{-# LINE 1 "Network/Socket/Types.hsc" #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}


#include "HsNetDef.h"

module Network.Socket.Types (
    -- * Socket type
      Socket
    , fdSocket
    , mkSocket
    , invalidateSocket
    , close
    , close'
    , c_close
    -- * Types of socket
    , SocketType(..)
    , isSupportedSocketType
    , packSocketType
    , packSocketType'
    , packSocketTypeOrThrow
    , unpackSocketType
    , unpackSocketType'

    -- * Family
    , Family(..)
    , isSupportedFamily
    , packFamily
    , unpackFamily

    -- * Socket address typeclass
    , SocketAddress(..)
    , withSocketAddress
    , withNewSocketAddress

    -- * Socket address type
    , SockAddr(..)
    , isSupportedSockAddr
    , HostAddress
    , hostAddressToTuple
    , tupleToHostAddress
    , HostAddress6
    , hostAddress6ToTuple
    , tupleToHostAddress6
    , FlowInfo
    , ScopeID
    , peekSockAddr
    , pokeSockAddr
    , withSockAddr

    -- * Unsorted
    , ProtocolNumber
    , defaultProtocol
    , PortNumber
    , defaultPort

    -- * Low-level helpers
    , zeroMemory
    , htonl
    , ntohl
    ) where

import Control.Monad (when)
import Data.IORef (IORef, newIORef, readIORef, atomicModifyIORef', mkWeakIORef)
import Foreign.C.Error (throwErrno)
import Foreign.Marshal.Alloc
import GHC.Conc (closeFdWith)
import System.Posix.Types (Fd)
import Control.DeepSeq (NFData (..))


{-# LINE 75 "Network/Socket/Types.hsc" #-}
import Foreign.Marshal.Array

{-# LINE 77 "Network/Socket/Types.hsc" #-}

import Network.Socket.Imports

-----------------------------------------------------------------------------

-- | Basic type for a socket.
data Socket = Socket !(IORef CInt) !CInt {- for Show -}

instance Show Socket where
    show (Socket _ ofd) = "<socket: " ++ show ofd ++ ">"

instance Eq Socket where
    Socket ref1 _ == Socket ref2 _ = ref1 == ref2

-- | Getting a file descriptor from a socket.
--
--   If a 'Socket' is shared with multiple threads and
--   one uses 'fdSocket', unexpected issues may happen.
--   Consider the following scenario:
--
--   1) Thread A acquires a 'Fd' from 'Socket' by 'fdSocket'.
--
--   2) Thread B close the 'Socket'.
--
--   3) Thread C opens a new 'Socket'. Unfortunately it gets the same 'Fd'
--      number which thread A is holding.
--
--   In this case, it is safer for Thread A to clone 'Fd' by
--   'System.Posix.IO.dup'. But this would still suffer from
--   a rase condition between 'fdSocket' and 'close'.
fdSocket :: Socket -> IO CInt
fdSocket (Socket ref _) = readIORef ref

-- | Creating a socket from a file descriptor.
mkSocket :: CInt -> IO Socket
mkSocket fd = do
    ref <- newIORef fd
    let s = Socket ref fd
    void $ mkWeakIORef ref $ close s
    return s

invalidSocket :: CInt

{-# LINE 122 "Network/Socket/Types.hsc" #-}
invalidSocket = -1

{-# LINE 124 "Network/Socket/Types.hsc" #-}

invalidateSocket ::
      Socket
   -> (CInt -> IO a)
   -> (CInt -> IO a)
   -> IO a
invalidateSocket (Socket ref _) errorAction normalAction = do
    oldfd <- atomicModifyIORef' ref $ \cur -> (invalidSocket, cur)
    if oldfd == invalidSocket then errorAction oldfd else normalAction oldfd

-----------------------------------------------------------------------------

-- | Close the socket. This function does not throw exceptions even if
--   the underlying system call returns errors.
--
--   Sending data to or receiving data from closed socket
--   may lead to undefined behaviour.
--
--   If multiple threads use the same socket and one uses 'fdSocket' and
--   the other use 'close', unexpected behavior may happen.
--   For more information, please refer to the documentation of 'fdSocket'.
close :: Socket -> IO ()
close s = invalidateSocket s (\_ -> return ()) $ \oldfd -> do
    -- closeFdWith avoids the deadlock of IO manager.
    closeFdWith closeFd (toFd oldfd)
  where
    toFd :: CInt -> Fd
    toFd = fromIntegral
    -- closeFd ignores the return value of c_close and
    -- does not throw exceptions
    closeFd :: Fd -> IO ()
    closeFd = void . c_close . fromIntegral

-- | Close the socket. This function throws exceptions if
--   the underlying system call returns errors.
--
--   Sending data to or receiving data from closed socket
--   may lead to undefined behaviour.
close' :: Socket -> IO ()
close' s = invalidateSocket s (\_ -> return ()) $ \oldfd -> do
    -- closeFdWith avoids the deadlock of IO manager.
    closeFdWith closeFd (toFd oldfd)
  where
    toFd :: CInt -> Fd
    toFd = fromIntegral
    closeFd :: Fd -> IO ()
    closeFd fd = do
        ret <- c_close $ fromIntegral fd
        when (ret == -1) $ throwErrno "Network.Socket.close'"


{-# LINE 178 "Network/Socket/Types.hsc" #-}
foreign import ccall unsafe "close"
  c_close :: CInt -> IO CInt

{-# LINE 181 "Network/Socket/Types.hsc" #-}

-----------------------------------------------------------------------------

-- | Protocl number.
type ProtocolNumber = CInt

-- | This is the default protocol for a given service.
--
-- >>> defaultProtocol
-- 0
defaultProtocol :: ProtocolNumber
defaultProtocol = 0

-----------------------------------------------------------------------------
-- Socket types

-- There are a few possible ways to do this.  The first is convert the
-- structs used in the C library into an equivalent Haskell type. An
-- other possible implementation is to keep all the internals in the C
-- code and use an Int## and a status flag. The second method is used
-- here since a lot of the C structures are not required to be
-- manipulated.

