, RecordType
, RecordClass(..)
- , SomeRR(..)
- , SomeRT(..)
-
+ , SOAFields(..)
+ , WKSFields(..)
+
+ , SomeQ
+ , SomeQT
+ , SomeRR
+ , SomeRT
+
+ , A(..)
+ , NS(..)
+ , MD(..)
+ , MF(..)
, CNAME(..)
+ , SOA(..)
+ , MB(..)
+ , MG(..)
+ , MR(..)
+ , NULL(..)
+ , WKS(..)
+ , PTR(..)
, HINFO(..)
+ , MINFO(..)
+ , MX(..)
+ , TXT(..)
+
+ , AXFR(..)
+ , MAILB(..)
+ , MAILA(..)
+ , ANY(..)
+
+ , mkDomainName
+ , wrapQuestion
+ , wrapRecord
)
where
+import Control.Exception
import Control.Monad
import Data.Binary
import Data.Binary.BitPut as BP
import Data.Binary.Get as G
-import Data.Binary.Put as P
+import Data.Binary.Put as P'
import Data.Binary.Strict.BitGet as BG
import qualified Data.ByteString as BS
+import qualified Data.ByteString.Char8 as C8 hiding (ByteString)
import qualified Data.ByteString.Lazy as LBS
import Data.Typeable
import qualified Data.IntMap as IM
import Data.IntMap (IntMap)
+import qualified Data.IntSet as IS
+import Data.IntSet (IntSet)
+import qualified Data.Map as M
+import Data.Map (Map)
import Data.Word
-
-
-replicateM' :: Monad m => Int -> (a -> m (b, a)) -> a -> m ([b], a)
-replicateM' = worker []
- where
- worker :: Monad m => [b] -> Int -> (a -> m (b, a)) -> a -> m ([b], a)
- worker soFar 0 _ a = return (reverse soFar, a)
- worker soFar n f a = do (b, a') <- f a
- worker (b : soFar) (n - 1) f a'
+import Network.DNS.Packer as P
+import Network.DNS.Unpacker as U
+import Network.Socket
data Message
= Message {
msgHeader :: !Header
- , msgQuestions :: ![Question]
+ , msgQuestions :: ![SomeQ]
, msgAnswers :: ![SomeRR]
, msgAuthorities :: ![SomeRR]
, msgAdditionals :: ![SomeRR]
}
+ deriving (Show, Eq)
data Header
= Header {
-- + NSCOUNT
-- + ARCOUNT
}
+ deriving (Show, Eq)
type MessageID = Word16
| Refused
deriving (Show, Eq)
-data Question
+data QueryType qt => Question qt
= Question {
qName :: !DomainName
- , qType :: !SomeRT
+ , qType :: !qt
, qClass :: !RecordClass
}
- deriving (Show, Eq)
+ deriving (Typeable)
+
+instance QueryType qt => Show (Question qt) where
+ show q = "Question { qName = " ++ show (qName q) ++
+ ", qType = " ++ show (qType q) ++
+ ", qClass = " ++ show (qClass q) ++ " }"
+
+instance QueryType qt => Eq (Question qt) where
+ a == b = qName a == qName b &&
+ qType a == qType b &&
+ qClass a == qClass b
+
+data SomeQ = forall qt. QueryType qt => SomeQ (Question qt)
+
+instance Show SomeQ where
+ show (SomeQ q) = show q
+
+instance Eq SomeQ where
+ (SomeQ a) == (SomeQ b) = Just a == cast b
-putQ :: Question -> Put
-putQ q
+data SomeQT = forall qt. QueryType qt => SomeQT qt
+
+instance Show SomeQT where
+ show (SomeQT qt) = show qt
+
+instance Eq SomeQT where
+ (SomeQT a) == (SomeQT b) = Just a == cast b
+
+putSomeQ :: SomeQ -> Packer CompTable ()
+putSomeQ (SomeQ q)
= do putDomainName $ qName q
- putSomeRT $ qType q
