{- |
Copyright  : Will Thompson, Iñaki García Etxebarria and Jonas Platte
License    : LGPL-2.1
Maintainer : Iñaki García Etxebarria (inaki@blueleaf.cc)

A 'GI.Gio.Objects.Socket.Socket' is a low-level networking primitive. It is a more or less
direct mapping of the BSD socket API in a portable GObject based API.
It supports both the UNIX socket implementations and winsock2 on Windows.

'GI.Gio.Objects.Socket.Socket' is the platform independent base upon which the higher level
network primitives are based. Applications are not typically meant to
use it directly, but rather through classes like 'GI.Gio.Objects.SocketClient.SocketClient',
'GI.Gio.Objects.SocketService.SocketService' and 'GI.Gio.Objects.SocketConnection.SocketConnection'. However there may be cases where
direct use of 'GI.Gio.Objects.Socket.Socket' is useful.

'GI.Gio.Objects.Socket.Socket' implements the 'GI.Gio.Interfaces.Initable.Initable' interface, so if it is manually constructed
by e.g. @/g_object_new()/@ you must call 'GI.Gio.Interfaces.Initable.initableInit' and check the
results before using the object. This is done automatically in
'GI.Gio.Objects.Socket.socketNew' and 'GI.Gio.Objects.Socket.socketNewFromFd', so these functions can return
'Nothing'.

Sockets operate in two general modes, blocking or non-blocking. When
in blocking mode all operations (which don’t take an explicit blocking
parameter) block until the requested operation
is finished or there is an error. In non-blocking mode all calls that
would block return immediately with a 'GI.Gio.Enums.IOErrorEnumWouldBlock' error.
To know when a call would successfully run you can call 'GI.Gio.Objects.Socket.socketConditionCheck',
or 'GI.Gio.Objects.Socket.socketConditionWait'. You can also use @/g_socket_create_source()/@ and
attach it to a 'GI.GLib.Structs.MainContext.MainContext' to get callbacks when I\/O is possible.
Note that all sockets are always set to non blocking mode in the system, and
blocking mode is emulated in GSocket.

When working in non-blocking mode applications should always be able to
handle getting a 'GI.Gio.Enums.IOErrorEnumWouldBlock' error even when some other
function said that I\/O was possible. This can easily happen in case
of a race condition in the application, but it can also happen for other
reasons. For instance, on Windows a socket is always seen as writable
until a write returns 'GI.Gio.Enums.IOErrorEnumWouldBlock'.

@/GSockets/@ can be either connection oriented or datagram based.
For connection oriented types you must first establish a connection by
either connecting to an address or accepting a connection from another
address. For connectionless socket types the target\/source address is
specified or received in each I\/O operation.

All socket file descriptors are set to be close-on-exec.

Note that creating a 'GI.Gio.Objects.Socket.Socket' causes the signal @/SIGPIPE/@ to be
ignored for the remainder of the program. If you are writing a
command-line utility that uses 'GI.Gio.Objects.Socket.Socket', you may need to take into
account the fact that your program will not automatically be killed
if it tries to write to @/stdout/@ after it has been closed.

Like most other APIs in GLib, 'GI.Gio.Objects.Socket.Socket' is not inherently thread safe. To use
a 'GI.Gio.Objects.Socket.Socket' concurrently from multiple threads, you must implement your own
locking.

/Since: 2.22/
-}

#define ENABLE_OVERLOADING (MIN_VERSION_haskell_gi_overloading(1,0,0) \
       && !defined(__HADDOCK_VERSION__))

module GI.Gio.Objects.Socket
    (

-- * Exported types
    Socket(..)                              ,
    IsSocket                                ,
    toSocket                                ,
    noSocket                                ,


 -- * Methods
-- ** accept #method:accept#

#if ENABLE_OVERLOADING
    SocketAcceptMethodInfo                  ,
#endif
    socketAccept                            ,


-- ** bind #method:bind#

#if ENABLE_OVERLOADING
    SocketBindMethodInfo                    ,
#endif
    socketBind                              ,


-- ** checkConnectResult #method:checkConnectResult#

#if ENABLE_OVERLOADING
    SocketCheckConnectResultMethodInfo      ,
#endif
    socketCheckConnectResult                ,


-- ** close #method:close#

#if ENABLE_OVERLOADING
    SocketCloseMethodInfo                   ,
#endif
    socketClose                             ,


-- ** conditionCheck #method:conditionCheck#

#if ENABLE_OVERLOADING
    SocketConditionCheckMethodInfo          ,
#endif
    socketConditionCheck                    ,


-- ** conditionTimedWait #method:conditionTimedWait#

#if ENABLE_OVERLOADING
    SocketConditionTimedWaitMethodInfo      ,
#endif
    socketConditionTimedWait                ,


-- ** conditionWait #method:conditionWait#

#if ENABLE_OVERLOADING
    SocketConditionWaitMethodInfo           ,
#endif
    socketConditionWait                     ,


-- ** connect #method:connect#

#if ENABLE_OVERLOADING
    SocketConnectMethodInfo                 ,
#endif
    socketConnect                           ,


-- ** connectionFactoryCreateConnection #method:connectionFactoryCreateConnection#

#if ENABLE_OVERLOADING
    SocketConnectionFactoryCreateConnectionMethodInfo,
#endif
    socketConnectionFactoryCreateConnection ,


-- ** getAvailableBytes #method:getAvailableBytes#

#if ENABLE_OVERLOADING
    SocketGetAvailableBytesMethodInfo       ,
#endif
    socketGetAvailableBytes                 ,


-- ** getBlocking #method:getBlocking#

#if ENABLE_OVERLOADING
    SocketGetBlockingMethodInfo             ,
#endif
    socketGetBlocking                       ,


-- ** getBroadcast #method:getBroadcast#

#if ENABLE_OVERLOADING
    SocketGetBroadcastMethodInfo            ,
#endif
    socketGetBroadcast                      ,


-- ** getCredentials #method:getCredentials#

#if ENABLE_OVERLOADING
    SocketGetCredentialsMethodInfo          ,
#endif
    socketGetCredentials                    ,


-- ** getFamily #method:getFamily#

#if ENABLE_OVERLOADING
    SocketGetFamilyMethodInfo               ,
#endif
    socketGetFamily                         ,


-- ** getFd #method:getFd#

#if ENABLE_OVERLOADING
    SocketGetFdMethodInfo                   ,
#endif
    socketGetFd                             ,


-- ** getKeepalive #method:getKeepalive#

#if ENABLE_OVERLOADING
    SocketGetKeepaliveMethodInfo            ,
#endif
    socketGetKeepalive                      ,


-- ** getListenBacklog #method:getListenBacklog#

#if ENABLE_OVERLOADING
    SocketGetListenBacklogMethodInfo        ,
#endif
    socketGetListenBacklog                  ,


-- ** getLocalAddress #method:getLocalAddress#

#if ENABLE_OVERLOADING
    SocketGetLocalAddressMethodInfo         ,
#endif
    socketGetLocalAddress                   ,


-- ** getMulticastLoopback #method:getMulticastLoopback#

#if ENABLE_OVERLOADING
    SocketGetMulticastLoopbackMethodInfo    ,
#endif
    socketGetMulticastLoopback              ,


-- ** getMulticastTtl #method:getMulticastTtl#

#if ENABLE_OVERLOADING
    SocketGetMulticastTtlMethodInfo         ,
#endif
    socketGetMulticastTtl                   ,


-- ** getOption #method:getOption#

#if ENABLE_OVERLOADING
    SocketGetOptionMethodInfo               ,
#endif
    socketGetOption                         ,


-- ** getProtocol #method:getProtocol#

#if ENABLE_OVERLOADING
    SocketGetProtocolMethodInfo             ,
#endif
    socketGetProtocol                       ,


-- ** getRemoteAddress #method:getRemoteAddress#

#if ENABLE_OVERLOADING
    SocketGetRemoteAddressMethodInfo        ,
#endif
    socketGetRemoteAddress                  ,


-- ** getSocketType #method:getSocketType#

#if ENABLE_OVERLOADING
    SocketGetSocketTypeMethodInfo           ,
#endif
    socketGetSocketType                     ,


-- ** getTimeout #method:getTimeout#

#if ENABLE_OVERLOADING
    SocketGetTimeoutMethodInfo              ,
#endif
    socketGetTimeout                        ,


-- ** getTtl #method:getTtl#

#if ENABLE_OVERLOADING
    SocketGetTtlMethodInfo                  ,
#endif
    socketGetTtl                            ,


-- ** isClosed #method:isClosed#

#if ENABLE_OVERLOADING
    SocketIsClosedMethodInfo                ,
#endif
    socketIsClosed                          ,


-- ** isConnected #method:isConnected#

#if ENABLE_OVERLOADING
    SocketIsConnectedMethodInfo             ,
#endif
    socketIsConnected                       ,


-- ** joinMulticastGroup #method:joinMulticastGroup#

#if ENABLE_OVERLOADING
    SocketJoinMulticastGroupMethodInfo      ,
#endif
    socketJoinMulticastGroup                ,


-- ** joinMulticastGroupSsm #method:joinMulticastGroupSsm#

#if ENABLE_OVERLOADING
    SocketJoinMulticastGroupSsmMethodInfo   ,
#endif
    socketJoinMulticastGroupSsm             ,


-- ** leaveMulticastGroup #method:leaveMulticastGroup#

#if ENABLE_OVERLOADING
    SocketLeaveMulticastGroupMethodInfo     ,
#endif
    socketLeaveMulticastGroup               ,


-- ** leaveMulticastGroupSsm #method:leaveMulticastGroupSsm#

#if ENABLE_OVERLOADING
    SocketLeaveMulticastGroupSsmMethodInfo  ,
#endif
    socketLeaveMulticastGroupSsm            ,


-- ** listen #method:listen#

#if ENABLE_OVERLOADING
    SocketListenMethodInfo                  ,
#endif
    socketListen                            ,


-- ** new #method:new#

    socketNew                               ,


-- ** newFromFd #method:newFromFd#

    socketNewFromFd                         ,


-- ** receive #method:receive#

#if ENABLE_OVERLOADING
    SocketReceiveMethodInfo                 ,
#endif
    socketReceive                           ,


-- ** receiveFrom #method:receiveFrom#

#if ENABLE_OVERLOADING
    SocketReceiveFromMethodInfo             ,
#endif
    socketReceiveFrom                       ,


-- ** receiveMessage #method:receiveMessage#

#if ENABLE_OVERLOADING
    SocketReceiveMessageMethodInfo          ,
#endif
    socketReceiveMessage                    ,


-- ** receiveMessages #method:receiveMessages#

#if ENABLE_OVERLOADING
    SocketReceiveMessagesMethodInfo         ,
#endif
    socketReceiveMessages                   ,


-- ** receiveWithBlocking #method:receiveWithBlocking#

#if ENABLE_OVERLOADING
    SocketReceiveWithBlockingMethodInfo     ,
#endif
    socketReceiveWithBlocking               ,


-- ** send #method:send#

#if ENABLE_OVERLOADING
    SocketSendMethodInfo                    ,
#endif
    socketSend                              ,


-- ** sendMessage #method:sendMessage#

#if ENABLE_OVERLOADING
    SocketSendMessageMethodInfo             ,
#endif
    socketSendMessage                       ,


-- ** sendMessageWithTimeout #method:sendMessageWithTimeout#

#if ENABLE_OVERLOADING
    SocketSendMessageWithTimeoutMethodInfo  ,
#endif
    socketSendMessageWithTimeout            ,


-- ** sendMessages #method:sendMessages#

#if ENABLE_OVERLOADING
    SocketSendMessagesMethodInfo            ,
#endif
    socketSendMessages                      ,


-- ** sendTo #method:sendTo#

#if ENABLE_OVERLOADING
    SocketSendToMethodInfo                  ,
#endif
    socketSendTo                            ,


-- ** sendWithBlocking #method:sendWithBlocking#

#if ENABLE_OVERLOADING
    SocketSendWithBlockingMethodInfo        ,
#endif
    socketSendWithBlocking                  ,


-- ** setBlocking #method:setBlocking#

#if ENABLE_OVERLOADING
    SocketSetBlockingMethodInfo             ,
#endif
    socketSetBlocking                       ,


-- ** setBroadcast #method:setBroadcast#

#if ENABLE_OVERLOADING
    SocketSetBroadcastMethodInfo            ,
#endif
    socketSetBroadcast                      ,


-- ** setKeepalive #method:setKeepalive#

#if ENABLE_OVERLOADING
    SocketSetKeepaliveMethodInfo            ,
#endif
    socketSetKeepalive                      ,


-- ** setListenBacklog #method:setListenBacklog#

#if ENABLE_OVERLOADING
    SocketSetListenBacklogMethodInfo        ,
#endif
    socketSetListenBacklog                  ,


-- ** setMulticastLoopback #method:setMulticastLoopback#

#if ENABLE_OVERLOADING
    SocketSetMulticastLoopbackMethodInfo    ,
#endif
    socketSetMulticastLoopback              ,


-- ** setMulticastTtl #method:setMulticastTtl#

#if ENABLE_OVERLOADING
    SocketSetMulticastTtlMethodInfo         ,
#endif
    socketSetMulticastTtl                   ,


-- ** setOption #method:setOption#

#if ENABLE_OVERLOADING
    SocketSetOptionMethodInfo               ,
#endif
    socketSetOption                         ,


-- ** setTimeout #method:setTimeout#

#if ENABLE_OVERLOADING
    SocketSetTimeoutMethodInfo              ,
#endif
    socketSetTimeout                        ,


-- ** setTtl #method:setTtl#

#if ENABLE_OVERLOADING
    SocketSetTtlMethodInfo                  ,
#endif
    socketSetTtl                            ,


-- ** shutdown #method:shutdown#

#if ENABLE_OVERLOADING
    SocketShutdownMethodInfo                ,
#endif
    socketShutdown                          ,


-- ** speaksIpv4 #method:speaksIpv4#

#if ENABLE_OVERLOADING
    SocketSpeaksIpv4MethodInfo              ,
#endif
    socketSpeaksIpv4                        ,




 -- * Properties
-- ** blocking #attr:blocking#
{- | /No description available in the introspection data./
-}
#if ENABLE_OVERLOADING
    SocketBlockingPropertyInfo              ,
#endif
    constructSocketBlocking                 ,
    getSocketBlocking                       ,
    setSocketBlocking                       ,
#if ENABLE_OVERLOADING
    socketBlocking                          ,
#endif


-- ** broadcast #attr:broadcast#
{- | Whether the socket should allow sending to broadcast addresses.

/Since: 2.32/
-}
#if ENABLE_OVERLOADING
    SocketBroadcastPropertyInfo             ,
#endif
    constructSocketBroadcast                ,
    getSocketBroadcast                      ,
    setSocketBroadcast                      ,
#if ENABLE_OVERLOADING
    socketBroadcast                         ,
#endif


-- ** family #attr:family#
{- | /No description available in the introspection data./
-}
#if ENABLE_OVERLOADING
    SocketFamilyPropertyInfo                ,
#endif
    constructSocketFamily                   ,
    getSocketFamily                         ,
#if ENABLE_OVERLOADING
    socketFamily                            ,
#endif


-- ** fd #attr:fd#
{- | /No description available in the introspection data./
-}
#if ENABLE_OVERLOADING
    SocketFdPropertyInfo                    ,
#endif
    constructSocketFd                       ,
    getSocketFd                             ,
#if ENABLE_OVERLOADING
    socketFd                                ,
#endif


-- ** keepalive #attr:keepalive#
{- | /No description available in the introspection data./
-}
#if ENABLE_OVERLOADING
    SocketKeepalivePropertyInfo             ,
#endif
    constructSocketKeepalive                ,
    getSocketKeepalive                      ,
    setSocketKeepalive                      ,
#if ENABLE_OVERLOADING
    socketKeepalive                         ,
#endif


-- ** listenBacklog #attr:listenBacklog#
{- | /No description available in the introspection data./
-}
#if ENABLE_OVERLOADING
    SocketListenBacklogPropertyInfo         ,
#endif
    constructSocketListenBacklog            ,
    getSocketListenBacklog                  ,
    setSocketListenBacklog                  ,
#if ENABLE_OVERLOADING
    socketListenBacklog                     ,
#endif


-- ** localAddress #attr:localAddress#
{- | /No description available in the introspection data./
-}
#if ENABLE_OVERLOADING
    SocketLocalAddressPropertyInfo          ,
#endif
    getSocketLocalAddress                   ,
#if ENABLE_OVERLOADING
    socketLocalAddress                      ,
#endif


-- ** multicastLoopback #attr:multicastLoopback#
{- | Whether outgoing multicast packets loop back to the local host.

/Since: 2.32/
-}
#if ENABLE_OVERLOADING
    SocketMulticastLoopbackPropertyInfo     ,
#endif
    constructSocketMulticastLoopback        ,
    getSocketMulticastLoopback              ,
    setSocketMulticastLoopback              ,
#if ENABLE_OVERLOADING
    socketMulticastLoopback                 ,
#endif


-- ** multicastTtl #attr:multicastTtl#
{- | Time-to-live out outgoing multicast packets

/Since: 2.32/
-}
#if ENABLE_OVERLOADING
    SocketMulticastTtlPropertyInfo          ,
#endif
    constructSocketMulticastTtl             ,
    getSocketMulticastTtl                   ,
    setSocketMulticastTtl                   ,
#if ENABLE_OVERLOADING
    socketMulticastTtl                      ,
#endif


-- ** protocol #attr:protocol#
{- | /No description available in the introspection data./
-}
#if ENABLE_OVERLOADING
    SocketProtocolPropertyInfo              ,
#endif
    constructSocketProtocol                 ,
    getSocketProtocol                       ,
#if ENABLE_OVERLOADING
    socketProtocol                          ,
#endif


-- ** remoteAddress #attr:remoteAddress#
{- | /No description available in the introspection data./
-}
#if ENABLE_OVERLOADING
    SocketRemoteAddressPropertyInfo         ,
#endif
    getSocketRemoteAddress                  ,
#if ENABLE_OVERLOADING
    socketRemoteAddress                     ,
#endif


-- ** timeout #attr:timeout#
{- | The timeout in seconds on socket I\/O

/Since: 2.26/
-}
#if ENABLE_OVERLOADING
    SocketTimeoutPropertyInfo               ,
#endif
    constructSocketTimeout                  ,
    getSocketTimeout                        ,
    setSocketTimeout                        ,
#if ENABLE_OVERLOADING
    socketTimeout                           ,
#endif


-- ** ttl #attr:ttl#
{- | Time-to-live for outgoing unicast packets

/Since: 2.32/
-}
#if ENABLE_OVERLOADING
    SocketTtlPropertyInfo                   ,
#endif
    constructSocketTtl                      ,
    getSocketTtl                            ,
    setSocketTtl                            ,
#if ENABLE_OVERLOADING
    socketTtl                               ,
#endif


-- ** type #attr:type#
{- | /No description available in the introspection data./
-}
#if ENABLE_OVERLOADING
    SocketTypePropertyInfo                  ,
#endif
    constructSocketType                     ,
    getSocketType                           ,
#if ENABLE_OVERLOADING
    socketType                              ,
#endif




    ) where

import Data.GI.Base.ShortPrelude
import qualified Data.GI.Base.ShortPrelude as SP
import qualified Data.GI.Base.Overloading as O
import qualified Prelude as P

import qualified Data.GI.Base.Attributes as GI.Attributes
import qualified Data.GI.Base.ManagedPtr as B.ManagedPtr
import qualified Data.GI.Base.GClosure as B.GClosure
import qualified Data.GI.Base.GError as B.GError
import qualified Data.GI.Base.GVariant as B.GVariant
import qualified Data.GI.Base.GValue as B.GValue
import qualified Data.GI.Base.GParamSpec as B.GParamSpec
import qualified Data.GI.Base.CallStack as B.CallStack
import qualified Data.GI.Base.Properties as B.Properties
import qualified Data.Text as T
import qualified Data.ByteString.Char8 as B
import qualified Data.Map as Map
import qualified Foreign.Ptr as FP
import qualified GHC.OverloadedLabels as OL

import qualified GI.GLib.Flags as GLib.Flags
import qualified GI.GObject.Objects.Object as GObject.Object
import {-# SOURCE #-} qualified GI.Gio.Enums as Gio.Enums
import {-# SOURCE #-} qualified GI.Gio.Interfaces.DatagramBased as Gio.DatagramBased
import {-# SOURCE #-} qualified GI.Gio.Interfaces.Initable as Gio.Initable
import {-# SOURCE #-} qualified GI.Gio.Objects.Cancellable as Gio.Cancellable
import {-# SOURCE #-} qualified GI.Gio.Objects.Credentials as Gio.Credentials
import {-# SOURCE #-} qualified GI.Gio.Objects.InetAddress as Gio.InetAddress
import {-# SOURCE #-} qualified GI.Gio.Objects.SocketAddress as Gio.SocketAddress
import {-# SOURCE #-} qualified GI.Gio.Objects.SocketConnection as Gio.SocketConnection
import {-# SOURCE #-} qualified GI.Gio.Objects.SocketControlMessage as Gio.SocketControlMessage
import {-# SOURCE #-} qualified GI.Gio.Structs.InputMessage as Gio.InputMessage
import {-# SOURCE #-} qualified GI.Gio.Structs.InputVector as Gio.InputVector
import {-# SOURCE #-} qualified GI.Gio.Structs.OutputMessage as Gio.OutputMessage
import {-# SOURCE #-} qualified GI.Gio.Structs.OutputVector as Gio.OutputVector

