{-# LINE 1 "Network/Socket/ByteString/IO.hsc" #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE OverloadedStrings #-} -- | -- Module : Network.Socket.ByteString -- Copyright : (c) Johan Tibell 2007-2010 -- License : BSD-style -- -- Maintainer : johan.tibell@gmail.com -- Stability : stable -- Portability : portable -- -- This module provides access to the BSD /socket/ interface. This -- module is generally more efficient than the 'String' based network -- functions in 'Network.Socket'. For detailed documentation, consult -- your favorite POSIX socket reference. All functions communicate -- failures by converting the error number to 'System.IO.IOError'. -- -- This module is made to be imported with 'Network.Socket' like so: -- -- > import Network.Socket hiding (send, sendTo, recv, recvFrom) -- > import Network.Socket.ByteString -- module Network.Socket.ByteString.IO ( -- * Send data to a socket send , sendAll , sendTo , sendAllTo -- ** Vectored I/O -- $vectored , sendMany , sendManyTo -- * Receive data from a socket , recv , recvFrom , waitWhen0 ) where import Control.Concurrent (threadWaitWrite, rtsSupportsBoundThreads) import Data.ByteString (ByteString) import qualified Data.ByteString as B import Data.ByteString.Internal (createAndTrim) import Data.ByteString.Unsafe (unsafeUseAsCStringLen) import Foreign.Marshal.Alloc (allocaBytes) import Foreign.Ptr (castPtr) import Network.Socket.Buffer import Network.Socket.ByteString.Internal import Network.Socket.Imports import Network.Socket.Types {-# LINE 59 "Network/Socket/ByteString/IO.hsc" #-} import Control.Monad (zipWithM_) import Foreign.Marshal.Array (allocaArray) import Foreign.Marshal.Utils (with) import Foreign.Ptr (Ptr, plusPtr) import Foreign.Storable (Storable(..)) import Network.Socket.Internal import Network.Socket.ByteString.IOVec (IOVec(..)) import Network.Socket.ByteString.MsgHdr (MsgHdr(..)) {-# LINE 69 "Network/Socket/ByteString/IO.hsc" #-} -- ---------------------------------------------------------------------------- -- Sending -- | Send data to the socket. The socket must be connected to a -- remote socket. Returns the number of bytes sent. Applications are -- responsible for ensuring that all data has been sent. send :: Socket -- ^ Connected socket -> ByteString -- ^ Data to send -> IO Int -- ^ Number of bytes sent send s xs = unsafeUseAsCStringLen xs $ \(str, len) -> sendBuf s (castPtr str) len waitWhen0 :: Int -> Socket -> IO () waitWhen0 0 s = when rtsSupportsBoundThreads $ do fd <- fromIntegral <$> fdSocket s threadWaitWrite fd waitWhen0 _ _ = return () -- | Send data to the socket. The socket must be connected to a -- remote socket. Unlike 'send', this function continues to send data -- until either all data has been sent or an error occurs. On error, -- an exception is raised, and there is no way to determine how much -- data, if any, was successfully sent. sendAll :: Socket -- ^ Connected socket -> ByteString -- ^ Data to send -> IO () sendAll _ "" = return () sendAll s bs = do sent <- send s bs waitWhen0 sent s when (sent >= 0) $ sendAll s $ B.drop sent bs -- | Send data to the socket. The recipient can be specified -- explicitly, so the socket need not be in a connected state. -- Returns the number of bytes sent. Applications are responsible for -- ensuring that all data has been sent. sendTo :: SocketAddress sa => Socket -- ^ Socket -> ByteString -- ^ Data to send -> sa -- ^ Recipient address -> IO Int -- ^ Number of bytes sent sendTo s xs sa = unsafeUseAsCStringLen xs $ \(str, len) -> sendBufTo s str len sa -- | Send data to the socket. The recipient can be specified -- explicitly, so the socket need not be in a connected state. Unlike -- 'sendTo', this function continues to send data until either all -- data has been sent or an error occurs. On error, an exception is -- raised, and there is no way to determine how much data, if any, was -- successfully sent. sendAllTo :: SocketAddress sa => Socket -- ^ Socket -> ByteString -- ^ Data to send -> sa -- ^ Recipient address -> IO () sendAllTo _ "" _ = return () sendAllTo s xs sa = do sent <- sendTo s xs sa waitWhen0 sent s when (sent >= 0) $ sendAllTo s (B.drop sent xs) sa -- | Send data to the socket. The socket must be in a connected -- state. The data is sent as if the parts have been concatenated. -- This function continues to send data until either all data has been -- sent or an error occurs. On error, an exception is raised, and -- there is no way to determine how much data, if