Copyright | (c) The University of Glasgow 2001 |
---|---|
License | BSD-style (see the file libraries/network/LICENSE) |
Maintainer | libraries@haskell.org |
Stability | provisional |
Portability | portable |
Safe Haskell | None |
Language | Haskell98 |
The Network.Socket module is for when you want full control over sockets. Essentially the entire C socket API is exposed through this module; in general the operations follow the behaviour of the C functions of the same name (consult your favourite Unix networking book).
A higher level interface to networking operations is provided through the module Network.
Here are two minimal example programs using the TCP/IP protocol: a server that echoes all data that it receives back (servicing only one client) and a client using it.
-- Echo server program module Main (main) where import Control.Concurrent (forkFinally) import qualified Control.Exception as E import Control.Monad (unless, forever, void) import qualified Data.ByteString as S import Network.Socket hiding (recv) import Network.Socket.ByteString (recv, sendAll) main :: IO () main = withSocketsDo $ do addr <- resolve "3000" E.bracket (open addr) close loop where resolve port = do let hints = defaultHints { addrFlags = [AI_PASSIVE] , addrSocketType = Stream } addr:_ <- getAddrInfo (Just hints) Nothing (Just port) return addr open addr = do sock <- socket (addrFamily addr) (addrSocketType addr) (addrProtocol addr) setSocketOption sock ReuseAddr 1 bind sock (addrAddress addr) listen sock 10 return sock loop sock = forever $ do (conn, peer) <- accept sock putStrLn $ "Connection from " ++ show peer void $ forkFinally (talk conn) (\_ -> close conn) talk conn = do msg <- recv conn 1024 unless (S.null msg) $ do sendAll conn msg talk conn
{-# LANGUAGE OverloadedStrings #-} -- Echo client program module Main (main) where import qualified Control.Exception as E import qualified Data.ByteString.Char8 as C import Network.Socket hiding (recv) import Network.Socket.ByteString (recv, sendAll) main :: IO () main = withSocketsDo $ do addr <- resolve "127.0.0.1" "3000" E.bracket (open addr) close talk where resolve host port = do let hints = defaultHints { addrSocketType = Stream } addr:_ <- getAddrInfo (Just hints) (Just host) (Just port) return addr open addr = do sock <- socket (addrFamily addr) (addrSocketType addr) (addrProtocol addr) connect sock $ addrAddress addr return sock talk sock = do sendAll sock "Hello, world!" msg <- recv sock 1024 putStr "Received: " C.putStrLn msg
Synopsis
- data Socket = MkSocket CInt Family SocketType ProtocolNumber (MVar SocketStatus)
- data Family
- = AF_UNSPEC
- | AF_UNIX
- | AF_INET
- | AF_INET6
- | AF_IMPLINK
- | AF_PUP
- | AF_CHAOS
- | AF_NS
- | AF_NBS
- | AF_ECMA
- | AF_DATAKIT
- | AF_CCITT
- | AF_SNA
- | AF_DECnet
- | AF_DLI
- | AF_LAT
- | AF_HYLINK
- | AF_APPLETALK
- | AF_ROUTE
- | AF_NETBIOS
- | AF_NIT
- | AF_802
- | AF_ISO
- | AF_OSI
- | AF_NETMAN
- | AF_X25
- | AF_AX25
- | AF_OSINET
- | AF_GOSSIP
- | AF_IPX
- | Pseudo_AF_XTP
- | AF_CTF
- | AF_WAN
- | AF_SDL
- | AF_NETWARE
- | AF_NDD
- | AF_INTF
- | AF_COIP
- | AF_CNT
- | Pseudo_AF_RTIP
- | Pseudo_AF_PIP
- | AF_SIP
- | AF_ISDN
- | Pseudo_AF_KEY
- | AF_NATM
- | AF_ARP
- | Pseudo_AF_HDRCMPLT
- | AF_ENCAP
- | AF_LINK
- | AF_RAW
- | AF_RIF
- | AF_NETROM
- | AF_BRIDGE
- | AF_ATMPVC
- | AF_ROSE
- | AF_NETBEUI
- | AF_SECURITY
- | AF_PACKET
- | AF_ASH
- | AF_ECONET
- | AF_ATMSVC
- | AF_IRDA
- | AF_PPPOX
- | AF_WANPIPE
- | AF_BLUETOOTH
- | AF_CAN
- isSupportedFamily :: Family -> Bool
- data SocketType
- isSupportedSocketType :: SocketType -> Bool
- data SockAddr
- isSupportedSockAddr :: SockAddr -> Bool