-- | Memory-managed wrapper type.
newtype Socket = Socket (ManagedPtr Socket)
foreign import ccall "g_socket_get_type"
    c_g_socket_get_type :: IO GType

instance GObject Socket where
    gobjectType = c_g_socket_get_type


-- | Type class for types which can be safely cast to `Socket`, for instance with `toSocket`.
class (GObject o, O.IsDescendantOf Socket o) => IsSocket o
instance (GObject o, O.IsDescendantOf Socket o) => IsSocket o

instance O.HasParentTypes Socket
type instance O.ParentTypes Socket = '[GObject.Object.Object, Gio.DatagramBased.DatagramBased, Gio.Initable.Initable]

-- | Cast to `Socket`, for types for which this is known to be safe. For general casts, use `Data.GI.Base.ManagedPtr.castTo`.
toSocket :: (MonadIO m, IsSocket o) => o -> m Socket
toSocket = liftIO . unsafeCastTo Socket

-- | A convenience alias for `Nothing` :: `Maybe` `Socket`.
noSocket :: Maybe Socket
noSocket = Nothing

#if ENABLE_OVERLOADING
type family ResolveSocketMethod (t :: Symbol) (o :: *) :: * where
    ResolveSocketMethod "accept" o = SocketAcceptMethodInfo
    ResolveSocketMethod "bind" o = SocketBindMethodInfo
    ResolveSocketMethod "bindProperty" o = GObject.Object.ObjectBindPropertyMethodInfo
    ResolveSocketMethod "bindPropertyFull" o = GObject.Object.ObjectBindPropertyFullMethodInfo
    ResolveSocketMethod "checkConnectResult" o = SocketCheckConnectResultMethodInfo
    ResolveSocketMethod "close" o = SocketCloseMethodInfo
    ResolveSocketMethod "conditionCheck" o = SocketConditionCheckMethodInfo
    ResolveSocketMethod "conditionTimedWait" o = SocketConditionTimedWaitMethodInfo
    ResolveSocketMethod "conditionWait" o = SocketConditionWaitMethodInfo
    ResolveSocketMethod "connect" o = SocketConnectMethodInfo
    ResolveSocketMethod "connectionFactoryCreateConnection" o = SocketConnectionFactoryCreateConnectionMethodInfo
    ResolveSocketMethod "createSource" o = Gio.DatagramBased.DatagramBasedCreateSourceMethodInfo
    ResolveSocketMethod "forceFloating" o = GObject.Object.ObjectForceFloatingMethodInfo
    ResolveSocketMethod "freezeNotify" o = GObject.Object.ObjectFreezeNotifyMethodInfo
    ResolveSocketMethod "getv" o = GObject.Object.ObjectGetvMethodInfo
    ResolveSocketMethod "init" o = Gio.Initable.InitableInitMethodInfo
    ResolveSocketMethod "isClosed" o = SocketIsClosedMethodInfo
    ResolveSocketMethod "isConnected" o = SocketIsConnectedMethodInfo
    ResolveSocketMethod "isFloating" o = GObject.Object.ObjectIsFloatingMethodInfo
    ResolveSocketMethod "joinMulticastGroup" o = SocketJoinMulticastGroupMethodInfo
    ResolveSocketMethod "joinMulticastGroupSsm" o = SocketJoinMulticastGroupSsmMethodInfo
    ResolveSocketMethod "leaveMulticastGroup" o = SocketLeaveMulticastGroupMethodInfo
    ResolveSocketMethod "leaveMulticastGroupSsm" o = SocketLeaveMulticastGroupSsmMethodInfo
    ResolveSocketMethod "listen" o = SocketListenMethodInfo
    ResolveSocketMethod "notify" o = GObject.Object.ObjectNotifyMethodInfo
    ResolveSocketMethod "notifyByPspec" o = GObject.Object.ObjectNotifyByPspecMethodInfo
    ResolveSocketMethod "receive" o = SocketReceiveMethodInfo
    ResolveSocketMethod "receiveFrom" o = SocketReceiveFromMethodInfo
    ResolveSocketMethod "receiveMessage" o = SocketReceiveMessageMethodInfo
    ResolveSocketMethod "receiveMessages" o = SocketReceiveMessagesMethodInfo
    ResolveSocketMethod "receiveWithBlocking" o = SocketReceiveWithBlockingMethodInfo
    ResolveSocketMethod "ref" o = GObject.Object.ObjectRefMethodInfo
    ResolveSocketMethod "refSink" o = GObject.Object.ObjectRefSinkMethodInfo
    ResolveSocketMethod "runDispose" o = GObject.Object.ObjectRunDisposeMethodInfo
    ResolveSocketMethod "send" o = SocketSendMethodInfo
    ResolveSocketMethod "sendMessage" o = SocketSendMessageMethodInfo
    ResolveSocketMethod "sendMessageWithTimeout" o = SocketSendMessageWithTimeoutMethodInfo
    ResolveSocketMethod "sendMessages" o = SocketSendMessagesMethodInfo
    ResolveSocketMethod "sendTo" o = SocketSendToMethodInfo
    ResolveSocketMethod "sendWithBlocking" o = SocketSendWithBlockingMethodInfo
    ResolveSocketMethod "shutdown" o = SocketShutdownMethodInfo
    ResolveSocketMethod "speaksIpv4" o = SocketSpeaksIpv4MethodInfo
    ResolveSocketMethod "stealData" o = GObject.Object.ObjectStealDataMethodInfo
    ResolveSocketMethod "stealQdata" o = GObject.Object.ObjectStealQdataMethodInfo
    ResolveSocketMethod "thawNotify" o = GObject.Object.ObjectThawNotifyMethodInfo
    ResolveSocketMethod "unref" o = GObject.Object.ObjectUnrefMethodInfo
    ResolveSocketMethod "watchClosure" o = GObject.Object.ObjectWatchClosureMethodInfo
    ResolveSocketMethod "getAvailableBytes" o = SocketGetAvailableBytesMethodInfo
    ResolveSocketMethod "getBlocking" o = SocketGetBlockingMethodInfo
    ResolveSocketMethod "getBroadcast" o = SocketGetBroadcastMethodInfo
    ResolveSocketMethod "getCredentials" o = SocketGetCredentialsMethodInfo
    ResolveSocketMethod "getData" o = GObject.Object.ObjectGetDataMethodInfo
    ResolveSocketMethod "getFamily" o = SocketGetFamilyMethodInfo
    ResolveSocketMethod "getFd" o = SocketGetFdMethodInfo
    ResolveSocketMethod "getKeepalive" o = SocketGetKeepaliveMethodInfo
    ResolveSocketMethod "getListenBacklog" o = SocketGetListenBacklogMethodInfo
    ResolveSocketMethod "getLocalAddress" o = SocketGetLocalAddressMethodInfo
    ResolveSocketMethod "getMulticastLoopback" o = SocketGetMulticastLoopbackMethodInfo
    ResolveSocketMethod "getMulticastTtl" o = SocketGetMulticastTtlMethodInfo
    ResolveSocketMethod "getOption" o = SocketGetOptionMethodInfo
    ResolveSocketMethod "getProperty" o = GObject.Object.ObjectGetPropertyMethodInfo
    ResolveSocketMethod "getProtocol" o = SocketGetProtocolMethodInfo
    ResolveSocketMethod "getQdata" o = GObject.Object.ObjectGetQdataMethodInfo
    ResolveSocketMethod "getRemoteAddress" o = SocketGetRemoteAddressMethodInfo
    ResolveSocketMethod "getSocketType" o = SocketGetSocketTypeMethodInfo
    ResolveSocketMethod "getTimeout" o = SocketGetTimeoutMethodInfo
    ResolveSocketMethod "getTtl" o = SocketGetTtlMethodInfo
    ResolveSocketMethod "setBlocking" o = SocketSetBlockingMethodInfo
    ResolveSocketMethod "setBroadcast" o = SocketSetBroadcastMethodInfo
    ResolveSocketMethod "setData" o = GObject.Object.ObjectSetDataMethodInfo
    ResolveSocketMethod "setDataFull" o = GObject.Object.ObjectSetDataFullMethodInfo
    ResolveSocketMethod "setKeepalive" o = SocketSetKeepaliveMethodInfo
    ResolveSocketMethod "setListenBacklog" o = SocketSetListenBacklogMethodInfo
    ResolveSocketMethod "setMulticastLoopback" o = SocketSetMulticastLoopbackMethodInfo
    ResolveSocketMethod "setMulticastTtl" o = SocketSetMulticastTtlMethodInfo
    ResolveSocketMethod "setOption" o = SocketSetOptionMethodInfo
    ResolveSocketMethod "setProperty" o = GObject.Object.ObjectSetPropertyMethodInfo
    ResolveSocketMethod "setTimeout" o = SocketSetTimeoutMethodInfo
    ResolveSocketMethod "setTtl" o = SocketSetTtlMethodInfo
    ResolveSocketMethod l o = O.MethodResolutionFailed l o

instance (info ~ ResolveSocketMethod t Socket, O.MethodInfo info Socket p) => OL.IsLabel t (Socket -> p) where
#if MIN_VERSION_base(4,10,0)
    fromLabel = O.overloadedMethod (O.MethodProxy :: O.MethodProxy info)
#else
    fromLabel _ = O.overloadedMethod (O.MethodProxy :: O.MethodProxy info)
#endif

#endif

-- VVV Prop "blocking"
   -- Type: TBasicType TBoolean
   -- Flags: [PropertyReadable,PropertyWritable]
   -- Nullable: (Just False,Just False)

{- |
Get the value of the “@blocking@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #blocking
@
-}
getSocketBlocking :: (MonadIO m, IsSocket o) => o -> m Bool
getSocketBlocking obj = liftIO $ B.Properties.getObjectPropertyBool obj "blocking"

{- |
Set the value of the “@blocking@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.set' socket [ #blocking 'Data.GI.Base.Attributes.:=' value ]
@
-}
setSocketBlocking :: (MonadIO m, IsSocket o) => o -> Bool -> m ()
setSocketBlocking obj val = liftIO $ B.Properties.setObjectPropertyBool obj "blocking" val

{- |
Construct a `GValueConstruct` with valid value for the “@blocking@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketBlocking :: (IsSocket o) => Bool -> IO (GValueConstruct o)
constructSocketBlocking val = B.Properties.constructObjectPropertyBool "blocking" val

#if ENABLE_OVERLOADING
data SocketBlockingPropertyInfo
instance AttrInfo SocketBlockingPropertyInfo where
    type AttrAllowedOps SocketBlockingPropertyInfo = '[ 'AttrSet, 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketBlockingPropertyInfo = (~) Bool
    type AttrBaseTypeConstraint SocketBlockingPropertyInfo = IsSocket
    type AttrGetType SocketBlockingPropertyInfo = Bool
    type AttrLabel SocketBlockingPropertyInfo = "blocking"
    type AttrOrigin SocketBlockingPropertyInfo = Socket
    attrGet _ = getSocketBlocking
    attrSet _ = setSocketBlocking
    attrConstruct _ = constructSocketBlocking
    attrClear _ = undefined
#endif

-- VVV Prop "broadcast"
   -- Type: TBasicType TBoolean
   -- Flags: [PropertyReadable,PropertyWritable]
   -- Nullable: (Just False,Just False)

{- |
Get the value of the “@broadcast@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #broadcast
@
-}
getSocketBroadcast :: (MonadIO m, IsSocket o) => o -> m Bool
getSocketBroadcast obj = liftIO $ B.Properties.getObjectPropertyBool obj "broadcast"

{- |
Set the value of the “@broadcast@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.set' socket [ #broadcast 'Data.GI.Base.Attributes.:=' value ]
@
-}
setSocketBroadcast :: (MonadIO m, IsSocket o) => o -> Bool -> m ()
setSocketBroadcast obj val = liftIO $ B.Properties.setObjectPropertyBool obj "broadcast" val

{- |
Construct a `GValueConstruct` with valid value for the “@broadcast@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketBroadcast :: (IsSocket o) => Bool -> IO (GValueConstruct o)
constructSocketBroadcast val = B.Properties.constructObjectPropertyBool "broadcast" val

#if ENABLE_OVERLOADING
data SocketBroadcastPropertyInfo
instance AttrInfo SocketBroadcastPropertyInfo where
    type AttrAllowedOps SocketBroadcastPropertyInfo = '[ 'AttrSet, 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketBroadcastPropertyInfo = (~) Bool
    type AttrBaseTypeConstraint SocketBroadcastPropertyInfo = IsSocket
    type AttrGetType SocketBroadcastPropertyInfo = Bool
    type AttrLabel SocketBroadcastPropertyInfo = "broadcast"
    type AttrOrigin SocketBroadcastPropertyInfo = Socket
    attrGet _ = getSocketBroadcast
    attrSet _ = setSocketBroadcast
    attrConstruct _ = constructSocketBroadcast
    attrClear _ = undefined
#endif

-- VVV Prop "family"
   -- Type: TInterface (Name {namespace = "Gio", name = "SocketFamily"})
   -- Flags: [PropertyReadable,PropertyWritable,PropertyConstructOnly]
   -- Nullable: (Just False,Nothing)

{- |
Get the value of the “@family@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #family
@
-}
getSocketFamily :: (MonadIO m, IsSocket o) => o -> m Gio.Enums.SocketFamily
getSocketFamily obj = liftIO $ B.Properties.getObjectPropertyEnum obj "family"

{- |
Construct a `GValueConstruct` with valid value for the “@family@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketFamily :: (IsSocket o) => Gio.Enums.SocketFamily -> IO (GValueConstruct o)
constructSocketFamily val = B.Properties.constructObjectPropertyEnum "family" val

#if ENABLE_OVERLOADING
data SocketFamilyPropertyInfo
instance AttrInfo SocketFamilyPropertyInfo where
    type AttrAllowedOps SocketFamilyPropertyInfo = '[ 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketFamilyPropertyInfo = (~) Gio.Enums.SocketFamily
    type AttrBaseTypeConstraint SocketFamilyPropertyInfo = IsSocket
    type AttrGetType SocketFamilyPropertyInfo = Gio.Enums.SocketFamily
    type AttrLabel SocketFamilyPropertyInfo = "family"
    type AttrOrigin SocketFamilyPropertyInfo = Socket
    attrGet _ = getSocketFamily
    attrSet _ = undefined
    attrConstruct _ = constructSocketFamily
    attrClear _ = undefined
#endif

-- VVV Prop "fd"
   -- Type: TBasicType TInt
   -- Flags: [PropertyReadable,PropertyWritable,PropertyConstructOnly]
   -- Nullable: (Just False,Nothing)

{- |
Get the value of the “@fd@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #fd
@
-}
getSocketFd :: (MonadIO m, IsSocket o) => o -> m Int32
getSocketFd obj = liftIO $ B.Properties.getObjectPropertyInt32 obj "fd"

{- |
Construct a `GValueConstruct` with valid value for the “@fd@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketFd :: (IsSocket o) => Int32 -> IO (GValueConstruct o)
constructSocketFd val = B.Properties.constructObjectPropertyInt32 "fd" val

#if ENABLE_OVERLOADING
data SocketFdPropertyInfo
instance AttrInfo SocketFdPropertyInfo where
    type AttrAllowedOps SocketFdPropertyInfo = '[ 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketFdPropertyInfo = (~) Int32
    type AttrBaseTypeConstraint SocketFdPropertyInfo = IsSocket
    type AttrGetType SocketFdPropertyInfo = Int32
    type AttrLabel SocketFdPropertyInfo = "fd"
    type AttrOrigin SocketFdPropertyInfo = Socket
    attrGet _ = getSocketFd
    attrSet _ = undefined
    attrConstruct _ = constructSocketFd
    attrClear _ = undefined
#endif

-- VVV Prop "keepalive"
   -- Type: TBasicType TBoolean
   -- Flags: [PropertyReadable,PropertyWritable]
   -- Nullable: (Just False,Just False)

{- |
Get the value of the “@keepalive@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #keepalive
@
-}
getSocketKeepalive :: (MonadIO m, IsSocket o) => o -> m Bool
getSocketKeepalive obj = liftIO $ B.Properties.getObjectPropertyBool obj "keepalive"

{- |
Set the value of the “@keepalive@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.set' socket [ #keepalive 'Data.GI.Base.Attributes.:=' value ]
@
-}
setSocketKeepalive :: (MonadIO m, IsSocket o) => o -> Bool -> m ()
setSocketKeepalive obj val = liftIO $ B.Properties.setObjectPropertyBool obj "keepalive" val

{- |
Construct a `GValueConstruct` with valid value for the “@keepalive@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketKeepalive :: (IsSocket o) => Bool -> IO (GValueConstruct o)
constructSocketKeepalive val = B.Properties.constructObjectPropertyBool "keepalive" val

#if ENABLE_OVERLOADING
data SocketKeepalivePropertyInfo
instance AttrInfo SocketKeepalivePropertyInfo where
    type AttrAllowedOps SocketKeepalivePropertyInfo = '[ 'AttrSet, 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketKeepalivePropertyInfo = (~) Bool
    type AttrBaseTypeConstraint SocketKeepalivePropertyInfo = IsSocket
    type AttrGetType SocketKeepalivePropertyInfo = Bool
    type AttrLabel SocketKeepalivePropertyInfo = "keepalive"
    type AttrOrigin SocketKeepalivePropertyInfo = Socket
    attrGet _ = getSocketKeepalive
    attrSet _ = setSocketKeepalive
    attrConstruct _ = constructSocketKeepalive
    attrClear _ = undefined
#endif

-- VVV Prop "listen-backlog"
   -- Type: TBasicType TInt
   -- Flags: [PropertyReadable,PropertyWritable]
   -- Nullable: (Just False,Just False)

{- |
Get the value of the “@listen-backlog@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #listenBacklog
@
-}
getSocketListenBacklog :: (MonadIO m, IsSocket o) => o -> m Int32
getSocketListenBacklog obj = liftIO $ B.Properties.getObjectPropertyInt32 obj "listen-backlog"

{- |
Set the value of the “@listen-backlog@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.set' socket [ #listenBacklog 'Data.GI.Base.Attributes.:=' value ]
@
-}
setSocketListenBacklog :: (MonadIO m, IsSocket o) => o -> Int32 -> m ()
setSocketListenBacklog obj val = liftIO $ B.Properties.setObjectPropertyInt32 obj "listen-backlog" val

{- |
Construct a `GValueConstruct` with valid value for the “@listen-backlog@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketListenBacklog :: (IsSocket o) => Int32 -> IO (GValueConstruct o)
constructSocketListenBacklog val = B.Properties.constructObjectPropertyInt32 "listen-backlog" val

#if ENABLE_OVERLOADING
data SocketListenBacklogPropertyInfo
instance AttrInfo SocketListenBacklogPropertyInfo where
    type AttrAllowedOps SocketListenBacklogPropertyInfo = '[ 'AttrSet, 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketListenBacklogPropertyInfo = (~) Int32
    type AttrBaseTypeConstraint SocketListenBacklogPropertyInfo = IsSocket
    type AttrGetType SocketListenBacklogPropertyInfo = Int32
    type AttrLabel SocketListenBacklogPropertyInfo = "listen-backlog"
    type AttrOrigin SocketListenBacklogPropertyInfo = Socket
    attrGet _ = getSocketListenBacklog
    attrSet _ = setSocketListenBacklog
    attrConstruct _ = constructSocketListenBacklog
    attrClear _ = undefined
#endif

-- VVV Prop "local-address"
   -- Type: TInterface (Name {namespace = "Gio", name = "SocketAddress"})
   -- Flags: [PropertyReadable]
   -- Nullable: (Nothing,Nothing)

{- |
Get the value of the “@local-address@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #localAddress
@
-}
getSocketLocalAddress :: (MonadIO m, IsSocket o) => o -> m (Maybe Gio.SocketAddress.SocketAddress)
getSocketLocalAddress obj = liftIO $ B.Properties.getObjectPropertyObject obj "local-address" Gio.SocketAddress.SocketAddress