- put $ qClass q
-
-getQ :: DecompTable -> Get (Question, DecompTable)
-getQ dt
- = do (nm, dt') <- getDomainName dt
- ty <- getSomeRT
- cl <- get
- let q = Question {
- qName = nm
- , qType = ty
- , qClass = cl
- }
- return (q, dt')
-
-newtype DomainName = DN [DomainLabel] deriving (Eq, Show, Typeable)
+ putQueryType $ qType q
+ putBinary $ qClass q
+
+getSomeQ :: Unpacker DecompTable SomeQ
+getSomeQ
+ = do nm <- getDomainName
+ ty <- getSomeQT
+ cl <- getBinary
+ case ty of
+ SomeQT qt -> return $ SomeQ $
+ Question {
+ qName = nm
+ , qType = qt
+ , qClass = cl
+ }
+
+getSomeQT :: Unpacker s SomeQT
+getSomeQT = do n <- liftM fromIntegral U.getWord16be
+ case IM.lookup n defaultQTTable of
+ Just sqt
+ -> return sqt
+ Nothing
+ -> fail ("Unknown query type: " ++ show n)
+
+
+newtype DomainName = DN [DomainLabel] deriving (Eq, Show, Ord, Typeable)
type DomainLabel = BS.ByteString
-nameToLabels :: DomainName -> [DomainLabel]
-nameToLabels (DN ls) = ls
+rootName :: DomainName
+rootName = DN [BS.empty]
+
+isRootName :: DomainName -> Bool
+isRootName (DN [_]) = True
+isRootName _ = False
+
+consLabel :: DomainLabel -> DomainName -> DomainName
+consLabel x (DN ys) = DN (x:ys)
+
+unconsLabel :: DomainName -> (DomainLabel, DomainName)
+unconsLabel (DN (x:xs)) = (x, DN xs)
+unconsLabel x = error ("Illegal use of unconsLabel: " ++ show x)
-labelsToName :: [DomainLabel] -> DomainName
-labelsToName = DN
+mkDomainName :: String -> DomainName
+mkDomainName = DN . mkLabels [] . notEmpty
+ where
+ notEmpty :: String -> String
+ notEmpty xs = assert (not $ null xs) xs
+ mkLabels :: [DomainLabel] -> String -> [DomainLabel]
+ mkLabels soFar [] = reverse (C8.empty : soFar)
+ mkLabels soFar xs = case break (== '.') xs of
+ (l, ('.':rest))
+ -> mkLabels (C8.pack l : soFar) rest
+ _ -> error ("Illegal domain name: " ++ xs)
data RecordClass
= IN
deriving (Show, Eq, Typeable)
-putRR :: forall rt dt. RecordType rt dt => ResourceRecord rt dt -> Put
-putRR rr = do putDomainName $ rrName rr
- putRecordType $ rrType rr
- put $ rrClass rr
- putWord32be $ rrTTL rr
-
- let dat = runPut $
- putRecordData (undefined :: rt) (rrData rr)
- putWord16be $ fromIntegral $ LBS.length dat
- putLazyByteString dat
-
-
-getRR :: forall rt dt. RecordType rt dt => DecompTable -> rt -> Get (ResourceRecord rt dt, DecompTable)
-getRR dt rt
- = do (nm, dt1) <- getDomainName dt
- G.skip 2 -- record type
- cl <- get
- ttl <- G.getWord32be
- G.skip 2 -- data length
- (dat, dt2) <- getRecordData (undefined :: rt) dt1
-
- let rr = ResourceRecord {
- rrName = nm
- , rrType = rt
- , rrClass = cl
- , rrTTL = ttl
- , rrData = dat
- }
- return (rr, dt2)
-
-
data SomeRR = forall rt dt. RecordType rt dt => SomeRR (ResourceRecord rt dt)
instance Show SomeRR where
(SomeRR a) == (SomeRR b) = Just a == cast b
