{- |
Copyright  : Will Thompson, Iñaki García Etxebarria and Jonas Platte
License    : LGPL-2.1
Maintainer : Iñaki García Etxebarria (garetxe@gmail.com)

'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor' provides an easy-to-use cross-platform API
for monitoring network connectivity. On Linux, the available
implementations are based on the kernel\'s netlink interface and
on NetworkManager.

There is also an implementation for use inside Flatpak sandboxes.

/Since: 2.32/
-}

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

module GI.Gio.Interfaces.NetworkMonitor
    (

-- * Exported types
    NetworkMonitor(..)                      ,
    noNetworkMonitor                        ,
    IsNetworkMonitor                        ,
    toNetworkMonitor                        ,


 -- * Methods
-- ** canReach #method:canReach#

#if ENABLE_OVERLOADING
    NetworkMonitorCanReachMethodInfo        ,
#endif
    networkMonitorCanReach                  ,


-- ** canReachAsync #method:canReachAsync#

#if ENABLE_OVERLOADING
    NetworkMonitorCanReachAsyncMethodInfo   ,
#endif
    networkMonitorCanReachAsync             ,


-- ** canReachFinish #method:canReachFinish#

#if ENABLE_OVERLOADING
    NetworkMonitorCanReachFinishMethodInfo  ,
#endif
    networkMonitorCanReachFinish            ,


-- ** getConnectivity #method:getConnectivity#

#if ENABLE_OVERLOADING
    NetworkMonitorGetConnectivityMethodInfo ,
#endif
    networkMonitorGetConnectivity           ,


-- ** getDefault #method:getDefault#

    networkMonitorGetDefault                ,


-- ** getNetworkAvailable #method:getNetworkAvailable#

#if ENABLE_OVERLOADING
    NetworkMonitorGetNetworkAvailableMethodInfo,
#endif
    networkMonitorGetNetworkAvailable       ,


-- ** getNetworkMetered #method:getNetworkMetered#

#if ENABLE_OVERLOADING
    NetworkMonitorGetNetworkMeteredMethodInfo,
#endif
    networkMonitorGetNetworkMetered         ,




 -- * Properties
-- ** connectivity #attr:connectivity#
{- | More detailed information about the host\'s network connectivity.
See 'GI.Gio.Interfaces.NetworkMonitor.networkMonitorGetConnectivity' and
'GI.Gio.Enums.NetworkConnectivity' for more details.

/Since: 2.44/
-}
#if ENABLE_OVERLOADING
    NetworkMonitorConnectivityPropertyInfo  ,
#endif
    getNetworkMonitorConnectivity           ,
#if ENABLE_OVERLOADING
    networkMonitorConnectivity              ,
#endif


-- ** networkAvailable #attr:networkAvailable#
{- | Whether the network is considered available. That is, whether the
system has a default route for at least one of IPv4 or IPv6.

Real-world networks are of course much more complicated than
this; the machine may be connected to a wifi hotspot that
requires payment before allowing traffic through, or may be
connected to a functioning router that has lost its own upstream
connectivity. Some hosts might only be accessible when a VPN is
active. Other hosts might only be accessible when the VPN is
not active. Thus, it is best to use 'GI.Gio.Interfaces.NetworkMonitor.networkMonitorCanReach'
or 'GI.Gio.Interfaces.NetworkMonitor.networkMonitorCanReachAsync' to test for reachability
on a host-by-host basis. (On the other hand, when the property is
'False', the application can reasonably expect that no remote
hosts at all are reachable, and should indicate this to the user
in its UI.)

See also 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor'::@/network-changed/@.

/Since: 2.32/
-}
#if ENABLE_OVERLOADING
    NetworkMonitorNetworkAvailablePropertyInfo,
#endif
    getNetworkMonitorNetworkAvailable       ,
#if ENABLE_OVERLOADING
    networkMonitorNetworkAvailable          ,
#endif


-- ** networkMetered #attr:networkMetered#
{- | Whether the network is considered metered. That is, whether the
system has traffic flowing through the default connection that is
subject to limitations set by service providers. For example, traffic
might be billed by the amount of data transmitted, or there might be a
quota on the amount of traffic per month. This is typical with tethered
connections (3G and 4G) and in such situations, bandwidth intensive
applications may wish to avoid network activity where possible if it will
cost the user money or use up their limited quota.