#if ENABLE_OVERLOADING
data SocketLocalAddressPropertyInfo
instance AttrInfo SocketLocalAddressPropertyInfo where
    type AttrAllowedOps SocketLocalAddressPropertyInfo = '[ 'AttrGet, 'AttrClear]
    type AttrSetTypeConstraint SocketLocalAddressPropertyInfo = (~) ()
    type AttrBaseTypeConstraint SocketLocalAddressPropertyInfo = IsSocket
    type AttrGetType SocketLocalAddressPropertyInfo = (Maybe Gio.SocketAddress.SocketAddress)
    type AttrLabel SocketLocalAddressPropertyInfo = "local-address"
    type AttrOrigin SocketLocalAddressPropertyInfo = Socket
    attrGet _ = getSocketLocalAddress
    attrSet _ = undefined
    attrConstruct _ = undefined
    attrClear _ = undefined
#endif

-- VVV Prop "multicast-loopback"
   -- Type: TBasicType TBoolean
   -- Flags: [PropertyReadable,PropertyWritable]
   -- Nullable: (Just False,Just False)

{- |
Get the value of the “@multicast-loopback@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #multicastLoopback
@
-}
getSocketMulticastLoopback :: (MonadIO m, IsSocket o) => o -> m Bool
getSocketMulticastLoopback obj = liftIO $ B.Properties.getObjectPropertyBool obj "multicast-loopback"

{- |
Set the value of the “@multicast-loopback@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.set' socket [ #multicastLoopback 'Data.GI.Base.Attributes.:=' value ]
@
-}
setSocketMulticastLoopback :: (MonadIO m, IsSocket o) => o -> Bool -> m ()
setSocketMulticastLoopback obj val = liftIO $ B.Properties.setObjectPropertyBool obj "multicast-loopback" val

{- |
Construct a `GValueConstruct` with valid value for the “@multicast-loopback@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketMulticastLoopback :: (IsSocket o) => Bool -> IO (GValueConstruct o)
constructSocketMulticastLoopback val = B.Properties.constructObjectPropertyBool "multicast-loopback" val

#if ENABLE_OVERLOADING
data SocketMulticastLoopbackPropertyInfo
instance AttrInfo SocketMulticastLoopbackPropertyInfo where
    type AttrAllowedOps SocketMulticastLoopbackPropertyInfo = '[ 'AttrSet, 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketMulticastLoopbackPropertyInfo = (~) Bool
    type AttrBaseTypeConstraint SocketMulticastLoopbackPropertyInfo = IsSocket
    type AttrGetType SocketMulticastLoopbackPropertyInfo = Bool
    type AttrLabel SocketMulticastLoopbackPropertyInfo = "multicast-loopback"
    type AttrOrigin SocketMulticastLoopbackPropertyInfo = Socket
    attrGet _ = getSocketMulticastLoopback
    attrSet _ = setSocketMulticastLoopback
    attrConstruct _ = constructSocketMulticastLoopback
    attrClear _ = undefined
#endif

-- VVV Prop "multicast-ttl"
   -- Type: TBasicType TUInt
   -- Flags: [PropertyReadable,PropertyWritable]
   -- Nullable: (Just False,Just False)

{- |
Get the value of the “@multicast-ttl@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #multicastTtl
@
-}
getSocketMulticastTtl :: (MonadIO m, IsSocket o) => o -> m Word32
getSocketMulticastTtl obj = liftIO $ B.Properties.getObjectPropertyUInt32 obj "multicast-ttl"

{- |
Set the value of the “@multicast-ttl@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.set' socket [ #multicastTtl 'Data.GI.Base.Attributes.:=' value ]
@
-}
setSocketMulticastTtl :: (MonadIO m, IsSocket o) => o -> Word32 -> m ()
setSocketMulticastTtl obj val = liftIO $ B.Properties.setObjectPropertyUInt32 obj "multicast-ttl" val

{- |
Construct a `GValueConstruct` with valid value for the “@multicast-ttl@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketMulticastTtl :: (IsSocket o) => Word32 -> IO (GValueConstruct o)
constructSocketMulticastTtl val = B.Properties.constructObjectPropertyUInt32 "multicast-ttl" val

#if ENABLE_OVERLOADING
data SocketMulticastTtlPropertyInfo
instance AttrInfo SocketMulticastTtlPropertyInfo where
    type AttrAllowedOps SocketMulticastTtlPropertyInfo = '[ 'AttrSet, 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketMulticastTtlPropertyInfo = (~) Word32
    type AttrBaseTypeConstraint SocketMulticastTtlPropertyInfo = IsSocket
    type AttrGetType SocketMulticastTtlPropertyInfo = Word32
    type AttrLabel SocketMulticastTtlPropertyInfo = "multicast-ttl"
    type AttrOrigin SocketMulticastTtlPropertyInfo = Socket
    attrGet _ = getSocketMulticastTtl
    attrSet _ = setSocketMulticastTtl
    attrConstruct _ = constructSocketMulticastTtl
    attrClear _ = undefined
#endif

-- VVV Prop "protocol"
   -- Type: TInterface (Name {namespace = "Gio", name = "SocketProtocol"})
   -- Flags: [PropertyReadable,PropertyWritable,PropertyConstructOnly]
   -- Nullable: (Just False,Nothing)

{- |
Get the value of the “@protocol@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #protocol
@
-}
getSocketProtocol :: (MonadIO m, IsSocket o) => o -> m Gio.Enums.SocketProtocol
getSocketProtocol obj = liftIO $ B.Properties.getObjectPropertyEnum obj "protocol"

{- |
Construct a `GValueConstruct` with valid value for the “@protocol@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketProtocol :: (IsSocket o) => Gio.Enums.SocketProtocol -> IO (GValueConstruct o)
constructSocketProtocol val = B.Properties.constructObjectPropertyEnum "protocol" val

#if ENABLE_OVERLOADING
data SocketProtocolPropertyInfo
instance AttrInfo SocketProtocolPropertyInfo where
    type AttrAllowedOps SocketProtocolPropertyInfo = '[ 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketProtocolPropertyInfo = (~) Gio.Enums.SocketProtocol
    type AttrBaseTypeConstraint SocketProtocolPropertyInfo = IsSocket
    type AttrGetType SocketProtocolPropertyInfo = Gio.Enums.SocketProtocol
    type AttrLabel SocketProtocolPropertyInfo = "protocol"
    type AttrOrigin SocketProtocolPropertyInfo = Socket
    attrGet _ = getSocketProtocol
    attrSet _ = undefined
    attrConstruct _ = constructSocketProtocol
    attrClear _ = undefined
#endif

-- VVV Prop "remote-address"
   -- Type: TInterface (Name {namespace = "Gio", name = "SocketAddress"})
   -- Flags: [PropertyReadable]
   -- Nullable: (Nothing,Nothing)

{- |
Get the value of the “@remote-address@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #remoteAddress
@
-}
getSocketRemoteAddress :: (MonadIO m, IsSocket o) => o -> m (Maybe Gio.SocketAddress.SocketAddress)
getSocketRemoteAddress obj = liftIO $ B.Properties.getObjectPropertyObject obj "remote-address" Gio.SocketAddress.SocketAddress

#if ENABLE_OVERLOADING
data SocketRemoteAddressPropertyInfo
instance AttrInfo SocketRemoteAddressPropertyInfo where
    type AttrAllowedOps SocketRemoteAddressPropertyInfo = '[ 'AttrGet, 'AttrClear]
    type AttrSetTypeConstraint SocketRemoteAddressPropertyInfo = (~) ()
    type AttrBaseTypeConstraint SocketRemoteAddressPropertyInfo = IsSocket
    type AttrGetType SocketRemoteAddressPropertyInfo = (Maybe Gio.SocketAddress.SocketAddress)
    type AttrLabel SocketRemoteAddressPropertyInfo = "remote-address"
    type AttrOrigin SocketRemoteAddressPropertyInfo = Socket
    attrGet _ = getSocketRemoteAddress
    attrSet _ = undefined
    attrConstruct _ = undefined
    attrClear _ = undefined
#endif

-- VVV Prop "timeout"
   -- Type: TBasicType TUInt
   -- Flags: [PropertyReadable,PropertyWritable]
   -- Nullable: (Just False,Just False)

{- |
Get the value of the “@timeout@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #timeout
@
-}
getSocketTimeout :: (MonadIO m, IsSocket o) => o -> m Word32
getSocketTimeout obj = liftIO $ B.Properties.getObjectPropertyUInt32 obj "timeout"

{- |
Set the value of the “@timeout@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.set' socket [ #timeout 'Data.GI.Base.Attributes.:=' value ]
@
-}
setSocketTimeout :: (MonadIO m, IsSocket o) => o -> Word32 -> m ()
setSocketTimeout obj val = liftIO $ B.Properties.setObjectPropertyUInt32 obj "timeout" val

{- |
Construct a `GValueConstruct` with valid value for the “@timeout@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketTimeout :: (IsSocket o) => Word32 -> IO (GValueConstruct o)
constructSocketTimeout val = B.Properties.constructObjectPropertyUInt32 "timeout" val

#if ENABLE_OVERLOADING
data SocketTimeoutPropertyInfo
instance AttrInfo SocketTimeoutPropertyInfo where
    type AttrAllowedOps SocketTimeoutPropertyInfo = '[ 'AttrSet, 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketTimeoutPropertyInfo = (~) Word32
    type AttrBaseTypeConstraint SocketTimeoutPropertyInfo = IsSocket
    type AttrGetType SocketTimeoutPropertyInfo = Word32
    type AttrLabel SocketTimeoutPropertyInfo = "timeout"
    type AttrOrigin SocketTimeoutPropertyInfo = Socket
    attrGet _ = getSocketTimeout
    attrSet _ = setSocketTimeout
    attrConstruct _ = constructSocketTimeout
    attrClear _ = undefined
#endif

-- VVV Prop "ttl"
   -- Type: TBasicType TUInt
   -- Flags: [PropertyReadable,PropertyWritable]
   -- Nullable: (Just False,Just False)

{- |
Get the value of the “@ttl@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #ttl
@
-}
getSocketTtl :: (MonadIO m, IsSocket o) => o -> m Word32
getSocketTtl obj = liftIO $ B.Properties.getObjectPropertyUInt32 obj "ttl"

{- |
Set the value of the “@ttl@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.set' socket [ #ttl 'Data.GI.Base.Attributes.:=' value ]
@
-}
setSocketTtl :: (MonadIO m, IsSocket o) => o -> Word32 -> m ()
setSocketTtl obj val = liftIO $ B.Properties.setObjectPropertyUInt32 obj "ttl" val

{- |
Construct a `GValueConstruct` with valid value for the “@ttl@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketTtl :: (IsSocket o) => Word32 -> IO (GValueConstruct o)
constructSocketTtl val = B.Properties.constructObjectPropertyUInt32 "ttl" val

#if ENABLE_OVERLOADING
data SocketTtlPropertyInfo
instance AttrInfo SocketTtlPropertyInfo where
    type AttrAllowedOps SocketTtlPropertyInfo = '[ 'AttrSet, 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketTtlPropertyInfo = (~) Word32
    type AttrBaseTypeConstraint SocketTtlPropertyInfo = IsSocket
    type AttrGetType SocketTtlPropertyInfo = Word32
    type AttrLabel SocketTtlPropertyInfo = "ttl"
    type AttrOrigin SocketTtlPropertyInfo = Socket
    attrGet _ = getSocketTtl
    attrSet _ = setSocketTtl
    attrConstruct _ = constructSocketTtl
    attrClear _ = undefined
#endif

-- VVV Prop "type"
   -- Type: TInterface (Name {namespace = "Gio", name = "SocketType"})
   -- Flags: [PropertyReadable,PropertyWritable,PropertyConstructOnly]
   -- Nullable: (Nothing,Nothing)

{- |
Get the value of the “@type@” property.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Attributes.get' socket #type
@
-}
getSocketType :: (MonadIO m, IsSocket o) => o -> m Gio.Enums.SocketType
getSocketType obj = liftIO $ B.Properties.getObjectPropertyEnum obj "type"

{- |
Construct a `GValueConstruct` with valid value for the “@type@” property. This is rarely needed directly, but it is used by `Data.GI.Base.Constructible.new`.
-}
constructSocketType :: (IsSocket o) => Gio.Enums.SocketType -> IO (GValueConstruct o)
constructSocketType val = B.Properties.constructObjectPropertyEnum "type" val

#if ENABLE_OVERLOADING
data SocketTypePropertyInfo
instance AttrInfo SocketTypePropertyInfo where
    type AttrAllowedOps SocketTypePropertyInfo = '[ 'AttrConstruct, 'AttrGet]
    type AttrSetTypeConstraint SocketTypePropertyInfo = (~) Gio.Enums.SocketType
    type AttrBaseTypeConstraint SocketTypePropertyInfo = IsSocket
    type AttrGetType SocketTypePropertyInfo = Gio.Enums.SocketType
    type AttrLabel SocketTypePropertyInfo = "type"
    type AttrOrigin SocketTypePropertyInfo = Socket
    attrGet _ = getSocketType
    attrSet _ = undefined
    attrConstruct _ = constructSocketType
    attrClear _ = undefined
#endif

#if ENABLE_OVERLOADING
instance O.HasAttributeList Socket
type instance O.AttributeList Socket = SocketAttributeList
type SocketAttributeList = ('[ '("blocking", SocketBlockingPropertyInfo), '("broadcast", SocketBroadcastPropertyInfo), '("family", SocketFamilyPropertyInfo), '("fd", SocketFdPropertyInfo), '("keepalive", SocketKeepalivePropertyInfo), '("listenBacklog", SocketListenBacklogPropertyInfo), '("localAddress", SocketLocalAddressPropertyInfo), '("multicastLoopback", SocketMulticastLoopbackPropertyInfo), '("multicastTtl", SocketMulticastTtlPropertyInfo), '("protocol", SocketProtocolPropertyInfo), '("remoteAddress", SocketRemoteAddressPropertyInfo), '("timeout", SocketTimeoutPropertyInfo), '("ttl", SocketTtlPropertyInfo), '("type", SocketTypePropertyInfo)] :: [(Symbol, *)])
#endif

#if ENABLE_OVERLOADING
socketBlocking :: AttrLabelProxy "blocking"
socketBlocking = AttrLabelProxy

socketBroadcast :: AttrLabelProxy "broadcast"
socketBroadcast = AttrLabelProxy

socketFamily :: AttrLabelProxy "family"
socketFamily = AttrLabelProxy

socketFd :: AttrLabelProxy "fd"
socketFd = AttrLabelProxy

socketKeepalive :: AttrLabelProxy "keepalive"
socketKeepalive = AttrLabelProxy

socketListenBacklog :: AttrLabelProxy "listenBacklog"
socketListenBacklog = AttrLabelProxy

socketLocalAddress :: AttrLabelProxy "localAddress"
socketLocalAddress = AttrLabelProxy

socketMulticastLoopback :: AttrLabelProxy "multicastLoopback"
socketMulticastLoopback = AttrLabelProxy

socketMulticastTtl :: AttrLabelProxy "multicastTtl"
socketMulticastTtl = AttrLabelProxy

socketProtocol :: AttrLabelProxy "protocol"
socketProtocol = AttrLabelProxy

socketRemoteAddress :: AttrLabelProxy "remoteAddress"
socketRemoteAddress = AttrLabelProxy

socketTimeout :: AttrLabelProxy "timeout"
socketTimeout = AttrLabelProxy

socketTtl :: AttrLabelProxy "ttl"
socketTtl = AttrLabelProxy

socketType :: AttrLabelProxy "type"
socketType = AttrLabelProxy

#endif

#if ENABLE_OVERLOADING
type instance O.SignalList Socket = SocketSignalList
type SocketSignalList = ('[ '("notify", GObject.Object.ObjectNotifySignalInfo)] :: [(Symbol, *)])

#endif

-- method Socket::new
-- method type : Constructor
-- Args : [Arg {argCName = "family", argType = TInterface (Name {namespace = "Gio", name = "SocketFamily"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the socket family to use, e.g. %G_SOCKET_FAMILY_IPV4.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "type", argType = TInterface (Name {namespace = "Gio", name = "SocketType"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the socket type to use.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "protocol", argType = TInterface (Name {namespace = "Gio", name = "SocketProtocol"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the id of the protocol to use, or 0 for default.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "Socket"}))
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_new" g_socket_new ::
    CUInt ->                                -- family : TInterface (Name {namespace = "Gio", name = "SocketFamily"})
    CUInt ->                                -- type : TInterface (Name {namespace = "Gio", name = "SocketType"})
    CInt ->                                 -- protocol : TInterface (Name {namespace = "Gio", name = "SocketProtocol"})
    Ptr (Ptr GError) ->                     -- error
    IO (Ptr Socket)

{- |
Creates a new 'GI.Gio.Objects.Socket.Socket' with the defined family, type and protocol.
If /@protocol@/ is 0 ('GI.Gio.Enums.SocketProtocolDefault') the default protocol type
for the family and type is used.

The /@protocol@/ is a family and type specific int that specifies what
kind of protocol to use. 'GI.Gio.Enums.SocketProtocol' lists several common ones.
Many families only support one protocol, and use 0 for this, others
support several and using 0 means to use the default protocol for
the family and type.

The protocol id is passed directly to the operating
system, so you can use protocols not listed in 'GI.Gio.Enums.SocketProtocol' if you
know the protocol number used for it.

/Since: 2.22/
-}
socketNew ::
    (B.CallStack.HasCallStack, MonadIO m) =>
    Gio.Enums.SocketFamily
    {- ^ /@family@/: the socket family to use, e.g. 'GI.Gio.Enums.SocketFamilyIpv4'. -}
    -> Gio.Enums.SocketType
    {- ^ /@type@/: the socket type to use. -}
    -> Gio.Enums.SocketProtocol
    {- ^ /@protocol@/: the id of the protocol to use, or 0 for default. -}
    -> m Socket
    {- ^ __Returns:__ a 'GI.Gio.Objects.Socket.Socket' or 'Nothing' on error.
    Free the returned object with 'GI.GObject.Objects.Object.objectUnref'. /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketNew family type_ protocol = liftIO $ do
    let family' = (fromIntegral . fromEnum) family
    let type_' = (fromIntegral . fromEnum) type_
    let protocol' = (fromIntegral . fromEnum) protocol
    onException (do
        result <- propagateGError $ g_socket_new family' type_' protocol'
        checkUnexpectedReturnNULL "socketNew" result
        result' <- (wrapObject Socket) result
        return result'
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
#endif

-- method Socket::new_from_fd
-- method type : Constructor
-- Args : [Arg {argCName = "fd", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a native socket file descriptor.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "Socket"}))
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_new_from_fd" g_socket_new_from_fd ::
    Int32 ->                                -- fd : TBasicType TInt
    Ptr (Ptr GError) ->                     -- error
    IO (Ptr Socket)

{- |
Creates a new 'GI.Gio.Objects.Socket.Socket' from a native file descriptor
or winsock SOCKET handle.

This reads all the settings from the file descriptor so that
all properties should work. Note that the file descriptor
will be set to non-blocking mode, independent on the blocking
mode of the 'GI.Gio.Objects.Socket.Socket'.

On success, the returned 'GI.Gio.Objects.Socket.Socket' takes ownership of /@fd@/. On failure, the
caller must close /@fd@/ themselves.

Since GLib 2.46, it is no longer a fatal error to call this on a non-socket
descriptor.  Instead, a GError will be set with code 'GI.Gio.Enums.IOErrorEnumFailed'

/Since: 2.22/
-}
socketNewFromFd ::
    (B.CallStack.HasCallStack, MonadIO m) =>
    Int32
    {- ^ /@fd@/: a native socket file descriptor. -}
    -> m Socket
    {- ^ __Returns:__ a 'GI.Gio.Objects.Socket.Socket' or 'Nothing' on error.
    Free the returned object with 'GI.GObject.Objects.Object.objectUnref'. /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketNewFromFd fd = liftIO $ do
    onException (do
        result <- propagateGError $ g_socket_new_from_fd fd
        checkUnexpectedReturnNULL "socketNewFromFd" result
        result' <- (wrapObject Socket) result
        return result'
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
#endif

-- method Socket::accept
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "Socket"}))
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_accept" g_socket_accept ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO (Ptr Socket)

{- |
Accept incoming connections on a connection-based socket. This removes
the first outstanding connection request from the listening socket and
creates a 'GI.Gio.Objects.Socket.Socket' object for it.

The /@socket@/ must be bound to a local address with 'GI.Gio.Objects.Socket.socketBind' and
must be listening for incoming connections ('GI.Gio.Objects.Socket.socketListen').

If there are no outstanding connections then the operation will block
or return 'GI.Gio.Enums.IOErrorEnumWouldBlock' if non-blocking I\/O is enabled.
To be notified of an incoming connection, wait for the 'GI.GLib.Flags.IOConditionIn' condition.