-- Originally the status was non-mutable so we had to return a new
-- socket each time we changed the status.  This version now uses
-- mutable variables to avoid the need to do this.  The result is a
-- cleaner interface and better security since the application
-- programmer now can't circumvent the status information to perform
-- invalid operations on sockets.

-- | Socket Types.
--
-- The existence of a constructor does not necessarily imply that that
-- socket type is supported on your system: see 'isSupportedSocketType'.
data SocketType
        = NoSocketType -- ^ 0, used in getAddrInfo hints, for example
        | Stream -- ^ SOCK_STREAM
        | Datagram -- ^ SOCK_DGRAM
        | Raw -- ^ SOCK_RAW
        | RDM -- ^ SOCK_RDM
        | SeqPacket -- ^ SOCK_SEQPACKET
        deriving (Eq, Ord, Read, Show, Typeable)

-- | Does the SOCK_ constant corresponding to the given SocketType exist on
-- this system?
isSupportedSocketType :: SocketType -> Bool
isSupportedSocketType = isJust . packSocketType'

-- | Find the SOCK_ constant corresponding to the SocketType value.
packSocketType' :: SocketType -> Maybe CInt
packSocketType' stype = case Just stype of
    -- the Just above is to disable GHC's overlapping pattern
    -- detection: see comments for packSocketOption
    Just NoSocketType -> Just 0

{-# LINE 236 "Network/Socket/Types.hsc" #-}
    Just Stream -> Just 1
{-# LINE 237 "Network/Socket/Types.hsc" #-}

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    Just Datagram -> Just 2
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    Just Raw -> Just 3
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{-# LINE 244 "Network/Socket/Types.hsc" #-}

{-# LINE 245 "Network/Socket/Types.hsc" #-}
    Just RDM -> Just 4
{-# LINE 246 "Network/Socket/Types.hsc" #-}

{-# LINE 247 "Network/Socket/Types.hsc" #-}

{-# LINE 248 "Network/Socket/Types.hsc" #-}
    Just SeqPacket -> Just 5
{-# LINE 249 "Network/Socket/Types.hsc" #-}

{-# LINE 250 "Network/Socket/Types.hsc" #-}
    _ -> Nothing

packSocketType :: SocketType -> CInt
packSocketType stype = fromMaybe (error errMsg) (packSocketType' stype)
  where
    errMsg = concat ["Network.Socket.packSocketType: ",
                     "socket type ", show stype, " unsupported on this system"]

-- | Try packSocketType' on the SocketType, if it fails throw an error with
-- message starting "Network.Socket." ++ the String parameter
packSocketTypeOrThrow :: String -> SocketType -> IO CInt
packSocketTypeOrThrow caller stype = maybe err return (packSocketType' stype)
 where
  err = ioError . userError . concat $ ["Network.Socket.", caller, ": ",
    "socket type ", show stype, " unsupported on this system"]


unpackSocketType:: CInt -> Maybe SocketType
unpackSocketType t = case t of
        0 -> Just NoSocketType

{-# LINE 271 "Network/Socket/Types.hsc" #-}
        (1) -> Just Stream
{-# LINE 272 "Network/Socket/Types.hsc" #-}

{-# LINE 273 "Network/Socket/Types.hsc" #-}

{-# LINE 274 "Network/Socket/Types.hsc" #-}
        (2) -> Just Datagram
{-# LINE 275 "Network/Socket/Types.hsc" #-}

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        (3) -> Just Raw
{-# LINE 278 "Network/Socket/Types.hsc" #-}

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{-# LINE 280 "Network/Socket/Types.hsc" #-}
        (4) -> Just RDM
{-# LINE 281 "Network/Socket/Types.hsc" #-}

{-# LINE 282 "Network/Socket/Types.hsc" #-}

{-# LINE 283 "Network/Socket/Types.hsc" #-}
        (5) -> Just SeqPacket
{-# LINE 284 "Network/Socket/Types.hsc" #-}

{-# LINE 285 "Network/Socket/Types.hsc" #-}
        _ -> Nothing

-- | Try unpackSocketType on the CInt, if it fails throw an error with
-- message starting "Network.Socket." ++ the String parameter
unpackSocketType' :: String -> CInt -> IO SocketType
unpackSocketType' caller ty = maybe err return (unpackSocketType ty)
 where
  err = ioError . userError . concat $ ["Network.Socket.", caller, ": ",
    "socket type ", show ty, " unsupported on this system"]

------------------------------------------------------------------------
-- Protocol Families.

