e p m ) => Sessions e p (CredentialsM e m) where find k f = lift (find k f) fetch i d k f = lift (fetch i d k f) update d k f = lift (update d k f) expire k = lift (expire k) instance (Monad m, HasPeerNonce e m) => HasPeerNonce e (CredentialsM e m) where peerNonce = lift $ peerNonce @e instance Monad m => HasCredentials e (CredentialsM e m) where getCredentials = ask instance Monad m => HasCredentials e (ResponseM e (CredentialsM e m)) where getCredentials = lift getCredentials instance (Monad m, HasThatPeer e p m) => HasThatPeer e p (CredentialsM e m) where thatPeer = lift . thatPeer instance ( EventEmitter e p m ) => EventEmitter e p (CredentialsM e m) where emit k d = lift $ emit k d instance ( Monad m , Response e p m ) => Response e p (CredentialsM e m) where response = lift . response -- runPeer :: forall e . (e ~ UDP, Nonce (RefLogUpdate e) ~ BS.ByteString) => PeerOpts -> IO () runPeer :: forall e . (e ~ UDP) => PeerOpts -> IO () runPeer opts = Exception.handle myException $ do metrics <- newStore xdg <- getXdgDirectory XdgData defStorePath <&> fromString conf <- peerConfigRead (view peerConfig opts) -- let (PeerConfig syn) = conf print $ pretty conf let listenConf = cfgValue @PeerListenKey conf let rpcConf = cfgValue @PeerRpcKey conf let keyConf = cfgValue @PeerKeyFileKey conf let storConf = cfgValue @PeerStorageKey conf <&> StoragePrefix let traceConf = cfgValue @PeerTraceKey conf :: FeatureSwitch let listenSa = view listenOn opts <|> listenConf <|> Just defListenUDP let rpcSa = view listenRpc opts <|> rpcConf <|> Just defRpcUDP credFile <- pure (view peerCredFile opts <|> keyConf) `orDie` "credentials not set" let pref = view storage opts <|> storConf <|> Just xdg debug $ "storage prefix:" <+> pretty pref debug $ pretty "trace: " <+> pretty (show traceConf) when (traceConf == FeatureOn) do setLogging @TRACE tracePrefix let bls = cfgValue @PeerBlackListKey conf :: Set String let blkeys = Set.fromList $ catMaybes [ fromStringMay x | x <- Set.toList bls ] :: Set (PubKey 'Sign UDP) let accptAnn = cfgValue @PeerAcceptAnnounceKey conf :: AcceptAnnounce print $ pretty accptAnn -- FIXME: move-peerBanned-somewhere let peerBanned p d = do let k = view peerSignKey d pure $ k `Set.member` blkeys let acceptAnnounce p d = do case accptAnn of AcceptAnnounceAll -> pure True AcceptAnnounceFrom s -> pure $ view peerSignKey d `Set.member` s rpcQ <- newTQueueIO @RPCCommand let ps = mempty pc' <- LBS.readFile credFile <&> parseCredentials @e . AsCredFile . LBS.toStrict . LBS.take 4096 pc <- pure pc' `orDie` "can't parse credential file" notice $ "run peer" <+> pretty (AsBase58 (view peerSignPk pc)) s <- simpleStorageInit @HbSync (Just pref) let blk = liftIO . hasBlock s w <- replicateM defStorageThreads $ async $ simpleStorageWorker s localMulticast <- (headMay <$> parseAddr (fromString defLocalMulticast) <&> fmap (PeerUDP . addrAddress)) `orDie` "assertion: localMulticastPeer not set" notice $ "multicast:" <+> pretty localMulticast mess <- newMessagingUDP False listenSa `orDie` "unable listen on the given addr" udp <- async $ runMessagingUDP mess `catch` (\(e::SomeException) -> throwIO e ) udp1 <- newMessagingUDP False rpcSa `orDie` "Can't start RPC listener" mrpc <- async $ runMessagingUDP udp1 `catch` (\(e::SomeException) -> throwIO e ) mcast <- newMessagingUDPMulticast defLocalMulticast `orDie` "Can't start RPC listener" messMcast <- async $ runMessagingUDP mcast `catch` (\(e::SomeException) -> throwIO e ) denv <- newDownloadEnv penv <- newPeerEnv (AnyStorage s) (Fabriq mess) (getOwnPeer