sprsquish · December 17, 2015 11:59
diff --git a/snowflake.hs b/snowflake.hs
 import Data.Binary
 import Data.Bits
 import qualified Data.ByteString as B
 import qualified Data.ByteString.Lazy as BL
 import Data.Int
 import Network hiding (accept)
 import Network.Socket
 import Network.Socket.ByteString (sendAll)
 import System.Console.GetOpt
 import System.Environment
 import System.IO
 import System.Time

 data Opts = Opts
  { workerBits :: Int
  , dcBits :: Int
  , seqBits :: Int
  , workerId :: Int64
  , dcId :: Int64
  , port :: Integer
  } deriving Show

 defaults = Opts 5 5 12 1 1 5002
 options :: [OptDescr (Opts -> Opts)]
 options =
  [ Option [] ["workerBits"] (ReqArg (\v opts -> opts { workerBits = read v :: Int }) "bits")        "bits to use for worker value"
  , Option [] ["dcBits"]     (ReqArg (\v opts -> opts { dcBits = read v :: Int }) "bits")            "bits to use for DC value"
  , Option [] ["seqBits"]    (ReqArg (\v opts -> opts { seqBits = read v :: Int }) "bits")           "bits to use for the sequence value"
  , Option [] ["worker"]     (ReqArg (\v opts -> opts { workerId = read v :: Int64 }) "id")          "Worker ID"
  , Option [] ["dc"]         (ReqArg (\v opts -> opts { dcId = read v :: Int64 }) "id")              "DataCenter ID"
  , Option [] ["port"]       (ReqArg (\v opts -> opts { port = read v :: Integer }) "port") "Port to listen on"
  ]

 data SnowflakeId = SnowflakeId
  { lastTs :: Int64
  , tsShift :: Int
  , dcStamp :: Int64
  , workerStamp :: Int64
  , seqNum :: Int64
  , seqMask :: Int64
  }

 main = do
    (Opts wb dcb sb wid dcid port, _) <- getArgs >>= getOpts
    withSocketsDo $ do
      sock <- listenOn $ PortNumber (fromInteger port)
      loop sock (newId wb dcb sb dcid wid)

 getOpts :: [String] -> IO (Opts, [String])
 getOpts argv =
  case getOpt Permute options argv of
    (o, n, []  ) -> return (foldl (flip id) defaults o, n)
    (_, _, errs) -> ioError (userError (concat errs ++ usageInfo header options))
  where header = "Usage: snowflake [OPTION...]"

 loop sock id = do
    (conn, _) <- accept sock
    next <- nextId id
    lastId <- case next of
      Nothing ->
        return id
      Just next -> do
        sendAll conn (idToBytes next)
        return next
    sClose conn
    loop sock lastId

 newId :: Int -> Int -> Int -> Int64 -> Int64 -> SnowflakeId
 newId dcBits workerBits seqBits dc worker =
  let seqMask = xor (complement 0) (shiftL (complement 0) seqBits) :: Int64
      workerStamp = shiftL worker seqBits
      dcStamp = shiftL dc (workerBits + seqBits)
      tsShift = dcBits + workerBits + seqBits
  in SnowflakeId 0 tsShift dcStamp workerStamp 0 seqMask

 nextId :: SnowflakeId -> IO (Maybe SnowflakeId)
 nextId id = curTime >>= nextId' id

 nextId' :: SnowflakeId -> Int64 -> IO (Maybe SnowflakeId)
 nextId' id time
    | time < lastTime = return Nothing
    | time > lastTime = return $ Just id { lastTs = time, seqNum = 0 }
    | time == lastTime = (nextSeq id time) >>= return . Just
  where lastTime = lastTs id

 nextSeq :: SnowflakeId -> Int64 -> IO SnowflakeId
 nextSeq id time =
    if newSeq == 0
      then (tillNextMillis time) >>= \x -> return id { seqNum = 0, lastTs = x }
      else return id { seqNum = newSeq }
  where newSeq = (seqNum id) + 1 .&. (seqMask id)

 idToBytes :: SnowflakeId -> B.ByteString
 idToBytes (SnowflakeId ts tsShift dc worker seq _) = B.concat . BL.toChunks $ encode $
    (shiftL ts tsShift) .|. dc .|. worker .|. seq

 curTime :: IO Int64
 curTime = do
    (TOD s ps) <- getClockTime
    let sec = fromIntegral s :: Int64
    let psec = fromIntegral ps :: Int64
    return $ (sec * 1000) + (psec `div` 1000000000)