-putSomeRR :: SomeRR -> Put
-putSomeRR (SomeRR rr) = putRR rr
-
-getSomeRR :: DecompTable -> Get (SomeRR, DecompTable)
-getSomeRR dt
- = do srt <- lookAhead $
- do getDomainName dt -- skip
- getSomeRT
- case srt of
- SomeRT rt -> getRR dt rt >>= \ (rr, dt') -> return (SomeRR rr, dt')
+putSomeRR :: SomeRR -> Packer CompTable ()
+putSomeRR (SomeRR rr) = putResourceRecord rr
+getSomeRR :: Unpacker DecompTable SomeRR
+getSomeRR = do srt <- U.lookAhead $
+ do getDomainName -- skip
+ getSomeRT
+ case srt of
+ SomeRT rt
+ -> getResourceRecord rt >>= return . SomeRR
-type DecompTable = IntMap BS.ByteString
-type TTL = Word32
+type CompTable = Map DomainName Int
+type DecompTable = IntMap DomainName
+type TTL = Word32
-getDomainName :: DecompTable -> Get (DomainName, DecompTable)
-getDomainName = flip worker []
+getDomainName :: Unpacker DecompTable DomainName
+getDomainName = worker
where
- worker :: DecompTable -> [DomainLabel] -> Get (DomainName, DecompTable)
- worker dt soFar
- = do (l, dt') <- getDomainLabel dt
- case BS.null l of
- True -> return (labelsToName (reverse (l : soFar)), dt')
- False -> worker dt' (l : soFar)
-
-getDomainLabel :: DecompTable -> Get (DomainLabel, DecompTable)
-getDomainLabel dt
- = do header <- getByteString 1
- let Right h
- = runBitGet header $
- do a <- getBit
- b <- getBit
- n <- liftM fromIntegral (getAsWord8 6)
- case (a, b) of
- ( True, True) -> return $ Offset n
- (False, False) -> return $ Length n
- _ -> fail "Illegal label header"
- case h of
- Offset n
- -> do let Just l = IM.lookup n dt
- return (l, dt)
- Length n
- -> do offset <- liftM fromIntegral bytesRead
- label <- getByteString n
- let dt' = IM.insert offset label dt
- return (label, dt')
-
-getCharString :: Get BS.ByteString
-getCharString = do len <- G.getWord8
- getByteString (fromIntegral len)
-
-putCharString :: BS.ByteString -> Put
-putCharString = putDomainLabel
+ worker :: Unpacker DecompTable DomainName
+ worker
+ = do offset <- U.bytesRead
+ hdr <- getLabelHeader
+ case hdr of
+ Offset n
+ -> do dt <- U.getState
+ case IM.lookup n dt of
+ Just name
+ -> return name
+ Nothing
+ -> fail ("Illegal offset of label pointer: " ++ show (n, dt))
+ Length 0
+ -> return rootName
+ Length n
+ -> do label <- U.getByteString n
+ rest <- worker
+ let name = consLabel label rest
+ U.modifyState $ IM.insert offset name
+ return name
+
+ getLabelHeader :: Unpacker s LabelHeader
+ getLabelHeader
+ = do header <- U.lookAhead $ U.getByteString 1
+ let Right h
+ = runBitGet header $
+ do a <- getBit
+ b <- getBit
+ n <- liftM fromIntegral (getAsWord8 6)
+ case (a, b) of
+ ( True, True) -> return $ Offset n
+ (False, False) -> return $ Length n
+ _ -> fail "Illegal label header"
+ case h of
+ Offset _
+ -> do header' <- U.getByteString 2 -- Pointers have 2 octets.
