import Control.Exception
import Control.Monad
import Data.Binary
+import Data.Binary.Get
+import Data.Binary.Put
import qualified Data.ByteString as BS
import qualified Data.ByteString.Lazy as LBS
import Data.Dynamic
import Network.DNS.Named.ResponseBuilder
import Network.DNS.Named.Zone
import System.Posix.Signals
+import System.IO
runNamed :: Config -> (DomainName -> IO (Maybe Zone)) -> IO ()
runNamed cnf findZone
= withSocketsDo $
do installHandler sigPIPE Ignore Nothing
- _tcpListenerTID <- forkIO $ tcpListen
- udpListen
+
+ let hint = defaultHints {
+ addrFlags = [AI_PASSIVE, AI_V4MAPPED]
+ , addrFamily = AF_INET6
+ , addrSocketType = NoSocketType
+ , addrProtocol = defaultProtocol
+ }
+ (ai:_) <- getAddrInfo (Just hint) Nothing (Just $ cnfServerPort cnf)
+
+ _tcpListenerTID <- forkIO $ tcpListen ai
+ udpListen ai
where
- udpListen :: IO ()
- udpListen = do -- FIXME: we should support IPv6 when the network package supports it.
- so <- socket AF_INET Datagram defaultProtocol
- print cnf
- bindSocket so $ cnfServerAddress cnf
- udpLoop so
+ udpListen :: AddrInfo -> IO ()
+ udpListen ai
+ = do so <- socket (addrFamily ai) Datagram defaultProtocol
+ setSocketOption so ReuseAddr 1
+ bindSocket so (addrAddress ai)
+ udpLoop so
udpLoop :: Socket -> IO ()
udpLoop so
_handlerTID <- forkIO $ udpHandler so packet cameFrom
udpLoop so
- tcpListen :: IO ()
- tcpListen = putStrLn "FIXME: tcpListen is not implemented yet."
+ tcpListen :: AddrInfo -> IO ()
+ tcpListen ai
+ = do so <- socket (addrFamily ai) Stream defaultProtocol
+ setSocketOption so ReuseAddr 1
+ bindSocket so (addrAddress ai)
+ listen so 255
+ tcpLoop so
+
+ tcpLoop :: Socket -> IO ()
+ tcpLoop so
+ = do (so', _) <- accept so
+ h <- socketToHandle so' ReadWriteMode
+ hSetBuffering h $ BlockBuffering Nothing
+ _handlerTID <- forkIO $ tcpHandler h
+ tcpLoop so
udpHandler :: Socket -> BS.ByteString -> SockAddr -> IO ()
udpHandler so packet cameFrom
_sent <- NB.sendTo so (packMessage (Just 512) msg') cameFrom
return ()
+ tcpHandler :: Handle -> IO ()
+ tcpHandler h
+ = do lenB <- LBS.hGet h 2
+ if LBS.length lenB < 2 then
+ -- Got EOF
+ hClose h
+ else
+ do let len = runGet getWord16be lenB
+ packet <- BS.hGet h $ fromIntegral len
+ msg <- evaluate $ unpackMessage packet
+ msg' <- handleMessage msg
+ `onException`
+ do let servfail = mkErrorReply ServerFailure msg
+ packet' = packMessage Nothing servfail
+ len' = fromIntegral $ BS.length packet'
+ LBS.hPut h $ runPut $ putWord16be len'
+ BS.hPut h packet'
+ hClose h
+ let packet' = packMessage Nothing msg'
+ len' = fromIntegral $ BS.length packet'
+ LBS.hPut h $ runPut $ putWord16be len'
+ BS.hPut h packet'
+ hFlush h
+ tcpHandler h
+
handleMessage :: Message -> IO Message
handleMessage msg
= case validateQuery msg of
Just name
-> do allRecords <- zoneResponder zone name
- let filtered = filterRecords (SomeQ q') allRecords
- q' = Question {
- qName = name
- , qType = A
- , qClass = IN
- }
- return filtered
+ let rA = filterRecords (SomeQ qA) allRecords
+ rB = filterRecords (SomeQ qB) allRecords
+ qA = Question {
+ qName = name
+ , qType = A
+ , qClass = IN
+ }
+ qB = Question {
+ qName = name
+ , qType = AAAA
+ , qClass = IN
+ }
+ return (rA ++ rB)
filterRecords :: SomeQ -> [SomeRR] -> [SomeRR]
- filterRecords (SomeQ q)
- | Just (qType q) == cast ANY &&
- Just (qClass q) == cast ANY = id
- | Just (qType q) == cast ANY = filter matchClass
- | Just (qClass q) == cast ANY = filter matchType
- | otherwise = filter matchBoth
+ filterRecords (SomeQ q) = filter predicate
where
- matchClass (SomeRR rr)
- = Just (qClass q) == cast (rrClass rr)
+ predicate rr
+ = predForType rr && predForClass rr
- matchType (SomeRR rr)
- = Just (qType q) == cast (rrType rr) ||
- Just CNAME == cast (rrType rr)
+ predForType (SomeRR rr)
+ | typeOf (qType q) == typeOf ANY
+ = True
- matchBoth rr
- = matchType rr && matchClass rr
+ | typeOf (qType q) == typeOf MAILB
+ = typeOf (rrType rr) == typeOf MR ||
+ typeOf (rrType rr) == typeOf MB ||
+ typeOf (rrType rr) == typeOf MG ||
+ typeOf (rrType rr) == typeOf MINFO
+
+ | otherwise
+ = typeOf (rrType rr) == typeOf (qType q) ||
+ typeOf (rrType rr) == typeOf CNAME
+
+ predForClass (SomeRR rr)
+ | typeOf (qClass q) == typeOf ANY
+ = True
+
+ | otherwise
+ = typeOf (rrClass rr) == typeOf (qClass q)
handleAXFR :: SomeQ -> Zone -> IO (Builder ())
- handleAXFR (SomeQ _q) _zone
- = fail "FIXME: not implemented yet"
+ handleAXFR (SomeQ q) zone
+ | qName q == zoneName zone &&
+ isJust (zoneSOA zone) &&
+ cnfAllowTransfer cnf
+ = do names <- zoneRecordNames zone
+ allRecords <- liftM concat $ mapM (zoneResponder zone) names
+ return $ do addAnswer $ fromJust $ zoneSOARecord zone
+ addAnswer $ fromJust $ zoneNSRecord zone
+ mapM_ addAnswer allRecords
+ addAnswerNonuniquely $ fromJust $ zoneSOARecord zone
+ | otherwise
+ = return $ return ()
validateQuery :: Message -> ResponseCode