- data SocketStatus
- type HostAddress = Word32
- hostAddressToTuple :: HostAddress -> (Word8, Word8, Word8, Word8)
- tupleToHostAddress :: (Word8, Word8, Word8, Word8) -> HostAddress
- type HostAddress6 = (Word32, Word32, Word32, Word32)
- hostAddress6ToTuple :: HostAddress6 -> (Word16, Word16, Word16, Word16, Word16, Word16, Word16, Word16)
- tupleToHostAddress6 :: (Word16, Word16, Word16, Word16, Word16, Word16, Word16, Word16) -> HostAddress6
- type FlowInfo = Word32
- type ScopeID = Word32
- htonl :: Word32 -> Word32
- ntohl :: Word32 -> Word32
- data ShutdownCmd
- type ProtocolNumber = CInt
- defaultProtocol :: ProtocolNumber
- newtype PortNumber = PortNum Word16
- type HostName = String
- type ServiceName = String
- data AddrInfo = AddrInfo {}
- data AddrInfoFlag
- addrInfoFlagImplemented :: AddrInfoFlag -> Bool
- defaultHints :: AddrInfo
- getAddrInfo :: Maybe AddrInfo -> Maybe HostName -> Maybe ServiceName -> IO [AddrInfo]
- data NameInfoFlag
- getNameInfo :: [NameInfoFlag] -> Bool -> Bool -> SockAddr -> IO (Maybe HostName, Maybe ServiceName)
- socket :: Family -> SocketType -> ProtocolNumber -> IO Socket
- socketPair :: Family -> SocketType -> ProtocolNumber -> IO (Socket, Socket)
- connect :: Socket -> SockAddr -> IO ()
- bind :: Socket -> SockAddr -> IO ()
- listen :: Socket -> Int -> IO ()
- accept :: Socket -> IO (Socket, SockAddr)
- getPeerName :: Socket -> IO SockAddr
- getSocketName :: Socket -> IO SockAddr
- getPeerCred :: Socket -> IO (CUInt, CUInt, CUInt)
- socketPort :: Socket -> IO PortNumber
- socketToHandle :: Socket -> IOMode -> IO Handle
- send :: Socket -> String -> IO Int
- sendTo :: Socket -> String -> SockAddr -> IO Int
- recv :: Socket -> Int -> IO String
- recvFrom :: Socket -> Int -> IO (String, Int, SockAddr)
- recvLen :: Socket -> Int -> IO (String, Int)
- sendBuf :: Socket -> Ptr Word8 -> Int -> IO Int
- recvBuf :: Socket -> Ptr Word8 -> Int -> IO Int
- sendBufTo :: Socket -> Ptr a -> Int -> SockAddr -> IO Int
- recvBufFrom :: Socket -> Ptr a -> Int -> IO (Int, SockAddr)
- inet_addr :: String -> IO HostAddress
- inet_ntoa :: HostAddress -> IO String
- shutdown :: Socket -> ShutdownCmd -> IO ()
- close :: Socket -> IO ()
- isConnected :: Socket -> IO Bool
- isBound :: Socket -> IO Bool
- isListening :: Socket -> IO Bool
- isReadable :: Socket -> IO Bool
- isWritable :: Socket -> IO Bool
- data SocketOption
- isSupportedSocketOption :: SocketOption -> Bool
- getSocketOption :: Socket -> SocketOption -> IO Int
- setSocketOption :: Socket -> SocketOption -> Int -> IO ()
- sendFd :: Socket -> CInt -> IO ()
- recvFd :: Socket -> IO CInt
- aNY_PORT :: PortNumber
- iNADDR_ANY :: HostAddress
- iN6ADDR_ANY :: HostAddress6
- sOMAXCONN :: Int
- sOL_SOCKET :: Int
- sCM_RIGHTS :: Int
- maxListenQueue :: Int
- withSocketsDo :: IO a -> IO a
- fdSocket :: Socket -> CInt
- mkSocket :: CInt -> Family -> SocketType -> ProtocolNumber -> SocketStatus -> IO Socket
- setNonBlockIfNeeded :: CInt -> IO ()
- bindSocket :: Socket -> SockAddr -> IO ()
- sClose :: Socket -> IO ()
- sIsConnected :: Socket -> IO Bool
- sIsBound :: Socket -> IO Bool
- sIsListening :: Socket -> IO Bool
- sIsReadable :: Socket -> IO Bool
- sIsWritable :: Socket -> IO Bool
- packFamily :: Family -> CInt
- unpackFamily :: CInt -> Family
- packSocketType :: SocketType -> CInt
Types
Represents a socket. The fields are, respectively:
- File descriptor
- Socket family
- Socket type
- Protocol number
- Status flag
If you are calling the MkSocket
constructor directly you should ensure
you have called withSocketsDo
and that the file descriptor is
in non-blocking mode. See setNonBlockIfNeeded
.