+ let Right h'
+ = runBitGet header' $
+ do BG.skip 2
+ n <- liftM fromIntegral (getAsWord16 14)
+ return $ Offset n
+ return h'
+ len@(Length _)
+ -> do U.skip 1
+ return len
+
+
+getCharString :: Unpacker s BS.ByteString
+getCharString = do len <- U.getWord8
+ U.getByteString (fromIntegral len)
+
+putCharString :: BS.ByteString -> Packer s ()
+putCharString xs = do P.putWord8 $ fromIntegral $ BS.length xs
+ P.putByteString xs
data LabelHeader
= Offset !Int
| Length !Int
-putDomainName :: DomainName -> Put
-putDomainName = mapM_ putDomainLabel . nameToLabels
+putDomainName :: DomainName -> Packer CompTable ()
+putDomainName name
+ = do ct <- P.getState
+ case M.lookup name ct of
+ Just n
+ -> do let ptr = runBitPut $
+ do putBit True
+ putBit True
+ putNBits 14 n
+ P.putLazyByteString ptr
+ Nothing
+ -> do offset <- bytesWrote
+ P.modifyState $ M.insert name offset
+
+ let (label, rest) = unconsLabel name
+
+ putCharString label
+
+ if isRootName rest then
+ P.putWord8 0
+ else
+ putDomainName rest
+
+class (Show qt, Eq qt, Typeable qt) => QueryType qt where
+ qtToInt :: qt -> Int
-putDomainLabel :: DomainLabel -> Put
-putDomainLabel l
- = do putWord8 $ fromIntegral $ BS.length l
- P.putByteString l
+ putQueryType :: qt -> Packer s ()
+ putQueryType = P.putWord16be . fromIntegral . qtToInt
+
+instance RecordType rt dt => QueryType rt where
+ qtToInt = rtToInt
class (Show rt, Show dt, Eq rt, Eq dt, Typeable rt, Typeable dt) => RecordType rt dt | rt -> dt where
rtToInt :: rt -> Int
- putRecordType :: rt -> Put
- putRecordData :: rt -> dt -> Put
- getRecordData :: rt -> DecompTable -> Get (dt, DecompTable)
-
- putRecordType = putWord16be . fromIntegral . rtToInt
+ putRecordData :: rt -> dt -> Packer CompTable ()
+ getRecordData :: rt -> Unpacker DecompTable dt
+
+ putRecordType :: rt -> Packer s ()
+ putRecordType = P.putWord16be . fromIntegral . rtToInt
+
+ putRecordDataWithLength :: rt -> dt -> Packer CompTable ()
+ putRecordDataWithLength rt dt
+ = do -- First, write a dummy data length.
+ offset <- bytesWrote
+ P.putWord16be 0
+
+ -- Second, write data.
+ putRecordData rt dt
+
+ -- Third, rewrite the dummy length to an actual value.
+ offset' <- bytesWrote
+ let len = offset' - offset - 2
+ if len <= 0xFFFF then
+ withOffset offset
+ $ P.putWord16be $ fromIntegral len
+ else
+ fail ("putRecordData " ++ show rt ++ " wrote " ++ show len
+ ++ " bytes, which is way too long")
+
+ putResourceRecord :: ResourceRecord rt dt -> Packer CompTable ()
+ putResourceRecord rr
+ = do putDomainName $ rrName rr
+ putRecordType $ rrType rr
+ putBinary $ rrClass rr
+ P.putWord32be $ rrTTL rr
+ putRecordDataWithLength (rrType rr) (rrData rr)
+
+ getRecordDataWithLength :: rt -> Unpacker DecompTable dt
+ getRecordDataWithLength rt
+ = do len <- U.getWord16be
+ offset <- U.bytesRead
+ dat <- getRecordData rt
+ offset' <- U.bytesRead
+
+ let consumed = offset' - offset
+ when (consumed /= len)
+ $ fail ("getRecordData " ++ show rt ++ " consumed " ++ show consumed ++
+ " bytes but it had to consume " ++ show len ++ " bytes")
