{-| Event Types and Noun Conversion -} module Urbit.Arvo.Event where import Urbit.Noun.Tree (HoonMap, HoonSet) import Urbit.Prelude hiding (Term) import Urbit.Arvo.Common (KingId(..), ServId(..)) import Urbit.Arvo.Common (Desk, Mime) import Urbit.Arvo.Common (Header(..), HttpEvent) import Urbit.Arvo.Common (AmesDest, Ipv4, Ipv6, Port, Turf) import Urbit.Arvo.Common (ReOrg(..), reorgThroughNoun) import qualified Crypto.Sign.Ed25519 as Ed import qualified Data.ByteString as BS import qualified Data.ByteString.Char8 as C import qualified Network.HTTP.Types.Method as H -- Misc Types ------------------------------------------------------------------ type Rift = Atom -- Continuity number type Life = Word -- Number of Azimoth key revs. type Bloq = Atom -- TODO type Oath = Atom -- Signature -- Parsed URLs ----------------------------------------------------------------- type Host = Each Turf Ipv4 type Hart = (Bool, Maybe Atom, Host) type Pork = (Maybe Knot, [Cord]) type Quay = [(Cord, Cord)] data PUrl = PUrl Hart Pork Quay deriving (Eq, Ord, Show) deriveNoun ''PUrl -- Dawn Records ---------------------------------------------------------------- padByteString :: BS.ByteString -> Int -> BS.ByteString padByteString bs length | remaining > 0 = bs <> (BS.replicate remaining 0) | otherwise = bs where remaining = (length - (BS.length bs)) -- A Pass is the Atom concatenation of 'b', the public encryption key, and the -- public authentication key. (see +pass-from-eth.) data Pass = Pass { passSign :: Ed.PublicKey, passCrypt :: Ed.PublicKey } deriving (Eq, Ord, Show) passToBS :: Pass -> BS.ByteString passToBS Pass{..} = C.singleton 'b' <> (Ed.unPublicKey passSign) <> (Ed.unPublicKey passCrypt) instance ToNoun Pass where toNoun = Atom . bytesAtom . passToBS instance FromNoun Pass where parseNoun n = named "Pass" $ do MkBytes unpadded <- parseNoun n let bs = padByteString unpadded 65 when ((C.head bs) /= 'b') $ do fail "Expecting 'b' prefix in public key structure" let removedPrefix = C.tail bs let passSign = Ed.PublicKey (take 32 removedPrefix) let passCrypt = Ed.PublicKey (drop 32 removedPrefix) unless ((length $ Ed.unPublicKey passSign) == 32) $ error "Sign pubkey not 32 bytes" unless ((length $ Ed.unPublicKey passCrypt) == 32) $ error "Crypt pubkey not 32 bytes" pure $ Pass{..} -- A Ring isn't the secret keys: it's the ByteString input which generates both -- the public key and the secret key. A Ring is the concatenation of 'B', the -- encryption key derivation seed, and the authentication key derivation -- seed. These aren't actually private keys, but public/private keypairs which -- can be derived from these seeds. data Ring = Ring { ringSign :: BS.ByteString, ringCrypt :: BS.ByteString } deriving (Eq) instance ToNoun Ring where toNoun Ring{..} = Atom $ bytesAtom (C.singleton 'B' <> ringSign <> ringCrypt) instance FromNoun Ring where parseNoun n = named "Ring" $ do MkBytes unpadded <- parseNoun n let bs = padByteString unpadded 65 when ((C.head bs) /= 'B') $ do fail "Expecting 'B' prefix in public key structure" let removedPrefix = C.tail bs let ringSign = (take 32 removedPrefix) let ringCrypt = (drop 32 removedPrefix) unless ((length ringSign) == 32) $ error "Sign seed not 32 bytes" unless ((length ringCrypt) == 32) $ error "Crypt seed not 32 bytes" pure $ Ring ringSign ringCrypt instance Show Ring where show r = "(Ring <> <>)" data Seed = Seed { sShip :: Ship , sLife :: Life , sRing :: Ring , sOath :: (Maybe Oath) } deriving (Eq, Show) type Public = (Life, HoonMap Life Pass) data Dnses = Dnses { dPri::Cord, dSec::Cord, dTer::Cord } deriving (Eq, Ord, Show) type EthAddr = Atom --Bytes -- 20 bytes type ContNum = Word data EthPoint = EthPoint { epOwn :: (EthAddr, EthAddr, EthAddr, EthAddr) , epNet :: Maybe (Life, Pass, ContNum, (Bool, Ship), Maybe Ship) , epKid :: Maybe (EthAddr, HoonSet Ship) } deriving (Eq, Show) data Dawn = MkDawn { dSeed :: Seed , dSponsor :: [(Ship, EthPoint)] , dCzar :: HoonMap Ship (Rift, Life, Pass) , dTurf :: [Turf] , dBloq :: Bloq , dNode :: (Maybe PUrl) } deriving (Eq, Show) deriveNoun ''Dnses deriveNoun ''EthPoint deriveNoun ''Seed deriveNoun ''Dawn -- HTTP ------------------------------------------------------------------------ type ServerId = Atom data Address = AIpv4 Ipv4 | AIpv6 Ipv6 | AAmes Ship deriving (Eq, Ord, Show) data HttpRequest = HttpRequest { reqMeth :: H.StdMethod , reqUrl :: Cord , reqHead :: [Header] , reqBody :: Maybe File } deriving (Eq, Ord, Show) data HttpServerReq = HttpServerReq { hsrSecure :: Bool , hsrAddress :: Address , hsrRequest :: HttpRequest } deriving (Eq, Ord, Show) data HttpClientEv = HttpClientEvReceive (KingId, ()) ServerId HttpEvent | HttpClientEvBorn (KingId, ()) () | HttpClientEvCrud Path Noun deriving (Eq, Ord, Show) data HttpServerEv = HttpServerEvRequest (ServId, UD, UD, ()) HttpServerReq | HttpServerEvCancelRequest (ServId, UD, UD, ()) () | HttpServerEvRequestLocal (ServId, UD, UD, ()) HttpServerReq | HttpServerEvLive (ServId, ()) Port (Maybe Port) | HttpServerEvBorn (KingId, ()) () | HttpServerEvCrud Path Noun deriving (Eq, Ord, Show) deriveNoun ''Address deriveNoun ''HttpClientEv deriveNoun ''HttpRequest deriveNoun ''HttpServerEv deriveNoun ''HttpServerReq -- Ames ------------------------------------------------------------------------ data AmesEv = AmesEvHear () AmesDest Bytes | AmesEvHole () AmesDest Bytes | AmesEvCrud Path Noun deriving (Eq, Ord, Show) deriveNoun ''AmesEv -- Arvo Events ----------------------------------------------------------------- data ArvoEv = ArvoEvWhom () Ship | ArvoEvWack () Word512 | ArvoEvWarn Path Noun | ArvoEvCrud Path Noun | ArvoEvVeer Atom Noun deriving (Eq, Ord, Show) deriveNoun ''ArvoEv -- Boat Events ----------------------------------------------------------------- data BoatEv = BoatEvBoat () () | BoatEvCrud Path Noun deriving (Eq, Ord, Show) deriveNoun ''BoatEv -- Timer Events ---------------------------------------------------------------- data BehnEv = BehnEvWake () () | BehnEvBorn (KingId, ()) () | BehnEvCrud Path Noun deriving (Eq, Ord, Show) deriveNoun ''BehnEv -- Newt Events ----------------------------------------------------------------- data NewtEv = NewtEvBorn (KingId, ()) () | NewtEvCrud Path Noun deriving (Eq, Ord, Show) deriveNoun ''NewtEv -- FileSystem Events ----------------------------------------------------------- data SyncEv = SyncEvInto (Nullable (KingId, ())) Desk Bool [(Path, Maybe Mime)] | SyncEvCrud Path Noun deriving (Eq, Ord, Show) deriveNoun ''SyncEv -- Terminal Events ------------------------------------------------------------- data LegacyBootEvent = Fake Ship | Dawn Dawn deriving (Eq, Show) data ArrowKey = D | L | R | U deriving (Eq, Ord, Show) data Belt = Aro ArrowKey | Bac () | Ctl Cord | Del () | Met Cord | Ret () | Txt Tour deriving (Eq, Ord, Show) data TermEv = TermEvBelt (UD, ()) Belt | TermEvBlew (UD, ()) Word Word | TermEvBoot (UD, ()) Bool LegacyBootEvent | TermEvHail (UD, ()) () | TermEvCrud Path Noun deriving (Eq, Show) deriveNoun ''LegacyBootEvent deriveNoun ''ArrowKey deriveNoun ''Belt deriveNoun ''TermEv -- Events for Device Drivers --------------------------------------------------- data BlipEv = BlipEvAmes AmesEv | BlipEvArvo ArvoEv | BlipEvBehn BehnEv | BlipEvBoat BoatEv | BlipEvHttpClient HttpClientEv | BlipEvHttpServer HttpServerEv | BlipEvNewt NewtEv | BlipEvSync SyncEv | BlipEvTerm TermEv deriving (Eq, Show) deriveNoun ''BlipEv -- Boot Events ----------------------------------------------------------------- data Vane = VaneVane VaneEv | VaneZuse ZuseEv deriving (Eq, Ord, Show) data VaneName = Ames | Behn | Clay | Dill | Eyre | Ford | Gall | Iris | Jael deriving (Eq, Ord, Show, Enum, Bounded) data ZuseEv = ZEVeer () Cord Path BigCord | ZEVoid Void deriving (Eq, Ord, Show) data VaneEv = VEVeer (VaneName, ()) Cord Path BigCord | VEVoid Void deriving (Eq, Ord, Show) deriveNoun ''Vane deriveNoun ''VaneName deriveNoun ''VaneEv deriveNoun ''ZuseEv -- The Main Event Type --------------------------------------------------------- data Ev = EvBlip BlipEv | EvVane Vane deriving (Eq, Show) instance ToNoun Ev where toNoun = \case EvBlip v -> toNoun $ reorgThroughNoun (Cord "", v) EvVane v -> toNoun $ reorgThroughNoun (Cord "vane", v) instance FromNoun Ev where parseNoun = parseNoun >=> \case ReOrg "" s t p v -> fmap EvBlip $ parseNoun $ toNoun (s,t,p,v) ReOrg "vane" s t p v -> fmap EvVane $ parseNoun $ toNoun (s,t,p,v) ReOrg _ _ _ _ _ -> fail "First path-elem must be ?($ %vane)" -- Short Event Names ----------------------------------------------------------- {- In the case of the user hitting enter, the cause is technically a terminal event, but we don't display any name because the cause is really the user. -} getSpinnerNameForEvent :: Ev -> Maybe Text getSpinnerNameForEvent = \case EvVane _ -> Nothing EvBlip b -> case b of BlipEvAmes _ -> Just "ames" BlipEvArvo _ -> Just "arvo" BlipEvBehn _ -> Just "behn" BlipEvBoat _ -> Just "boat" BlipEvHttpClient _ -> Just "iris" BlipEvHttpServer _ -> Just "eyre" BlipEvNewt _ -> Just "newt" BlipEvSync _ -> Just "clay" BlipEvTerm t | isRet t -> Nothing BlipEvTerm t -> Just "term" where isRet (TermEvBelt _ (Ret ())) = True isRet _ = False