any, was -- successfully sent. sendMany :: Socket -- ^ Connected socket -> [ByteString] -- ^ Data to send -> IO () {-# LINE 141 "Network/Socket/ByteString/IO.hsc" #-} sendMany _ [] = return () sendMany s cs = do sent <- sendManyInner waitWhen0 sent s when (sent >= 0) $ sendMany s $ remainingChunks sent cs where sendManyInner = fmap fromIntegral . withIOVec cs $ \(iovsPtr, iovsLen) -> do fd <- fdSocket s let len = fromIntegral $ min iovsLen (1024) {-# LINE 151 "Network/Socket/ByteString/IO.hsc" #-} throwSocketErrorWaitWrite s "Network.Socket.ByteString.sendMany" $ c_writev fd iovsPtr len {-# LINE 156 "Network/Socket/ByteString/IO.hsc" #-} -- | Send data to the socket. The recipient can be specified -- explicitly, so the socket need not be in a connected state. The -- data is sent as if the parts have been concatenated. This function -- continues to send data until either all data has been sent or an -- error occurs. On error, an exception is raised, and there is no -- way to determine how much data, if any, was successfully sent. sendManyTo :: Socket -- ^ Socket -> [ByteString] -- ^ Data to send -> SockAddr -- ^ Recipient address -> IO () {-# LINE 168 "Network/Socket/ByteString/IO.hsc" #-} sendManyTo _ [] _ = return () sendManyTo s cs addr = do sent <- fromIntegral <$> sendManyToInner waitWhen0 sent s when (sent >= 0) $ sendManyTo s (remainingChunks sent cs) addr where sendManyToInner = withSockAddr addr $ \addrPtr addrSize -> withIOVec cs $ \(iovsPtr, iovsLen) -> do let msgHdr = MsgHdr addrPtr (fromIntegral addrSize) iovsPtr (fromIntegral iovsLen) fd <- fdSocket s with msgHdr $ \msgHdrPtr -> throwSocketErrorWaitWrite s "Network.Socket.ByteString.sendManyTo" $ c_sendmsg fd msgHdrPtr 0 {-# LINE 187 "Network/Socket/ByteString/IO.hsc" #-} -- ---------------------------------------------------------------------------- -- Receiving -- | Receive data from the socket. The socket must be in a connected -- state. This function may return fewer bytes than specified. If -- the message is longer than the specified length, it may be -- discarded depending on the type of socket. This function may block -- until a message arrives. -- -- Considering hardware and network realities, the maximum number of bytes to -- receive should be a small power of 2, e.g., 4096. -- -- For TCP sockets, a zero length return value means the peer has -- closed its half side of the connection. recv :: Socket -- ^ Connected socket -> Int -- ^ Maximum number of bytes to receive -> IO ByteString -- ^ Data received recv s nbytes | nbytes < 0 = ioError (mkInvalidRecvArgError "Network.Socket.ByteString.recv") | otherwise = createAndTrim nbytes $ \ptr -> recvBuf s ptr nbytes -- | Receive data from the socket. The socket need not be in a -- connected state. Returns @(bytes, address)@ where @bytes@ is a -- 'ByteString' representing the data received and @address@ is a -- 'SockAddr' representing the address of the sending socket. -- -- If the first return value is zero, it means EOF. recvFrom :: SocketAddress sa => Socket -- ^ Socket -> Int -- ^ Maximum number of bytes to receive -> IO (ByteString, sa) -- ^ Data received and sender address recvFrom sock nbytes = allocaBytes nbytes $ \ptr -> do (len, sockaddr) <- recvBufFrom sock ptr nbytes str <- B.packCStringLen (ptr, len) return (str, sockaddr) -- ---------------------------------------------------------------------------- -- Not exported {-# LINE 229 "Network/Socket/ByteString/IO.hsc" #-} -- | Suppose we try to transmit a list of chunks @cs@ via a gathering write -- operation and find that @n@ bytes were sent. Then @remainingChunks n cs@ is -- list of chunks remaining to be sent. remainingChunks :: Int -> [ByteString] -> [ByteString] remainingChunks _ [] = [] remainingChunks i (x:xs) | i < len = B.drop i x : xs | otherwise = let i' = i - len in i' `seq` remainingChunks i' xs where len = B.length x -- | @withIOVec cs f@ executes the computation @f@, passing as argument a pair -- consisting of a pointer to a temporarily allocated array of pointers to -- IOVec made from @cs@ and the number of pointers (@length cs@). -- /Unix only/. withIOVec :: [ByteString] -> ((Ptr IOVec, Int) -> IO a) -> IO a withIOVec cs f = allocaArray csLen $ \aPtr -> do zipWithM_ pokeIov (ptrs aPtr) cs f (aPtr, csLen) where csLen = length cs ptrs = iterate (`plusPtr` sizeOf (undefined :: IOVec)) pokeIov ptr s = unsafeUseAsCStringLen s $ \(sPtr, sLen) -> poke ptr $ IOVec sPtr (fromIntegral sLen) {-# LINE 256 "Network/Socket/ByteString/IO.hsc" #-}