+
+ return dat
+
+ getResourceRecord :: rt -> Unpacker DecompTable (ResourceRecord rt dt)
+ getResourceRecord rt
+ = do name <- getDomainName
+ U.skip 2 -- record type
+ cl <- getBinary
+ ttl <- U.getWord32be
+ dat <- getRecordDataWithLength rt
+ return $ ResourceRecord {
+ rrName = name
+ , rrType = rt
+ , rrClass = cl
+ , rrTTL = ttl
+ , rrData = dat
+ }
data SomeRT = forall rt dt. RecordType rt dt => SomeRT rt
instance Eq SomeRT where
(SomeRT a) == (SomeRT b) = Just a == cast b
-putSomeRT :: SomeRT -> Put
-putSomeRT (SomeRT rt) = putRecordType rt
-
-getSomeRT :: Get SomeRT
-getSomeRT = do n <- liftM fromIntegral G.getWord16be
+getSomeRT :: Unpacker s SomeRT
+getSomeRT = do n <- liftM fromIntegral U.getWord16be
case IM.lookup n defaultRTTable of
Nothing
-> fail ("Unknown resource record type: " ++ show n)
Just srt
-> return srt
+
+data SOAFields
+ = SOAFields {
+ soaMasterNameServer :: !DomainName
+ , soaResponsibleMailbox :: !DomainName
+ , soaSerialNumber :: !Word32
+ , soaRefreshInterval :: !Word32
+ , soaRetryInterval :: !Word32
+ , soaExpirationLimit :: !Word32
+ , soaMinimumTTL :: !Word32
+ }
+ deriving (Show, Eq, Typeable)
+
+data WKSFields
+ = WKSFields {
+ wksAddress :: !HostAddress
+ , wksProtocol :: !ProtocolNumber
+ , wksServices :: !IntSet
+ }
+ deriving (Show, Eq, Typeable)
+
+
+data A = A deriving (Show, Eq, Typeable)
+instance RecordType A HostAddress where
+ rtToInt _ = 1
+ putRecordData _ = P.putWord32be
+ getRecordData _ = U.getWord32be
+
+data NS = NS deriving (Show, Eq, Typeable)
+instance RecordType NS DomainName where
+ rtToInt _ = 2
+ putRecordData _ = putDomainName
+ getRecordData _ = getDomainName
+
+data MD = MD deriving (Show, Eq, Typeable)
+instance RecordType MD DomainName where
+ rtToInt _ = 3
+ putRecordData _ = putDomainName
+ getRecordData _ = getDomainName
+
+data MF = MF deriving (Show, Eq, Typeable)
+instance RecordType MF DomainName where
+ rtToInt _ = 4
+ putRecordData _ = putDomainName
+ getRecordData _ = getDomainName
+
data CNAME = CNAME deriving (Show, Eq, Typeable)
instance RecordType CNAME DomainName where
rtToInt _ = 5
putRecordData _ = putDomainName
getRecordData _ = getDomainName
+data SOA = SOA deriving (Show, Eq, Typeable)
+instance RecordType SOA SOAFields where
+ rtToInt _ = 6
+ putRecordData _ = \ soa ->
+ do putDomainName $ soaMasterNameServer soa
+ putDomainName $ soaResponsibleMailbox soa
+ P.putWord32be $ soaSerialNumber soa
+ P.putWord32be $ soaRefreshInterval soa
+ P.putWord32be $ soaRetryInterval soa
+ P.putWord32be $ soaExpirationLimit soa
+ P.putWord32be $ soaMinimumTTL soa
+ getRecordData _ = do master <- getDomainName
+ mail <- getDomainName
+ serial <- U.getWord32be
+ refresh <- U.getWord32be
+ retry <- U.getWord32be
+ expire <- U.getWord32be
+ ttl <- U.getWord32be
+ return SOAFields {
+ soaMasterNameServer = master
+ , soaResponsibleMailbox = mail
+ , soaSerialNumber = serial
+ , soaRefreshInterval = refresh
+ , soaRetryInterval = retry
+ , soaExpirationLimit = expire
+ , soaMinimumTTL = ttl
