module Data.IP.Addr where
import Control.Monad
import Data.Bits
import Data.Char
import Data.Data (Data)
import Data.List (foldl', intersperse)
import Data.String
import Data.Typeable (Typeable)
import Data.Word
import Network.Socket
import Numeric (showHex, showInt)
import System.ByteOrder
import Text.Appar.String
import GHC.Enum (succError,predError)
import GHC.Generics
data IP = IPv4 { ipv4 :: IPv4 }
| IPv6 { ipv6 :: IPv6 }
deriving (Data,Generic,Typeable)
instance Eq IP where
(IPv4 ip1) == (IPv4 ip2) = ip1 == ip2
(IPv6 ip1) == (IPv6 ip2) = ip1 == ip2
(IPv4 ip1) == (IPv6 ip2) = ipv4ToIPv6 ip1 == ip2
(IPv6 ip1) == (IPv4 ip2) = ip1 == ipv4ToIPv6 ip2
instance Ord IP where
(IPv4 ip1) `compare` (IPv4 ip2) = ip1 `compare` ip2
(IPv6 ip1) `compare` (IPv6 ip2) = ip1 `compare` ip2
(IPv4 ip1) `compare` (IPv6 ip2) = ipv4ToIPv6 ip1 `compare` ip2
(IPv6 ip1) `compare` (IPv4 ip2) = ip1 `compare` ipv4ToIPv6 ip2
instance Show IP where
show (IPv4 ip) = show ip
show (IPv6 ip) = show ip
type IPv4Addr = Word32
type IPv6Addr = (Word32,Word32,Word32,Word32)
newtype IPv4 = IP4 IPv4Addr
deriving (Eq, Ord, Bounded, Data, Generic, Typeable)
newtype IPv6 = IP6 IPv6Addr
deriving (Eq, Ord, Bounded, Data, Generic, Typeable)
instance Enum IPv4 where
fromEnum (IP4 a) = fromEnum a
toEnum = IP4 . toEnum
instance Enum IPv6 where
fromEnum (IP6 (a,b,c,d)) = let a' = fromEnum a `shift` 96
b' = fromEnum b `shift` 64
c' = fromEnum c `shift` 32
d' = fromEnum d
in a' .|. b' .|. c' .|. d'
toEnum i = let a = toEnum (i `shiftR` 96 .&. 0xffffffff)
b = toEnum (i `shiftR` 64 .&. 0xffffffff)
c = toEnum (i `shiftR` 32 .&. 0xffffffff)
d = toEnum (i .&. 0xffffffff)
in IP6 (a,b,c,d)
succ (IP6 (0xffffffff,0xffffffff,0xffffffff,0xffffffff)) = succError "IPv6"
succ (IP6 (a, 0xffffffff,0xffffffff,0xffffffff)) = IP6 (succ a,0,0,0)
succ (IP6 (a, b,0xffffffff,0xffffffff)) = IP6 (a,succ b,0,0)
succ (IP6 (a, b, c,0xffffffff)) = IP6 (a,b,succ c,0)
succ (IP6 (a, b, c, d)) = IP6 (a,b,c,succ d)
pred (IP6 (0,0,0,0)) = predError "IPv6"
pred (IP6 (a,0,0,0)) = IP6 (pred a, 0xffffffff, 0xffffffff, 0xffffffff)
pred (IP6 (a,b,0,0)) = IP6 ( a, pred b, 0xffffffff, 0xffffffff)
pred (IP6 (a,b,c,0)) = IP6 ( a, b, pred c, 0xffffffff)
pred (IP6 (a,b,c,d)) = IP6 ( a, b, c, pred d)
enumFrom ip = ip:gen ip
where gen i = let i' = succ i in i':gen i'
enumFromTo ip ip' = ip:gen ip
where gen i
| i == ip' = []
| otherwise = let i' = succ i in i':gen i'
enumFromThen ip ip' = fmap integerToIP6 [ip6ToInteger ip, ip6ToInteger ip' ..]
