module Network.DNS.Named.Zone
- ( Zone(..)
- , ZoneFinder(..)
+ ( ZoneFinder(..)
+ , fromZones
+ , Zone(zoneName)
+ , SomeZone(..)
+ , ExternalZone(..)
+ , DynamicZone(..)
+ , StaticZone(..)
+ , fromRecords
, isInZone
+ , wrapZone
- , defaultRootZone
+ , isAuthoritativeZone
+ , getRecords
)
where
-import Data.Maybe
-import Network.DNS.Message
-import Network.DNS.Named.Responder
+import Control.Monad
+import Data.List
+import qualified Data.Map as M
+import Data.Map (Map)
+import Data.Maybe
+import Data.Typeable
+import Network.DNS.Message
+import Network.DNS.DomainMap
-data Zone
- = Zone {
- zoneName :: !DomainName
- , zoneResponders :: ![SomeResponder]
- , zoneIsAuthoritative :: !Bool
- }
-
class ZoneFinder a where
- findZone :: a -> DomainName -> IO Zone
+ findZone :: a -> DomainName -> IO (Maybe SomeZone)
+
+instance ZoneFinder (DomainMap SomeZone) where
+ findZone = (return .) . flip nearest
-instance ZoneFinder (DomainName -> Zone) where
- findZone = (return .)
+instance ZoneFinder (IO (DomainMap SomeZone)) where
+ findZone = flip (fmap . nearest)
-instance ZoneFinder (DomainName -> IO Zone) where
+instance ZoneFinder (DomainMap (IO SomeZone)) where
+ findZone m n
+ = do let getZoneM = nearest n m
+ case getZoneM of
+ Just getZone -> liftM Just getZone
+ Nothing -> return Nothing
+
+instance ZoneFinder (DomainName -> IO (Maybe SomeZone)) where
findZone = id
-instance ZoneFinder (DomainName -> Maybe Zone) where
- findZone = ((return . fromMaybe defaultRootZone) .)
-instance ZoneFinder (DomainName -> IO (Maybe Zone)) where
- findZone = (fmap (fromMaybe defaultRootZone) .)
+fromZones :: [SomeZone] -> DomainMap SomeZone
+fromZones = fromList . map toPair
+ where
+ toPair z = (zoneName z, z)
-isInZone :: DomainName -> Zone -> Bool
-isInZone name zone = zoneName zone `isZoneOf` name
+class Zone a where
+ zoneName :: a -> DomainName
+ getRecordNames :: a -> IO [DomainName]
+ getRecordsForName :: a -> DomainName -> IO [SomeRR]
-defaultRootZone :: Zone
-defaultRootZone
- = Zone {
- zoneName = mkDomainName "."
- , zoneResponders = [] -- FIXME
- , zoneIsAuthoritative = False
+data SomeZone = forall a. Zone a => SomeZone a
+
+instance Zone SomeZone where
+ zoneName (SomeZone a) = zoneName a
+ getRecordNames (SomeZone a) = getRecordNames a
+ getRecordsForName (SomeZone a) = getRecordsForName a
+
+
+data ExternalZone
+ = ExternalZone {
+ ezName :: !DomainName
+ , ezRecordNames :: !(IO [DomainName])
+ , ezRecordsForName :: !(DomainName -> IO [SomeRR])
}
+instance Zone ExternalZone where
+ zoneName = ezName
+ getRecordNames = ezRecordNames
+ getRecordsForName = ezRecordsForName
+
+
+data DynamicZone
+ = DynamicZone {
+ dzName :: !DomainName
+ , dzRecords :: !(IO (Map DomainName [SomeRR]))
+ }
+instance Zone DynamicZone where
+ zoneName = dzName
+ getRecordNames = liftM M.keys . dzRecords
+ getRecordsForName = flip (fmap . (fromMaybe [] .) . M.lookup) . dzRecords
+
+
+data StaticZone
+ = StaticZone {
+ szName :: !DomainName
+ , szRecords :: !(Map DomainName [SomeRR])
+ }
+ deriving (Show, Eq)
+
+instance Zone StaticZone where
+ zoneName = szName
+ getRecordNames = return . M.keys . szRecords
+ getRecordsForName = ((return . fromMaybe []) .) . flip M.lookup . szRecords
+
+
+fromRecords :: [SomeRR] -> Map DomainName [SomeRR]
+fromRecords = foldl ins M.empty
+ where
+ ins m (SomeRR rr)
+ = case M.lookup (rrName rr) m of
+ Just l
+ -> M.insert (rrName rr) (l ++ [SomeRR rr]) m
+ Nothing
+ -> M.insert (rrName rr) [SomeRR rr] m
+
+
+isInZone :: Zone z => DomainName -> z -> Bool
+isInZone name zone = zoneName zone `isZoneOf` name
+
+
+wrapZone :: Zone z => z -> SomeZone
+wrapZone = SomeZone
+
+
+isAuthoritativeZone :: Zone z => z -> IO Bool
+isAuthoritativeZone z
+ = do let q = Question {
+ qName = zoneName z
+ , qType = SOA
+ , qClass = IN -- Should we consider any classes other than the Internet?
+ }
+ rs <- getRecords z q
+ case rs of
+ [] -> return False
+ _ -> return True
+
+
+getRecords :: (QueryType qt, QueryClass qc, Zone z) =>
+ z
+ -> Question qt qc
+ -> IO [SomeRR]
+getRecords z q
+ | cast (qType q) == Just AXFR
+ = getRecordsForAXFR
+
+ | otherwise
+ = do rs <- getRecordsForName z (qName q)
+ return $ filterRecords q rs
+
+ where
+ getRecordsForAXFR
+ | qName q == zoneName z
+ = do names <- getRecordNames z
+ (soaM, rs) <- liftM (spitSOA . concat) $ mapM (getRecordsForName z) names
+ case soaM of
+ Just soa -> return ([soa] ++ rs ++ [soa])
+ Nothing -> return []
+ | otherwise
+ = return []
+
+ spitSOA :: [SomeRR] -> (Maybe SomeRR, [SomeRR])
+ spitSOA xs = (findSOA xs, collectNonSOA xs)
+
+ findSOA :: [SomeRR] -> Maybe SomeRR
+ findSOA [] = Nothing
+ findSOA (SomeRR x : xs)
+ | typeOf (rrType x) == typeOf SOA = Just (SomeRR x)
+ | otherwise = findSOA xs
+
+ collectNonSOA :: [SomeRR] -> [SomeRR]
+ collectNonSOA [] = []
+ collectNonSOA (SomeRR x : xs)
+ | typeOf (rrType x) == typeOf SOA = collectNonSOA xs
+ | otherwise = SomeRR x : collectNonSOA xs
+
+
+filterRecords :: (QueryType qt, QueryClass qc) =>
+ Question qt qc
+ -> [SomeRR]
+ -> [SomeRR]
+filterRecords q = filter predicate
+ where
+ predicate rr
+ = predForType rr && predForClass rr
+
+ predForType (SomeRR rr)
+ | typeOf (qType q) == typeOf ANY
+ = True
+
+ | 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)