+ }
+
+data MB = MB deriving (Show, Eq, Typeable)
+instance RecordType MB DomainName where
+ rtToInt _ = 7
+ putRecordData _ = putDomainName
+ getRecordData _ = getDomainName
+
+data MG = MG deriving (Show, Eq, Typeable)
+instance RecordType MG DomainName where
+ rtToInt _ = 8
+ putRecordData _ = putDomainName
+ getRecordData _ = getDomainName
+
+data MR = MR deriving (Show, Eq, Typeable)
+instance RecordType MR DomainName where
+ rtToInt _ = 9
+ putRecordData _ = putDomainName
+ getRecordData _ = getDomainName
+
+data NULL = NULL deriving (Show, Eq, Typeable)
+instance RecordType NULL BS.ByteString where
+ rtToInt _ = 10
+ putRecordData _ _ = fail "putRecordData NULL can't be defined"
+ getRecordData _ = fail "getRecordData NULL can't be defined"
+ putRecordDataWithLength _ = \ dat ->
+ do P.putWord16be $ fromIntegral $ BS.length dat
+ P.putByteString dat
+ getRecordDataWithLength _ = do len <- U.getWord16be
+ U.getByteString $ fromIntegral len
+
+data WKS = WKS deriving (Show, Eq, Typeable)
+instance RecordType WKS WKSFields where
+ rtToInt _ = 11
+ putRecordData _ = \ wks ->
+ do P.putWord32be $ wksAddress wks
+ P.putWord8 $ fromIntegral $ wksProtocol wks
+ P.putLazyByteString $ toBitmap $ wksServices wks
+ where
+ toBitmap :: IntSet -> LBS.ByteString
+ toBitmap is
+ = let maxPort = IS.findMax is
+ range = [0 .. maxPort]
+ isAvail p = p `IS.member` is
+ in
+ runBitPut $ mapM_ putBit $ map isAvail range
+ getRecordData _ = fail "getRecordData WKS can't be defined"
+
+ getRecordDataWithLength _
+ = do len <- U.getWord16be
+ addr <- U.getWord32be
+ proto <- liftM fromIntegral U.getWord8
+ bits <- U.getByteString $ fromIntegral $ len - 4 - 1
+ return WKSFields {
+ wksAddress = addr
+ , wksProtocol = proto
+ , wksServices = fromBitmap bits
+ }
+ where
+ fromBitmap :: BS.ByteString -> IntSet
+ fromBitmap bs
+ = let Right is = runBitGet bs $ worker 0 IS.empty
+ in
+ is
+
+ worker :: Int -> IntSet -> BitGet IntSet
+ worker pos is
+ = do remain <- BG.remaining
+ if remain == 0 then
+ return is
+ else
+ do bit <- getBit
+ if bit then
+ worker (pos + 1) (IS.insert pos is)
+ else
+ worker (pos + 1) is
+
+
+data PTR = PTR deriving (Show, Eq, Typeable)
+instance RecordType PTR DomainName where
+ rtToInt _ = 12
+ putRecordData _ = putDomainName
+ getRecordData _ = getDomainName
+
data HINFO = HINFO deriving (Show, Eq, Typeable)
instance RecordType HINFO (BS.ByteString, BS.ByteString) where
- rtToInt _ = 13
- putRecordData _ (cpu, os) = do putCharString cpu
- putCharString os
- getRecordData _ dt = do cpu <- getCharString
- os <- getCharString
- return ((cpu, os), dt)
-
-{-
-data RecordType
- = A
- | NS
- | MD
- | MF
- | CNAME
- | SOA
- | MB
- | MG
- | MR
- | NULL
- | WKS
- | PTR
- | HINFO
- | MINFO
- | MX
- | TXT
-
- -- Only for queries:
- | AXFR
- | MAILB -- Obsolete
- | MAILA -- Obsolete
- | AnyType
- deriving (Show, Eq)
--}
+ rtToInt _ = 13
+ putRecordData _ = \ (cpu, os) ->
+ do putCharString cpu
+ putCharString os
+ getRecordData _ = do cpu <- getCharString
+ os <- getCharString
