{-# LANGUAGE ForeignFunctionInterface #-} {-# LANGUAGE RecursiveDo #-} module ICE ( IceSession, IceSessionRole(..), IceRemoteInfo, iceCreate, iceDestroy, iceRemoteInfo, iceShow, iceConnect, iceSend, iceSetChan, ) where import Control.Arrow import Control.Concurrent.Chan import Control.Concurrent.MVar import Control.Monad import Control.Monad.Except import Control.Monad.Identity import Data.ByteString (ByteString, packCStringLen, useAsCString) import qualified Data.ByteString.Lazy.Char8 as BLC import Data.ByteString.Unsafe import Data.Function import Data.Text (Text) import qualified Data.Text as T import qualified Data.Text.Encoding as T import qualified Data.Text.Read as T import Foreign.C.String import Foreign.C.Types import Foreign.Marshal.Alloc import Foreign.Marshal.Array import Foreign.Ptr import Foreign.StablePtr import Storage #include "pjproject.h" data IceSession = IceSession { isStrans :: PjIceStrans , isChan :: MVar (Either [ByteString] (MappedChan ByteString)) } data MappedChan a = forall b. MappedChan (a -> b) (Chan b) instance Eq IceSession where (==) = (==) `on` isStrans instance Ord IceSession where compare = compare `on` isStrans instance Show IceSession where show _ = "" data IceRemoteInfo = IceRemoteInfo { iriUsernameFrament :: Text , iriPassword :: Text , iriDefaultCandidate :: Text , iriCandidates :: [Text] } data IceCandidate = IceCandidate { icandFoundation :: Text , icandPriority :: Int , icandAddr :: Text , icandPort :: Int , icandType :: Text } instance Storable IceRemoteInfo where store' x = storeRec $ do storeText "ice-ufrag" $ iriUsernameFrament x storeText "ice-pass" $ iriPassword x storeText "ice-default" $ iriDefaultCandidate x mapM_ (storeText "ice-candidate") $ iriCandidates x load' = loadRec $ IceRemoteInfo <$> loadText "ice-ufrag" <*> loadText "ice-pass" <*> loadText "ice-default" <*> loadTexts "ice-candidate" instance StorableText IceCandidate where toText x = T.concat $ [ icandFoundation x , T.singleton ' ' , T.pack $ show $ icandPriority x , T.singleton ' ' , icandAddr x , T.singleton ' ' , T.pack $ show $ icandPort x , T.singleton ' ' , icandType x ] fromText t = case T.words t of [found, tprio, addr, tport, ctype] | Right (prio, _) <- T.decimal tprio , Right (port, _) <- T.decimal tport -> return $ IceCandidate { icandFoundation = found , icandPriority = prio , icandAddr = addr , icandPort = port , icandType = ctype } _ -> throwError "failed to parse candidate" {#enum pj_ice_sess_role as IceSessionRole {underscoreToCase} deriving (Show, Eq) #} {#pointer *pj_ice_strans as ^ #} iceCreate :: IceSessionRole -> (IceSession -> IO ()) -> IO IceSession iceCreate role cb = do rec sptr <- newStablePtr sess cbptr <- newStablePtr $ cb sess sess <- IceSession <$> {#call ice_create #} (fromIntegral $ fromEnum role) (castStablePtrToPtr sptr) (castStablePtrToPtr cbptr) <*> (newMVar $ Left []) return $ sess {#fun ice_destroy as ^ { isStrans `IceSession' } -> `()' #} iceRemoteInfo :: IceSession -> IO IceRemoteInfo iceRemoteInfo sess = allocaBytes (32*128) $ \bytes -> allocaArray 29 $ \carr -> do let (ufrag : pass : def : cptrs) = take 32 $ iterate (`plusPtr` 128) bytes pokeArray carr cptrs ncand <- {#call ice_encode_session #} (isStrans sess) ufrag pass def carr 128 29 if ncand < 0 then fail "failed to generate ICE remote info" else IceRemoteInfo <$> (T.pack <$> peekCString ufrag) <*> (T.pack <$> peekCString pass) <*> (T.pack <$> peekCString def) <*> (mapM (return . T.pack <=< peekCString) $ take (fromIntegral ncand) cptrs) iceShow :: IceSession -> IO String iceShow sess = do st <- memoryStorage return . drop 1 . dropWhile (/='\n') . BLC.unpack . runIdentity =<< ioLoadBytes =<< store st =<< iceRemoteInfo sess iceConnect :: IceSession -> IceRemoteInfo -> (IO ()) -> IO () iceConnect sess remote cb = do cbptr <- newStablePtr $ cb ice_connect sess cbptr (iriUsernameFrament remote) (iriPassword remote) (iriDefaultCandidate remote) (iriCandidates remote) {#fun ice_connect { isStrans `IceSession', castStablePtrToPtr `StablePtr (IO ())', withText* `Text', withText* `Text', withText* `Text', withTextArray* `[Text]'& } -> `()' #} withText :: Text -> (Ptr CChar -> IO a) -> IO a withText t f = useAsCString (T.encodeUtf8 t) f withTextArray :: Num n => [Text] -> ((Ptr (Ptr CChar), n) -> IO ()) -> IO () withTextArray tsAll f = helper tsAll [] where helper (t:ts) bs = withText t $ \b -> helper ts (b:bs) helper [] bs = allocaArray (length bs) $ \ptr -> do pokeArray ptr $ reverse bs f (ptr, fromIntegral $ length bs) withByteStringLen :: Num n => ByteString -> ((Ptr CChar, n) -> IO a) -> IO a withByteStringLen t f = unsafeUseAsCStringLen t (f . (id *** fromIntegral)) {#fun ice_send as ^ { isStrans `IceSession', withByteStringLen* `ByteString'& } -> `()' #} foreign export ccall ice_call_cb :: StablePtr (IO ()) -> IO () ice_call_cb :: StablePtr (IO ()) -> IO () ice_call_cb = join . deRefStablePtr iceSetChan :: IceSession -> (ByteString -> a) -> Chan a -> IO () iceSetChan sess f chan = do modifyMVar_ (isChan sess) $ \orig -> do case orig of Left buf -> writeList2Chan chan $ map f $ reverse buf Right _ -> return () return $ Right $ MappedChan f chan foreign export ccall ice_rx_data :: StablePtr IceSession -> Ptr CChar -> Int -> IO () ice_rx_data :: StablePtr IceSession -> Ptr CChar -> Int -> IO () ice_rx_data sptr buf len = do sess <- deRefStablePtr sptr bs <- packCStringLen (buf, len) modifyMVar_ (isChan sess) $ \case mc@(Right (MappedChan f chan)) -> writeChan chan (f bs) >> return mc Left bss -> return $ Left (bs:bss)