If more information is required about specific devices then the
system network management API should be used instead (for example,
NetworkManager or ConnMan).

If this information is not available then no networks will be
marked as metered.

See also 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor':@/network-available/@.

/Since: 2.46/
-}
#if ENABLE_OVERLOADING
    NetworkMonitorNetworkMeteredPropertyInfo,
#endif
    getNetworkMonitorNetworkMetered         ,
#if ENABLE_OVERLOADING
    networkMonitorNetworkMetered            ,
#endif




 -- * Signals
-- ** networkChanged #signal:networkChanged#

    C_NetworkMonitorNetworkChangedCallback  ,
    NetworkMonitorNetworkChangedCallback    ,
#if ENABLE_OVERLOADING
    NetworkMonitorNetworkChangedSignalInfo  ,
#endif
    afterNetworkMonitorNetworkChanged       ,
    genClosure_NetworkMonitorNetworkChanged ,
    mk_NetworkMonitorNetworkChangedCallback ,
    noNetworkMonitorNetworkChangedCallback  ,
    onNetworkMonitorNetworkChanged          ,
    wrap_NetworkMonitorNetworkChangedCallback,




    ) 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.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.Text as T
import qualified Data.ByteString.Char8 as B
import qualified Data.Map as Map
import qualified Foreign.Ptr as FP

import qualified GI.GObject.Objects.Object as GObject.Object
import qualified GI.Gio.Callbacks as Gio.Callbacks
import {-# SOURCE #-} qualified GI.Gio.Enums as Gio.Enums
import {-# SOURCE #-} qualified GI.Gio.Interfaces.AsyncResult as Gio.AsyncResult
import {-# SOURCE #-} qualified GI.Gio.Interfaces.Initable as Gio.Initable
import {-# SOURCE #-} qualified GI.Gio.Interfaces.SocketConnectable as Gio.SocketConnectable
import {-# SOURCE #-} qualified GI.Gio.Objects.Cancellable as Gio.Cancellable

-- interface NetworkMonitor 
-- | Memory-managed wrapper type.
newtype NetworkMonitor = NetworkMonitor (ManagedPtr NetworkMonitor)
-- | A convenience alias for `Nothing` :: `Maybe` `NetworkMonitor`.
noNetworkMonitor :: Maybe NetworkMonitor
noNetworkMonitor = Nothing

-- signal NetworkMonitor::network-changed
{- |
Emitted when the network configuration changes.

/Since: 2.32/
-}
type NetworkMonitorNetworkChangedCallback =
    Bool
    {- ^ /@networkAvailable@/: the current value of 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor':@/network-available/@ -}
    -> IO ()

-- | A convenience synonym for @`Nothing` :: `Maybe` `NetworkMonitorNetworkChangedCallback`@.
noNetworkMonitorNetworkChangedCallback :: Maybe NetworkMonitorNetworkChangedCallback
noNetworkMonitorNetworkChangedCallback = Nothing

-- | Type for the callback on the (unwrapped) C side.
type C_NetworkMonitorNetworkChangedCallback =
    Ptr () ->                               -- object
    CInt ->
    Ptr () ->                               -- user_data
    IO ()

-- | Generate a function pointer callable from C code, from a `C_NetworkMonitorNetworkChangedCallback`.
foreign import ccall "wrapper"
    mk_NetworkMonitorNetworkChangedCallback :: C_NetworkMonitorNetworkChangedCallback -> IO (FunPtr C_NetworkMonitorNetworkChangedCallback)