Socket
s are not GCed unless they are closed by close
.
Address families.
A constructor being present here does not mean it is supported by the
operating system: see isSupportedFamily
.
isSupportedFamily :: Family -> Bool Source #
Does the AF_ constant corresponding to the given family exist on this system?
data SocketType Source #
Socket Types.
The existence of a constructor does not necessarily imply that that
socket type is supported on your system: see isSupportedSocketType
.
NoSocketType | 0, used in getAddrInfo hints, for example |
Stream | SOCK_STREAM |
Datagram | SOCK_DGRAM |
Raw | SOCK_RAW |
RDM | SOCK_RDM |
SeqPacket | SOCK_SEQPACKET |
Instances
Eq SocketType Source # | |
Defined in Network.Socket.Types (==) :: SocketType -> SocketType -> Bool # (/=) :: SocketType -> SocketType -> Bool # | |
Ord SocketType Source # | |
Defined in Network.Socket.Types compare :: SocketType -> SocketType -> Ordering # (<) :: SocketType -> SocketType -> Bool # (<=) :: SocketType -> SocketType -> Bool # (>) :: SocketType -> SocketType -> Bool # (>=) :: SocketType -> SocketType -> Bool # max :: SocketType -> SocketType -> SocketType # min :: SocketType -> SocketType -> SocketType # | |
Read SocketType Source # | |
Defined in Network.Socket.Types readsPrec :: Int -> ReadS SocketType # readList :: ReadS [SocketType] # readPrec :: ReadPrec SocketType # readListPrec :: ReadPrec [SocketType] # | |
Show SocketType Source # | |
Defined in Network.Socket.Types showsPrec :: Int -> SocketType -> ShowS # show :: SocketType -> String # showList :: [SocketType] -> ShowS # |
isSupportedSocketType :: SocketType -> Bool Source #
Does the SOCK_ constant corresponding to the given SocketType exist on this system?
The existence of a constructor does not necessarily imply that
that socket address type is supported on your system: see
isSupportedSockAddr
.
SockAddrInet PortNumber HostAddress | |
SockAddrInet6 PortNumber FlowInfo HostAddress6 ScopeID | |
SockAddrUnix String | |
SockAddrCan Int32 | Deprecated: This will be removed in 3.0 |
isSupportedSockAddr :: SockAddr -> Bool Source #
Is the socket address type supported on this system?
data SocketStatus Source #
The status of the socket as determined by this library, not necessarily reflecting the state of the connection itself.
For example, the Closed
status is applied when the close
function is called.
NotConnected | Newly created, unconnected socket |
Bound | Bound, via |
Listening | Listening, via |
Connected | Connected or accepted, via |
ConvertedToHandle | Is now a |
Closed | Closed was closed by |
Instances
Eq SocketStatus Source # | |
Defined in Network.Socket.Types (==) :: SocketStatus -> SocketStatus -> Bool # (/=) :: SocketStatus -> SocketStatus -> Bool # | |
Show SocketStatus Source # | |
Defined in Network.Socket.Types showsPrec :: Int -> SocketStatus -> ShowS # show :: SocketStatus -> String # showList :: [SocketStatus] -> ShowS # |
type HostAddress = Word32 Source #
The raw network byte order number is read using host byte order.
Therefore on little-endian architectures the byte order is swapped. For
example 127.0.0.1
is represented as 0x0100007f
on little-endian hosts
and as 0x7f000001
on big-endian hosts.