/Since: 2.22/
-}
socketAccept ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m Socket
    {- ^ __Returns:__ a new 'GI.Gio.Objects.Socket.Socket', or 'Nothing' on error.
    Free the returned object with 'GI.GObject.Objects.Object.objectUnref'. /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketAccept socket cancellable = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_accept socket' maybeCancellable
        checkUnexpectedReturnNULL "socketAccept" result
        result' <- (wrapObject Socket) result
        touchManagedPtr socket
        whenJust cancellable touchManagedPtr
        return result'
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketAcceptMethodInfo
instance (signature ~ (Maybe (b) -> m Socket), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketAcceptMethodInfo a signature where
    overloadedMethod _ = socketAccept

#endif

-- method Socket::bind
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "address", argType = TInterface (Name {namespace = "Gio", name = "SocketAddress"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocketAddress specifying the local address.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "allow_reuse", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "whether to allow reusing this address", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_bind" g_socket_bind ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.SocketAddress.SocketAddress ->  -- address : TInterface (Name {namespace = "Gio", name = "SocketAddress"})
    CInt ->                                 -- allow_reuse : TBasicType TBoolean
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
When a socket is created it is attached to an address family, but it
doesn\'t have an address in this family. 'GI.Gio.Objects.Socket.socketBind' assigns the
address (sometimes called name) of the socket.

It is generally required to bind to a local address before you can
receive connections. (See 'GI.Gio.Objects.Socket.socketListen' and 'GI.Gio.Objects.Socket.socketAccept' ).
In certain situations, you may also want to bind a socket that will be
used to initiate connections, though this is not normally required.

If /@socket@/ is a TCP socket, then /@allowReuse@/ controls the setting
of the @SO_REUSEADDR@ socket option; normally it should be 'True' for
server sockets (sockets that you will eventually call
'GI.Gio.Objects.Socket.socketAccept' on), and 'False' for client sockets. (Failing to
set this flag on a server socket may cause 'GI.Gio.Objects.Socket.socketBind' to return
'GI.Gio.Enums.IOErrorEnumAddressInUse' if the server program is stopped and then
immediately restarted.)

If /@socket@/ is a UDP socket, then /@allowReuse@/ determines whether or
not other UDP sockets can be bound to the same address at the same
time. In particular, you can have several UDP sockets bound to the
same address, and they will all receive all of the multicast and
broadcast packets sent to that address. (The behavior of unicast
UDP packets to an address with multiple listeners is not defined.)

/Since: 2.22/
-}
socketBind ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.SocketAddress.IsSocketAddress b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> b
    {- ^ /@address@/: a 'GI.Gio.Objects.SocketAddress.SocketAddress' specifying the local address. -}
    -> Bool
    {- ^ /@allowReuse@/: whether to allow reusing this address -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketBind socket address allowReuse = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    address' <- unsafeManagedPtrCastPtr address
    let allowReuse' = (fromIntegral . fromEnum) allowReuse
    onException (do
        _ <- propagateGError $ g_socket_bind socket' address' allowReuse'
        touchManagedPtr socket
        touchManagedPtr address
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketBindMethodInfo
instance (signature ~ (b -> Bool -> m ()), MonadIO m, IsSocket a, Gio.SocketAddress.IsSocketAddress b) => O.MethodInfo SocketBindMethodInfo a signature where
    overloadedMethod _ = socketBind

#endif

-- method Socket::check_connect_result
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_check_connect_result" g_socket_check_connect_result ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Checks and resets the pending connect error for the socket.
This is used to check for errors when 'GI.Gio.Objects.Socket.socketConnect' is
used in non-blocking mode.

/Since: 2.22/
-}
socketCheckConnectResult ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketCheckConnectResult socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    onException (do
        _ <- propagateGError $ g_socket_check_connect_result socket'
        touchManagedPtr socket
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketCheckConnectResultMethodInfo
instance (signature ~ (m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketCheckConnectResultMethodInfo a signature where
    overloadedMethod _ = socketCheckConnectResult

#endif

-- method Socket::close
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_close" g_socket_close ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Closes the socket, shutting down any active connection.

Closing a socket does not wait for all outstanding I\/O operations
to finish, so the caller should not rely on them to be guaranteed
to complete even if the close returns with no error.

Once the socket is closed, all other operations will return
'GI.Gio.Enums.IOErrorEnumClosed'. Closing a socket multiple times will not
return an error.

Sockets will be automatically closed when the last reference
is dropped, but you might want to call this function to make sure
resources are released as early as possible.

Beware that due to the way that TCP works, it is possible for
recently-sent data to be lost if either you close a socket while the
'GI.GLib.Flags.IOConditionIn' condition is set, or else if the remote connection tries to
send something to you after you close the socket but before it has
finished reading all of the data you sent. There is no easy generic
way to avoid this problem; the easiest fix is to design the network
protocol such that the client will never send data \"out of turn\".
Another solution is for the server to half-close the connection by
calling 'GI.Gio.Objects.Socket.socketShutdown' with only the /@shutdownWrite@/ flag set,
and then wait for the client to notice this and close its side of the
connection, after which the server can safely call 'GI.Gio.Objects.Socket.socketClose'.
(This is what 'GI.Gio.Objects.TcpConnection.TcpConnection' does if you call
'GI.Gio.Objects.TcpConnection.tcpConnectionSetGracefulDisconnect'. But of course, this
only works if the client will close its connection after the server
does.)

/Since: 2.22/
-}
socketClose ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketClose socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    onException (do
        _ <- propagateGError $ g_socket_close socket'
        touchManagedPtr socket
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketCloseMethodInfo
instance (signature ~ (m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketCloseMethodInfo a signature where
    overloadedMethod _ = socketClose

#endif

-- method Socket::condition_check
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "condition", argType = TInterface (Name {namespace = "GLib", name = "IOCondition"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GIOCondition mask to check", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "GLib", name = "IOCondition"}))
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_condition_check" g_socket_condition_check ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    CUInt ->                                -- condition : TInterface (Name {namespace = "GLib", name = "IOCondition"})
    IO CUInt

{- |
Checks on the readiness of /@socket@/ to perform operations.
The operations specified in /@condition@/ are checked for and masked
against the currently-satisfied conditions on /@socket@/. The result
is returned.

Note that on Windows, it is possible for an operation to return
'GI.Gio.Enums.IOErrorEnumWouldBlock' even immediately after
'GI.Gio.Objects.Socket.socketConditionCheck' has claimed that the socket is ready for
writing. Rather than calling 'GI.Gio.Objects.Socket.socketConditionCheck' and then
writing to the socket if it succeeds, it is generally better to
simply try writing to the socket right away, and try again later if
the initial attempt returns 'GI.Gio.Enums.IOErrorEnumWouldBlock'.

It is meaningless to specify 'GI.GLib.Flags.IOConditionErr' or 'GI.GLib.Flags.IOConditionHup' in condition;
these conditions will always be set in the output if they are true.

This call never blocks.

/Since: 2.22/
-}
socketConditionCheck ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> [GLib.Flags.IOCondition]
    {- ^ /@condition@/: a 'GI.GLib.Flags.IOCondition' mask to check -}
    -> m [GLib.Flags.IOCondition]
    {- ^ __Returns:__ the /@gIOCondition@/ mask of the current state -}
socketConditionCheck socket condition = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    let condition' = gflagsToWord condition
    result <- g_socket_condition_check socket' condition'
    let result' = wordToGFlags result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketConditionCheckMethodInfo
instance (signature ~ ([GLib.Flags.IOCondition] -> m [GLib.Flags.IOCondition]), MonadIO m, IsSocket a) => O.MethodInfo SocketConditionCheckMethodInfo a signature where
    overloadedMethod _ = socketConditionCheck

#endif

-- method Socket::condition_timed_wait
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "condition", argType = TInterface (Name {namespace = "GLib", name = "IOCondition"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GIOCondition mask to wait for", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "timeout_us", argType = TBasicType TInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the maximum time (in microseconds) to wait, or -1", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a #GCancellable, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_condition_timed_wait" g_socket_condition_timed_wait ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    CUInt ->                                -- condition : TInterface (Name {namespace = "GLib", name = "IOCondition"})
    Int64 ->                                -- timeout_us : TBasicType TInt64
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Waits for up to /@timeoutUs@/ microseconds for /@condition@/ to become true
on /@socket@/. If the condition is met, 'True' is returned.

If /@cancellable@/ is cancelled before the condition is met, or if
/@timeoutUs@/ (or the socket\'s 'GI.Gio.Objects.Socket.Socket':@/timeout/@) is reached before the
condition is met, then 'False' is returned and /@error@/, if non-'Nothing',
is set to the appropriate value ('GI.Gio.Enums.IOErrorEnumCancelled' or
'GI.Gio.Enums.IOErrorEnumTimedOut').

If you don\'t want a timeout, use 'GI.Gio.Objects.Socket.socketConditionWait'.
(Alternatively, you can pass -1 for /@timeoutUs@/.)

Note that although /@timeoutUs@/ is in microseconds for consistency with
other GLib APIs, this function actually only has millisecond
resolution, and the behavior is undefined if /@timeoutUs@/ is not an
exact number of milliseconds.

/Since: 2.32/
-}
socketConditionTimedWait ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> [GLib.Flags.IOCondition]
    {- ^ /@condition@/: a 'GI.GLib.Flags.IOCondition' mask to wait for -}
    -> Int64
    {- ^ /@timeoutUs@/: the maximum time (in microseconds) to wait, or -1 -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a 'GI.Gio.Objects.Cancellable.Cancellable', or 'Nothing' -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketConditionTimedWait socket condition timeoutUs cancellable = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    let condition' = gflagsToWord condition
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        _ <- propagateGError $ g_socket_condition_timed_wait socket' condition' timeoutUs maybeCancellable
        touchManagedPtr socket
        whenJust cancellable touchManagedPtr
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketConditionTimedWaitMethodInfo
instance (signature ~ ([GLib.Flags.IOCondition] -> Int64 -> Maybe (b) -> m ()), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketConditionTimedWaitMethodInfo a signature where
    overloadedMethod _ = socketConditionTimedWait

#endif

-- method Socket::condition_wait
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "condition", argType = TInterface (Name {namespace = "GLib", name = "IOCondition"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GIOCondition mask to wait for", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a #GCancellable, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_condition_wait" g_socket_condition_wait ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    CUInt ->                                -- condition : TInterface (Name {namespace = "GLib", name = "IOCondition"})
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Waits for /@condition@/ to become true on /@socket@/. When the condition
is met, 'True' is returned.

If /@cancellable@/ is cancelled before the condition is met, or if the
socket has a timeout set and it is reached before the condition is
met, then 'False' is returned and /@error@/, if non-'Nothing', is set to
the appropriate value ('GI.Gio.Enums.IOErrorEnumCancelled' or
'GI.Gio.Enums.IOErrorEnumTimedOut').

See also 'GI.Gio.Objects.Socket.socketConditionTimedWait'.

/Since: 2.22/
-}
socketConditionWait ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> [GLib.Flags.IOCondition]
    {- ^ /@condition@/: a 'GI.GLib.Flags.IOCondition' mask to wait for -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a 'GI.Gio.Objects.Cancellable.Cancellable', or 'Nothing' -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketConditionWait socket condition cancellable = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    let condition' = gflagsToWord condition
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        _ <- propagateGError $ g_socket_condition_wait socket' condition' maybeCancellable
        touchManagedPtr socket
        whenJust cancellable touchManagedPtr
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketConditionWaitMethodInfo
instance (signature ~ ([GLib.Flags.IOCondition] -> Maybe (b) -> m ()), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketConditionWaitMethodInfo a signature where
    overloadedMethod _ = socketConditionWait

#endif

-- method Socket::connect
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "address", argType = TInterface (Name {namespace = "Gio", name = "SocketAddress"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocketAddress specifying the remote address.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_connect" g_socket_connect ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.SocketAddress.SocketAddress ->  -- address : TInterface (Name {namespace = "Gio", name = "SocketAddress"})
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Connect the socket to the specified remote address.

For connection oriented socket this generally means we attempt to make
a connection to the /@address@/. For a connection-less socket it sets
the default address for 'GI.Gio.Objects.Socket.socketSend' and discards all incoming datagrams
from other sources.

Generally connection oriented sockets can only connect once, but
connection-less sockets can connect multiple times to change the
default address.

If the connect call needs to do network I\/O it will block, unless
non-blocking I\/O is enabled. Then 'GI.Gio.Enums.IOErrorEnumPending' is returned
and the user can be notified of the connection finishing by waiting
for the G_IO_OUT condition. The result of the connection must then be
checked with 'GI.Gio.Objects.Socket.socketCheckConnectResult'.

/Since: 2.22/
-}
socketConnect ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.SocketAddress.IsSocketAddress b, Gio.Cancellable.IsCancellable c) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> b
    {- ^ /@address@/: a 'GI.Gio.Objects.SocketAddress.SocketAddress' specifying the remote address. -}
    -> Maybe (c)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketConnect socket address cancellable = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    address' <- unsafeManagedPtrCastPtr address
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        _ <- propagateGError $ g_socket_connect socket' address' maybeCancellable
        touchManagedPtr socket
        touchManagedPtr address
        whenJust cancellable touchManagedPtr
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketConnectMethodInfo
instance (signature ~ (b -> Maybe (c) -> m ()), MonadIO m, IsSocket a, Gio.SocketAddress.IsSocketAddress b, Gio.Cancellable.IsCancellable c) => O.MethodInfo SocketConnectMethodInfo a signature where
    overloadedMethod _ = socketConnect

#endif

-- method Socket::connection_factory_create_connection
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "SocketConnection"}))
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_connection_factory_create_connection" g_socket_connection_factory_create_connection ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO (Ptr Gio.SocketConnection.SocketConnection)

{- |
Creates a 'GI.Gio.Objects.SocketConnection.SocketConnection' subclass of the right type for
/@socket@/.

/Since: 2.22/
-}
socketConnectionFactoryCreateConnection ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> m Gio.SocketConnection.SocketConnection
    {- ^ __Returns:__ a 'GI.Gio.Objects.SocketConnection.SocketConnection' -}
socketConnectionFactoryCreateConnection socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_connection_factory_create_connection socket'
    checkUnexpectedReturnNULL "socketConnectionFactoryCreateConnection" result
    result' <- (wrapObject Gio.SocketConnection.SocketConnection) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketConnectionFactoryCreateConnectionMethodInfo
instance (signature ~ (m Gio.SocketConnection.SocketConnection), MonadIO m, IsSocket a) => O.MethodInfo SocketConnectionFactoryCreateConnectionMethodInfo a signature where
    overloadedMethod _ = socketConnectionFactoryCreateConnection

#endif

-- method Socket::get_available_bytes
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TInt64)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_available_bytes" g_socket_get_available_bytes ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO Int64

{- |
Get the amount of data pending in the OS input buffer, without blocking.

If /@socket@/ is a UDP or SCTP socket, this will return the size of
just the next packet, even if additional packets are buffered after
that one.

Note that on Windows, this function is rather inefficient in the
UDP case, and so if you know any plausible upper bound on the size
of the incoming packet, it is better to just do a
'GI.Gio.Objects.Socket.socketReceive' with a buffer of that size, rather than calling
'GI.Gio.Objects.Socket.socketGetAvailableBytes' first and then doing a receive of
exactly the right size.

/Since: 2.32/
-}
socketGetAvailableBytes ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> m Int64
    {- ^ __Returns:__ the number of bytes that can be read from the socket
without blocking or truncating, or -1 on error. -}
socketGetAvailableBytes socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_available_bytes socket'
    touchManagedPtr socket
    return result

#if ENABLE_OVERLOADING
data SocketGetAvailableBytesMethodInfo
instance (signature ~ (m Int64), MonadIO m, IsSocket a) => O.MethodInfo SocketGetAvailableBytesMethodInfo a signature where
    overloadedMethod _ = socketGetAvailableBytes

#endif

-- method Socket::get_blocking
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_blocking" g_socket_get_blocking ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO CInt

{- |
Gets the blocking mode of the socket. For details on blocking I\/O,
see 'GI.Gio.Objects.Socket.socketSetBlocking'.

/Since: 2.22/
-}
socketGetBlocking ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Bool
    {- ^ __Returns:__ 'True' if blocking I\/O is used, 'False' otherwise. -}
socketGetBlocking socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_blocking socket'
    let result' = (/= 0) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketGetBlockingMethodInfo
instance (signature ~ (m Bool), MonadIO m, IsSocket a) => O.MethodInfo SocketGetBlockingMethodInfo a signature where
    overloadedMethod _ = socketGetBlocking

#endif

-- method Socket::get_broadcast
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_broadcast" g_socket_get_broadcast ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO CInt

{- |
Gets the broadcast setting on /@socket@/; if 'True',
it is possible to send packets to broadcast
addresses.

/Since: 2.32/
-}
socketGetBroadcast ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Bool
    {- ^ __Returns:__ the broadcast setting on /@socket@/ -}
socketGetBroadcast socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_broadcast socket'
    let result' = (/= 0) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketGetBroadcastMethodInfo
instance (signature ~ (m Bool), MonadIO m, IsSocket a) => O.MethodInfo SocketGetBroadcastMethodInfo a signature where
    overloadedMethod _ = socketGetBroadcast

#endif

-- method Socket::get_credentials
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "Credentials"}))
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_get_credentials" g_socket_get_credentials ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr (Ptr GError) ->                     -- error
    IO (Ptr Gio.Credentials.Credentials)

{- |
Returns the credentials of the foreign process connected to this
socket, if any (e.g. it is only supported for 'GI.Gio.Enums.SocketFamilyUnix'
sockets).

If this operation isn\'t supported on the OS, the method fails with
the 'GI.Gio.Enums.IOErrorEnumNotSupported' error. On Linux this is implemented
by reading the @/SO_PEERCRED/@ option on the underlying socket.

Other ways to obtain credentials from a foreign peer includes the
'GI.Gio.Objects.UnixCredentialsMessage.UnixCredentialsMessage' type and
'GI.Gio.Objects.UnixConnection.unixConnectionSendCredentials' \/
'GI.Gio.Objects.UnixConnection.unixConnectionReceiveCredentials' functions.

/Since: 2.26/
-}
socketGetCredentials ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Gio.Credentials.Credentials
    {- ^ __Returns:__ 'Nothing' if /@error@/ is set, otherwise a 'GI.Gio.Objects.Credentials.Credentials' object
that must be freed with 'GI.GObject.Objects.Object.objectUnref'. /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketGetCredentials socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    onException (do
        result <- propagateGError $ g_socket_get_credentials socket'
        checkUnexpectedReturnNULL "socketGetCredentials" result
        result' <- (wrapObject Gio.Credentials.Credentials) result
        touchManagedPtr socket
        return result'
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketGetCredentialsMethodInfo
instance (signature ~ (m Gio.Credentials.Credentials), MonadIO m, IsSocket a) => O.MethodInfo SocketGetCredentialsMethodInfo a signature where
    overloadedMethod _ = socketGetCredentials

#endif

-- method Socket::get_family
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "SocketFamily"}))
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_family" g_socket_get_family ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO CUInt

{- |
Gets the socket family of the socket.

/Since: 2.22/
-}
socketGetFamily ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Gio.Enums.SocketFamily
    {- ^ __Returns:__ a 'GI.Gio.Enums.SocketFamily' -}
socketGetFamily socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_family socket'
    let result' = (toEnum . fromIntegral) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketGetFamilyMethodInfo
instance (signature ~ (m Gio.Enums.SocketFamily), MonadIO m, IsSocket a) => O.MethodInfo SocketGetFamilyMethodInfo a signature where
    overloadedMethod _ = socketGetFamily

#endif

-- method Socket::get_fd
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TInt)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_fd" g_socket_get_fd ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO Int32

{- |
Returns the underlying OS socket object. On unix this
is a socket file descriptor, and on Windows this is
a Winsock2 SOCKET handle. This may be useful for
doing platform specific or otherwise unusual operations
on the socket.

/Since: 2.22/
-}
socketGetFd ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Int32
    {- ^ __Returns:__ the file descriptor of the socket. -}
socketGetFd socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_fd socket'
    touchManagedPtr socket
    return result

#if ENABLE_OVERLOADING
data SocketGetFdMethodInfo
instance (signature ~ (m Int32), MonadIO m, IsSocket a) => O.MethodInfo SocketGetFdMethodInfo a signature where
    overloadedMethod _ = socketGetFd

#endif

-- method Socket::get_keepalive
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_keepalive" g_socket_get_keepalive ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO CInt

{- |
Gets the keepalive mode of the socket. For details on this,
see 'GI.Gio.Objects.Socket.socketSetKeepalive'.