+ return (cpu, os)
+
+data MINFO = MINFO deriving (Show, Eq, Typeable)
+instance RecordType MINFO (DomainName, DomainName) where
+ rtToInt _ = 14
+ putRecordData _ = \ (r, e) ->
+ do putDomainName r
+ putDomainName e
+ getRecordData _ = do r <- getDomainName
+ e <- getDomainName
+ return (r, e)
+
+data MX = MX deriving (Show, Eq, Typeable)
+instance RecordType MX (Word16, DomainName) where
+ rtToInt _ = 15
+ putRecordData _ = \ (pref, exch) ->
+ do P.putWord16be pref
+ putDomainName exch
+ getRecordData _ = do pref <- U.getWord16be
+ exch <- getDomainName
+ return (pref, exch)
+
+data TXT = TXT deriving (Show, Eq, Typeable)
+instance RecordType TXT [BS.ByteString] where
+ rtToInt _ = 16
+ putRecordData _ = mapM_ putCharString
+ getRecordData _ = fail "getRecordData TXT can't be defined"
+
+ getRecordDataWithLength _ = U.getWord16be >>= worker [] . fromIntegral
+ where
+ worker :: [BS.ByteString] -> Int -> Unpacker s [BS.ByteString]
+ worker soFar 0 = return (reverse soFar)
+ worker soFar n = do str <- getCharString
+ worker (str : soFar) (0 `max` n - 1 - BS.length str)
+
+data AXFR = AXFR deriving (Show, Eq, Typeable)
+instance QueryType AXFR where
+ qtToInt _ = 252
+
+data MAILB = MAILB deriving (Show, Eq, Typeable)
+instance QueryType MAILB where
+ qtToInt _ = 253
+
+data MAILA = MAILA deriving (Show, Eq, Typeable)
+instance QueryType MAILA where
+ qtToInt _ = 254
+
+data ANY = ANY deriving (Show, Eq, Typeable)
+instance QueryType ANY where
+ qtToInt _ = 255
+
instance Binary Message where
- put m = do put $ msgHeader m
- putWord16be $ fromIntegral $ length $ msgQuestions m
- putWord16be $ fromIntegral $ length $ msgAnswers m
- putWord16be $ fromIntegral $ length $ msgAuthorities m
- putWord16be $ fromIntegral $ length $ msgAdditionals m
- mapM_ putQ $ msgQuestions m
+ put m = P.liftToBinary M.empty $
+ do putBinary $ msgHeader m
+ P.putWord16be $ fromIntegral $ length $ msgQuestions m
+ P.putWord16be $ fromIntegral $ length $ msgAnswers m
+ P.putWord16be $ fromIntegral $ length $ msgAuthorities m
+ P.putWord16be $ fromIntegral $ length $ msgAdditionals m
+ mapM_ putSomeQ $ msgQuestions m
mapM_ putSomeRR $ msgAnswers m
mapM_ putSomeRR $ msgAuthorities m
mapM_ putSomeRR $ msgAdditionals m
- get = do hdr <- get
- nQ <- liftM fromIntegral G.getWord16be
- nAns <- liftM fromIntegral G.getWord16be
- nAth <- liftM fromIntegral G.getWord16be
- nAdd <- liftM fromIntegral G.getWord16be
- (qs , dt1) <- replicateM' nQ getQ IM.empty
- (anss, dt2) <- replicateM' nAns getSomeRR dt1
- (aths, dt3) <- replicateM' nAth getSomeRR dt2
- (adds, _ ) <- replicateM' nAdd getSomeRR dt3
+ get = U.liftToBinary IM.empty $
+ do hdr <- getBinary
+ nQ <- liftM fromIntegral U.getWord16be
+ nAns <- liftM fromIntegral U.getWord16be
+ nAth <- liftM fromIntegral U.getWord16be
+ nAdd <- liftM fromIntegral U.getWord16be
+ qs <- replicateM nQ getSomeQ
+ anss <- replicateM nAns getSomeRR
+ aths <- replicateM nAth getSomeRR
+ adds <- replicateM nAdd getSomeRR
return Message {
msgHeader = hdr
, msgQuestions = qs
}