For direct manipulation prefer hostAddressToTuple
and
tupleToHostAddress
.
hostAddressToTuple :: HostAddress -> (Word8, Word8, Word8, Word8) Source #
Converts HostAddress
to representation-independent IPv4 quadruple.
For example for 127.0.0.1
the function will return (0x7f, 0, 0, 1)
regardless of host endianness.
tupleToHostAddress :: (Word8, Word8, Word8, Word8) -> HostAddress Source #
Converts IPv4 quadruple to HostAddress
.
type HostAddress6 = (Word32, Word32, Word32, Word32) Source #
Independent of endianness. For example ::1
is stored as (0, 0, 0, 1)
.
For direct manipulation prefer hostAddress6ToTuple
and
tupleToHostAddress6
.
hostAddress6ToTuple :: HostAddress6 -> (Word16, Word16, Word16, Word16, Word16, Word16, Word16, Word16) Source #
tupleToHostAddress6 :: (Word16, Word16, Word16, Word16, Word16, Word16, Word16, Word16) -> HostAddress6 Source #
type ProtocolNumber = CInt Source #
defaultProtocol :: ProtocolNumber Source #
This is the default protocol for a given service.
newtype PortNumber Source #
Use the Num
instance (i.e. use a literal) to create a
PortNumber
value with the correct network-byte-ordering. You
should not use the PortNum constructor. It will be removed in the
next release.
>>>
1 :: PortNumber
1>>>
read "1" :: PortNumber
1
PortNum Word16 | Deprecated: Do not use the PortNum constructor. Use the Num instance. PortNum will be removed in the next release. |
Instances
Address operations
type HostName = String Source #
Either a host name e.g., "haskell.org"
or a numeric host
address string consisting of a dotted decimal IPv4 address or an
IPv6 address e.g., "192.168.0.1"
.
type ServiceName = String Source #
Instances
Eq AddrInfo Source # | |
Show AddrInfo Source # | |
Storable AddrInfo Source # | |
data AddrInfoFlag Source #
Flags that control the querying behaviour of getAddrInfo
.
For more information, see https://tools.ietf.org/html/rfc3493#page-25
AI_ADDRCONFIG | The list of returned |
AI_ALL | If |
AI_CANONNAME | The |
AI_NUMERICHOST | The |
AI_NUMERICSERV | The |
AI_PASSIVE | If no |
AI_V4MAPPED | If an IPv6 lookup is performed, and no IPv6 addresses are found, IPv6-mapped IPv4 addresses will be returned. (Only some platforms support this.) |
Instances
Eq AddrInfoFlag Source # | |
Defined in Network.Socket (==) :: AddrInfoFlag -> AddrInfoFlag -> Bool # (/=) :: AddrInfoFlag -> AddrInfoFlag -> Bool # | |
Read AddrInfoFlag Source # | |
Defined in Network.Socket readsPrec :: Int -> ReadS AddrInfoFlag # readList :: ReadS [AddrInfoFlag] # | |
Show AddrInfoFlag Source # | |
Defined in Network.Socket showsPrec :: Int -> AddrInfoFlag -> ShowS # show :: AddrInfoFlag -> String # showList :: [AddrInfoFlag] -> ShowS # |
addrInfoFlagImplemented :: AddrInfoFlag -> Bool Source #
Indicate whether the given AddrInfoFlag
will have any effect on
this system.
defaultHints :: AddrInfo Source #
Default hints for address lookup with getAddrInfo
. The values
of the addrAddress
and addrCanonName
fields are undefined
,
and are never inspected by getAddrInfo
.
>>>
addrFlags defaultHints
[]>>>
addrFamily defaultHints
AF_UNSPEC>>>
addrSocketType defaultHints
NoSocketType>>>
addrProtocol defaultHints
0
:: Maybe AddrInfo | preferred socket type or protocol |
-> Maybe HostName | host name to look up |
-> Maybe ServiceName | service name to look up |
-> IO [AddrInfo] | resolved addresses, with "best" first |
Resolve a host or service name to one or more addresses.
The AddrInfo
values that this function returns contain SockAddr
values that you can pass directly to connect
or
bind
.
This function is protocol independent. It can return both IPv4 and IPv6 address information.