-- | Address families.
--
-- A constructor being present here does not mean it is supported by the
-- operating system: see 'isSupportedFamily'.
data Family
    = AF_UNSPEC           -- ^ unspecified
    | AF_UNIX             -- ^ UNIX-domain
    | AF_INET             -- ^ Internet Protocol version 4
    | AF_INET6            -- ^ Internet Protocol version 6
    | AF_IMPLINK          -- ^ Arpanet imp addresses
    | AF_PUP              -- ^ pup protocols: e.g. BSP
    | AF_CHAOS            -- ^ mit CHAOS protocols
    | AF_NS               -- ^ XEROX NS protocols
    | AF_NBS              -- ^ nbs protocols
    | AF_ECMA             -- ^ european computer manufacturers
    | AF_DATAKIT          -- ^ datakit protocols
    | AF_CCITT            -- ^ CCITT protocols, X.25 etc
    | AF_SNA              -- ^ IBM SNA
    | AF_DECnet           -- ^ DECnet
    | AF_DLI              -- ^ Direct data link interface
    | AF_LAT              -- ^ LAT
    | AF_HYLINK           -- ^ NSC Hyperchannel
    | AF_APPLETALK        -- ^ Apple Talk
    | AF_ROUTE            -- ^ Internal Routing Protocol (aka AF_NETLINK)
    | AF_NETBIOS          -- ^ NetBios-style addresses
    | AF_NIT              -- ^ Network Interface Tap
    | AF_802              -- ^ IEEE 802.2, also ISO 8802
    | AF_ISO              -- ^ ISO protocols
    | AF_OSI              -- ^ umbrella of all families used by OSI
    | AF_NETMAN           -- ^ DNA Network Management
    | AF_X25              -- ^ CCITT X.25
    | AF_AX25             -- ^ AX25
    | AF_OSINET           -- ^ AFI
    | AF_GOSSIP           -- ^ US Government OSI
    | AF_IPX              -- ^ Novell Internet Protocol
    | Pseudo_AF_XTP       -- ^ eXpress Transfer Protocol (no AF)
    | AF_CTF              -- ^ Common Trace Facility
    | AF_WAN              -- ^ Wide Area Network protocols
    | AF_SDL              -- ^ SGI Data Link for DLPI
    | AF_NETWARE          -- ^ Netware
    | AF_NDD              -- ^ NDD
    | AF_INTF             -- ^ Debugging use only
    | AF_COIP             -- ^ connection-oriented IP, aka ST II
    | AF_CNT              -- ^ Computer Network Technology
    | Pseudo_AF_RTIP      -- ^ Help Identify RTIP packets
    | Pseudo_AF_PIP       -- ^ Help Identify PIP packets
    | AF_SIP              -- ^ Simple Internet Protocol
    | AF_ISDN             -- ^ Integrated Services Digital Network
    | Pseudo_AF_KEY       -- ^ Internal key-management function
    | AF_NATM             -- ^ native ATM access
    | AF_ARP              -- ^ ARP (RFC 826)
    | Pseudo_AF_HDRCMPLT  -- ^ Used by BPF to not rewrite hdrs in iface output
    | AF_ENCAP            -- ^ ENCAP
    | AF_LINK             -- ^ Link layer interface
    | AF_RAW              -- ^ Link layer interface
    | AF_RIF              -- ^ raw interface
    | AF_NETROM           -- ^ Amateur radio NetROM
    | AF_BRIDGE           -- ^ multiprotocol bridge
    | AF_ATMPVC           -- ^ ATM PVCs
    | AF_ROSE             -- ^ Amateur Radio X.25 PLP
    | AF_NETBEUI          -- ^ Netbeui 802.2LLC
    | AF_SECURITY         -- ^ Security callback pseudo AF
    | AF_PACKET           -- ^ Packet family
    | AF_ASH              -- ^ Ash
    | AF_ECONET           -- ^ Acorn Econet
    | AF_ATMSVC           -- ^ ATM SVCs
    | AF_IRDA             -- ^ IRDA sockets
    | AF_PPPOX            -- ^ PPPoX sockets
    | AF_WANPIPE          -- ^ Wanpipe API sockets
    | AF_BLUETOOTH        -- ^ bluetooth sockets
    | AF_CAN              -- ^ Controller Area Network
      deriving (Eq, Ord, Read, Show)

-- | Converting 'Family' to 'CInt'.
packFamily :: Family -> CInt
packFamily f = case packFamily' f of
    Just fam -> fam
    Nothing -> error $
               "Network.Socket.packFamily: unsupported address family: " ++
               show f

-- | Does the AF_ constant corresponding to the given family exist on this
-- system?
isSupportedFamily :: Family -> Bool
isSupportedFamily = isJust . packFamily'

packFamily' :: Family -> Maybe CInt
packFamily' f = case Just f of
    -- the Just above is to disable GHC's overlapping pattern
    -- detection: see comments for packSocketOption
    Just AF_UNSPEC -> Just 0
{-# LINE 389 "Network/Socket/Types.hsc" #-}

{-# LINE 390 "Network/Socket/Types.hsc" #-}
    Just AF_UNIX -> Just 1
{-# LINE 391 "Network/Socket/Types.hsc" #-}

{-# LINE 392 "Network/Socket/Types.hsc" #-}

{-# LINE 393 "Network/Socket/Types.hsc" #-}
    Just AF_INET -> Just 2
{-# LINE 394 "Network/Socket/Types.hsc" #-}

{-# LINE 395 "Network/Socket/Types.hsc" #-}

{-# LINE 396 "Network/Socket/Types.hsc" #-}
    Just AF_INET6 -> Just 10
{-# LINE 397 "Network/Socket/Types.hsc" #-}

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    Just AF_SNA -> Just 22
{-# LINE 424 "Network/Socket/Types.hsc" #-}

{-# LINE 425 "Network/Socket/Types.hsc" #-}

{-# LINE 426 "Network/Socket/Types.hsc" #-}
    Just AF_DECnet -> Just 12
{-# LINE 427 "Network/Socket/Types.hsc" #-}

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    Just AF_APPLETALK -> Just 5
{-# LINE 439 "Network/Socket/Types.hsc" #-}

{-# LINE 440 "Network/Socket/Types.hsc" #-}

{-# LINE 441 "Network/Socket/Types.hsc" #-}
    Just AF_ROUTE -> Just 16
{-# LINE 442 "Network/Socket/Types.hsc" #-}

{-# LINE 443 "Network/Socket/Types.hsc" #-}

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    Just AF_X25 -> Just 9
{-# LINE 463 "Network/Socket/Types.hsc" #-}