instance Binary Header where
- put h = do putWord16be $ hdMessageID h
- putLazyByteString flags
+ put h = do P'.putWord16be $ hdMessageID h
+ P'.putLazyByteString flags
where
flags = runBitPut $
do putNBits 1 $ fromEnum $ hdMessageType h
putNBits 4 $ fromEnum $ hdResponseCode h
get = do mID <- G.getWord16be
- flags <- getByteString 2
+ flags <- G.getByteString 2
let Right hd
= runBitGet flags $
do qr <- liftM (toEnum . fromIntegral) $ getAsWord8 1
toEnum 5 = Refused
toEnum _ = undefined
-{-
-instance Enum RecordType where
- fromEnum A = 1
- fromEnum NS = 2
- fromEnum MD = 3
- fromEnum MF = 4
- fromEnum CNAME = 5
- fromEnum SOA = 6
- fromEnum MB = 7
- fromEnum MG = 8
- fromEnum MR = 9
- fromEnum NULL = 10
- fromEnum WKS = 11
- fromEnum PTR = 12
- fromEnum HINFO = 13
- fromEnum MINFO = 14
- fromEnum MX = 15
- fromEnum TXT = 16
- fromEnum AXFR = 252
- fromEnum MAILB = 253
- fromEnum MAILA = 254
- fromEnum AnyType = 255
-
- toEnum 1 = A
- toEnum 2 = NS
- toEnum 3 = MD
- toEnum 4 = MF
- toEnum 5 = CNAME
- toEnum 6 = SOA
- toEnum 7 = MB
- toEnum 8 = MG
- toEnum 9 = MR
- toEnum 10 = NULL
- toEnum 11 = WKS
- toEnum 12 = PTR
- toEnum 13 = HINFO
- toEnum 14 = MINFO
- toEnum 15 = MX
- toEnum 16 = TXT
- toEnum 252 = AXFR
- toEnum 253 = MAILB
- toEnum 254 = MAILA
- toEnum 255 = AnyType
- toEnum _ = undefined
--}
-
instance Enum RecordClass where
fromEnum IN = 1
fromEnum CS = 2
instance Binary RecordClass where
get = liftM (toEnum . fromIntegral) G.getWord16be
- put = putWord16be . fromIntegral . fromEnum
+ put = P'.putWord16be . fromIntegral . fromEnum
defaultRTTable :: IntMap SomeRT
defaultRTTable = IM.fromList $ map toPair $
- [ SomeRT CNAME
+ [ wrapRecordType A
+ , wrapRecordType NS
+ , wrapRecordType MD
+ , wrapRecordType MF
+ , wrapRecordType CNAME
+ , wrapRecordType SOA
+ , wrapRecordType MB
+ , wrapRecordType MG
+ , wrapRecordType MR
+ , wrapRecordType NULL
+ , wrapRecordType WKS
+ , wrapRecordType PTR
+ , wrapRecordType HINFO
+ , wrapRecordType MINFO
+ , wrapRecordType MX
+ , wrapRecordType TXT
]
where
toPair :: SomeRT -> (Int, SomeRT)
toPair srt@(SomeRT rt) = (rtToInt rt, srt)
+
+
+defaultQTTable :: IntMap SomeQT
+defaultQTTable = mergeWithRTTable defaultRTTable $ IM.fromList $ map toPair $
+ [ wrapQueryType AXFR
+ , wrapQueryType MAILB
+ , wrapQueryType MAILA
+ , wrapQueryType ANY
+ ]
+ where
+ toPair :: SomeQT -> (Int, SomeQT)
+ toPair sqt@(SomeQT qt) = (qtToInt qt, sqt)
+
+ mergeWithRTTable :: IntMap SomeRT -> IntMap SomeQT -> IntMap SomeQT
+ mergeWithRTTable rts qts
+ = IM.union (toQTTable rts) qts
+
+ toQTTable :: IntMap SomeRT -> IntMap SomeQT
+ toQTTable = IM.map toSomeQT
+
+ toSomeQT :: SomeRT -> SomeQT
+ toSomeQT (SomeRT rt) = SomeQT rt
+
+
+wrapQueryType :: QueryType qt => qt -> SomeQT
+wrapQueryType = SomeQT
+
+wrapRecordType :: RecordType rt dt => rt -> SomeRT
+wrapRecordType = SomeRT
+
+wrapQuestion :: QueryType qt => Question qt -> SomeQ
+wrapQuestion = SomeQ
+
+wrapRecord :: RecordType rt dt => ResourceRecord rt dt -> SomeRR
+wrapRecord = SomeRR
\ No newline at end of file