/Since: 2.22/
-}
socketGetKeepalive ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Bool
    {- ^ __Returns:__ 'True' if keepalive is active, 'False' otherwise. -}
socketGetKeepalive socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_keepalive socket'
    let result' = (/= 0) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketGetKeepaliveMethodInfo
instance (signature ~ (m Bool), MonadIO m, IsSocket a) => O.MethodInfo SocketGetKeepaliveMethodInfo a signature where
    overloadedMethod _ = socketGetKeepalive

#endif

-- method Socket::get_listen_backlog
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TInt)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_listen_backlog" g_socket_get_listen_backlog ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO Int32

{- |
Gets the listen backlog setting of the socket. For details on this,
see 'GI.Gio.Objects.Socket.socketSetListenBacklog'.

/Since: 2.22/
-}
socketGetListenBacklog ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Int32
    {- ^ __Returns:__ the maximum number of pending connections. -}
socketGetListenBacklog socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_listen_backlog socket'
    touchManagedPtr socket
    return result

#if ENABLE_OVERLOADING
data SocketGetListenBacklogMethodInfo
instance (signature ~ (m Int32), MonadIO m, IsSocket a) => O.MethodInfo SocketGetListenBacklogMethodInfo a signature where
    overloadedMethod _ = socketGetListenBacklog

#endif

-- method Socket::get_local_address
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "SocketAddress"}))
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_get_local_address" g_socket_get_local_address ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr (Ptr GError) ->                     -- error
    IO (Ptr Gio.SocketAddress.SocketAddress)

{- |
Try to get the local address of a bound socket. This is only
useful if the socket has been bound to a local address,
either explicitly or implicitly when connecting.

/Since: 2.22/
-}
socketGetLocalAddress ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Gio.SocketAddress.SocketAddress
    {- ^ __Returns:__ a 'GI.Gio.Objects.SocketAddress.SocketAddress' or 'Nothing' on error.
    Free the returned object with 'GI.GObject.Objects.Object.objectUnref'. /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketGetLocalAddress socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    onException (do
        result <- propagateGError $ g_socket_get_local_address socket'
        checkUnexpectedReturnNULL "socketGetLocalAddress" result
        result' <- (wrapObject Gio.SocketAddress.SocketAddress) result
        touchManagedPtr socket
        return result'
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketGetLocalAddressMethodInfo
instance (signature ~ (m Gio.SocketAddress.SocketAddress), MonadIO m, IsSocket a) => O.MethodInfo SocketGetLocalAddressMethodInfo a signature where
    overloadedMethod _ = socketGetLocalAddress

#endif

-- method Socket::get_multicast_loopback
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_multicast_loopback" g_socket_get_multicast_loopback ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO CInt

{- |
Gets the multicast loopback setting on /@socket@/; if 'True' (the
default), outgoing multicast packets will be looped back to
multicast listeners on the same host.

/Since: 2.32/
-}
socketGetMulticastLoopback ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Bool
    {- ^ __Returns:__ the multicast loopback setting on /@socket@/ -}
socketGetMulticastLoopback socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_multicast_loopback socket'
    let result' = (/= 0) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketGetMulticastLoopbackMethodInfo
instance (signature ~ (m Bool), MonadIO m, IsSocket a) => O.MethodInfo SocketGetMulticastLoopbackMethodInfo a signature where
    overloadedMethod _ = socketGetMulticastLoopback

#endif

-- method Socket::get_multicast_ttl
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TUInt)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_multicast_ttl" g_socket_get_multicast_ttl ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO Word32

{- |
Gets the multicast time-to-live setting on /@socket@/; see
'GI.Gio.Objects.Socket.socketSetMulticastTtl' for more details.

/Since: 2.32/
-}
socketGetMulticastTtl ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Word32
    {- ^ __Returns:__ the multicast time-to-live setting on /@socket@/ -}
socketGetMulticastTtl socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_multicast_ttl socket'
    touchManagedPtr socket
    return result

#if ENABLE_OVERLOADING
data SocketGetMulticastTtlMethodInfo
instance (signature ~ (m Word32), MonadIO m, IsSocket a) => O.MethodInfo SocketGetMulticastTtlMethodInfo a signature where
    overloadedMethod _ = socketGetMulticastTtl

#endif

-- method Socket::get_option
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "level", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the \"API level\" of the option (eg, `SOL_SOCKET`)", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "optname", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the \"name\" of the option (eg, `SO_BROADCAST`)", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "value", argType = TBasicType TInt, direction = DirectionOut, mayBeNull = False, argDoc = Documentation {rawDocText = Just "return location for the option value", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferEverything}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_get_option" g_socket_get_option ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Int32 ->                                -- level : TBasicType TInt
    Int32 ->                                -- optname : TBasicType TInt
    Ptr Int32 ->                            -- value : TBasicType TInt
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Gets the value of an integer-valued option on /@socket@/, as with
@/getsockopt()/@. (If you need to fetch a  non-integer-valued option,
you will need to call @/getsockopt()/@ directly.)

The [\<gio\/gnetworking.h>][gio-gnetworking.h]
header pulls in system headers that will define most of the
standard\/portable socket options. For unusual socket protocols or
platform-dependent options, you may need to include additional
headers.

Note that even for socket options that are a single byte in size,
/@value@/ is still a pointer to a @/gint/@ variable, not a @/guchar/@;
'GI.Gio.Objects.Socket.socketGetOption' will handle the conversion internally.

/Since: 2.36/
-}
socketGetOption ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> Int32
    {- ^ /@level@/: the \"API level\" of the option (eg, @SOL_SOCKET@) -}
    -> Int32
    {- ^ /@optname@/: the \"name\" of the option (eg, @SO_BROADCAST@) -}
    -> m (Int32)
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketGetOption socket level optname = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    value <- allocMem :: IO (Ptr Int32)
    onException (do
        _ <- propagateGError $ g_socket_get_option socket' level optname value
        value' <- peek value
        touchManagedPtr socket
        freeMem value
        return value'
     ) (do
        freeMem value
     )

#if ENABLE_OVERLOADING
data SocketGetOptionMethodInfo
instance (signature ~ (Int32 -> Int32 -> m (Int32)), MonadIO m, IsSocket a) => O.MethodInfo SocketGetOptionMethodInfo a signature where
    overloadedMethod _ = socketGetOption

#endif

-- method Socket::get_protocol
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "SocketProtocol"}))
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_protocol" g_socket_get_protocol ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO CInt

{- |
Gets the socket protocol id the socket was created with.
In case the protocol is unknown, -1 is returned.

/Since: 2.22/
-}
socketGetProtocol ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Gio.Enums.SocketProtocol
    {- ^ __Returns:__ a protocol id, or -1 if unknown -}
socketGetProtocol socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_protocol socket'
    let result' = (toEnum . fromIntegral) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketGetProtocolMethodInfo
instance (signature ~ (m Gio.Enums.SocketProtocol), MonadIO m, IsSocket a) => O.MethodInfo SocketGetProtocolMethodInfo a signature where
    overloadedMethod _ = socketGetProtocol

#endif

-- method Socket::get_remote_address
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "SocketAddress"}))
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_get_remote_address" g_socket_get_remote_address ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr (Ptr GError) ->                     -- error
    IO (Ptr Gio.SocketAddress.SocketAddress)

{- |
Try to get the remote address of a connected socket. This is only
useful for connection oriented sockets that have been connected.

/Since: 2.22/
-}
socketGetRemoteAddress ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Gio.SocketAddress.SocketAddress
    {- ^ __Returns:__ a 'GI.Gio.Objects.SocketAddress.SocketAddress' or 'Nothing' on error.
    Free the returned object with 'GI.GObject.Objects.Object.objectUnref'. /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketGetRemoteAddress socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    onException (do
        result <- propagateGError $ g_socket_get_remote_address socket'
        checkUnexpectedReturnNULL "socketGetRemoteAddress" result
        result' <- (wrapObject Gio.SocketAddress.SocketAddress) result
        touchManagedPtr socket
        return result'
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketGetRemoteAddressMethodInfo
instance (signature ~ (m Gio.SocketAddress.SocketAddress), MonadIO m, IsSocket a) => O.MethodInfo SocketGetRemoteAddressMethodInfo a signature where
    overloadedMethod _ = socketGetRemoteAddress

#endif

-- method Socket::get_socket_type
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "SocketType"}))
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_socket_type" g_socket_get_socket_type ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO CUInt

{- |
Gets the socket type of the socket.

/Since: 2.22/
-}
socketGetSocketType ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Gio.Enums.SocketType
    {- ^ __Returns:__ a 'GI.Gio.Enums.SocketType' -}
socketGetSocketType socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_socket_type socket'
    let result' = (toEnum . fromIntegral) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketGetSocketTypeMethodInfo
instance (signature ~ (m Gio.Enums.SocketType), MonadIO m, IsSocket a) => O.MethodInfo SocketGetSocketTypeMethodInfo a signature where
    overloadedMethod _ = socketGetSocketType

#endif

-- method Socket::get_timeout
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TUInt)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_timeout" g_socket_get_timeout ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO Word32

{- |
Gets the timeout setting of the socket. For details on this, see
'GI.Gio.Objects.Socket.socketSetTimeout'.

/Since: 2.26/
-}
socketGetTimeout ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Word32
    {- ^ __Returns:__ the timeout in seconds -}
socketGetTimeout socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_timeout socket'
    touchManagedPtr socket
    return result

#if ENABLE_OVERLOADING
data SocketGetTimeoutMethodInfo
instance (signature ~ (m Word32), MonadIO m, IsSocket a) => O.MethodInfo SocketGetTimeoutMethodInfo a signature where
    overloadedMethod _ = socketGetTimeout

#endif

-- method Socket::get_ttl
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TUInt)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_get_ttl" g_socket_get_ttl ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO Word32

{- |
Gets the unicast time-to-live setting on /@socket@/; see
'GI.Gio.Objects.Socket.socketSetTtl' for more details.

/Since: 2.32/
-}
socketGetTtl ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Word32
    {- ^ __Returns:__ the time-to-live setting on /@socket@/ -}
socketGetTtl socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_get_ttl socket'
    touchManagedPtr socket
    return result

#if ENABLE_OVERLOADING
data SocketGetTtlMethodInfo
instance (signature ~ (m Word32), MonadIO m, IsSocket a) => O.MethodInfo SocketGetTtlMethodInfo a signature where
    overloadedMethod _ = socketGetTtl

#endif

-- method Socket::is_closed
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_is_closed" g_socket_is_closed ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO CInt

{- |
Checks whether a socket is closed.

/Since: 2.22/
-}
socketIsClosed ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> m Bool
    {- ^ __Returns:__ 'True' if socket is closed, 'False' otherwise -}
socketIsClosed socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_is_closed socket'
    let result' = (/= 0) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketIsClosedMethodInfo
instance (signature ~ (m Bool), MonadIO m, IsSocket a) => O.MethodInfo SocketIsClosedMethodInfo a signature where
    overloadedMethod _ = socketIsClosed

#endif

-- method Socket::is_connected
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_is_connected" g_socket_is_connected ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO CInt

{- |
Check whether the socket is connected. This is only useful for
connection-oriented sockets.

If using 'GI.Gio.Objects.Socket.socketShutdown', this function will return 'True' until the
socket has been shut down for reading and writing. If you do a non-blocking
connect, this function will not return 'True' until after you call
'GI.Gio.Objects.Socket.socketCheckConnectResult'.

/Since: 2.22/
-}
socketIsConnected ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m Bool
    {- ^ __Returns:__ 'True' if socket is connected, 'False' otherwise. -}
socketIsConnected socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_is_connected socket'
    let result' = (/= 0) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketIsConnectedMethodInfo
instance (signature ~ (m Bool), MonadIO m, IsSocket a) => O.MethodInfo SocketIsConnectedMethodInfo a signature where
    overloadedMethod _ = socketIsConnected

#endif

-- method Socket::join_multicast_group
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "group", argType = TInterface (Name {namespace = "Gio", name = "InetAddress"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GInetAddress specifying the group address to join.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "source_specific", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "%TRUE if source-specific multicast should be used", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "iface", argType = TBasicType TUTF8, direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "Name of the interface to use, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_join_multicast_group" g_socket_join_multicast_group ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.InetAddress.InetAddress ->      -- group : TInterface (Name {namespace = "Gio", name = "InetAddress"})
    CInt ->                                 -- source_specific : TBasicType TBoolean
    CString ->                              -- iface : TBasicType TUTF8
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Registers /@socket@/ to receive multicast messages sent to /@group@/.
/@socket@/ must be a 'GI.Gio.Enums.SocketTypeDatagram' socket, and must have
been bound to an appropriate interface and port with
'GI.Gio.Objects.Socket.socketBind'.

If /@iface@/ is 'Nothing', the system will automatically pick an interface
to bind to based on /@group@/.

If /@sourceSpecific@/ is 'True', source-specific multicast as defined
in RFC 4604 is used. Note that on older platforms this may fail
with a 'GI.Gio.Enums.IOErrorEnumNotSupported' error.

To bind to a given source-specific multicast address, use
'GI.Gio.Objects.Socket.socketJoinMulticastGroupSsm' instead.

/Since: 2.32/
-}
socketJoinMulticastGroup ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.InetAddress.IsInetAddress b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> b
    {- ^ /@group@/: a 'GI.Gio.Objects.InetAddress.InetAddress' specifying the group address to join. -}
    -> Bool
    {- ^ /@sourceSpecific@/: 'True' if source-specific multicast should be used -}
    -> Maybe (T.Text)
    {- ^ /@iface@/: Name of the interface to use, or 'Nothing' -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketJoinMulticastGroup socket group sourceSpecific iface = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    group' <- unsafeManagedPtrCastPtr group
    let sourceSpecific' = (fromIntegral . fromEnum) sourceSpecific
    maybeIface <- case iface of
        Nothing -> return nullPtr
        Just jIface -> do
            jIface' <- textToCString jIface
            return jIface'
    onException (do
        _ <- propagateGError $ g_socket_join_multicast_group socket' group' sourceSpecific' maybeIface
        touchManagedPtr socket
        touchManagedPtr group
        freeMem maybeIface
        return ()
     ) (do
        freeMem maybeIface
     )

#if ENABLE_OVERLOADING
data SocketJoinMulticastGroupMethodInfo
instance (signature ~ (b -> Bool -> Maybe (T.Text) -> m ()), MonadIO m, IsSocket a, Gio.InetAddress.IsInetAddress b) => O.MethodInfo SocketJoinMulticastGroupMethodInfo a signature where
    overloadedMethod _ = socketJoinMulticastGroup

#endif

-- method Socket::join_multicast_group_ssm
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "group", argType = TInterface (Name {namespace = "Gio", name = "InetAddress"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GInetAddress specifying the group address to join.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "source_specific", argType = TInterface (Name {namespace = "Gio", name = "InetAddress"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a #GInetAddress specifying the\nsource-specific multicast address or %NULL to ignore.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "iface", argType = TBasicType TUTF8, direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "Name of the interface to use, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_join_multicast_group_ssm" g_socket_join_multicast_group_ssm ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.InetAddress.InetAddress ->      -- group : TInterface (Name {namespace = "Gio", name = "InetAddress"})
    Ptr Gio.InetAddress.InetAddress ->      -- source_specific : TInterface (Name {namespace = "Gio", name = "InetAddress"})
    CString ->                              -- iface : TBasicType TUTF8
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Registers /@socket@/ to receive multicast messages sent to /@group@/.
/@socket@/ must be a 'GI.Gio.Enums.SocketTypeDatagram' socket, and must have
been bound to an appropriate interface and port with
'GI.Gio.Objects.Socket.socketBind'.

If /@iface@/ is 'Nothing', the system will automatically pick an interface
to bind to based on /@group@/.

If /@sourceSpecific@/ is not 'Nothing', use source-specific multicast as
defined in RFC 4604. Note that on older platforms this may fail
with a 'GI.Gio.Enums.IOErrorEnumNotSupported' error.

Note that this function can be called multiple times for the same
/@group@/ with different /@sourceSpecific@/ in order to receive multicast
packets from more than one source.

/Since: 2.56/
-}
socketJoinMulticastGroupSsm ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.InetAddress.IsInetAddress b, Gio.InetAddress.IsInetAddress c) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> b
    {- ^ /@group@/: a 'GI.Gio.Objects.InetAddress.InetAddress' specifying the group address to join. -}
    -> Maybe (c)
    {- ^ /@sourceSpecific@/: a 'GI.Gio.Objects.InetAddress.InetAddress' specifying the
source-specific multicast address or 'Nothing' to ignore. -}
    -> Maybe (T.Text)
    {- ^ /@iface@/: Name of the interface to use, or 'Nothing' -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketJoinMulticastGroupSsm socket group sourceSpecific iface = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    group' <- unsafeManagedPtrCastPtr group
    maybeSourceSpecific <- case sourceSpecific of
        Nothing -> return nullPtr
        Just jSourceSpecific -> do
            jSourceSpecific' <- unsafeManagedPtrCastPtr jSourceSpecific
            return jSourceSpecific'
    maybeIface <- case iface of
        Nothing -> return nullPtr
        Just jIface -> do
            jIface' <- textToCString jIface
            return jIface'
    onException (do
        _ <- propagateGError $ g_socket_join_multicast_group_ssm socket' group' maybeSourceSpecific maybeIface
        touchManagedPtr socket
        touchManagedPtr group
        whenJust sourceSpecific touchManagedPtr
        freeMem maybeIface
        return ()
     ) (do
        freeMem maybeIface
     )

#if ENABLE_OVERLOADING
data SocketJoinMulticastGroupSsmMethodInfo
instance (signature ~ (b -> Maybe (c) -> Maybe (T.Text) -> m ()), MonadIO m, IsSocket a, Gio.InetAddress.IsInetAddress b, Gio.InetAddress.IsInetAddress c) => O.MethodInfo SocketJoinMulticastGroupSsmMethodInfo a signature where
    overloadedMethod _ = socketJoinMulticastGroupSsm

#endif

-- method Socket::leave_multicast_group
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "group", argType = TInterface (Name {namespace = "Gio", name = "InetAddress"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GInetAddress specifying the group address to leave.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "source_specific", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "%TRUE if source-specific multicast was used", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "iface", argType = TBasicType TUTF8, direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "Interface used", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_leave_multicast_group" g_socket_leave_multicast_group ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.InetAddress.InetAddress ->      -- group : TInterface (Name {namespace = "Gio", name = "InetAddress"})
    CInt ->                                 -- source_specific : TBasicType TBoolean
    CString ->                              -- iface : TBasicType TUTF8
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Removes /@socket@/ from the multicast group defined by /@group@/, /@iface@/,
and /@sourceSpecific@/ (which must all have the same values they had
when you joined the group).

/@socket@/ remains bound to its address and port, and can still receive
unicast messages after calling this.

To unbind to a given source-specific multicast address, use
'GI.Gio.Objects.Socket.socketLeaveMulticastGroupSsm' instead.

/Since: 2.32/
-}
socketLeaveMulticastGroup ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.InetAddress.IsInetAddress b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> b
    {- ^ /@group@/: a 'GI.Gio.Objects.InetAddress.InetAddress' specifying the group address to leave. -}
    -> Bool
    {- ^ /@sourceSpecific@/: 'True' if source-specific multicast was used -}
    -> Maybe (T.Text)
    {- ^ /@iface@/: Interface used -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketLeaveMulticastGroup socket group sourceSpecific iface = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    group' <- unsafeManagedPtrCastPtr group
    let sourceSpecific' = (fromIntegral . fromEnum) sourceSpecific
    maybeIface <- case iface of
        Nothing -> return nullPtr
        Just jIface -> do
            jIface' <- textToCString jIface
            return jIface'
    onException (do
        _ <- propagateGError $ g_socket_leave_multicast_group socket' group' sourceSpecific' maybeIface
        touchManagedPtr socket
        touchManagedPtr group
        freeMem maybeIface
        return ()
     ) (do
        freeMem maybeIface
     )

#if ENABLE_OVERLOADING
data SocketLeaveMulticastGroupMethodInfo
instance (signature ~ (b -> Bool -> Maybe (T.Text) -> m ()), MonadIO m, IsSocket a, Gio.InetAddress.IsInetAddress b) => O.MethodInfo SocketLeaveMulticastGroupMethodInfo a signature where
    overloadedMethod _ = socketLeaveMulticastGroup

#endif

-- method Socket::leave_multicast_group_ssm
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "group", argType = TInterface (Name {namespace = "Gio", name = "InetAddress"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GInetAddress specifying the group address to leave.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "source_specific", argType = TInterface (Name {namespace = "Gio", name = "InetAddress"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a #GInetAddress specifying the\nsource-specific multicast address or %NULL to ignore.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "iface", argType = TBasicType TUTF8, direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "Name of the interface to use, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_leave_multicast_group_ssm" g_socket_leave_multicast_group_ssm ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.InetAddress.InetAddress ->      -- group : TInterface (Name {namespace = "Gio", name = "InetAddress"})
    Ptr Gio.InetAddress.InetAddress ->      -- source_specific : TInterface (Name {namespace = "Gio", name = "InetAddress"})
    CString ->                              -- iface : TBasicType TUTF8
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Removes /@socket@/ from the multicast group defined by /@group@/, /@iface@/,
and /@sourceSpecific@/ (which must all have the same values they had
when you joined the group).

