{-# LANGUAGE OverloadedStrings #-}
module Utils where
import Data.Char
import Data.Word
import qualified Data.Map as Map
import qualified Data.Set as Set
import Numeric
import Network.Socket
import System.IO
import qualified Data.List as List
import Control.Monad
import qualified Codec.Binary.Base64 as Base64
import qualified Data.ByteString.Lazy as BL
import qualified Text.Show.ByteString as BS
import qualified Data.ByteString.Char8 as B
import qualified Data.ByteString as BW
-------------------------------------------------
import CoreTypes
sockAddr2String :: SockAddr -> IO B.ByteString
sockAddr2String (SockAddrInet _ hostAddr) = liftM B.pack $ inet_ntoa hostAddr
sockAddr2String (SockAddrInet6 _ _ (a, b, c, d) _) =
return $ B.pack $ (foldr1 (.)
$ List.intersperse (':':)
$ concatMap (\n -> (\(a0, a1) -> [showHex a0, showHex a1]) $ divMod n 65536) [a, b, c, d]) []
toEngineMsg :: B.ByteString -> B.ByteString
toEngineMsg msg = B.pack $ Base64.encode (fromIntegral (BW.length msg) : BW.unpack msg)
fromEngineMsg :: B.ByteString -> Maybe B.ByteString
fromEngineMsg msg = liftM BW.pack (Base64.decode (B.unpack msg) >>= removeLength)
where
removeLength (x:xs) = if length xs == fromIntegral x then Just xs else Nothing
removeLength _ = Nothing
checkNetCmd :: B.ByteString -> (Bool, Bool)
checkNetCmd msg = check decoded
where
decoded = fromEngineMsg msg
check Nothing = (False, False)
check (Just ms) | B.length ms > 0 = let m = B.head ms in (m `Set.member` legalMessages, m == '+')
| otherwise = (False, False)
legalMessages = Set.fromList $ "M#+LlRrUuDdZzAaSjJ,sFNpPwtghbc12345" ++ slotMessages
slotMessages = "\128\129\130\131\132\133\134\135\136\137\138"
maybeRead :: Read a => String -> Maybe a
maybeRead s = case reads s of
[(x, rest)] | all isSpace rest -> Just x
_ -> Nothing
teamToNet :: TeamInfo -> [B.ByteString]
teamToNet team =
"ADD_TEAM"
: teamname team
: teamgrave team
: teamfort team
: teamvoicepack team
: teamflag team
: teamowner team
: (showB . difficulty $ team)
: hhsInfo
where
hhsInfo = concatMap (\(HedgehogInfo n hat) -> [n, hat]) $ hedgehogs team
modifyTeam :: TeamInfo -> RoomInfo -> RoomInfo
modifyTeam team room = room{teams = replaceTeam team $ teams room}
where
replaceTeam _ [] = error "modifyTeam: no such team"
replaceTeam tm (t:ts) =
if teamname tm == teamname t then
tm : ts
else
t : replaceTeam tm ts
illegalName :: B.ByteString -> Bool
illegalName s = B.null s || B.all isSpace s || isSpace (B.head s) || isSpace (B.last s)
protoNumber2ver :: Word16 -> B.ByteString
protoNumber2ver v = Map.findWithDefault "Unknown" v vermap
where
vermap = Map.fromList [
(17, "0.9.7-dev")
, (19, "0.9.7")
, (20, "0.9.8-dev")
, (21, "0.9.8")
, (22, "0.9.9-dev")
, (23, "0.9.9")
, (24, "0.9.10-dev")
, (25, "0.9.10")
, (26, "0.9.11-dev")
, (27, "0.9.11")
, (28, "0.9.12-dev")
, (29, "0.9.12")
, (30, "0.9.13-dev")
, (31, "0.9.13")
, (32, "0.9.14-dev")
, (33, "0.9.14")
, (34, "0.9.15-dev")
, (35, "0.9.14.1")
, (37, "0.9.15")
, (38, "0.9.16-dev")
]
askFromConsole :: B.ByteString -> IO B.ByteString
askFromConsole msg = do
B.putStr msg
hFlush stdout
B.getLine
unfoldrE :: (b -> Either b (a, b)) -> b -> ([a], b)
unfoldrE f b =
case f b of
Right (a, new_b) -> let (a', b') = unfoldrE f new_b in (a : a', b')
Left new_b -> ([], new_b)
showB :: (BS.Show a) => a -> B.ByteString
showB = B.concat . BL.toChunks . BS.show
readInt_ :: (Num a) => B.ByteString -> a
readInt_ str =
case B.readInt str of
Just (i, t) | B.null t -> fromIntegral i
_ -> 0
cutHost :: B.ByteString -> B.ByteString
cutHost = B.intercalate "." . flip (++) ["*","*"] . List.take 2 . B.split '.'