module Main (main) where
import Control.Arrow (first)
import Control.Concurrent
import Control.Monad
import Control.Monad.Except
import Control.Monad.Fail
import Control.Monad.Reader
import Control.Monad.State
import Control.Monad.Trans.Maybe
import Crypto.Random
import qualified Data.ByteString.Char8 as BC
import qualified Data.ByteString.Lazy as BL
import Data.Char
import Data.List
import Data.Maybe
import qualified Data.Text as T
import qualified Data.Text.IO as T
import Data.Time.LocalTime
import System.Console.Haskeline
import System.Environment
import Attach
import Identity
import Message
import Message.Service
import Network
import PubKey
import Service
import State
import Storage
import Storage.List
main :: IO ()
main = do
st <- liftIO $ openStorage "test"
getArgs >>= \case
["cat-file", sref] -> do
readRef st (BC.pack sref) >>= \case
Nothing -> error "ref does not exist"
Just ref -> BL.putStr $ lazyLoadBytes ref
["cat-file", objtype, sref] -> do
readRef st (BC.pack sref) >>= \case
Nothing -> error "ref does not exist"
Just ref -> case objtype of
"signed" -> do
let signed = load ref :: Signed Object
BL.putStr $ lazyLoadBytes $ storedRef $ signedData signed
forM_ (signedSignature signed) $ \sig -> do
putStr $ "SIG "
BC.putStrLn $ showRef $ storedRef $ sigKey $ fromStored sig
"identity" -> case validateIdentity (wrappedLoad ref) of
Just identity -> do
let disp :: Identity m -> IO ()
disp idt = do
maybe (return ()) (T.putStrLn . (T.pack "Name: " `T.append`)) $ idName idt
BC.putStrLn . (BC.pack "KeyId: " `BC.append`) . showRefDigest . refDigest . storedRef $ idKeyIdentity idt
BC.putStrLn . (BC.pack "KeyMsg: " `BC.append`) . showRefDigest . refDigest . storedRef $ idKeyMessage idt
case idOwner idt of
Nothing -> return ()
Just owner -> do
mapM_ (putStrLn . ("OWNER " ++) . BC.unpack . showRefDigest . refDigest . storedRef) $ idDataF owner
disp owner
disp identity
Nothing -> putStrLn $ "Identity verification failed"
_ -> error $ "unknown object type '" ++ objtype ++ "'"
["update-identity"] -> updateSharedIdentity st
[bhost] -> interactiveLoop st bhost
_ -> error "Expecting broadcast address"
interactiveLoop :: Storage -> String -> IO ()
interactiveLoop st bhost = runInputT defaultSettings $ do
origIdentity <- liftIO $ loadLocalIdentity st
outputStrLn $ T.unpack $ displayIdentity origIdentity
haveTerminalUI >>= \case True -> return ()
False -> error "Requires terminal"
extPrint <- getExternalPrint
let extPrintLn str = extPrint $ str ++ "\n";
chanPeer <- liftIO $ do
erebosHead <- loadLocalStateHead st
startServer erebosHead extPrintLn bhost
[ (T.pack "attach", SomeService (emptyServiceState :: AttachService))
, (T.pack "dmsg", SomeService (emptyServiceState :: DirectMessageService))
]
peers <- liftIO $ newMVar []
void $ liftIO $ forkIO $ void $ forever $ do
peer <- readChan chanPeer
if | PeerIdentityFull pid <- peerIdentity peer -> do
let update [] = ([peer], Nothing)
update (p:ps) | PeerIdentityFull pid' <- peerIdentity p
, pid' `sameIdentity` pid = (peer : ps, Just p)
| otherwise = first (p:) $ update ps
op <- modifyMVar peers (return . update)
let shown = showPeer peer
when (Just shown /= (showPeer <$> op)) $ extPrint shown
| otherwise -> return ()
let getInputLines prompt = do
Just input <- lift $ getInputLine prompt
case reverse input of
'\\':rest -> (reverse ('\n':rest) ++) <$> getInputLines ">> "
_ -> return input
let process :: CommandState -> MaybeT (InputT IO) CommandState
process cstate = do
let pname = case csPeer cstate of
Nothing -> ""
Just peer -> case peerIdentity peer of
PeerIdentityFull pid -> maybe "<unnamed>" T.unpack $ idName $ finalOwner pid
PeerIdentityRef wref -> "<" ++ BC.unpack (showRefDigest $ wrDigest wref) ++ ">"
PeerIdentityUnknown -> "<unknown>"
input <- getInputLines $ pname ++ "> "
let (CommandM cmd, line) = case input of
'/':rest -> let (scmd, args) = dropWhile isSpace <$> span (\c -> isAlphaNum c || c == '-') rest
in if all isDigit scmd
then (cmdSetPeer $ read scmd, args)
else (fromMaybe (cmdUnknown scmd) $ lookup scmd commands, args)