 tillNextMillis :: Int64 -> IO Int64
 tillNextMillis last = do
  next <- curTime
  if next <= last
    then tillNextMillis next
    else return next
	import Data.Binary
	import Data.Bits
	import qualified Data.ByteString as B
	import qualified Data.ByteString.Lazy as BL
	import Data.Int
	import Network hiding (accept)
	import Network.Socket
	import Network.Socket.ByteString (sendAll)
	import System.Console.GetOpt
	import System.Environment
	import System.IO
	import System.Time

	data Opts = Opts
	{ workerBits :: Int
	, dcBits :: Int
	, seqBits :: Int
	, workerId :: Int64
	, dcId :: Int64
	, port :: Integer
	} deriving Show

	defaults = Opts 5 5 12 1 1 5002
	options :: [OptDescr (Opts -> Opts)]
	options =
	[ Option [] ["workerBits"] (ReqArg (\v opts -> opts { workerBits = read v :: Int }) "bits") "bits to use for worker value"
	, Option [] ["dcBits"] (ReqArg (\v opts -> opts { dcBits = read v :: Int }) "bits") "bits to use for DC value"
	, Option [] ["seqBits"] (ReqArg (\v opts -> opts { seqBits = read v :: Int }) "bits") "bits to use for the sequence value"
	, Option [] ["worker"] (ReqArg (\v opts -> opts { workerId = read v :: Int64 }) "id") "Worker ID"
	, Option [] ["dc"] (ReqArg (\v opts -> opts { dcId = read v :: Int64 }) "id") "DataCenter ID"
	, Option [] ["port"] (ReqArg (\v opts -> opts { port = read v :: Integer }) "port") "Port to listen on"
	]

	data SnowflakeId = SnowflakeId
	{ lastTs :: Int64
	, tsShift :: Int
	, dcStamp :: Int64
	, workerStamp :: Int64
	, seqNum :: Int64
	, seqMask :: Int64
	}

	main = do
	(Opts wb dcb sb wid dcid port, _) <- getArgs >>= getOpts
	withSocketsDo $ do
	sock <- listenOn $ PortNumber (fromInteger port)
	loop sock (newId wb dcb sb dcid wid)

	getOpts :: [String] -> IO (Opts, [String])
	getOpts argv =
	case getOpt Permute options argv of
	(o, n, [] ) -> return (foldl (flip id) defaults o, n)
	(_, _, errs) -> ioError (userError (concat errs ++ usageInfo header options))
	where header = "Usage: snowflake [OPTION...]"

	loop sock id = do
	(conn, _) <- accept sock
	next <- nextId id
	lastId <- case next of
	Nothing ->
	return id
	Just next -> do
	sendAll conn (idToBytes next)
	return next
	sClose conn
	loop sock lastId

	newId :: Int -> Int -> Int -> Int64 -> Int64 -> SnowflakeId
	newId dcBits workerBits seqBits dc worker =
	let seqMask = xor (complement 0) (shiftL (complement 0) seqBits) :: Int64
	workerStamp = shiftL worker seqBits
	dcStamp = shiftL dc (workerBits + seqBits)
	tsShift = dcBits + workerBits + seqBits
	in SnowflakeId 0 tsShift dcStamp workerStamp 0 seqMask

	nextId :: SnowflakeId -> IO (Maybe SnowflakeId)
	nextId id = curTime >>= nextId' id

	nextId' :: SnowflakeId -> Int64 -> IO (Maybe SnowflakeId)
	nextId' id time
	\| time < lastTime = return Nothing
	\| time > lastTime = return $ Just id { lastTs = time, seqNum = 0 }
	\| time == lastTime = (nextSeq id time) >>= return . Just
	where lastTime = lastTs id

	nextSeq :: SnowflakeId -> Int64 -> IO SnowflakeId
	nextSeq id time =
	if newSeq == 0
	then (tillNextMillis time) >>= \x -> return id { seqNum = 0, lastTs = x }
	else return id { seqNum = newSeq }
	where newSeq = (seqNum id) + 1 .&. (seqMask id)

	idToBytes :: SnowflakeId -> B.ByteString
	idToBytes (SnowflakeId ts tsShift dc worker seq _) = B.concat . BL.toChunks $ encode $
	(shiftL ts tsShift) .\|. dc .\|. worker .\|. seq

	curTime :: IO Int64
	curTime = do
	(TOD s ps) <- getClockTime
	let sec = fromIntegral s :: Int64
	let psec = fromIntegral ps :: Int64
	return $ (sec * 1000) + (psec `div` 1000000000)

	tillNextMillis :: Int64 -> IO Int64
	tillNextMillis last = do
	next <- curTime
	if next <= last
	then tillNextMillis next
	else return next