{-# LINE 464 "Network/Socket/Types.hsc" #-}

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    Just AF_AX25 -> Just 3
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    Just AF_IPX -> Just 4
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    Just AF_ISDN -> Just 34
{-# LINE 514 "Network/Socket/Types.hsc" #-}

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    Just AF_NETROM -> Just 6
{-# LINE 541 "Network/Socket/Types.hsc" #-}

{-# LINE 542 "Network/Socket/Types.hsc" #-}

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    Just AF_BRIDGE -> Just 7
{-# LINE 544 "Network/Socket/Types.hsc" #-}

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    Just AF_ATMPVC -> Just 8
{-# LINE 547 "Network/Socket/Types.hsc" #-}

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    Just AF_ROSE -> Just 11
{-# LINE 550 "Network/Socket/Types.hsc" #-}

{-# LINE 551 "Network/Socket/Types.hsc" #-}

{-# LINE 552 "Network/Socket/Types.hsc" #-}
    Just AF_NETBEUI -> Just 13
{-# LINE 553 "Network/Socket/Types.hsc" #-}

{-# LINE 554 "Network/Socket/Types.hsc" #-}

{-# LINE 555 "Network/Socket/Types.hsc" #-}
    Just AF_SECURITY -> Just 14
{-# LINE 556 "Network/Socket/Types.hsc" #-}

{-# LINE 557 "Network/Socket/Types.hsc" #-}

{-# LINE 558 "Network/Socket/Types.hsc" #-}
    Just AF_PACKET -> Just 17
{-# LINE 559 "Network/Socket/Types.hsc" #-}

{-# LINE 560 "Network/Socket/Types.hsc" #-}

{-# LINE 561 "Network/Socket/Types.hsc" #-}
    Just AF_ASH -> Just 18
{-# LINE 562 "Network/Socket/Types.hsc" #-}

{-# LINE 563 "Network/Socket/Types.hsc" #-}

{-# LINE 564 "Network/Socket/Types.hsc" #-}
    Just AF_ECONET -> Just 19
{-# LINE 565 "Network/Socket/Types.hsc" #-}

{-# LINE 566 "Network/Socket/Types.hsc" #-}

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    Just AF_ATMSVC -> Just 20
{-# LINE 568 "Network/Socket/Types.hsc" #-}

{-# LINE 569 "Network/Socket/Types.hsc" #-}

{-# LINE 570 "Network/Socket/Types.hsc" #-}
    Just AF_IRDA -> Just 23
{-# LINE 571 "Network/Socket/Types.hsc" #-}

{-# LINE 572 "Network/Socket/Types.hsc" #-}

{-# LINE 573 "Network/Socket/Types.hsc" #-}
    Just AF_PPPOX -> Just 24
{-# LINE 574 "Network/Socket/Types.hsc" #-}

{-# LINE 575 "Network/Socket/Types.hsc" #-}

{-# LINE 576 "Network/Socket/Types.hsc" #-}
    Just AF_WANPIPE -> Just 25
{-# LINE 577 "Network/Socket/Types.hsc" #-}

{-# LINE 578 "Network/Socket/Types.hsc" #-}

{-# LINE 579 "Network/Socket/Types.hsc" #-}
    Just AF_BLUETOOTH -> Just 31
{-# LINE 580 "Network/Socket/Types.hsc" #-}

{-# LINE 581 "Network/Socket/Types.hsc" #-}

{-# LINE 582 "Network/Socket/Types.hsc" #-}
    Just AF_CAN -> Just 29
{-# LINE 583 "Network/Socket/Types.hsc" #-}

{-# LINE 584 "Network/Socket/Types.hsc" #-}
    _ -> Nothing

--------- ----------

-- | Converting 'CInt' to 'Family'.
unpackFamily :: CInt -> Family
unpackFamily f = case f of
        (0) -> AF_UNSPEC
{-# LINE 592 "Network/Socket/Types.hsc" #-}

{-# LINE 593 "Network/Socket/Types.hsc" #-}
        (1) -> AF_UNIX
{-# LINE 594 "Network/Socket/Types.hsc" #-}

{-# LINE 595 "Network/Socket/Types.hsc" #-}

{-# LINE 596 "Network/Socket/Types.hsc" #-}
        (2) -> AF_INET
{-# LINE 597 "Network/Socket/Types.hsc" #-}

{-# LINE 598 "Network/Socket/Types.hsc" #-}

{-# LINE 599 "Network/Socket/Types.hsc" #-}
        (10) -> AF_INET6
{-# LINE 600 "Network/Socket/Types.hsc" #-}

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        (22) -> AF_SNA
{-# LINE 627 "Network/Socket/Types.hsc" #-}

{-# LINE 628 "Network/Socket/Types.hsc" #-}

{-# LINE 629 "Network/Socket/Types.hsc" #-}
        (12) -> AF_DECnet
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        (5) -> AF_APPLETALK
{-# LINE 642 "Network/Socket/Types.hsc" #-}

{-# LINE 643 "Network/Socket/Types.hsc" #-}

{-# LINE 644 "Network/Socket/Types.hsc" #-}
        (16) -> AF_ROUTE
{-# LINE 645 "Network/Socket/Types.hsc" #-}

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        (9) -> AF_X25
{-# LINE 668 "Network/Socket/Types.hsc" #-}

{-# LINE 669 "Network/Socket/Types.hsc" #-}

{-# LINE 670 "Network/Socket/Types.hsc" #-}
        (3) -> AF_AX25
{-# LINE 671 "Network/Socket/Types.hsc" #-}

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{-# LINE 675 "Network/Socket/Types.hsc" #-}

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{-# LINE 679 "Network/Socket/Types.hsc" #-}
        (4) -> AF_IPX
{-# LINE 680 "Network/Socket/Types.hsc" #-}