enumFromThenTo ip inc fin = fmap integerToIP6 [ip6ToInteger ip, ip6ToInteger inc .. ip6ToInteger fin]
instance Enum IP where
fromEnum (IPv4 ip) = fromEnum ip
fromEnum (IPv6 ip) = fromEnum ip
toEnum = IPv4 . toEnum
succ (IPv4 ip) = IPv4 $ succ ip
succ (IPv6 ip) = IPv6 $ succ ip
pred (IPv4 ip) = IPv4 $ pred ip
pred (IPv6 ip) = IPv6 $ pred ip
enumFrom (IPv4 ip) = fmap IPv4 $ enumFrom ip
enumFrom (IPv6 ip) = fmap IPv6 $ enumFrom ip
enumFromTo (IPv4 ip) (IPv4 ip') = fmap IPv4 $ enumFromTo ip ip'
enumFromTo (IPv6 ip) (IPv6 ip') = fmap IPv6 $ enumFromTo ip ip'
enumFromTo _ _ = error "enumFromTo: Incompatible IP families"
enumFromThen (IPv4 ip) (IPv4 ip') = fmap IPv4 $ enumFromThen ip ip'
enumFromThen (IPv6 ip) (IPv6 ip') = fmap IPv6 $ enumFromThen ip ip'
enumFromThen _ _ = error "enumFromThen: Incompatible IP families"
enumFromThenTo (IPv4 ip) (IPv4 inc) (IPv4 fin) = fmap IPv4 $ enumFromThenTo ip inc fin
enumFromThenTo (IPv6 ip) (IPv6 inc) (IPv6 fin) = fmap IPv6 $ enumFromThenTo ip inc fin
enumFromThenTo _ _ _ = error "enumFromThenTo: Incompatible IP families"
ip6ToInteger :: IPv6 -> Integer
ip6ToInteger (IP6 (a,b,c,d)) = let a' = word32ToInteger a `shift` 96
b' = word32ToInteger b `shift` 64
c' = word32ToInteger c `shift` 32
d' = word32ToInteger d
in a' .|. b' .|. c' .|. d'
where
word32ToInteger :: Word32 -> Integer
word32ToInteger = toEnum . fromEnum
integerToIP6 :: Integer -> IPv6
integerToIP6 i = let a = integerToWord32 (i `shiftR` 96 .&. 0xffffffff)
b = integerToWord32 (i `shiftR` 64 .&. 0xffffffff)
c = integerToWord32 (i `shiftR` 32 .&. 0xffffffff)
d = integerToWord32 (i .&. 0xffffffff)
in IP6 (a,b,c,d)
where
integerToWord32 :: Integer -> Word32
integerToWord32 = toEnum . fromEnum
instance Show IPv4 where
show ip = showIPv4 ip ""
instance Show IPv6 where
show ip = showIPv6 ip ""
showIPv4 :: IPv4 -> ShowS
showIPv4 = foldr1 (.) . intersperse (showChar '.') . map showInt . fromIPv4
showIPv6 :: IPv6 -> ShowS
showIPv6 ip@(IP6 (a1,a2,a3,a4))
| a1 == 0 && a2 == 0 && a3 == 0xffff =
showString "::ffff:" . showIPv4 (IP4 a4)
| a1 == 0 && a2 == 0 && a3 == 0 && a4 >= 0x10000 =
showString "::" . showIPv4 (IP4 a4)
| end begin > 1 =
showFields prefix . showString "::" . showFields suffix
| otherwise =
showFields fields
where
fields = fromIPv6 ip
showFields = foldr (.) id . intersperse (showChar ':') . map showHex
prefix = take begin fields
suffix = drop end fields
begin = end + diff
(diff, end) = minimum $
scanl (\c i -> if i == 0 then c 1 else 0) 0 fields `zip` [0..]
toIPv4 :: [Int] -> IPv4
toIPv4 = IP4 . toWord32
where
toWord32 [a1,a2,a3,a4] = fromIntegral $ shift a1 24 + shift a2 16 + shift a3 8 + a4
toWord32 _ = error "toWord32"
toIPv6 :: [Int] -> IPv6
toIPv6 ad = IP6 (x1,x2,x3,x4)
where
[x1,x2,x3,x4] = map toWord32 $ split2 ad
split2 [] = []
split2 x = take 2 x : split2 (drop 2 x)
toWord32 [a1,a2] = fromIntegral $ shift a1 16 + a2
toWord32 _ = error "toWord32"
toIPv6b :: [Int] -> IPv6
toIPv6b ad = IP6 (x1,x2,x3,x4)
where
[x1,x2,x3,x4] = map toWord32 $ split4 ad
split4 [] = []
split4 x = take 4 x : split4 (drop 4 x)
toWord32 [a1,a2,a3,a4] = fromIntegral $ shift a1 24 + shift a2 16 + shift a3 8 + a4
toWord32 _ = error "toWord32"
fromIPv4 :: IPv4 -> [Int]
fromIPv4 (IP4 w) = map (\n -> fromEnum $ (w `shiftR` n) .&. 0xff) [0o30, 0o20, 0o10, 0o00]
fromIPv6 :: IPv6 -> [Int]
fromIPv6 (IP6 (w1, w2, w3, w4)) = map fromEnum (concatMap split [w1,w2,w3,w4])
where
split :: Word32 -> [Word32]
split n = [n `shiftR` 0x10 .&. 0xffff, n .&. 0xffff]
fromIPv6b :: IPv6 -> [Int]
fromIPv6b (IP6 (w1, w2, w3, w4)) = map fromEnum (concatMap split [w1,w2,w3,w4])
where
split n = fmap (\s -> n `shiftR` s .&. 0xff) [24,16,8,0]
instance Read IP where
readsPrec _ = parseIP
instance Read IPv4 where
readsPrec _ = parseIPv4
instance Read IPv6 where
readsPrec _ = parseIPv6
parseIP :: String -> [(IP,String)]
parseIP cs = case runParser ip4 cs of
(Just ip,rest) -> [(IPv4 ip,rest)]
(Nothing,_) -> case runParser ip6 cs of
(Just ip,rest) -> [(IPv6 ip,rest)]
(Nothing,_) -> []
parseIPv4 :: String -> [(IPv4,String)]
parseIPv4 cs = case runParser ip4 cs of
(Nothing,_) -> []
(Just a4,rest) -> [(a4,rest)]
parseIPv6 :: String -> [(IPv6,String)]
parseIPv6 cs = case runParser ip6 cs of
(Nothing,_) -> []
(Just a6,rest) -> [(a6,rest)]
instance IsString IP where
fromString = read
instance IsString IPv4 where
fromString = read
instance IsString IPv6 where
fromString = read
dig :: Parser Int
dig = 0 <$ char '0'
<|> toInt <$> oneOf ['1'..'9'] <*> many digit
where
toInt n ns = foldl' (\x y -> x * 10 + y) 0 . map digitToInt $ n : ns
ip4 :: Parser IPv4
ip4 = skipSpaces >> toIPv4 <$> ip4'
ip4' :: Parser [Int]
ip4' = do
as <- dig `sepBy1` char '.'