The AddrInfo
argument specifies the preferred query behaviour,
socket options, or protocol. You can override these conveniently
using Haskell's record update syntax on defaultHints
, for example
as follows:
>>>
let hints = defaultHints { addrFlags = [AI_NUMERICHOST], addrSocketType = Stream }
You must provide a Just
value for at least one of the HostName
or ServiceName
arguments. HostName
can be either a numeric
network address (dotted quad for IPv4, colon-separated hex for
IPv6) or a hostname. In the latter case, its addresses will be
looked up unless AI_NUMERICHOST
is specified as a hint. If you
do not provide a HostName
value and do not set AI_PASSIVE
as
a hint, network addresses in the result will contain the address of
the loopback interface.
If the query fails, this function throws an IO exception instead of
returning an empty list. Otherwise, it returns a non-empty list
of AddrInfo
values.
There are several reasons why a query might result in several values. For example, the queried-for host could be multihomed, or the service might be available via several protocols.
Note: the order of arguments is slightly different to that defined
for getaddrinfo
in RFC 2553. The AddrInfo
parameter comes first
to make partial application easier.
>>>
addr:_ <- getAddrInfo (Just hints) (Just "127.0.0.1") (Just "http")
>>>
addrAddress addr
127.0.0.1:80
data NameInfoFlag Source #
Flags that control the querying behaviour of getNameInfo
.
For more information, see https://tools.ietf.org/html/rfc3493#page-30
NI_DGRAM | Resolve a datagram-based service name. This is required only for the few protocols that have different port numbers for their datagram-based versions than for their stream-based versions. |
NI_NAMEREQD | If the hostname cannot be looked up, an IO error is thrown. |
NI_NOFQDN | If a host is local, return only the hostname part of the FQDN. |
NI_NUMERICHOST | The name of the host is not looked up. Instead, a numeric representation of the host's address is returned. For an IPv4 address, this will be a dotted-quad string. For IPv6, it will be colon-separated hexadecimal. |
NI_NUMERICSERV | The name of the service is not looked up. Instead, a numeric representation of the service is returned. |
Instances
Eq NameInfoFlag Source # | |
Defined in Network.Socket (==) :: NameInfoFlag -> NameInfoFlag -> Bool # (/=) :: NameInfoFlag -> NameInfoFlag -> Bool # | |
Read NameInfoFlag Source # | |
Defined in Network.Socket readsPrec :: Int -> ReadS NameInfoFlag # readList :: ReadS [NameInfoFlag] # | |
Show NameInfoFlag Source # | |
Defined in Network.Socket showsPrec :: Int -> NameInfoFlag -> ShowS # show :: NameInfoFlag -> String # showList :: [NameInfoFlag] -> ShowS # |
:: [NameInfoFlag] | flags to control lookup behaviour |
-> Bool | whether to look up a hostname |
-> Bool | whether to look up a service name |
-> SockAddr | the address to look up |
-> IO (Maybe HostName, Maybe ServiceName) |
Resolve an address to a host or service name.
This function is protocol independent.
The list of NameInfoFlag
values controls query behaviour.
If a host or service's name cannot be looked up, then the numeric form of the address or service will be returned.
If the query fails, this function throws an IO exception.
Example:
(hostName, _) <- getNameInfo [] True False myAddress
Socket operations
socket :: Family -> SocketType -> ProtocolNumber -> IO Socket Source #
Create a new socket using the given address family, socket type
and protocol number. The address family is usually AF_INET
,
AF_INET6
, or AF_UNIX
. The socket type is usually Stream
or
Datagram
. The protocol number is usually defaultProtocol
.
If AF_INET6
is used and the socket type is Stream
or Datagram
,
the IPv6Only
socket option is set to 0 so that both IPv4 and IPv6
can be handled with one socket.
>>>
let hints = defaultHints { addrFlags = [AI_NUMERICHOST, AI_NUMERICSERV], addrSocketType = Stream }
>>>
addr:_ <- getAddrInfo (Just hints) (Just "127.0.0.1") (Just "5000")
>>>
sock@(MkSocket _ fam stype _ _) <- socket (addrFamily addr) (addrSocketType addr) (addrProtocol addr)
>>>
fam
AF_INET>>>
stype
Stream>>>
bind sock (addrAddress addr)
>>>
getSocketName sock
127.0.0.1:5000
socketPair :: Family -> SocketType -> ProtocolNumber -> IO (Socket, Socket) Source #
Build a pair of connected socket objects using the given address
family, socket type, and protocol number. Address family, socket
type, and protocol number are as for the socket
function above.