{-# LINE 681 "Network/Socket/Types.hsc" #-}

{-# LINE 684 "Network/Socket/Types.hsc" #-}

{-# LINE 687 "Network/Socket/Types.hsc" #-}

{-# LINE 690 "Network/Socket/Types.hsc" #-}

{-# LINE 693 "Network/Socket/Types.hsc" #-}

{-# LINE 696 "Network/Socket/Types.hsc" #-}

{-# LINE 699 "Network/Socket/Types.hsc" #-}

{-# LINE 702 "Network/Socket/Types.hsc" #-}

{-# LINE 705 "Network/Socket/Types.hsc" #-}

{-# LINE 708 "Network/Socket/Types.hsc" #-}

{-# LINE 711 "Network/Socket/Types.hsc" #-}

{-# LINE 714 "Network/Socket/Types.hsc" #-}

{-# LINE 717 "Network/Socket/Types.hsc" #-}

{-# LINE 718 "Network/Socket/Types.hsc" #-}
        (34) -> AF_ISDN
{-# LINE 719 "Network/Socket/Types.hsc" #-}

{-# LINE 720 "Network/Socket/Types.hsc" #-}

{-# LINE 723 "Network/Socket/Types.hsc" #-}

{-# LINE 726 "Network/Socket/Types.hsc" #-}

{-# LINE 729 "Network/Socket/Types.hsc" #-}

{-# LINE 732 "Network/Socket/Types.hsc" #-}

{-# LINE 735 "Network/Socket/Types.hsc" #-}

{-# LINE 738 "Network/Socket/Types.hsc" #-}

{-# LINE 741 "Network/Socket/Types.hsc" #-}

{-# LINE 744 "Network/Socket/Types.hsc" #-}

{-# LINE 745 "Network/Socket/Types.hsc" #-}
        (6) -> AF_NETROM
{-# LINE 746 "Network/Socket/Types.hsc" #-}

{-# LINE 747 "Network/Socket/Types.hsc" #-}

{-# LINE 748 "Network/Socket/Types.hsc" #-}
        (7) -> AF_BRIDGE
{-# LINE 749 "Network/Socket/Types.hsc" #-}

{-# LINE 750 "Network/Socket/Types.hsc" #-}

{-# LINE 751 "Network/Socket/Types.hsc" #-}
        (8) -> AF_ATMPVC
{-# LINE 752 "Network/Socket/Types.hsc" #-}

{-# LINE 753 "Network/Socket/Types.hsc" #-}

{-# LINE 754 "Network/Socket/Types.hsc" #-}
        (11) -> AF_ROSE
{-# LINE 755 "Network/Socket/Types.hsc" #-}

{-# LINE 756 "Network/Socket/Types.hsc" #-}

{-# LINE 757 "Network/Socket/Types.hsc" #-}
        (13) -> AF_NETBEUI
{-# LINE 758 "Network/Socket/Types.hsc" #-}

{-# LINE 759 "Network/Socket/Types.hsc" #-}

{-# LINE 760 "Network/Socket/Types.hsc" #-}
        (14) -> AF_SECURITY
{-# LINE 761 "Network/Socket/Types.hsc" #-}

{-# LINE 762 "Network/Socket/Types.hsc" #-}

{-# LINE 763 "Network/Socket/Types.hsc" #-}
        (17) -> AF_PACKET
{-# LINE 764 "Network/Socket/Types.hsc" #-}

{-# LINE 765 "Network/Socket/Types.hsc" #-}

{-# LINE 766 "Network/Socket/Types.hsc" #-}
        (18) -> AF_ASH
{-# LINE 767 "Network/Socket/Types.hsc" #-}

{-# LINE 768 "Network/Socket/Types.hsc" #-}

{-# LINE 769 "Network/Socket/Types.hsc" #-}
        (19) -> AF_ECONET
{-# LINE 770 "Network/Socket/Types.hsc" #-}

{-# LINE 771 "Network/Socket/Types.hsc" #-}

{-# LINE 772 "Network/Socket/Types.hsc" #-}
        (20) -> AF_ATMSVC
{-# LINE 773 "Network/Socket/Types.hsc" #-}

{-# LINE 774 "Network/Socket/Types.hsc" #-}

{-# LINE 775 "Network/Socket/Types.hsc" #-}
        (23) -> AF_IRDA
{-# LINE 776 "Network/Socket/Types.hsc" #-}

{-# LINE 777 "Network/Socket/Types.hsc" #-}

{-# LINE 778 "Network/Socket/Types.hsc" #-}
        (24) -> AF_PPPOX
{-# LINE 779 "Network/Socket/Types.hsc" #-}

{-# LINE 780 "Network/Socket/Types.hsc" #-}

{-# LINE 781 "Network/Socket/Types.hsc" #-}
        (25) -> AF_WANPIPE
{-# LINE 782 "Network/Socket/Types.hsc" #-}

{-# LINE 783 "Network/Socket/Types.hsc" #-}

{-# LINE 784 "Network/Socket/Types.hsc" #-}
        (31) -> AF_BLUETOOTH
{-# LINE 785 "Network/Socket/Types.hsc" #-}

{-# LINE 786 "Network/Socket/Types.hsc" #-}

{-# LINE 787 "Network/Socket/Types.hsc" #-}
        (29) -> AF_CAN
{-# LINE 788 "Network/Socket/Types.hsc" #-}

{-# LINE 789 "Network/Socket/Types.hsc" #-}
        unknown -> error $
          "Network.Socket.Types.unpackFamily: unknown address family: " ++
          show unknown

------------------------------------------------------------------------
-- Port Numbers