/@socket@/ remains bound to its address and port, and can still receive
unicast messages after calling this.

/Since: 2.56/
-}
socketLeaveMulticastGroupSsm ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.InetAddress.IsInetAddress b, Gio.InetAddress.IsInetAddress c) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> b
    {- ^ /@group@/: a 'GI.Gio.Objects.InetAddress.InetAddress' specifying the group address to leave. -}
    -> Maybe (c)
    {- ^ /@sourceSpecific@/: a 'GI.Gio.Objects.InetAddress.InetAddress' specifying the
source-specific multicast address or 'Nothing' to ignore. -}
    -> Maybe (T.Text)
    {- ^ /@iface@/: Name of the interface to use, or 'Nothing' -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketLeaveMulticastGroupSsm socket group sourceSpecific iface = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    group' <- unsafeManagedPtrCastPtr group
    maybeSourceSpecific <- case sourceSpecific of
        Nothing -> return nullPtr
        Just jSourceSpecific -> do
            jSourceSpecific' <- unsafeManagedPtrCastPtr jSourceSpecific
            return jSourceSpecific'
    maybeIface <- case iface of
        Nothing -> return nullPtr
        Just jIface -> do
            jIface' <- textToCString jIface
            return jIface'
    onException (do
        _ <- propagateGError $ g_socket_leave_multicast_group_ssm socket' group' maybeSourceSpecific maybeIface
        touchManagedPtr socket
        touchManagedPtr group
        whenJust sourceSpecific touchManagedPtr
        freeMem maybeIface
        return ()
     ) (do
        freeMem maybeIface
     )

#if ENABLE_OVERLOADING
data SocketLeaveMulticastGroupSsmMethodInfo
instance (signature ~ (b -> Maybe (c) -> Maybe (T.Text) -> m ()), MonadIO m, IsSocket a, Gio.InetAddress.IsInetAddress b, Gio.InetAddress.IsInetAddress c) => O.MethodInfo SocketLeaveMulticastGroupSsmMethodInfo a signature where
    overloadedMethod _ = socketLeaveMulticastGroupSsm

#endif

-- method Socket::listen
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_listen" g_socket_listen ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Marks the socket as a server socket, i.e. a socket that is used
to accept incoming requests using 'GI.Gio.Objects.Socket.socketAccept'.

Before calling this the socket must be bound to a local address using
'GI.Gio.Objects.Socket.socketBind'.

To set the maximum amount of outstanding clients, use
'GI.Gio.Objects.Socket.socketSetListenBacklog'.

/Since: 2.22/
-}
socketListen ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketListen socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    onException (do
        _ <- propagateGError $ g_socket_listen socket'
        touchManagedPtr socket
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketListenMethodInfo
instance (signature ~ (m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketListenMethodInfo a signature where
    overloadedMethod _ = socketListen

#endif

-- method Socket::receive
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "buffer", argType = TCArray False (-1) 2 (TBasicType TUInt8), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a buffer to\n    read data into (which should be at least @size bytes long).", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes you want to read from the socket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes you want to read from the socket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TBasicType TInt64)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_receive" g_socket_receive ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Word8 ->                            -- buffer : TCArray False (-1) 2 (TBasicType TUInt8)
    Word64 ->                               -- size : TBasicType TUInt64
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO Int64

{- |
Receive data (up to /@size@/ bytes) from a socket. This is mainly used by
connection-oriented sockets; it is identical to 'GI.Gio.Objects.Socket.socketReceiveFrom'
with /@address@/ set to 'Nothing'.

For 'GI.Gio.Enums.SocketTypeDatagram' and 'GI.Gio.Enums.SocketTypeSeqpacket' sockets,
'GI.Gio.Objects.Socket.socketReceive' will always read either 0 or 1 complete messages from
the socket. If the received message is too large to fit in /@buffer@/, then
the data beyond /@size@/ bytes will be discarded, without any explicit
indication that this has occurred.

For 'GI.Gio.Enums.SocketTypeStream' sockets, 'GI.Gio.Objects.Socket.socketReceive' can return any
number of bytes, up to /@size@/. If more than /@size@/ bytes have been
received, the additional data will be returned in future calls to
'GI.Gio.Objects.Socket.socketReceive'.

If the socket is in blocking mode the call will block until there
is some data to receive, the connection is closed, or there is an
error. If there is no data available and the socket is in
non-blocking mode, a 'GI.Gio.Enums.IOErrorEnumWouldBlock' error will be
returned. To be notified when data is available, wait for the
'GI.GLib.Flags.IOConditionIn' condition.

On error -1 is returned and /@error@/ is set accordingly.

/Since: 2.22/
-}
socketReceive ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> ByteString
    {- ^ /@buffer@/: a buffer to
    read data into (which should be at least /@size@/ bytes long). -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m Int64
    {- ^ __Returns:__ Number of bytes read, or 0 if the connection was closed by
the peer, or -1 on error /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketReceive socket buffer cancellable = liftIO $ do
    let size = fromIntegral $ B.length buffer
    socket' <- unsafeManagedPtrCastPtr socket
    buffer' <- packByteString buffer
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_receive socket' buffer' size maybeCancellable
        touchManagedPtr socket
        whenJust cancellable touchManagedPtr
        freeMem buffer'
        return result
     ) (do
        freeMem buffer'
     )

#if ENABLE_OVERLOADING
data SocketReceiveMethodInfo
instance (signature ~ (ByteString -> Maybe (b) -> m Int64), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketReceiveMethodInfo a signature where
    overloadedMethod _ = socketReceive

#endif

-- method Socket::receive_from
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "address", argType = TInterface (Name {namespace = "Gio", name = "SocketAddress"}), direction = DirectionOut, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a pointer to a #GSocketAddress\n    pointer, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferEverything},Arg {argCName = "buffer", argType = TCArray False (-1) 3 (TBasicType TUInt8), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a buffer to\n    read data into (which should be at least @size bytes long).", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes you want to read from the socket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes you want to read from the socket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TBasicType TInt64)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_receive_from" g_socket_receive_from ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr (Ptr Gio.SocketAddress.SocketAddress) -> -- address : TInterface (Name {namespace = "Gio", name = "SocketAddress"})
    Ptr Word8 ->                            -- buffer : TCArray False (-1) 3 (TBasicType TUInt8)
    Word64 ->                               -- size : TBasicType TUInt64
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO Int64

{- |
Receive data (up to /@size@/ bytes) from a socket.

If /@address@/ is non-'Nothing' then /@address@/ will be set equal to the
source address of the received packet.
/@address@/ is owned by the caller.

See 'GI.Gio.Objects.Socket.socketReceive' for additional information.

/Since: 2.22/
-}
socketReceiveFrom ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> ByteString
    {- ^ /@buffer@/: a buffer to
    read data into (which should be at least /@size@/ bytes long). -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m ((Int64, Gio.SocketAddress.SocketAddress))
    {- ^ __Returns:__ Number of bytes read, or 0 if the connection was closed by
the peer, or -1 on error /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketReceiveFrom socket buffer cancellable = liftIO $ do
    let size = fromIntegral $ B.length buffer
    socket' <- unsafeManagedPtrCastPtr socket
    address <- allocMem :: IO (Ptr (Ptr Gio.SocketAddress.SocketAddress))
    buffer' <- packByteString buffer
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_receive_from socket' address buffer' size maybeCancellable
        address' <- peek address
        address'' <- (wrapObject Gio.SocketAddress.SocketAddress) address'
        touchManagedPtr socket
        whenJust cancellable touchManagedPtr
        freeMem address
        freeMem buffer'
        return (result, address'')
     ) (do
        freeMem address
        freeMem buffer'
     )

#if ENABLE_OVERLOADING
data SocketReceiveFromMethodInfo
instance (signature ~ (ByteString -> Maybe (b) -> m ((Int64, Gio.SocketAddress.SocketAddress))), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketReceiveFromMethodInfo a signature where
    overloadedMethod _ = socketReceiveFrom

#endif

-- method Socket::receive_message
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "address", argType = TInterface (Name {namespace = "Gio", name = "SocketAddress"}), direction = DirectionOut, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a pointer to a #GSocketAddress\n    pointer, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferEverything},Arg {argCName = "vectors", argType = TCArray False (-1) 3 (TInterface (Name {namespace = "Gio", name = "InputVector"})), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "an array of #GInputVector structs", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "num_vectors", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of elements in @vectors, or -1", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "messages", argType = TCArray False (-1) 5 (TInterface (Name {namespace = "Gio", name = "SocketControlMessage"})), direction = DirectionOut, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a pointer\n   which may be filled with an array of #GSocketControlMessages, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferEverything},Arg {argCName = "num_messages", argType = TBasicType TInt, direction = DirectionOut, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a pointer which will be filled with the number of\n   elements in @messages, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferEverything},Arg {argCName = "flags", argType = TBasicType TInt, direction = DirectionInout, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a pointer to an int containing #GSocketMsgFlags flags", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferEverything},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "num_messages", argType = TBasicType TInt, direction = DirectionOut, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a pointer which will be filled with the number of\n   elements in @messages, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferEverything},Arg {argCName = "num_vectors", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of elements in @vectors, or -1", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TBasicType TInt64)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_receive_message" g_socket_receive_message ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr (Ptr Gio.SocketAddress.SocketAddress) -> -- address : TInterface (Name {namespace = "Gio", name = "SocketAddress"})
    Ptr Gio.InputVector.InputVector ->      -- vectors : TCArray False (-1) 3 (TInterface (Name {namespace = "Gio", name = "InputVector"}))
    Int32 ->                                -- num_vectors : TBasicType TInt
    Ptr (Ptr (Ptr Gio.SocketControlMessage.SocketControlMessage)) -> -- messages : TCArray False (-1) 5 (TInterface (Name {namespace = "Gio", name = "SocketControlMessage"}))
    Ptr Int32 ->                            -- num_messages : TBasicType TInt
    Ptr Int32 ->                            -- flags : TBasicType TInt
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO Int64

{- |
Receive data from a socket.  For receiving multiple messages, see
'GI.Gio.Objects.Socket.socketReceiveMessages'; for easier use, see
'GI.Gio.Objects.Socket.socketReceive' and 'GI.Gio.Objects.Socket.socketReceiveFrom'.

If /@address@/ is non-'Nothing' then /@address@/ will be set equal to the
source address of the received packet.
/@address@/ is owned by the caller.

/@vector@/ must point to an array of 'GI.Gio.Structs.InputVector.InputVector' structs and
/@numVectors@/ must be the length of this array.  These structs
describe the buffers that received data will be scattered into.
If /@numVectors@/ is -1, then /@vectors@/ is assumed to be terminated
by a 'GI.Gio.Structs.InputVector.InputVector' with a 'Nothing' buffer pointer.

As a special case, if /@numVectors@/ is 0 (in which case, /@vectors@/
may of course be 'Nothing'), then a single byte is received and
discarded. This is to facilitate the common practice of sending a
single \'\\0\' byte for the purposes of transferring ancillary data.

/@messages@/, if non-'Nothing', will be set to point to a newly-allocated
array of 'GI.Gio.Objects.SocketControlMessage.SocketControlMessage' instances or 'Nothing' if no such
messages was received. These correspond to the control messages
received from the kernel, one 'GI.Gio.Objects.SocketControlMessage.SocketControlMessage' per message
from the kernel. This array is 'Nothing'-terminated and must be freed
by the caller using 'GI.GLib.Functions.free' after calling 'GI.GObject.Objects.Object.objectUnref' on each
element. If /@messages@/ is 'Nothing', any control messages received will
be discarded.

/@numMessages@/, if non-'Nothing', will be set to the number of control
messages received.

If both /@messages@/ and /@numMessages@/ are non-'Nothing', then
/@numMessages@/ gives the number of 'GI.Gio.Objects.SocketControlMessage.SocketControlMessage' instances
in /@messages@/ (ie: not including the 'Nothing' terminator).

/@flags@/ is an in\/out parameter. The commonly available arguments
for this are available in the 'GI.Gio.Flags.SocketMsgFlags' enum, but the
values there are the same as the system values, and the flags
are passed in as-is, so you can pass in system-specific flags too
(and 'GI.Gio.Objects.Socket.socketReceiveMessage' may pass system-specific flags out).
Flags passed in to the parameter affect the receive operation; flags returned
out of it are relevant to the specific returned message.

As with 'GI.Gio.Objects.Socket.socketReceive', data may be discarded if /@socket@/ is
'GI.Gio.Enums.SocketTypeDatagram' or 'GI.Gio.Enums.SocketTypeSeqpacket' and you do not
provide enough buffer space to read a complete message. You can pass
'GI.Gio.Flags.SocketMsgFlagsPeek' in /@flags@/ to peek at the current message without
removing it from the receive queue, but there is no portable way to find
out the length of the message other than by reading it into a
sufficiently-large buffer.

If the socket is in blocking mode the call will block until there
is some data to receive, the connection is closed, or there is an
error. If there is no data available and the socket is in
non-blocking mode, a 'GI.Gio.Enums.IOErrorEnumWouldBlock' error will be
returned. To be notified when data is available, wait for the
'GI.GLib.Flags.IOConditionIn' condition.

On error -1 is returned and /@error@/ is set accordingly.

/Since: 2.22/
-}
socketReceiveMessage ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> [Gio.InputVector.InputVector]
    {- ^ /@vectors@/: an array of 'GI.Gio.Structs.InputVector.InputVector' structs -}
    -> Int32
    {- ^ /@flags@/: a pointer to an int containing 'GI.Gio.Flags.SocketMsgFlags' flags -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m ((Int64, Maybe Gio.SocketAddress.SocketAddress, Maybe [Gio.SocketControlMessage.SocketControlMessage], Int32))
    {- ^ __Returns:__ Number of bytes read, or 0 if the connection was closed by
the peer, or -1 on error /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketReceiveMessage socket vectors flags cancellable = liftIO $ do
    let numVectors = fromIntegral $ length vectors
    socket' <- unsafeManagedPtrCastPtr socket
    address <- allocMem :: IO (Ptr (Ptr Gio.SocketAddress.SocketAddress))
    vectors' <- mapM unsafeManagedPtrGetPtr vectors
    vectors'' <- packBlockArray 16 vectors'
    messages <- allocMem :: IO (Ptr (Ptr (Ptr Gio.SocketControlMessage.SocketControlMessage)))
    numMessages <- allocMem :: IO (Ptr Int32)
    flags' <- allocMem :: IO (Ptr Int32)
    poke flags' flags
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_receive_message socket' address vectors'' numVectors messages numMessages flags' maybeCancellable
        numMessages' <- peek numMessages
        address' <- peek address
        maybeAddress' <- convertIfNonNull address' $ \address'' -> do
            address''' <- (wrapObject Gio.SocketAddress.SocketAddress) address''
            return address'''
        messages' <- peek messages
        maybeMessages' <- convertIfNonNull messages' $ \messages'' -> do
            messages''' <- (unpackPtrArrayWithLength numMessages') messages''
            messages'''' <- mapM (wrapObject Gio.SocketControlMessage.SocketControlMessage) messages'''
            freeMem messages''
            return messages''''
        flags'' <- peek flags'
        touchManagedPtr socket
        mapM_ touchManagedPtr vectors
        whenJust cancellable touchManagedPtr
        freeMem address
        freeMem vectors''
        freeMem messages
        freeMem numMessages
        freeMem flags'
        return (result, maybeAddress', maybeMessages', flags'')
     ) (do
        freeMem address
        freeMem vectors''
        freeMem messages
        freeMem numMessages
        freeMem flags'
     )

#if ENABLE_OVERLOADING
data SocketReceiveMessageMethodInfo
instance (signature ~ ([Gio.InputVector.InputVector] -> Int32 -> Maybe (b) -> m ((Int64, Maybe Gio.SocketAddress.SocketAddress, Maybe [Gio.SocketControlMessage.SocketControlMessage], Int32))), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketReceiveMessageMethodInfo a signature where
    overloadedMethod _ = socketReceiveMessage

#endif

-- method Socket::receive_messages
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "messages", argType = TCArray False (-1) 2 (TInterface (Name {namespace = "Gio", name = "InputMessage"})), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "an array of #GInputMessage structs", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "num_messages", argType = TBasicType TUInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of elements in @messages", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "flags", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "an int containing #GSocketMsgFlags flags for the overall operation", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "num_messages", argType = TBasicType TUInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of elements in @messages", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TBasicType TInt)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_receive_messages" g_socket_receive_messages ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.InputMessage.InputMessage ->    -- messages : TCArray False (-1) 2 (TInterface (Name {namespace = "Gio", name = "InputMessage"}))
    Word32 ->                               -- num_messages : TBasicType TUInt
    Int32 ->                                -- flags : TBasicType TInt
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO Int32

{- |
Receive multiple data messages from /@socket@/ in one go.  This is the most
complicated and fully-featured version of this call. For easier use, see
'GI.Gio.Objects.Socket.socketReceive', 'GI.Gio.Objects.Socket.socketReceiveFrom', and 'GI.Gio.Objects.Socket.socketReceiveMessage'.

/@messages@/ must point to an array of 'GI.Gio.Structs.InputMessage.InputMessage' structs and
/@numMessages@/ must be the length of this array. Each 'GI.Gio.Structs.InputMessage.InputMessage'
contains a pointer to an array of 'GI.Gio.Structs.InputVector.InputVector' structs describing the
buffers that the data received in each message will be written to. Using
multiple @/GInputVectors/@ is more memory-efficient than manually copying data
out of a single buffer to multiple sources, and more system-call-efficient
than making multiple calls to 'GI.Gio.Objects.Socket.socketReceive', such as in scenarios where
a lot of data packets need to be received (e.g. high-bandwidth video
streaming over RTP\/UDP).

/@flags@/ modify how all messages are received. The commonly available
arguments for this are available in the 'GI.Gio.Flags.SocketMsgFlags' enum, but the
values there are the same as the system values, and the flags
are passed in as-is, so you can pass in system-specific flags too. These
flags affect the overall receive operation. Flags affecting individual
messages are returned in 'GI.Gio.Structs.InputMessage.InputMessage'.@/flags/@.

The other members of 'GI.Gio.Structs.InputMessage.InputMessage' are treated as described in its
documentation.

If 'GI.Gio.Objects.Socket.Socket':@/blocking/@ is 'True' the call will block until /@numMessages@/ have
been received, or the end of the stream is reached.

If 'GI.Gio.Objects.Socket.Socket':@/blocking/@ is 'False' the call will return up to /@numMessages@/
without blocking, or 'GI.Gio.Enums.IOErrorEnumWouldBlock' if no messages are queued in the
operating system to be received.

In blocking mode, if 'GI.Gio.Objects.Socket.Socket':@/timeout/@ is positive and is reached before any
messages are received, 'GI.Gio.Enums.IOErrorEnumTimedOut' is returned, otherwise up to
/@numMessages@/ are returned. (Note: This is effectively the
behaviour of @MSG_WAITFORONE@ with @/recvmmsg()/@.)

To be notified when messages are available, wait for the
'GI.GLib.Flags.IOConditionIn' condition. Note though that you may still receive
'GI.Gio.Enums.IOErrorEnumWouldBlock' from 'GI.Gio.Objects.Socket.socketReceiveMessages' even if you were
previously notified of a 'GI.GLib.Flags.IOConditionIn' condition.

If the remote peer closes the connection, any messages queued in the
operating system will be returned, and subsequent calls to
'GI.Gio.Objects.Socket.socketReceiveMessages' will return 0 (with no error set).

On error -1 is returned and /@error@/ is set accordingly. An error will only
be returned if zero messages could be received; otherwise the number of
messages successfully received before the error will be returned.