Availability: Unix.
listen :: Socket -> Int -> IO () Source #
Listen for connections made to the socket. The second argument specifies the maximum number of queued connections and should be at least 1; the maximum value is system-dependent (usually 5).
accept :: Socket -> IO (Socket, SockAddr) Source #
Accept a connection. The socket must be bound to an address and
listening for connections. The return value is a pair (conn,
address)
where conn
is a new socket object usable to send and
receive data on the connection, and address
is the address bound
to the socket on the other end of the connection.
getPeerCred :: Socket -> IO (CUInt, CUInt, CUInt) Source #
Returns the processID, userID and groupID of the socket's peer.
Only available on platforms that support SO_PEERCRED or GETPEEREID(3) on domain sockets. GETPEEREID(3) returns userID and groupID. processID is always 0.
socketPort :: Socket -> IO PortNumber Source #
socketToHandle :: Socket -> IOMode -> IO Handle Source #
Turns a Socket into an Handle
. By default, the new handle is
unbuffered. Use hSetBuffering
to change the buffering.
Note that since a Handle
is automatically closed by a finalizer
when it is no longer referenced, you should avoid doing any more
operations on the Socket
after calling socketToHandle
. To
close the Socket
after socketToHandle
, call hClose
on the Handle
.
Sending and receiving data
Sending and receiving with String
Do not use the send
and recv
functions defined in this section
in new code, as they incorrectly represent binary data as a Unicode
string. As a result, these functions are inefficient and may lead
to bugs in the program. Instead use the send
and recv
functions defined in the Network.Socket.ByteString module.
send :: Socket -> String -> IO Int Source #
Warning: Use send defined in Network.Socket.ByteString
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.
Sending data to closed socket may lead to undefined behaviour.
sendTo :: Socket -> String -> SockAddr -> IO Int Source #
Warning: Use sendTo defined in Network.Socket.ByteString
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.
NOTE: blocking on Windows unless you compile with -threaded (see GHC ticket #1129)
recv :: Socket -> Int -> IO String Source #
Warning: Use recv defined in Network.Socket.ByteString
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.
Receiving data from closed socket may lead to undefined behaviour.
recvFrom :: Socket -> Int -> IO (String, Int, SockAddr) Source #
Warning: Use recvFrom defined in Network.Socket.ByteString
Receive data from the socket. The socket need not be in a
connected state. Returns (bytes, nbytes, address)
where bytes
is a String
of length nbytes
representing the data received and
address
is a SockAddr
representing the address of the sending
socket.
NOTE: blocking on Windows unless you compile with -threaded (see GHC ticket #1129)
recvLen :: Socket -> Int -> IO (String, Int) Source #
Warning: Use recv defined in Network.Socket.ByteString with "Data.Bytestring.length"
Sending and receiving with a buffer
sendBuf :: Socket -> Ptr Word8 -> Int -> IO Int Source #
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.
Sending data to closed socket may lead to undefined behaviour.
recvBuf :: Socket -> Ptr Word8 -> Int -> IO Int Source #
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.
Receiving data from closed socket may lead to undefined behaviour.
sendBufTo :: Socket -> Ptr a -> Int -> SockAddr -> IO Int Source #
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.
recvBufFrom :: Socket -> Ptr a -> Int -> IO (Int, SockAddr) Source #
Receive data from the socket, writing it into buffer instead of
creating a new string. The socket need not be in a connected
state. Returns (nbytes, address)
where nbytes
is the number of
bytes received and address
is a SockAddr
representing the
address of the sending socket.
NOTE: blocking on Windows unless you compile with -threaded (see GHC ticket #1129)
Misc
shutdown :: Socket -> ShutdownCmd -> IO () Source #
Shut down one or both halves of the connection, depending on the
second argument to the function. If the second argument is
ShutdownReceive
, further receives are disallowed. If it is
ShutdownSend
, further sends are disallowed. If it is
ShutdownBoth
, further sends and receives are disallowed.
close :: Socket -> IO () Source #
Close the socket. Sending data to or receiving data from closed socket may lead to undefined behaviour.
Predicates on sockets
Socket options
data SocketOption Source #
Socket options for use with setSocketOption
and getSocketOption
.