-- | Port number.
--   Use the @Num@ instance (i.e. use a literal) to create a
--   @PortNumber@ value.
--
-- >>> 1 :: PortNumber
-- 1
-- >>> read "1" :: PortNumber
-- 1
-- >>> show (12345 :: PortNumber)
-- "12345"
-- >>> 50000 < (51000 :: PortNumber)
-- True
-- >>> 50000 < (52000 :: PortNumber)
-- True
-- >>> 50000 + (10000 :: PortNumber)
-- 60000
newtype PortNumber = PortNum Word16 deriving (Eq, Ord, Typeable, Num, Enum, Real, Integral)

-- Print "n" instead of "PortNum n".
instance Show PortNumber where
  showsPrec p (PortNum pn) = showsPrec p (fromIntegral pn :: Int)

-- Read "n" instead of "PortNum n".
instance Read PortNumber where
  readsPrec n = map (\(x,y) -> (fromIntegral (x :: Int), y)) . readsPrec n

foreign import CALLCONV unsafe "ntohs" ntohs :: Word16 -> Word16
foreign import CALLCONV unsafe "htons" htons :: Word16 -> Word16
-- | Converts the from host byte order to network byte order.
foreign import CALLCONV unsafe "htonl" htonl :: Word32 -> Word32
-- | Converts the from network byte order to host byte order.
foreign import CALLCONV unsafe "ntohl" ntohl :: Word32 -> Word32
{-# DEPRECATED htonl "Use getAddrInfo instead" #-}
{-# DEPRECATED ntohl "Use getAddrInfo instead" #-}

instance Storable PortNumber where
   sizeOf    _ = sizeOf    (undefined :: Word16)
   alignment _ = alignment (undefined :: Word16)
   poke p (PortNum po) = poke (castPtr p) (htons po)
   peek p = PortNum . ntohs <$> peek (castPtr p)

-- | Default port number.
--
-- >>> defaultPort
-- 0
defaultPort :: PortNumber
defaultPort = 0

------------------------------------------------------------------------

-- | The core typeclass to unify socket addresses.
class SocketAddress sa where
    sizeOfSocketAddress :: sa -> Int
    peekSocketAddress :: Ptr sa -> IO sa
    pokeSocketAddress  :: Ptr a -> sa -> IO ()

-- sizeof(struct sockaddr_storage) which has enough space to contain
-- sockaddr_in, sockaddr_in6 and sockaddr_un.
sockaddrStorageLen :: Int
sockaddrStorageLen = 128

withSocketAddress :: SocketAddress sa => sa -> (Ptr sa -> Int -> IO a) -> IO a
withSocketAddress addr f = do
    let sz = sizeOfSocketAddress addr
    allocaBytes sz $ \p -> pokeSocketAddress p addr >> f (castPtr p) sz

withNewSocketAddress :: SocketAddress sa => (Ptr sa -> Int -> IO a) -> IO a
withNewSocketAddress f = allocaBytes sockaddrStorageLen $ \ptr -> do
    zeroMemory ptr $ fromIntegral sockaddrStorageLen
    f ptr sockaddrStorageLen

------------------------------------------------------------------------
-- Socket addresses

-- The scheme used for addressing sockets is somewhat quirky. The
-- calls in the BSD socket API that need to know the socket address
-- all operate in terms of struct sockaddr, a `virtual' type of
-- socket address.

-- The Internet family of sockets are addressed as struct sockaddr_in,
-- so when calling functions that operate on struct sockaddr, we have
-- to type cast the Internet socket address into a struct sockaddr.
-- Instances of the structure for different families might *not* be
-- the same size. Same casting is required of other families of
-- sockets such as Xerox NS. Similarly for UNIX-domain sockets.

-- To represent these socket addresses in Haskell-land, we do what BSD
-- didn't do, and use a union/algebraic type for the different
-- families. Currently only UNIX-domain sockets and the Internet
-- families are supported.

-- | Flow information.
type FlowInfo = Word32
-- | Scope identifier.
type ScopeID = Word32

-- | Socket addresses.
--  The existence of a constructor does not necessarily imply that
--  that socket address type is supported on your system: see
-- 'isSupportedSockAddr'.
data SockAddr
  = SockAddrInet
        !PortNumber      -- sin_port
        !HostAddress     -- sin_addr  (ditto)
  | SockAddrInet6
        !PortNumber      -- sin6_port
        !FlowInfo        -- sin6_flowinfo (ditto)
        !HostAddress6    -- sin6_addr (ditto)
        !ScopeID         -- sin6_scope_id (ditto)
  -- | 'String' must be a list of 0-255 values and its length should be less than 104.
  | SockAddrUnix
        String           -- sun_path
  deriving (Eq, Ord, Typeable)

instance NFData SockAddr where
  rnf (SockAddrInet _ _) = ()
  rnf (SockAddrInet6 _ _ _ _) = ()
  rnf (SockAddrUnix str) = rnf str

-- | Is the socket address type supported on this system?
isSupportedSockAddr :: SockAddr -> Bool
isSupportedSockAddr addr = case addr of
  SockAddrInet{}  -> True
  SockAddrInet6{} -> True

{-# LINE 921 "Network/Socket/Types.hsc" #-}
  SockAddrUnix{}  -> True

{-# LINE 925 "Network/Socket/Types.hsc" #-}

instance SocketAddress SockAddr where
    sizeOfSocketAddress = sizeOfSockAddr
    peekSocketAddress   = peekSockAddr
    pokeSocketAddress   = pokeSockAddr


{-# LINE 936 "Network/Socket/Types.hsc" #-}
type CSaFamily = (Word16)
{-# LINE 937 "Network/Socket/Types.hsc" #-}

{-# LINE 938 "Network/Socket/Types.hsc" #-}

-- | Computes the storage requirements (in bytes) of the given
-- 'SockAddr'.  This function differs from 'Foreign.Storable.sizeOf'
-- in that the value of the argument /is/ used.
sizeOfSockAddr :: SockAddr -> Int