/Since: 2.48/
-}
socketReceiveMessages ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> [Gio.InputMessage.InputMessage]
    {- ^ /@messages@/: an array of 'GI.Gio.Structs.InputMessage.InputMessage' structs -}
    -> Int32
    {- ^ /@flags@/: an int containing 'GI.Gio.Flags.SocketMsgFlags' flags for the overall operation -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m Int32
    {- ^ __Returns:__ number of messages received, or -1 on error. Note that the number
    of messages received may be smaller than /@numMessages@/ if in non-blocking
    mode, if the peer closed the connection, or if /@numMessages@/
    was larger than @UIO_MAXIOV@ (1024), in which case the caller may re-try
    to receive the remaining messages. /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketReceiveMessages socket messages flags cancellable = liftIO $ do
    let numMessages = fromIntegral $ length messages
    socket' <- unsafeManagedPtrCastPtr socket
    messages' <- mapM unsafeManagedPtrGetPtr messages
    messages'' <- packBlockArray 56 messages'
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_receive_messages socket' messages'' numMessages flags maybeCancellable
        touchManagedPtr socket
        mapM_ touchManagedPtr messages
        whenJust cancellable touchManagedPtr
        freeMem messages''
        return result
     ) (do
        freeMem messages''
     )

#if ENABLE_OVERLOADING
data SocketReceiveMessagesMethodInfo
instance (signature ~ ([Gio.InputMessage.InputMessage] -> Int32 -> Maybe (b) -> m Int32), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketReceiveMessagesMethodInfo a signature where
    overloadedMethod _ = socketReceiveMessages

#endif

-- method Socket::receive_with_blocking
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "buffer", argType = TCArray False (-1) 2 (TBasicType TUInt8), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a buffer to\n    read data into (which should be at least @size bytes long).", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes you want to read from the socket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "blocking", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "whether to do blocking or non-blocking I/O", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes you want to read from the socket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TBasicType TInt64)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_receive_with_blocking" g_socket_receive_with_blocking ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Word8 ->                            -- buffer : TCArray False (-1) 2 (TBasicType TUInt8)
    Word64 ->                               -- size : TBasicType TUInt64
    CInt ->                                 -- blocking : TBasicType TBoolean
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO Int64

{- |
This behaves exactly the same as 'GI.Gio.Objects.Socket.socketReceive', except that
the choice of blocking or non-blocking behavior is determined by
the /@blocking@/ argument rather than by /@socket@/\'s properties.

/Since: 2.26/
-}
socketReceiveWithBlocking ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> ByteString
    {- ^ /@buffer@/: a buffer to
    read data into (which should be at least /@size@/ bytes long). -}
    -> Bool
    {- ^ /@blocking@/: whether to do blocking or non-blocking I\/O -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m Int64
    {- ^ __Returns:__ Number of bytes read, or 0 if the connection was closed by
the peer, or -1 on error /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketReceiveWithBlocking socket buffer blocking cancellable = liftIO $ do
    let size = fromIntegral $ B.length buffer
    socket' <- unsafeManagedPtrCastPtr socket
    buffer' <- packByteString buffer
    let blocking' = (fromIntegral . fromEnum) blocking
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_receive_with_blocking socket' buffer' size blocking' maybeCancellable
        touchManagedPtr socket
        whenJust cancellable touchManagedPtr
        freeMem buffer'
        return result
     ) (do
        freeMem buffer'
     )

#if ENABLE_OVERLOADING
data SocketReceiveWithBlockingMethodInfo
instance (signature ~ (ByteString -> Bool -> Maybe (b) -> m Int64), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketReceiveWithBlockingMethodInfo a signature where
    overloadedMethod _ = socketReceiveWithBlocking

#endif

-- method Socket::send
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "buffer", argType = TCArray False (-1) 2 (TBasicType TUInt8), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the buffer\n    containing the data to send.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes to send", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes to send", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TBasicType TInt64)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_send" g_socket_send ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Word8 ->                            -- buffer : TCArray False (-1) 2 (TBasicType TUInt8)
    Word64 ->                               -- size : TBasicType TUInt64
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO Int64

{- |
Tries to send /@size@/ bytes from /@buffer@/ on the socket. This is
mainly used by connection-oriented sockets; it is identical to
'GI.Gio.Objects.Socket.socketSendTo' with /@address@/ set to 'Nothing'.

If the socket is in blocking mode the call will block until there is
space for the data in the socket queue. If there is no space available
and the socket is in non-blocking mode a 'GI.Gio.Enums.IOErrorEnumWouldBlock' error
will be returned. To be notified when space is available, wait for the
'GI.GLib.Flags.IOConditionOut' condition. Note though that you may still receive
'GI.Gio.Enums.IOErrorEnumWouldBlock' from 'GI.Gio.Objects.Socket.socketSend' even if you were previously
notified of a 'GI.GLib.Flags.IOConditionOut' condition. (On Windows in particular, this is
very common due to the way the underlying APIs work.)

On error -1 is returned and /@error@/ is set accordingly.

/Since: 2.22/
-}
socketSend ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> ByteString
    {- ^ /@buffer@/: the buffer
    containing the data to send. -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m Int64
    {- ^ __Returns:__ Number of bytes written (which may be less than /@size@/), or -1
on error /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketSend socket buffer cancellable = liftIO $ do
    let size = fromIntegral $ B.length buffer
    socket' <- unsafeManagedPtrCastPtr socket
    buffer' <- packByteString buffer
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_send socket' buffer' size maybeCancellable
        touchManagedPtr socket
        whenJust cancellable touchManagedPtr
        freeMem buffer'
        return result
     ) (do
        freeMem buffer'
     )

#if ENABLE_OVERLOADING
data SocketSendMethodInfo
instance (signature ~ (ByteString -> Maybe (b) -> m Int64), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketSendMethodInfo a signature where
    overloadedMethod _ = socketSend

#endif

-- method Socket::send_message
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "address", argType = TInterface (Name {namespace = "Gio", name = "SocketAddress"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a #GSocketAddress, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "vectors", argType = TCArray False (-1) 3 (TInterface (Name {namespace = "Gio", name = "OutputVector"})), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "an array of #GOutputVector structs", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "num_vectors", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of elements in @vectors, or -1", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "messages", argType = TCArray False (-1) 5 (TInterface (Name {namespace = "Gio", name = "SocketControlMessage"})), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a pointer to an\n  array of #GSocketControlMessages, or %NULL.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "num_messages", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "number of elements in @messages, or -1.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "flags", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "an int containing #GSocketMsgFlags flags", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "num_messages", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "number of elements in @messages, or -1.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "num_vectors", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of elements in @vectors, or -1", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TBasicType TInt64)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_send_message" g_socket_send_message ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.SocketAddress.SocketAddress ->  -- address : TInterface (Name {namespace = "Gio", name = "SocketAddress"})
    Ptr Gio.OutputVector.OutputVector ->    -- vectors : TCArray False (-1) 3 (TInterface (Name {namespace = "Gio", name = "OutputVector"}))
    Int32 ->                                -- num_vectors : TBasicType TInt
    Ptr (Ptr Gio.SocketControlMessage.SocketControlMessage) -> -- messages : TCArray False (-1) 5 (TInterface (Name {namespace = "Gio", name = "SocketControlMessage"}))
    Int32 ->                                -- num_messages : TBasicType TInt
    Int32 ->                                -- flags : TBasicType TInt
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO Int64

{- |
Send data to /@address@/ on /@socket@/.  For sending multiple messages see
'GI.Gio.Objects.Socket.socketSendMessages'; for easier use, see
'GI.Gio.Objects.Socket.socketSend' and 'GI.Gio.Objects.Socket.socketSendTo'.

If /@address@/ is 'Nothing' then the message is sent to the default receiver
(set by 'GI.Gio.Objects.Socket.socketConnect').

/@vectors@/ must point to an array of 'GI.Gio.Structs.OutputVector.OutputVector' structs and
/@numVectors@/ must be the length of this array. (If /@numVectors@/ is -1,
then /@vectors@/ is assumed to be terminated by a 'GI.Gio.Structs.OutputVector.OutputVector' with a
'Nothing' buffer pointer.) The 'GI.Gio.Structs.OutputVector.OutputVector' structs describe the buffers
that the sent data will be gathered from. Using multiple
@/GOutputVectors/@ is more memory-efficient than manually copying
data from multiple sources into a single buffer, and more
network-efficient than making multiple calls to 'GI.Gio.Objects.Socket.socketSend'.

/@messages@/, if non-'Nothing', is taken to point to an array of /@numMessages@/
'GI.Gio.Objects.SocketControlMessage.SocketControlMessage' instances. These correspond to the control
messages to be sent on the socket.
If /@numMessages@/ is -1 then /@messages@/ is treated as a 'Nothing'-terminated
array.

/@flags@/ modify how the message is sent. The commonly available arguments
for this are available in the 'GI.Gio.Flags.SocketMsgFlags' enum, but the
values there are the same as the system values, and the flags
are passed in as-is, so you can pass in system-specific flags too.

If the socket is in blocking mode the call will block until there is
space for the data in the socket queue. If there is no space available
and the socket is in non-blocking mode a 'GI.Gio.Enums.IOErrorEnumWouldBlock' error
will be returned. To be notified when space is available, wait for the
'GI.GLib.Flags.IOConditionOut' condition. Note though that you may still receive
'GI.Gio.Enums.IOErrorEnumWouldBlock' from 'GI.Gio.Objects.Socket.socketSend' even if you were previously
notified of a 'GI.GLib.Flags.IOConditionOut' condition. (On Windows in particular, this is
very common due to the way the underlying APIs work.)

On error -1 is returned and /@error@/ is set accordingly.

/Since: 2.22/
-}
socketSendMessage ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.SocketAddress.IsSocketAddress b, Gio.Cancellable.IsCancellable c) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> Maybe (b)
    {- ^ /@address@/: a 'GI.Gio.Objects.SocketAddress.SocketAddress', or 'Nothing' -}
    -> [Gio.OutputVector.OutputVector]
    {- ^ /@vectors@/: an array of 'GI.Gio.Structs.OutputVector.OutputVector' structs -}
    -> Maybe ([Gio.SocketControlMessage.SocketControlMessage])
    {- ^ /@messages@/: a pointer to an
  array of @/GSocketControlMessages/@, or 'Nothing'. -}
    -> Int32
    {- ^ /@flags@/: an int containing 'GI.Gio.Flags.SocketMsgFlags' flags -}
    -> Maybe (c)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m Int64
    {- ^ __Returns:__ Number of bytes written (which may be less than /@size@/), or -1
on error /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketSendMessage socket address vectors messages flags cancellable = liftIO $ do
    let numMessages = case messages of
            Nothing -> 0
            Just jMessages -> fromIntegral $ length jMessages
    let numVectors = fromIntegral $ length vectors
    socket' <- unsafeManagedPtrCastPtr socket
    maybeAddress <- case address of
        Nothing -> return nullPtr
        Just jAddress -> do
            jAddress' <- unsafeManagedPtrCastPtr jAddress
            return jAddress'
    vectors' <- mapM unsafeManagedPtrGetPtr vectors
    vectors'' <- packBlockArray 16 vectors'
    maybeMessages <- case messages of
        Nothing -> return nullPtr
        Just jMessages -> do
            jMessages' <- mapM unsafeManagedPtrCastPtr jMessages
            jMessages'' <- packPtrArray jMessages'
            return jMessages''
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_send_message socket' maybeAddress vectors'' numVectors maybeMessages numMessages flags maybeCancellable
        touchManagedPtr socket
        whenJust address touchManagedPtr
        mapM_ touchManagedPtr vectors
        whenJust messages (mapM_ touchManagedPtr)
        whenJust cancellable touchManagedPtr
        freeMem vectors''
        freeMem maybeMessages
        return result
     ) (do
        freeMem vectors''
        freeMem maybeMessages
     )

#if ENABLE_OVERLOADING
data SocketSendMessageMethodInfo
instance (signature ~ (Maybe (b) -> [Gio.OutputVector.OutputVector] -> Maybe ([Gio.SocketControlMessage.SocketControlMessage]) -> Int32 -> Maybe (c) -> m Int64), MonadIO m, IsSocket a, Gio.SocketAddress.IsSocketAddress b, Gio.Cancellable.IsCancellable c) => O.MethodInfo SocketSendMessageMethodInfo a signature where
    overloadedMethod _ = socketSendMessage

#endif

-- method Socket::send_message_with_timeout
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "address", argType = TInterface (Name {namespace = "Gio", name = "SocketAddress"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a #GSocketAddress, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "vectors", argType = TCArray False (-1) 3 (TInterface (Name {namespace = "Gio", name = "OutputVector"})), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "an array of #GOutputVector structs", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "num_vectors", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of elements in @vectors, or -1", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "messages", argType = TCArray False (-1) 5 (TInterface (Name {namespace = "Gio", name = "SocketControlMessage"})), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a pointer to an\n  array of #GSocketControlMessages, or %NULL.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "num_messages", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "number of elements in @messages, or -1.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "flags", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "an int containing #GSocketMsgFlags flags", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "timeout_us", argType = TBasicType TInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the maximum time (in microseconds) to wait, or -1", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "bytes_written", argType = TBasicType TUInt64, direction = DirectionOut, mayBeNull = False, argDoc = Documentation {rawDocText = Just "location to store the number of bytes that were written to the socket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferEverything},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "num_messages", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "number of elements in @messages, or -1.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "num_vectors", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of elements in @vectors, or -1", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "PollableReturn"}))
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_send_message_with_timeout" g_socket_send_message_with_timeout ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.SocketAddress.SocketAddress ->  -- address : TInterface (Name {namespace = "Gio", name = "SocketAddress"})
    Ptr Gio.OutputVector.OutputVector ->    -- vectors : TCArray False (-1) 3 (TInterface (Name {namespace = "Gio", name = "OutputVector"}))
    Int32 ->                                -- num_vectors : TBasicType TInt
    Ptr (Ptr Gio.SocketControlMessage.SocketControlMessage) -> -- messages : TCArray False (-1) 5 (TInterface (Name {namespace = "Gio", name = "SocketControlMessage"}))
    Int32 ->                                -- num_messages : TBasicType TInt
    Int32 ->                                -- flags : TBasicType TInt
    Int64 ->                                -- timeout_us : TBasicType TInt64
    Ptr Word64 ->                           -- bytes_written : TBasicType TUInt64
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
This behaves exactly the same as 'GI.Gio.Objects.Socket.socketSendMessage', except that
the choice of timeout behavior is determined by the /@timeoutUs@/ argument
rather than by /@socket@/\'s properties.

On error 'GI.Gio.Enums.PollableReturnFailed' is returned and /@error@/ is set accordingly, or
if the socket is currently not writable 'GI.Gio.Enums.PollableReturnWouldBlock' is
returned. /@bytesWritten@/ will contain 0 in both cases.

/Since: 2.60/
-}
socketSendMessageWithTimeout ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.SocketAddress.IsSocketAddress b, Gio.Cancellable.IsCancellable c) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> Maybe (b)
    {- ^ /@address@/: a 'GI.Gio.Objects.SocketAddress.SocketAddress', or 'Nothing' -}
    -> [Gio.OutputVector.OutputVector]
    {- ^ /@vectors@/: an array of 'GI.Gio.Structs.OutputVector.OutputVector' structs -}
    -> Maybe ([Gio.SocketControlMessage.SocketControlMessage])
    {- ^ /@messages@/: a pointer to an
  array of @/GSocketControlMessages/@, or 'Nothing'. -}
    -> Int32
    {- ^ /@flags@/: an int containing 'GI.Gio.Flags.SocketMsgFlags' flags -}
    -> Int64
    {- ^ /@timeoutUs@/: the maximum time (in microseconds) to wait, or -1 -}
    -> Maybe (c)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m ((Gio.Enums.PollableReturn, Word64))
    {- ^ __Returns:__ 'GI.Gio.Enums.PollableReturnOk' if all data was successfully written,
'GI.Gio.Enums.PollableReturnWouldBlock' if the socket is currently not writable, or
'GI.Gio.Enums.PollableReturnFailed' if an error happened and /@error@/ is set. /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketSendMessageWithTimeout socket address vectors messages flags timeoutUs cancellable = liftIO $ do
    let numMessages = case messages of
            Nothing -> 0
            Just jMessages -> fromIntegral $ length jMessages
    let numVectors = fromIntegral $ length vectors
    socket' <- unsafeManagedPtrCastPtr socket
    maybeAddress <- case address of
        Nothing -> return nullPtr
        Just jAddress -> do
            jAddress' <- unsafeManagedPtrCastPtr jAddress
            return jAddress'
    vectors' <- mapM unsafeManagedPtrGetPtr vectors
    vectors'' <- packBlockArray 16 vectors'
    maybeMessages <- case messages of
        Nothing -> return nullPtr
        Just jMessages -> do
            jMessages' <- mapM unsafeManagedPtrCastPtr jMessages
            jMessages'' <- packPtrArray jMessages'
            return jMessages''
    bytesWritten <- allocMem :: IO (Ptr Word64)
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_send_message_with_timeout socket' maybeAddress vectors'' numVectors maybeMessages numMessages flags timeoutUs bytesWritten maybeCancellable
        let result' = (toEnum . fromIntegral) result
        bytesWritten' <- peek bytesWritten
        touchManagedPtr socket
        whenJust address touchManagedPtr
        mapM_ touchManagedPtr vectors
        whenJust messages (mapM_ touchManagedPtr)
        whenJust cancellable touchManagedPtr
        freeMem vectors''
        freeMem maybeMessages
        freeMem bytesWritten
        return (result', bytesWritten')
     ) (do
        freeMem vectors''
        freeMem maybeMessages
        freeMem bytesWritten
     )

#if ENABLE_OVERLOADING
data SocketSendMessageWithTimeoutMethodInfo
instance (signature ~ (Maybe (b) -> [Gio.OutputVector.OutputVector] -> Maybe ([Gio.SocketControlMessage.SocketControlMessage]) -> Int32 -> Int64 -> Maybe (c) -> m ((Gio.Enums.PollableReturn, Word64))), MonadIO m, IsSocket a, Gio.SocketAddress.IsSocketAddress b, Gio.Cancellable.IsCancellable c) => O.MethodInfo SocketSendMessageWithTimeoutMethodInfo a signature where
    overloadedMethod _ = socketSendMessageWithTimeout

#endif

-- method Socket::send_messages
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "messages", argType = TCArray False (-1) 2 (TInterface (Name {namespace = "Gio", name = "OutputMessage"})), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "an array of #GOutputMessage structs", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "num_messages", argType = TBasicType TUInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of elements in @messages", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "flags", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "an int containing #GSocketMsgFlags flags", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "num_messages", argType = TBasicType TUInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of elements in @messages", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TBasicType TInt)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_send_messages" g_socket_send_messages ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.OutputMessage.OutputMessage ->  -- messages : TCArray False (-1) 2 (TInterface (Name {namespace = "Gio", name = "OutputMessage"}))
    Word32 ->                               -- num_messages : TBasicType TUInt
    Int32 ->                                -- flags : TBasicType TInt
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO Int32

{- |
Send multiple data messages from /@socket@/ in one go.  This is the most
complicated and fully-featured version of this call. For easier use, see
'GI.Gio.Objects.Socket.socketSend', 'GI.Gio.Objects.Socket.socketSendTo', and 'GI.Gio.Objects.Socket.socketSendMessage'.

/@messages@/ must point to an array of 'GI.Gio.Structs.OutputMessage.OutputMessage' structs and
/@numMessages@/ must be the length of this array. Each 'GI.Gio.Structs.OutputMessage.OutputMessage'
contains an address to send the data to, and a pointer to an array of
'GI.Gio.Structs.OutputVector.OutputVector' structs to describe the buffers that the data to be sent
for each message will be gathered from. Using multiple @/GOutputVectors/@ is
more memory-efficient than manually copying data from multiple sources
into a single buffer, and more network-efficient than making multiple
calls to 'GI.Gio.Objects.Socket.socketSend'. Sending multiple messages in one go avoids the
overhead of making a lot of syscalls in scenarios where a lot of data
packets need to be sent (e.g. high-bandwidth video streaming over RTP\/UDP),
or where the same data needs to be sent to multiple recipients.

/@flags@/ modify how the message is sent. The commonly available arguments
for this are available in the 'GI.Gio.Flags.SocketMsgFlags' enum, but the
values there are the same as the system values, and the flags
are passed in as-is, so you can pass in system-specific flags too.

If the socket is in blocking mode the call will block until there is
space for all the data in the socket queue. If there is no space available
and the socket is in non-blocking mode a 'GI.Gio.Enums.IOErrorEnumWouldBlock' error
will be returned if no data was written at all, otherwise the number of
messages sent will be returned. To be notified when space is available,
wait for the 'GI.GLib.Flags.IOConditionOut' condition. Note though that you may still receive
'GI.Gio.Enums.IOErrorEnumWouldBlock' from 'GI.Gio.Objects.Socket.socketSend' even if you were previously
notified of a 'GI.GLib.Flags.IOConditionOut' condition. (On Windows in particular, this is
very common due to the way the underlying APIs work.)

On error -1 is returned and /@error@/ is set accordingly. An error will only
be returned if zero messages could be sent; otherwise the number of messages
successfully sent before the error will be returned.

