{-# LINE 1 "Network/Socket/ByteString/Lazy.hsc" #-} {-# LANGUAGE BangPatterns, CPP, ForeignFunctionInterface #-} {-# LINE 2 "Network/Socket/ByteString/Lazy.hsc" #-} -- | -- Module : Network.Socket.ByteString.Lazy -- Copyright : (c) Bryan O'Sullivan 2009 -- License : BSD-style -- -- Maintainer : bos@serpentine.com -- Stability : experimental -- Portability : POSIX, GHC -- -- 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.Lazy -- > import Prelude hiding (getContents) -- module Network.Socket.ByteString.Lazy ( {-# LINE 27 "Network/Socket/ByteString/Lazy.hsc" #-} -- * Send data to a socket send , sendAll , {-# LINE 32 "Network/Socket/ByteString/Lazy.hsc" #-} -- * Receive data from a socket getContents , recv ) where import Control.Monad (liftM) import Data.ByteString.Lazy.Internal (ByteString(..), defaultChunkSize) import Data.Int (Int64) import Network.Socket (Socket(..), ShutdownCmd(..), shutdown) import Prelude hiding (getContents) import System.IO.Unsafe (unsafeInterleaveIO) import qualified Data.ByteString as S import qualified Network.Socket.ByteString as N {-# LINE 49 "Network/Socket/ByteString/Lazy.hsc" #-} import Control.Monad (unless) import Data.ByteString.Unsafe (unsafeUseAsCStringLen) import Foreign.Marshal.Array (allocaArray) import Foreign.Ptr (plusPtr) import Foreign.Storable (Storable(..)) import Network.Socket.ByteString.IOVec (IOVec(IOVec)) import Network.Socket.ByteString.Internal (c_writev) import Network.Socket.Internal (throwSocketErrorIfMinus1RetryMayBlock) import qualified Data.ByteString.Lazy as L {-# LINE 61 "Network/Socket/ByteString/Lazy.hsc" #-} import GHC.Conc (threadWaitWrite) {-# LINE 63 "Network/Socket/ByteString/Lazy.hsc" #-} {-# LINE 64 "Network/Socket/ByteString/Lazy.hsc" #-} {-# LINE 66 "Network/Socket/ByteString/Lazy.hsc" #-} -- ----------------------------------------------------------------------------- -- Sending -- | Send data to the socket. The socket must be in a connected state. -- Returns the number of bytes sent. Applications are responsible for -- ensuring that all data has been sent. -- -- Because a lazily generated 'ByteString' may be arbitrarily long, -- this function caps the amount it will attempt to send at 4MB. This -- number is large (so it should not penalize performance on fast -- networks), but not outrageously so (to avoid demanding lazily -- computed data unnecessarily early). Before being sent, the lazy -- 'ByteString' will be converted to a list of strict 'ByteString's -- with 'L.toChunks'; at most 1024 chunks will be sent. /Unix only/. send :: Socket -- ^ Connected socket -> ByteString -- ^ Data to send -> IO Int64 -- ^ Number of bytes sent send (MkSocket fd _ _ _ _) s = do let cs = take maxNumChunks (L.toChunks s) len = length cs liftM fromIntegral . allocaArray len $ \ptr -> withPokes cs ptr $ \niovs -> {-# LINE 89 "Network/Socket/ByteString/Lazy.hsc" #-} throwSocketErrorIfMinus1RetryMayBlock "writev" (threadWaitWrite (fromIntegral fd)) $ {-# LINE 92 "Network/Socket/ByteString/Lazy.hsc" #-} c_writev (fromIntegral fd) ptr niovs where withPokes ss p f = loop ss p 0 0 where loop (c:cs) q k !niovs | k < maxNumBytes = unsafeUseAsCStringLen c $ \(ptr,len) -> do poke q $ IOVec ptr (fromIntegral len) loop cs (q `plusPtr` sizeOf (undefined :: IOVec)) (k + fromIntegral len) (niovs + 1) | otherwise = f niovs loop _ _ _ niovs = f niovs maxNumBytes = 4194304 :: Int -- maximum number of bytes to transmit in one system call maxNumChunks = 1024 :: Int -- maximum number of chunks to transmit in one system call -- | Send data to the socket. The socket must be in a connected -- state. This function continues to send data until either all data -- has been sent or an error occurs. If there is an error, an -- exception is raised, and there is no way to determine how much data -- was sent. /Unix only/. sendAll :: Socket -- ^ Connected socket -> ByteString -- ^ Data to send -> IO () sendAll sock bs = do sent <- send sock bs let bs' = L.drop sent bs unless (L.null bs') $ sendAll sock bs' {-# LINE 119 "Network/Socket/ByteString/Lazy.hsc" #-} -- ----------------------------------------------------------------------------- -- Receiving -- | Receive data from the socket. The socket must be in a connected -- state. Data is received on demand, in chunks; each chunk will be -- sized to reflect the amount of data received by individual 'recv' -- calls. -- -- All remaining data from the socket is consumed. When there is no -- more data to be received, the receiving side of the socket is shut -- down. If there is an error and an exception is thrown, the socket -- is not shut down. getContents :: Socket -- ^ Connected socket -> IO ByteString -- ^ Data received getContents sock = loop where loop = unsafeInterleaveIO $ do s <- N.recv sock defaultChunkSize if S.null s then shutdown sock ShutdownReceive >> return Empty else Chunk s `liftM` loop -- | Receive data from the socket. The socket must be in a connected -- state. This function may return fewer bytes than specified. If -- the received data is longer than the specified length, it may be -- discarded depending on the type of socket. This function may block -- until a message arrives. -- -- If there is no more data to be received, returns an empty 'ByteString'. recv :: Socket -- ^ Connected socket -> Int64 -- ^ Maximum number of bytes to receive -> IO ByteString -- ^ Data received recv sock nbytes = chunk `liftM` N.recv sock (fromIntegral nbytes) where chunk k | S.null k = Empty | otherwise = Chunk k Empty