mess) loop <- async do runPeerM penv $ do adapter <- mkAdapter reflogAdapter <- RefLog.mkAdapter reflogReqAdapter <- RefLog.mkRefLogRequestAdapter @e let doDownload h = do withPeerM penv $ withDownload denv (addDownload h) let doFetchRef puk = do withPeerM penv $ do forKnownPeers @e $ \p _ -> do request p (RefLogRequest @e puk) let rwa = RefLog.RefLogWorkerAdapter { RefLog.reflogDownload = doDownload , RefLog.reflogFetch = doFetchRef } env <- ask pnonce <- peerNonce @e pl <- getPeerLocator @e addPeers @e pl ps subscribe @e PeerAnnounceEventKey $ \(PeerAnnounceEvent pip nonce) -> do unless (nonce == pnonce) $ do debug $ "Got peer announce!" <+> pretty pip pd <- find (KnownPeerKey pip) id -- <&> isJust banned <- maybe (pure False) (peerBanned pip) pd let known = isJust pd && not banned sendPing pip subscribe @e BlockAnnounceInfoKey $ \(BlockAnnounceEvent p bi no) -> do pa <- toPeerAddr p liftIO $ atomically $ writeTQueue rpcQ (CHECK no pa (view biHash bi)) subscribe @e AnyKnownPeerEventKey $ \(KnownPeerEvent p d) -> do let thatNonce = view peerOwnNonce d banned <- peerBanned p d -- FIXME: check if we've got a reference to ourselves if | pnonce == thatNonce -> do delPeers pl [p] addExcluded pl [p] expire (KnownPeerKey p) | banned -> do notice $ pretty p <+> "banned" | otherwise -> do pd' <- knownPeers @e pl >>= \peers -> forM peers $ \pip -> do pd <- find (KnownPeerKey pip) (view peerOwnNonce) pure $ (,pip) <$> pd let pd = Map.fromList $ catMaybes pd' case Map.lookup thatNonce pd of -- TODO: prefer-local-peer-with-same-nonce-over-remote-peer -- remove remote peer -- add local peer Just p0 | p0 /= p -> debug "Same peer, different address" _ -> do addPeers pl [p] -- TODO: better-handling-for-new-peers npi <- newPeerInfo here <- find @e (KnownPeerKey p) id <&> isJust pfails <- fetch True npi (PeerInfoKey p) (view peerPingFailed) liftIO $ atomically $ writeTVar pfails 0 -- pdownfails <- fetch True npi (PeerInfoKey p) (view peerDownloadFail) unless here do -- liftIO $ atomically $ writeTVar pdownfails 0 debug $ "Got authorized peer!" <+> pretty p <+> pretty (AsBase58 (view peerSignKey d)) void $ liftIO $ async $ withPeerM env do pause @'Seconds 1 debug "sending first peer announce" request localMulticast (PeerAnnounce @e pnonce) let wo = fmap L.singleton let peerThread = wo . liftIO . async . withPeerM env workers <- do peerThread $ forever $ do pause defPeerAnnounceTime -- FIXME: setting! debug "sending local peer announce" request localMulticast (PeerAnnounce @e pnonce) peerThread (httpWorker conf denv) peerThread (checkMetrics metrics) peerThread (peerPingLoop @e) peerThread (knownPeersPingLoop @e conf) peerThread (bootstrapDnsLoop @e conf) peerThread (pexLoop @e) peerThread (blockDownloadLoop denv) peerThread (postponedLoop denv) peerThread (downloadQueue conf denv) peerThread (reflogWorker @e conf rwa) peerThread $ forever $ do cmd <- liftIO $ atomically $ readTQueue rpcQ case cmd of POKE -> debug "on poke: alive and kicking!" PING pa r -> do debug $ "ping" <+> pretty pa pip <- fromPeerAddr @e pa subscribe (ConcretePeerKey pip) $ \(ConcretePeerData{}) -> do maybe1 r (pure ()) $ \rpcPeer -> do pinged <- toPeerAddr pip request rpcPeer (RPCPong @e pinged) sendPing pip ANNOUNCE h -> do debug $ "got announce rpc" <+> pretty h sto <- getStorage mbsize <- liftIO $ hasBlock sto h maybe1 mbsize (pure ()) $ \size -> do debug "send multicast announce" no <- peerNonce @e let annInfo = BlockAnnounceInfo 0 NoBlockInfoMeta size h let announce = BlockAnnounce @e no annInfo request localMulticast announce liftIO $ withPeerM env do forKnownPeers $ \p _ -> do debug $ "send single-cast announces" <+> pretty p request @e p announce CHECK nonce pa h -> do pip <- fromPeerAddr @e pa n1 <- peerNonce @e unless (nonce == n1) do peer <- find @e (KnownPeerKey pip) id debug $ "received announce from" <+> pretty pip <+> pretty h case peer of Nothing -> do sendPing @e pip -- TODO: enqueue-announce-from-unknown-peer? Just pd -> do banned <- peerBanned pip pd notAccepted <- acceptAnnounce pip pd <&> not if | banned -> do notice $ pretty pip <+> "banned" | notAccepted -> do debug $ pretty pip <+> "announce-not-accepted" | otherwise -> do downloadLogAppend @e h withDownload denv $ do processBlock h REFLOGUPDATE bs -> do trace "REFLOGUPDATE" let msg' = deserialiseOrFail @(RefLogUpdate UDP) bs & either (const Nothing) Just when (isNothing msg') do warn "unable to parse RefLogUpdate message" maybe1 msg' none $ \msg -> do RefLog.doRefLogUpdate (view refLogId msg, msg) RefLog.doRefLogBroadCast msg _ -> pure () peerThread do runProto @e [ makeResponse (blockSizeProto blk dontHandle) , makeResponse (blockChunksProto adapter) , makeResponse blockAnnounceProto , makeResponse (withCredentials pc . peerHandShakeProto) , makeResponse peerExchangeProto , makeResponse (refLogUpdateProto reflogAdapter) , makeResponse (refLogRequestProto reflogReqAdapter) ] void $ liftIO $ waitAnyCatchCancel workers let pokeAction _ = do who <- thatPeer (Proxy @(RPC e)) let k = view peerSignPk pc let rpc = "rpc:" <+> dquotes (pretty (listenAddr udp1)) let udp = "udp:" <+> dquotes (pretty (listenAddr mess)) let http = case cfgValue @PeerHttpPortKey conf :: Maybe Integer of Nothing -> mempty Just p -> "http-port:" <+> pretty p let answ = show $ vcat [ "peer-key:" <+> dquotes (pretty (AsBase58 k)) , rpc , udp , http ] -- FIXME: to-delete-POKE liftIO $ atomically $ writeTQueue rpcQ POKE request who (RPCPokeAnswerFull @e (Text.pack answ)) let annAction h = do liftIO $ atomically $ writeTQueue rpcQ (ANNOUNCE h) let pingAction pa = do that <- thatPeer (Proxy @(RPC e)) liftIO $ atomically $ writeTQueue rpcQ (PING pa (Just that)) let fetchAction h = do debug $ "fetchAction" <+> pretty h liftIO $ withPeerM penv $ do downloadLogAppend @e h withDownload denv (processBlock h) let peersAction _ = do who <- thatPeer (Proxy @(RPC e)) void $ liftIO $ async $ withPeerM penv $ do forKnownPeers @e $ \p pd -> do pa <- toPeerAddr p let k = view peerSignKey pd request who (RPCPeersAnswer @e pa k) let logLevelAction = \case DebugOn True -> do setLogging @DEBUG debugPrefix debug "DebugOn" DebugOn False -> do debug "DebugOff" setLoggingOff @DEBUG TraceOn True -> do setLogging @TRACE tracePrefix trace "TraceOn" TraceOn False -> do trace "TraceOff" setLoggingOff @TRACE let reflogUpdateAction bs = void $ runMaybeT do liftIO $ atomically $ writeTQueue rpcQ (REFLOGUPDATE bs) -- trace $ "reflogUpdateAction" -- let reflogFetchAction puk = do trace "reflogFetchAction" void $ liftIO $ async $ withPeerM penv $ do forKnownPeers @e $ \p _ -> do request p (RefLogRequest @e puk) let reflogGetAction puk = do trace $ "reflogGetAction" <+> pretty (AsBase58 puk) who <- thatPeer (Proxy @(RPC e)) void $ liftIO $ async $ withPeerM penv $ do sto <- getStorage h <- liftIO $ getRef sto (RefLogKey puk) request who (RPCRefLogGetAnswer @e h) let arpc = RpcAdapter pokeAction dontHandle dontHandle annAction pingAction dontHandle fetchAction peersAction dontHandle logLevelAction reflogUpdateAction reflogFetchAction reflogGetAction dontHandle rpc <- async $ runRPC udp1 do runProto @e [ makeResponse (rpcHandler arpc) ] menv <- newPeerEnv (AnyStorage s) (Fabriq mcast) (getOwnPeer mcast) ann <- async $ runPeerM menv $ do self <- ownPeer @e subscribe @e BlockAnnounceInfoKey $ \(BlockAnnounceEvent p bi no) -> do unless (p == self) do pa <- toPeerAddr p liftIO $ atomically $ writeTQueue rpcQ (CHECK no pa (view biHash bi)) subscribe @e PeerAnnounceEventKey $ \pe@(PeerAnnounceEvent pip nonce) -> do -- debug $ "Got peer announce!" <+> pretty pip emitToPeer penv PeerAnnounceEventKey pe runProto @e [ makeResponse blockAnnounceProto , makeResponse peerAnnounceProto ] void $ waitAnyCatchCancel $ w <> [udp,loop,rpc,mrpc,ann,messMcast] simpleStorageStop s emitToPeer :: ( MonadIO m , EventEmitter e a (PeerM e IO) ) => PeerEnv e -> EventKey e a -> Event e a -> m () emitToPeer env k e = liftIO $ withPeerM env (emit k e) rpcClientMain :: RPCOpt -> IO () -> IO () rpcClientMain opt action = do setLoggingOff @DEBUG action withRPC :: RPCOpt -> RPC UDP -> IO () withRPC o cmd = rpcClientMain o $ do conf <- peerConfigRead (view rpcOptConf o) let rpcConf = cfgValue @PeerRpcKey conf :: Maybe String saddr <- pure (view rpcOptAddr o <|> rpcConf) `orDie` "RPC endpoint not set" as <- parseAddr (fromString saddr) <&> fmap (PeerUDP . addrAddress) let rpc' = headMay $ L.sortBy (compare `on` addrPriority) as rpc <- pure rpc' `orDie` "Can't parse RPC endpoint" udp1 <- newMessagingUDP False Nothing `orDie` "Can't start RPC" mrpc <- async $ runMessagingUDP udp1 pingQ <- newTQueueIO pokeQ <- newTQueueIO pokeFQ <- newTQueueIO refQ <- newTQueueIO let adapter = RpcAdapter dontHandle (liftIO . atomically . writeTQueue pokeQ) (liftIO . atomically . writeTQueue pokeFQ) (const $ liftIO exitSuccess) (const $ notice "ping?") (liftIO . atomically . writeTQueue pingQ) dontHandle dontHandle (\(pa, k) -> Log.info $ pretty (AsBase58 k) <+> pretty pa ) dontHandle dontHandle dontHandle dontHandle ( liftIO . atomically . writeTQueue refQ ) prpc <- async $ runRPC udp1 do env <- ask proto <- liftIO $ async $ continueWithRPC env $ do runProto @UDP [ makeResponse (rpcHandler adapter) ] request rpc cmd case cmd of RPCAnnounce{} -> pause @'Seconds 0.1 >> liftIO exitSuccess RPCFetch{} -> pause @'Seconds 0.1 >> liftIO exitSuccess RPCPing{} -> do void $ liftIO $ void $ race (pause @'Seconds 5 >> exitFailure) do pa <- liftIO $ atomically $ readTQueue pingQ Log.info $ "pong from" <+> pretty pa exitSuccess RPCPoke{} -> do let onTimeout = do pause @'Seconds 1.5 Log.info "no-one-is-here" exitFailure void $ liftIO $ race onTimeout do k <- liftIO $ atomically $ readTQueue pokeFQ Log.info $ pretty k exitSuccess RPCPeers{} -> liftIO do pause @'Seconds 1 exitSuccess RPCLogLevel{} -> liftIO exitSuccess RPCRefLogUpdate{} -> liftIO do pause @'Seconds 0.1 exitSuccess RPCRefLogFetch {} -> liftIO do pause @'Seconds 0.5 exitSuccess RPCRefLogGet{} -> liftIO do void $ liftIO $ race (pause @'Seconds 0.1 >> exitFailure) do k <- liftIO $ atomically $ readTQueue refQ case k of Nothing -> exitFailure Just re -> do print $ pretty re exitSuccess _ -> pure () void $ liftIO $ waitAnyCatchCancel [proto] void $ waitAnyCatchCancel [mrpc, prpc] runRpcCommand :: RPCOpt -> RPCCommand -> IO () runRpcCommand opt = \case POKE -> withRPC opt RPCPoke PING s _ -> withRPC opt (RPCPing s) ANNOUNCE h -> withRPC opt (RPCAnnounce h) FETCH h -> withRPC opt (RPCFetch h) PEERS -> withRPC opt RPCPeers SETLOG s -> withRPC opt (RPCLogLevel s) REFLOGUPDATE bs -> withRPC opt (RPCRefLogUpdate bs) REFLOGFETCH k -> withRPC opt (RPCRefLogFetch k) REFLOGGET k -> withRPC opt (RPCRefLogGet k) _ -> pure ()