The existence of a constructor does not imply that the relevant option
is supported on your system: see isSupportedSocketOption
Debug | SO_DEBUG |
ReuseAddr | SO_REUSEADDR |
Type | SO_TYPE |
SoError | SO_ERROR |
DontRoute | SO_DONTROUTE |
Broadcast | SO_BROADCAST |
SendBuffer | SO_SNDBUF |
RecvBuffer | SO_RCVBUF |
KeepAlive | SO_KEEPALIVE |
OOBInline | SO_OOBINLINE |
TimeToLive | IP_TTL |
MaxSegment | TCP_MAXSEG |
NoDelay | TCP_NODELAY |
Cork | TCP_CORK |
Linger | SO_LINGER |
ReusePort | SO_REUSEPORT |
RecvLowWater | SO_RCVLOWAT |
SendLowWater | SO_SNDLOWAT |
RecvTimeOut | SO_RCVTIMEO |
SendTimeOut | SO_SNDTIMEO |
UseLoopBack | SO_USELOOPBACK |
UserTimeout | TCP_USER_TIMEOUT |
IPv6Only | IPV6_V6ONLY |
CustomSockOpt (CInt, CInt) |
Instances
Show SocketOption Source # | |
Defined in Network.Socket showsPrec :: Int -> SocketOption -> ShowS # show :: SocketOption -> String # showList :: [SocketOption] -> ShowS # |
isSupportedSocketOption :: SocketOption -> Bool Source #
Does the SocketOption
exist on this system?
getSocketOption :: Socket -> SocketOption -> IO Int Source #
Get a socket option that gives an Int value. There is currently no API to get e.g. the timeval socket options
setSocketOption :: Socket -> SocketOption -> Int -> IO () Source #
Set a socket option that expects an Int value. There is currently no API to set e.g. the timeval socket options
File descriptor transmission
recvFd :: Socket -> IO CInt Source #
Receive a file descriptor over a domain socket. Note that the resulting
file descriptor may have to be put into non-blocking mode in order to be
used safely. See setNonBlockIfNeeded
.
Special constants
iNADDR_ANY :: HostAddress Source #
The IPv4 wild card address.
iN6ADDR_ANY :: HostAddress6 Source #
The IPv6 wild card address.
sOL_SOCKET :: Int Source #
sCM_RIGHTS :: Int Source #
maxListenQueue :: Int Source #
This is the value of SOMAXCONN, typically 128. 128 is good enough for normal network servers but is too small for high performance servers.
Initialisation
withSocketsDo :: IO a -> IO a Source #
With older versions of the network
library (version 2.6.0.2 or earlier)
on Windows operating systems,
the networking subsystem must be initialised using withSocketsDo
before
any networking operations can be used. eg.
main = withSocketsDo $ do {...}
It is fine to nest calls to withSocketsDo
, and to perform networking operations
after withSocketsDo
has returned.
In newer versions of the network
library (version v2.6.1.0 or later)
it is only necessary to call
withSocketsDo
if you are calling the MkSocket
constructor directly.
However, for compatibility with older versions on Windows, it is good practice
to always call withSocketsDo
(it's very cheap).
Very low level operations
mkSocket :: CInt -> Family -> SocketType -> ProtocolNumber -> SocketStatus -> IO Socket Source #
Smart constructor for constructing a Socket
. It should only be
called once for every new file descriptor. The caller must make
sure that the socket is in non-blocking mode. See
setNonBlockIfNeeded
.
setNonBlockIfNeeded :: CInt -> IO () Source #
Set the socket to nonblocking, if applicable to this platform.
Depending on the platform this is required when using sockets from file
descriptors that are passed in through recvFd
or other means.
Deprecated aliases
These aliases are deprecated and should not be used in new code. They will be removed in some future version of the package.
sIsConnected :: Socket -> IO Bool Source #
Deprecated: use isConnected
Deprecated alias for isConnected
.
sIsListening :: Socket -> IO Bool Source #
Deprecated: use isListening
Deprecated alias for isListening
.
sIsReadable :: Socket -> IO Bool Source #
Deprecated: use isReadable
Deprecated alias for isReadable
.
sIsWritable :: Socket -> IO Bool Source #
Deprecated: use isWritable
Deprecated alias for isWritable
.
Internal
The following are exported ONLY for use in the BSD module and should not be used anywhere else.
packFamily :: Family -> CInt Source #
unpackFamily :: CInt -> Family Source #
packSocketType :: SocketType -> CInt Source #