_ -> (cmdSend, input)
curIdentity <- liftIO $ loadLocalIdentity st
res <- liftIO $ runExceptT $ flip execStateT cstate $ runReaderT cmd CommandInput
{ ciSelf = curIdentity
, ciLine = line
, ciPrint = extPrintLn
, ciPeers = liftIO $ readMVar peers
}
case res of
Right cstate' -> return cstate'
Left err -> do lift $ lift $ extPrint $ "Error: " ++ err
return cstate
let loop (Just cstate) = runMaybeT (process cstate) >>= loop
loop Nothing = return ()
loop $ Just $ CommandState { csPeer = Nothing }
data CommandInput = CommandInput
{ ciSelf :: UnifiedIdentity
, ciLine :: String
, ciPrint :: String -> IO ()
, ciPeers :: CommandM [Peer]
}
data CommandState = CommandState
{ csPeer :: Maybe Peer
}
newtype CommandM a = CommandM (ReaderT CommandInput (StateT CommandState (ExceptT String IO)) a)
deriving (Functor, Applicative, Monad, MonadIO, MonadReader CommandInput, MonadState CommandState, MonadError String)
instance MonadFail CommandM where
fail = throwError
instance MonadRandom CommandM where
getRandomBytes = liftIO . getRandomBytes
type Command = CommandM ()
commands :: [(String, Command)]
commands =
[ ("history", cmdHistory)
, ("peers", cmdPeers)
, ("send", cmdSend)
, ("update-identity", cmdUpdateIdentity)
, ("attach", cmdAttach)
, ("attach-accept", cmdAttachAccept)
]
cmdUnknown :: String -> Command
cmdUnknown cmd = liftIO $ putStrLn $ "Unknown command: " ++ cmd
cmdPeers :: Command
cmdPeers = do
peers <- join $ asks ciPeers
forM_ (zip [1..] peers) $ \(i :: Int, p) -> do
liftIO $ putStrLn $ show i ++ ": " ++ showPeer p
showPeer :: Peer -> String
showPeer peer =
let name = case peerIdentity peer of
PeerIdentityUnknown -> "<noid>"
PeerIdentityRef wref -> "<" ++ BC.unpack (showRefDigest $ wrDigest wref) ++ ">"
PeerIdentityFull pid -> T.unpack $ displayIdentity pid
DatagramAddress addr = peerAddress peer
in name ++ " [" ++ show addr ++ "]"
cmdSetPeer :: Int -> Command
cmdSetPeer n | n < 1 = liftIO $ putStrLn "Invalid peer index"
| otherwise = do peers <- join $ asks ciPeers
modify $ \s -> s { csPeer = listToMaybe $ drop (n - 1) peers }
cmdSend :: Command
cmdSend = void $ do
self <- asks ciSelf
let st = storedStorage $ idData self
Just peer <- gets csPeer
PeerIdentityFull pid <- return $ peerIdentity peer
let powner = finalOwner pid :: ComposedIdentity
text <- asks ciLine
smsg <- liftIO $ updateLocalState st $ \erb -> do
threads <- storedFromSList $ lsMessages $ fromStored erb
(slist, smsg) <- case find (sameIdentity powner . msgPeer . fromStored) threads of
Just thread -> do
(smsg, thread') <- createDirectMessage self (fromStored thread) (T.pack text)
(,smsg) <$> slistReplaceS thread thread' (lsMessages $ fromStored erb)
Nothing -> do
(smsg, thread') <- createDirectMessage self (emptyDirectThread powner) (T.pack text)
(,smsg) <$> slistAddS thread' (lsMessages $ fromStored erb)
erb' <- wrappedStore st (fromStored erb) { lsMessages = slist }
return (erb', smsg)
sendToPeer self peer (T.pack "dmsg") smsg
tzone <- liftIO $ getCurrentTimeZone
liftIO $ putStrLn $ formatMessage tzone $ fromStored smsg
cmdHistory :: Command
cmdHistory = void $ do
self <- asks ciSelf
let st = storedStorage $ idData self
Just peer <- gets csPeer
PeerIdentityFull pid <- return $ peerIdentity peer
let powner = finalOwner pid
Just erebosHead <- liftIO $ loadHead st "erebos"
let erebos = wrappedLoad (headRef erebosHead)
Just thread <- return $ find (sameIdentity powner . msgPeer) $ fromSList $ lsMessages $ fromStored erebos
tzone <- liftIO $ getCurrentTimeZone
liftIO $ mapM_ (putStrLn . formatMessage tzone) $ reverse $ take 50 $ threadToList thread
cmdUpdateIdentity :: Command
cmdUpdateIdentity = void $ do
st <- asks $ storedStorage . idData . ciSelf
liftIO $ updateSharedIdentity st
cmdAttach :: Command
cmdAttach = join $ attachToOwner
<$> asks ciPrint
<*> asks ciSelf
<*> (maybe (throwError "no peer selected") return =<< gets csPeer)
cmdAttachAccept :: Command
cmdAttachAccept = join $ attachAccept
<$> asks ciPrint
<*> asks ciSelf
<*> (maybe (throwError "no peer selected") return =<< gets csPeer)