{-# LINE 944 "Network/Socket/Types.hsc" #-}
sizeOfSockAddr SockAddrUnix{}  = 110
{-# LINE 945 "Network/Socket/Types.hsc" #-}

{-# LINE 948 "Network/Socket/Types.hsc" #-}
sizeOfSockAddr SockAddrInet{}  = 16
{-# LINE 949 "Network/Socket/Types.hsc" #-}
sizeOfSockAddr SockAddrInet6{} = 28
{-# LINE 950 "Network/Socket/Types.hsc" #-}

-- | Use a 'SockAddr' with a function requiring a pointer to a
-- 'SockAddr' and the length of that 'SockAddr'.
withSockAddr :: SockAddr -> (Ptr SockAddr -> Int -> IO a) -> IO a
withSockAddr addr f = do
    let sz = sizeOfSockAddr addr
    allocaBytes sz $ \p -> pokeSockAddr p addr >> f (castPtr p) sz

-- We cannot bind sun_paths longer than than the space in the sockaddr_un
-- structure, and attempting to do so could overflow the allocated storage
-- space.  This constant holds the maximum allowable path length.
--

{-# LINE 963 "Network/Socket/Types.hsc" #-}
unixPathMax :: Int
unixPathMax = 108
{-# LINE 965 "Network/Socket/Types.hsc" #-}

{-# LINE 966 "Network/Socket/Types.hsc" #-}

-- We can't write an instance of 'Storable' for 'SockAddr' because
-- @sockaddr@ is a sum type of variable size but
-- 'Foreign.Storable.sizeOf' is required to be constant.

-- Note that on Darwin, the sockaddr structure must be zeroed before
-- use.

-- | Write the given 'SockAddr' to the given memory location.
pokeSockAddr :: Ptr a -> SockAddr -> IO ()

{-# LINE 977 "Network/Socket/Types.hsc" #-}
pokeSockAddr p sa@(SockAddrUnix path) = do
    when (length path > unixPathMax) $ error "pokeSockAddr: path is too long"
    zeroMemory p $ fromIntegral $ sizeOfSockAddr sa

{-# LINE 983 "Network/Socket/Types.hsc" #-}
    ((\hsc_ptr -> pokeByteOff hsc_ptr 0)) p ((1) :: CSaFamily)
{-# LINE 984 "Network/Socket/Types.hsc" #-}
    let pathC = map castCharToCChar path
    -- the buffer is already filled with nulls.
    pokeArray (((\hsc_ptr -> hsc_ptr `plusPtr` 2)) p) pathC
{-# LINE 987 "Network/Socket/Types.hsc" #-}

{-# LINE 990 "Network/Socket/Types.hsc" #-}
pokeSockAddr p (SockAddrInet port addr) = do
    zeroMemory p (16)
{-# LINE 992 "Network/Socket/Types.hsc" #-}

{-# LINE 995 "Network/Socket/Types.hsc" #-}
    ((\hsc_ptr -> pokeByteOff hsc_ptr 0)) p ((2) :: CSaFamily)
{-# LINE 996 "Network/Socket/Types.hsc" #-}
    ((\hsc_ptr -> pokeByteOff hsc_ptr 2)) p port
{-# LINE 997 "Network/Socket/Types.hsc" #-}
    ((\hsc_ptr -> pokeByteOff hsc_ptr 4)) p addr
{-# LINE 998 "Network/Socket/Types.hsc" #-}
pokeSockAddr p (SockAddrInet6 port flow addr scope) = do
    zeroMemory p (28)
{-# LINE 1000 "Network/Socket/Types.hsc" #-}

{-# LINE 1003 "Network/Socket/Types.hsc" #-}
    ((\hsc_ptr -> pokeByteOff hsc_ptr 0)) p ((10) :: CSaFamily)
{-# LINE 1004 "Network/Socket/Types.hsc" #-}
    ((\hsc_ptr -> pokeByteOff hsc_ptr 2)) p port
{-# LINE 1005 "Network/Socket/Types.hsc" #-}
    ((\hsc_ptr -> pokeByteOff hsc_ptr 4)) p flow
{-# LINE 1006 "Network/Socket/Types.hsc" #-}
    ((\hsc_ptr -> pokeByteOff hsc_ptr 8)) p (In6Addr addr)
{-# LINE 1007 "Network/Socket/Types.hsc" #-}
    ((\hsc_ptr -> pokeByteOff hsc_ptr 24)) p scope
{-# LINE 1008 "Network/Socket/Types.hsc" #-}

-- | Read a 'SockAddr' from the given memory location.
peekSockAddr :: Ptr SockAddr -> IO SockAddr
peekSockAddr p = do
  family <- ((\hsc_ptr -> peekByteOff hsc_ptr 0)) p
{-# LINE 1013 "Network/Socket/Types.hsc" #-}
  case family :: CSaFamily of

{-# LINE 1015 "Network/Socket/Types.hsc" #-}
    (1) -> do
{-# LINE 1016 "Network/Socket/Types.hsc" #-}
        str <- peekCAString (((\hsc_ptr -> hsc_ptr `plusPtr` 2)) p)
{-# LINE 1017 "Network/Socket/Types.hsc" #-}
        return (SockAddrUnix str)

{-# LINE 1019 "Network/Socket/Types.hsc" #-}
    (2) -> do
{-# LINE 1020 "Network/Socket/Types.hsc" #-}
        addr <- ((\hsc_ptr -> peekByteOff hsc_ptr 4)) p
{-# LINE 1021 "Network/Socket/Types.hsc" #-}
        port <- ((\hsc_ptr -> peekByteOff hsc_ptr 2)) p
{-# LINE 1022 "Network/Socket/Types.hsc" #-}
        return (SockAddrInet port addr)
    (10) -> do
{-# LINE 1024 "Network/Socket/Types.hsc" #-}
        port <- ((\hsc_ptr -> peekByteOff hsc_ptr 2)) p
{-# LINE 1025 "Network/Socket/Types.hsc" #-}
        flow <- ((\hsc_ptr -> peekByteOff hsc_ptr 4)) p
{-# LINE 1026 "Network/Socket/Types.hsc" #-}
        In6Addr addr <- ((\hsc_ptr -> peekByteOff hsc_ptr 8)) p
{-# LINE 1027 "Network/Socket/Types.hsc" #-}
        scope <- ((\hsc_ptr -> peekByteOff hsc_ptr 24)) p
{-# LINE 1028 "Network/Socket/Types.hsc" #-}
        return (SockAddrInet6 port flow addr scope)
    _ -> ioError $ userError $
      "Network.Socket.Types.peekSockAddr: address family '" ++
      show family ++ "' not supported."