/Since: 2.44/
-}
socketSendMessages ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> [Gio.OutputMessage.OutputMessage]
    {- ^ /@messages@/: an array of 'GI.Gio.Structs.OutputMessage.OutputMessage' structs -}
    -> Int32
    {- ^ /@flags@/: an int containing 'GI.Gio.Flags.SocketMsgFlags' flags -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m Int32
    {- ^ __Returns:__ number of messages sent, or -1 on error. Note that the number of
    messages sent may be smaller than /@numMessages@/ if the socket is
    non-blocking or if /@numMessages@/ was larger than UIO_MAXIOV (1024),
    in which case the caller may re-try to send the remaining messages. /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketSendMessages socket messages flags cancellable = liftIO $ do
    let numMessages = fromIntegral $ length messages
    socket' <- unsafeManagedPtrCastPtr socket
    messages' <- mapM unsafeManagedPtrGetPtr messages
    messages'' <- packBlockArray 40 messages'
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_send_messages socket' messages'' numMessages flags maybeCancellable
        touchManagedPtr socket
        mapM_ touchManagedPtr messages
        whenJust cancellable touchManagedPtr
        freeMem messages''
        return result
     ) (do
        freeMem messages''
     )

#if ENABLE_OVERLOADING
data SocketSendMessagesMethodInfo
instance (signature ~ ([Gio.OutputMessage.OutputMessage] -> Int32 -> Maybe (b) -> m Int32), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketSendMessagesMethodInfo a signature where
    overloadedMethod _ = socketSendMessages

#endif

-- method Socket::send_to
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "address", argType = TInterface (Name {namespace = "Gio", name = "SocketAddress"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a #GSocketAddress, or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "buffer", argType = TCArray False (-1) 3 (TBasicType TUInt8), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the buffer\n    containing the data to send.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes to send", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes to send", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TBasicType TInt64)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_send_to" g_socket_send_to ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Gio.SocketAddress.SocketAddress ->  -- address : TInterface (Name {namespace = "Gio", name = "SocketAddress"})
    Ptr Word8 ->                            -- buffer : TCArray False (-1) 3 (TBasicType TUInt8)
    Word64 ->                               -- size : TBasicType TUInt64
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO Int64

{- |
Tries to send /@size@/ bytes from /@buffer@/ to /@address@/. If /@address@/ is
'Nothing' then the message is sent to the default receiver (set by
'GI.Gio.Objects.Socket.socketConnect').

See 'GI.Gio.Objects.Socket.socketSend' for additional information.

/Since: 2.22/
-}
socketSendTo ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.SocketAddress.IsSocketAddress b, Gio.Cancellable.IsCancellable c) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> Maybe (b)
    {- ^ /@address@/: a 'GI.Gio.Objects.SocketAddress.SocketAddress', or 'Nothing' -}
    -> ByteString
    {- ^ /@buffer@/: the buffer
    containing the data to send. -}
    -> Maybe (c)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m Int64
    {- ^ __Returns:__ Number of bytes written (which may be less than /@size@/), or -1
on error /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketSendTo socket address buffer cancellable = liftIO $ do
    let size = fromIntegral $ B.length buffer
    socket' <- unsafeManagedPtrCastPtr socket
    maybeAddress <- case address of
        Nothing -> return nullPtr
        Just jAddress -> do
            jAddress' <- unsafeManagedPtrCastPtr jAddress
            return jAddress'
    buffer' <- packByteString buffer
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_send_to socket' maybeAddress buffer' size maybeCancellable
        touchManagedPtr socket
        whenJust address touchManagedPtr
        whenJust cancellable touchManagedPtr
        freeMem buffer'
        return result
     ) (do
        freeMem buffer'
     )

#if ENABLE_OVERLOADING
data SocketSendToMethodInfo
instance (signature ~ (Maybe (b) -> ByteString -> Maybe (c) -> m Int64), MonadIO m, IsSocket a, Gio.SocketAddress.IsSocketAddress b, Gio.Cancellable.IsCancellable c) => O.MethodInfo SocketSendToMethodInfo a signature where
    overloadedMethod _ = socketSendTo

#endif

-- method Socket::send_with_blocking
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "buffer", argType = TCArray False (-1) 2 (TBasicType TUInt8), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the buffer\n    containing the data to send.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes to send", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "blocking", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "whether to do blocking or non-blocking I/O", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "cancellable", argType = TInterface (Name {namespace = "Gio", name = "Cancellable"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a %GCancellable or %NULL", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : [Arg {argCName = "size", argType = TBasicType TUInt64, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the number of bytes to send", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- returnType : Just (TBasicType TInt64)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_send_with_blocking" g_socket_send_with_blocking ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Ptr Word8 ->                            -- buffer : TCArray False (-1) 2 (TBasicType TUInt8)
    Word64 ->                               -- size : TBasicType TUInt64
    CInt ->                                 -- blocking : TBasicType TBoolean
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO Int64

{- |
This behaves exactly the same as 'GI.Gio.Objects.Socket.socketSend', except that
the choice of blocking or non-blocking behavior is determined by
the /@blocking@/ argument rather than by /@socket@/\'s properties.

/Since: 2.26/
-}
socketSendWithBlocking ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> ByteString
    {- ^ /@buffer@/: the buffer
    containing the data to send. -}
    -> Bool
    {- ^ /@blocking@/: whether to do blocking or non-blocking I\/O -}
    -> Maybe (b)
    {- ^ /@cancellable@/: a @/GCancellable/@ or 'Nothing' -}
    -> m Int64
    {- ^ __Returns:__ Number of bytes written (which may be less than /@size@/), or -1
on error /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketSendWithBlocking socket buffer blocking cancellable = liftIO $ do
    let size = fromIntegral $ B.length buffer
    socket' <- unsafeManagedPtrCastPtr socket
    buffer' <- packByteString buffer
    let blocking' = (fromIntegral . fromEnum) blocking
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        result <- propagateGError $ g_socket_send_with_blocking socket' buffer' size blocking' maybeCancellable
        touchManagedPtr socket
        whenJust cancellable touchManagedPtr
        freeMem buffer'
        return result
     ) (do
        freeMem buffer'
     )

#if ENABLE_OVERLOADING
data SocketSendWithBlockingMethodInfo
instance (signature ~ (ByteString -> Bool -> Maybe (b) -> m Int64), MonadIO m, IsSocket a, Gio.Cancellable.IsCancellable b) => O.MethodInfo SocketSendWithBlockingMethodInfo a signature where
    overloadedMethod _ = socketSendWithBlocking

#endif

-- method Socket::set_blocking
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "blocking", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "Whether to use blocking I/O or not.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_set_blocking" g_socket_set_blocking ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    CInt ->                                 -- blocking : TBasicType TBoolean
    IO ()

{- |
Sets the blocking mode of the socket. In blocking mode
all operations (which don’t take an explicit blocking parameter) block until
they succeed or there is an error. In
non-blocking mode all functions return results immediately or
with a 'GI.Gio.Enums.IOErrorEnumWouldBlock' error.

All sockets are created in blocking mode. However, note that the
platform level socket is always non-blocking, and blocking mode
is a GSocket level feature.

/Since: 2.22/
-}
socketSetBlocking ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> Bool
    {- ^ /@blocking@/: Whether to use blocking I\/O or not. -}
    -> m ()
socketSetBlocking socket blocking = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    let blocking' = (fromIntegral . fromEnum) blocking
    g_socket_set_blocking socket' blocking'
    touchManagedPtr socket
    return ()

#if ENABLE_OVERLOADING
data SocketSetBlockingMethodInfo
instance (signature ~ (Bool -> m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketSetBlockingMethodInfo a signature where
    overloadedMethod _ = socketSetBlocking

#endif

-- method Socket::set_broadcast
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "broadcast", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "whether @socket should allow sending to broadcast\n    addresses", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_set_broadcast" g_socket_set_broadcast ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    CInt ->                                 -- broadcast : TBasicType TBoolean
    IO ()

{- |
Sets whether /@socket@/ should allow sending to broadcast addresses.
This is 'False' by default.

/Since: 2.32/
-}
socketSetBroadcast ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> Bool
    {- ^ /@broadcast@/: whether /@socket@/ should allow sending to broadcast
    addresses -}
    -> m ()
socketSetBroadcast socket broadcast = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    let broadcast' = (fromIntegral . fromEnum) broadcast
    g_socket_set_broadcast socket' broadcast'
    touchManagedPtr socket
    return ()

#if ENABLE_OVERLOADING
data SocketSetBroadcastMethodInfo
instance (signature ~ (Bool -> m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketSetBroadcastMethodInfo a signature where
    overloadedMethod _ = socketSetBroadcast

#endif

-- method Socket::set_keepalive
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "keepalive", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "Value for the keepalive flag", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_set_keepalive" g_socket_set_keepalive ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    CInt ->                                 -- keepalive : TBasicType TBoolean
    IO ()

{- |
Sets or unsets the @/SO_KEEPALIVE/@ flag on the underlying socket. When
this flag is set on a socket, the system will attempt to verify that the
remote socket endpoint is still present if a sufficiently long period of
time passes with no data being exchanged. If the system is unable to
verify the presence of the remote endpoint, it will automatically close
the connection.

This option is only functional on certain kinds of sockets. (Notably,
'GI.Gio.Enums.SocketProtocolTcp' sockets.)

The exact time between pings is system- and protocol-dependent, but will
normally be at least two hours. Most commonly, you would set this flag
on a server socket if you want to allow clients to remain idle for long
periods of time, but also want to ensure that connections are eventually
garbage-collected if clients crash or become unreachable.

/Since: 2.22/
-}
socketSetKeepalive ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> Bool
    {- ^ /@keepalive@/: Value for the keepalive flag -}
    -> m ()
socketSetKeepalive socket keepalive = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    let keepalive' = (fromIntegral . fromEnum) keepalive
    g_socket_set_keepalive socket' keepalive'
    touchManagedPtr socket
    return ()

#if ENABLE_OVERLOADING
data SocketSetKeepaliveMethodInfo
instance (signature ~ (Bool -> m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketSetKeepaliveMethodInfo a signature where
    overloadedMethod _ = socketSetKeepalive

#endif

-- method Socket::set_listen_backlog
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "backlog", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the maximum number of pending connections.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_set_listen_backlog" g_socket_set_listen_backlog ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Int32 ->                                -- backlog : TBasicType TInt
    IO ()

{- |
Sets the maximum number of outstanding connections allowed
when listening on this socket. If more clients than this are
connecting to the socket and the application is not handling them
on time then the new connections will be refused.

Note that this must be called before 'GI.Gio.Objects.Socket.socketListen' and has no
effect if called after that.

/Since: 2.22/
-}
socketSetListenBacklog ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> Int32
    {- ^ /@backlog@/: the maximum number of pending connections. -}
    -> m ()
socketSetListenBacklog socket backlog = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    g_socket_set_listen_backlog socket' backlog
    touchManagedPtr socket
    return ()

#if ENABLE_OVERLOADING
data SocketSetListenBacklogMethodInfo
instance (signature ~ (Int32 -> m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketSetListenBacklogMethodInfo a signature where
    overloadedMethod _ = socketSetListenBacklog

#endif

-- method Socket::set_multicast_loopback
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "loopback", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "whether @socket should receive messages sent to its\n  multicast groups from the local host", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_set_multicast_loopback" g_socket_set_multicast_loopback ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    CInt ->                                 -- loopback : TBasicType TBoolean
    IO ()

{- |
Sets whether outgoing multicast packets will be received by sockets
listening on that multicast address on the same host. This is 'True'
by default.

/Since: 2.32/
-}
socketSetMulticastLoopback ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> Bool
    {- ^ /@loopback@/: whether /@socket@/ should receive messages sent to its
  multicast groups from the local host -}
    -> m ()
socketSetMulticastLoopback socket loopback = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    let loopback' = (fromIntegral . fromEnum) loopback
    g_socket_set_multicast_loopback socket' loopback'
    touchManagedPtr socket
    return ()

#if ENABLE_OVERLOADING
data SocketSetMulticastLoopbackMethodInfo
instance (signature ~ (Bool -> m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketSetMulticastLoopbackMethodInfo a signature where
    overloadedMethod _ = socketSetMulticastLoopback

#endif

-- method Socket::set_multicast_ttl
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "ttl", argType = TBasicType TUInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the time-to-live value for all multicast datagrams on @socket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_set_multicast_ttl" g_socket_set_multicast_ttl ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Word32 ->                               -- ttl : TBasicType TUInt
    IO ()

{- |
Sets the time-to-live for outgoing multicast datagrams on /@socket@/.
By default, this is 1, meaning that multicast packets will not leave
the local network.

/Since: 2.32/
-}
socketSetMulticastTtl ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> Word32
    {- ^ /@ttl@/: the time-to-live value for all multicast datagrams on /@socket@/ -}
    -> m ()
socketSetMulticastTtl socket ttl = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    g_socket_set_multicast_ttl socket' ttl
    touchManagedPtr socket
    return ()

#if ENABLE_OVERLOADING
data SocketSetMulticastTtlMethodInfo
instance (signature ~ (Word32 -> m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketSetMulticastTtlMethodInfo a signature where
    overloadedMethod _ = socketSetMulticastTtl

#endif

-- method Socket::set_option
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "level", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the \"API level\" of the option (eg, `SOL_SOCKET`)", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "optname", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the \"name\" of the option (eg, `SO_BROADCAST`)", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "value", argType = TBasicType TInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the value to set the option to", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_set_option" g_socket_set_option ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Int32 ->                                -- level : TBasicType TInt
    Int32 ->                                -- optname : TBasicType TInt
    Int32 ->                                -- value : TBasicType TInt
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Sets the value of an integer-valued option on /@socket@/, as with
@/setsockopt()/@. (If you need to set a non-integer-valued option,
you will need to call @/setsockopt()/@ directly.)

The [\<gio\/gnetworking.h>][gio-gnetworking.h]
header pulls in system headers that will define most of the
standard\/portable socket options. For unusual socket protocols or
platform-dependent options, you may need to include additional
headers.

/Since: 2.36/
-}
socketSetOption ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> Int32
    {- ^ /@level@/: the \"API level\" of the option (eg, @SOL_SOCKET@) -}
    -> Int32
    {- ^ /@optname@/: the \"name\" of the option (eg, @SO_BROADCAST@) -}
    -> Int32
    {- ^ /@value@/: the value to set the option to -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketSetOption socket level optname value = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    onException (do
        _ <- propagateGError $ g_socket_set_option socket' level optname value
        touchManagedPtr socket
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketSetOptionMethodInfo
instance (signature ~ (Int32 -> Int32 -> Int32 -> m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketSetOptionMethodInfo a signature where
    overloadedMethod _ = socketSetOption

#endif

-- method Socket::set_timeout
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "timeout", argType = TBasicType TUInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the timeout for @socket, in seconds, or 0 for none", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_set_timeout" g_socket_set_timeout ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Word32 ->                               -- timeout : TBasicType TUInt
    IO ()

{- |
Sets the time in seconds after which I\/O operations on /@socket@/ will
time out if they have not yet completed.

On a blocking socket, this means that any blocking 'GI.Gio.Objects.Socket.Socket'
operation will time out after /@timeout@/ seconds of inactivity,
returning 'GI.Gio.Enums.IOErrorEnumTimedOut'.

On a non-blocking socket, calls to 'GI.Gio.Objects.Socket.socketConditionWait' will
also fail with 'GI.Gio.Enums.IOErrorEnumTimedOut' after the given time. Sources
created with @/g_socket_create_source()/@ will trigger after
/@timeout@/ seconds of inactivity, with the requested condition
set, at which point calling 'GI.Gio.Objects.Socket.socketReceive', 'GI.Gio.Objects.Socket.socketSend',
'GI.Gio.Objects.Socket.socketCheckConnectResult', etc, will fail with
'GI.Gio.Enums.IOErrorEnumTimedOut'.

If /@timeout@/ is 0 (the default), operations will never time out
on their own.

Note that if an I\/O operation is interrupted by a signal, this may
cause the timeout to be reset.

/Since: 2.26/
-}
socketSetTimeout ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> Word32
    {- ^ /@timeout@/: the timeout for /@socket@/, in seconds, or 0 for none -}
    -> m ()
socketSetTimeout socket timeout = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    g_socket_set_timeout socket' timeout
    touchManagedPtr socket
    return ()

#if ENABLE_OVERLOADING
data SocketSetTimeoutMethodInfo
instance (signature ~ (Word32 -> m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketSetTimeoutMethodInfo a signature where
    overloadedMethod _ = socketSetTimeout

#endif

-- method Socket::set_ttl
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket.", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "ttl", argType = TBasicType TUInt, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the time-to-live value for all unicast packets on @socket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_set_ttl" g_socket_set_ttl ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    Word32 ->                               -- ttl : TBasicType TUInt
    IO ()

{- |
Sets the time-to-live for outgoing unicast packets on /@socket@/.
By default the platform-specific default value is used.

/Since: 2.32/
-}
socketSetTtl ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket'. -}
    -> Word32
    {- ^ /@ttl@/: the time-to-live value for all unicast packets on /@socket@/ -}
    -> m ()
socketSetTtl socket ttl = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    g_socket_set_ttl socket' ttl
    touchManagedPtr socket
    return ()

#if ENABLE_OVERLOADING
data SocketSetTtlMethodInfo
instance (signature ~ (Word32 -> m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketSetTtlMethodInfo a signature where
    overloadedMethod _ = socketSetTtl

#endif

-- method Socket::shutdown
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "shutdown_read", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "whether to shut down the read side", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "shutdown_write", argType = TBasicType TBoolean, direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "whether to shut down the write side", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : True
-- Skip return : False

foreign import ccall "g_socket_shutdown" g_socket_shutdown ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    CInt ->                                 -- shutdown_read : TBasicType TBoolean
    CInt ->                                 -- shutdown_write : TBasicType TBoolean
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Shut down part or all of a full-duplex connection.

If /@shutdownRead@/ is 'True' then the receiving side of the connection
is shut down, and further reading is disallowed.

If /@shutdownWrite@/ is 'True' then the sending side of the connection
is shut down, and further writing is disallowed.

It is allowed for both /@shutdownRead@/ and /@shutdownWrite@/ to be 'True'.

One example where it is useful to shut down only one side of a connection is
graceful disconnect for TCP connections where you close the sending side,
then wait for the other side to close the connection, thus ensuring that the
other side saw all sent data.

/Since: 2.22/
-}
socketShutdown ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> Bool
    {- ^ /@shutdownRead@/: whether to shut down the read side -}
    -> Bool
    {- ^ /@shutdownWrite@/: whether to shut down the write side -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
socketShutdown socket shutdownRead shutdownWrite = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    let shutdownRead' = (fromIntegral . fromEnum) shutdownRead
    let shutdownWrite' = (fromIntegral . fromEnum) shutdownWrite
    onException (do
        _ <- propagateGError $ g_socket_shutdown socket' shutdownRead' shutdownWrite'
        touchManagedPtr socket
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data SocketShutdownMethodInfo
instance (signature ~ (Bool -> Bool -> m ()), MonadIO m, IsSocket a) => O.MethodInfo SocketShutdownMethodInfo a signature where
    overloadedMethod _ = socketShutdown

#endif

-- method Socket::speaks_ipv4
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "socket", argType = TInterface (Name {namespace = "Gio", name = "Socket"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocket", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TBasicType TBoolean)
-- throws : False
-- Skip return : False

foreign import ccall "g_socket_speaks_ipv4" g_socket_speaks_ipv4 ::
    Ptr Socket ->                           -- socket : TInterface (Name {namespace = "Gio", name = "Socket"})
    IO CInt

{- |
Checks if a socket is capable of speaking IPv4.

IPv4 sockets are capable of speaking IPv4.  On some operating systems
and under some combinations of circumstances IPv6 sockets are also
capable of speaking IPv4.  See RFC 3493 section 3.7 for more
information.

No other types of sockets are currently considered as being capable
of speaking IPv4.

/Since: 2.22/
-}
socketSpeaksIpv4 ::
    (B.CallStack.HasCallStack, MonadIO m, IsSocket a) =>
    a
    {- ^ /@socket@/: a 'GI.Gio.Objects.Socket.Socket' -}
    -> m Bool
    {- ^ __Returns:__ 'True' if this socket can be used with IPv4. -}
socketSpeaksIpv4 socket = liftIO $ do
    socket' <- unsafeManagedPtrCastPtr socket
    result <- g_socket_speaks_ipv4 socket'
    let result' = (/= 0) result
    touchManagedPtr socket
    return result'

#if ENABLE_OVERLOADING
data SocketSpeaksIpv4MethodInfo
instance (signature ~ (m Bool), MonadIO m, IsSocket a) => O.MethodInfo SocketSpeaksIpv4MethodInfo a signature where
    overloadedMethod _ = socketSpeaksIpv4

#endif