check as
return as
where
test errmsg adr = when (adr < 0 || 255 < adr) (fail errmsg)
check as = do
let errmsg = "IPv4 adddress"
when (length as /= 4) (fail errmsg)
mapM_ (test errmsg) as
skipSpaces :: Parser ()
skipSpaces = void $ many (char ' ')
hex :: Parser Int
hex = do
ns <- some hexDigit
check ns
let ms = map digitToInt ns
val = foldl' (\x y -> x * 16 + y) 0 ms
return val
where
check ns = when (length ns > 4) (fail "IPv6 address -- more than 4 hex")
colon2 :: Parser ()
colon2 = void $ string "::"
format :: [Int] -> [Int] -> Parser [Int]
format bs1 bs2 = do
let len1 = length bs1
len2 = length bs2
when (len1 > 7) (fail "IPv6 address1")
when (len2 > 7) (fail "IPv6 address2")
let len = 8 len1 len2
when (len <= 0) (fail "IPv6 address3")
let spring = replicate len 0
return $ bs1 ++ spring ++ bs2
ip6 :: Parser IPv6
ip6 = skipSpaces >> toIPv6 <$> ip6'
ip6' :: Parser [Int]
ip6' = ip4Embedded
<|> do colon2
bs <- option [] hexcolon
format [] bs
<|> try (do rs <- hexcolon
check rs
return rs)
<|> do bs1 <- hexcolon2
bs2 <- option [] hexcolon
format bs1 bs2
where
hexcolon = hex `sepBy1` char ':'
hexcolon2 = manyTill (hex <* char ':') (char ':')
check bs = when (length bs /= 8) (fail "IPv6 address4")
ip4Embedded :: Parser [Int]
ip4Embedded = try (do colon2
bs <- beforeEmbedded
embedded <- ip4'
format [] (bs ++ ip4ToIp6 embedded))
<|> try (do bs1 <- manyTill (try $ hex <* char ':') (char ':')
bs2 <- option [] beforeEmbedded
embedded <- ip4'
format bs1 (bs2 ++ ip4ToIp6 embedded))
<|> try (do bs <- beforeEmbedded
embedded <- ip4'
let rs = bs ++ ip4ToIp6 embedded
check rs
return rs)
where
beforeEmbedded = many $ try $ hex <* char ':'
ip4ToIp6 [a,b,c,d] = [ a `shiftL` 8 .|. b
, c `shiftL` 8 .|. d ]
ip4ToIp6 _ = error "ip4ToIp6"
check bs = when (length bs /= 8) (fail "IPv6 address4")
fromHostAddress :: HostAddress -> IPv4
fromHostAddress addr4
| byteOrder == LittleEndian = IP4 $ fixByteOrder addr4
| otherwise = IP4 addr4
toHostAddress :: IPv4 -> HostAddress
toHostAddress (IP4 addr4)
| byteOrder == LittleEndian = fixByteOrder addr4
| otherwise = addr4
fromHostAddress6 :: HostAddress6 -> IPv6
fromHostAddress6 = IP6
toHostAddress6 :: IPv6 -> HostAddress6
toHostAddress6 (IP6 addr6) = addr6
fixByteOrder :: Word32 -> Word32
fixByteOrder s = d1 .|. d2 .|. d3 .|. d4
where
d1 = shiftL s 24
d2 = shiftL s 8 .&. 0x00ff0000
d3 = shiftR s 8 .&. 0x0000ff00
d4 = shiftR s 24 .&. 0x000000ff
ipv4ToIPv6 :: IPv4 -> IPv6
ipv4ToIPv6 ip = toIPv6b [0,0,0,0,0,0,0,0,0,0,0xff,0xff,i1,i2,i3,i4]
where
[i1,i2,i3,i4] = fromIPv4 ip