------------------------------------------------------------------------

-- | 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'.
type HostAddress = Word32

-- | 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.
--
{- -- prop> tow == hostAddressToTuple (tupleToHostAddress tow) -}
hostAddressToTuple :: HostAddress -> (Word8, Word8, Word8, Word8)
hostAddressToTuple ha' =
    let ha = htonl ha'
        byte i = fromIntegral (ha `shiftR` i) :: Word8
    in (byte 24, byte 16, byte 8, byte 0)

-- | Converts IPv4 quadruple to 'HostAddress'.
tupleToHostAddress :: (Word8, Word8, Word8, Word8) -> HostAddress
tupleToHostAddress (b3, b2, b1, b0) =
    let x `sl` i = fromIntegral x `shiftL` i :: Word32
    in ntohl $ (b3 `sl` 24) .|. (b2 `sl` 16) .|. (b1 `sl` 8) .|. (b0 `sl` 0)

-- | Independent of endianness. For example @::1@ is stored as @(0, 0, 0, 1)@.
--
-- For direct manipulation prefer 'hostAddress6ToTuple' and
-- 'tupleToHostAddress6'.
type HostAddress6 = (Word32, Word32, Word32, Word32)

-- | Converts 'HostAddress6' to representation-independent IPv6 octuple.
--
{- -- prop> (w1,w2,w3,w4,w5,w6,w7,w8) == hostAddress6ToTuple (tupleToHostAddress6 (w1,w2,w3,w4,w5,w6,w7,w8)) -}
hostAddress6ToTuple :: HostAddress6 -> (Word16, Word16, Word16, Word16,
                                        Word16, Word16, Word16, Word16)
hostAddress6ToTuple (w3, w2, w1, w0) =
    let high, low :: Word32 -> Word16
        high w = fromIntegral (w `shiftR` 16)
        low w = fromIntegral w
    in (high w3, low w3, high w2, low w2, high w1, low w1, high w0, low w0)

-- | Converts IPv6 octuple to 'HostAddress6'.
tupleToHostAddress6 :: (Word16, Word16, Word16, Word16,
                        Word16, Word16, Word16, Word16) -> HostAddress6
tupleToHostAddress6 (w7, w6, w5, w4, w3, w2, w1, w0) =
    let add :: Word16 -> Word16 -> Word32
        high `add` low = (fromIntegral high `shiftL` 16) .|. (fromIntegral low)
    in (w7 `add` w6, w5 `add` w4, w3 `add` w2, w1 `add` w0)

-- The peek32 and poke32 functions work around the fact that the RFCs
-- don't require 32-bit-wide address fields to be present.  We can
-- only portably rely on an 8-bit field, s6_addr.

s6_addr_offset :: Int
s6_addr_offset = ((0))
{-# LINE 1092 "Network/Socket/Types.hsc" #-}

peek32 :: Ptr a -> Int -> IO Word32
peek32 p i0 = do
    let i' = i0 * 4
        peekByte n = peekByteOff p (s6_addr_offset + i' + n) :: IO Word8
        a `sl` i = fromIntegral a `shiftL` i
    a0 <- peekByte 0
    a1 <- peekByte 1
    a2 <- peekByte 2
    a3 <- peekByte 3
    return ((a0 `sl` 24) .|. (a1 `sl` 16) .|. (a2 `sl` 8) .|. (a3 `sl` 0))

poke32 :: Ptr a -> Int -> Word32 -> IO ()
poke32 p i0 a = do
    let i' = i0 * 4
        pokeByte n = pokeByteOff p (s6_addr_offset + i' + n)
        x `sr` i = fromIntegral (x `shiftR` i) :: Word8
    pokeByte 0 (a `sr` 24)
    pokeByte 1 (a `sr` 16)
    pokeByte 2 (a `sr`  8)
    pokeByte 3 (a `sr`  0)

-- | Private newtype proxy for the Storable instance. To avoid orphan instances.
newtype In6Addr = In6Addr HostAddress6


{-# LINE 1120 "Network/Socket/Types.hsc" #-}

instance Storable In6Addr where
    sizeOf _    = 16
{-# LINE 1123 "Network/Socket/Types.hsc" #-}
    alignment _ = 4
{-# LINE 1124 "Network/Socket/Types.hsc" #-}

    peek p = do
        a <- peek32 p 0
        b <- peek32 p 1
        c <- peek32 p 2
        d <- peek32 p 3
        return $ In6Addr (a, b, c, d)

    poke p (In6Addr (a, b, c, d)) = do
        poke32 p 0 a
        poke32 p 1 b
        poke32 p 2 c
        poke32 p 3 d

------------------------------------------------------------------------
-- Helper functions

foreign import ccall unsafe "string.h" memset :: Ptr a -> CInt -> CSize -> IO ()

-- | Zero a structure.
zeroMemory :: Ptr a -> CSize -> IO ()
zeroMemory dest nbytes = memset dest 0 (fromIntegral nbytes)