-- | Wrap the callback into a `Closure`.
genClosure_NetworkMonitorNetworkChanged :: NetworkMonitorNetworkChangedCallback -> IO Closure
genClosure_NetworkMonitorNetworkChanged cb = do
    let cb' = wrap_NetworkMonitorNetworkChangedCallback cb
    mk_NetworkMonitorNetworkChangedCallback cb' >>= newCClosure


-- | Wrap a `NetworkMonitorNetworkChangedCallback` into a `C_NetworkMonitorNetworkChangedCallback`.
wrap_NetworkMonitorNetworkChangedCallback ::
    NetworkMonitorNetworkChangedCallback ->
    C_NetworkMonitorNetworkChangedCallback
wrap_NetworkMonitorNetworkChangedCallback _cb _ networkAvailable _ = do
    let networkAvailable' = (/= 0) networkAvailable
    _cb  networkAvailable'


{- |
Connect a signal handler for the “@network-changed@” signal, to be run before the default handler.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Signals.on' networkMonitor #networkChanged callback
@
-}
onNetworkMonitorNetworkChanged :: (IsNetworkMonitor a, MonadIO m) => a -> NetworkMonitorNetworkChangedCallback -> m SignalHandlerId
onNetworkMonitorNetworkChanged obj cb = liftIO $ do
    let cb' = wrap_NetworkMonitorNetworkChangedCallback cb
    cb'' <- mk_NetworkMonitorNetworkChangedCallback cb'
    connectSignalFunPtr obj "network-changed" cb'' SignalConnectBefore

{- |
Connect a signal handler for the “@network-changed@” signal, to be run after the default handler.
When <https://github.com/haskell-gi/haskell-gi/wiki/Overloading overloading> is enabled, this is equivalent to

@
'Data.GI.Base.Signals.after' networkMonitor #networkChanged callback
@
-}
afterNetworkMonitorNetworkChanged :: (IsNetworkMonitor a, MonadIO m) => a -> NetworkMonitorNetworkChangedCallback -> m SignalHandlerId
afterNetworkMonitorNetworkChanged obj cb = liftIO $ do
    let cb' = wrap_NetworkMonitorNetworkChangedCallback cb
    cb'' <- mk_NetworkMonitorNetworkChangedCallback cb'
    connectSignalFunPtr obj "network-changed" cb'' SignalConnectAfter


#if ENABLE_OVERLOADING
data NetworkMonitorNetworkChangedSignalInfo
instance SignalInfo NetworkMonitorNetworkChangedSignalInfo where
    type HaskellCallbackType NetworkMonitorNetworkChangedSignalInfo = NetworkMonitorNetworkChangedCallback
    connectSignal _ obj cb connectMode = do
        let cb' = wrap_NetworkMonitorNetworkChangedCallback cb
        cb'' <- mk_NetworkMonitorNetworkChangedCallback cb'
        connectSignalFunPtr obj "network-changed" cb'' connectMode

type instance O.SignalList NetworkMonitor = NetworkMonitorSignalList
type NetworkMonitorSignalList = ('[ '("networkChanged", NetworkMonitorNetworkChangedSignalInfo), '("notify", GObject.Object.ObjectNotifySignalInfo)] :: [(Symbol, *)])

#endif

foreign import ccall "g_network_monitor_get_type"
    c_g_network_monitor_get_type :: IO GType

instance GObject NetworkMonitor where
    gobjectType _ = c_g_network_monitor_get_type


-- | Type class for types which can be safely cast to `NetworkMonitor`, for instance with `toNetworkMonitor`.
class GObject o => IsNetworkMonitor o
#if MIN_VERSION_base(4,9,0)
instance {-# OVERLAPPABLE #-} (GObject a, O.UnknownAncestorError NetworkMonitor a) =>
    IsNetworkMonitor a
#endif
instance IsNetworkMonitor NetworkMonitor
instance Gio.Initable.IsInitable NetworkMonitor
instance GObject.Object.IsObject NetworkMonitor

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

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

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

@
'Data.GI.Base.Attributes.get' networkMonitor #connectivity
@
-}
getNetworkMonitorConnectivity :: (MonadIO m, IsNetworkMonitor o) => o -> m Gio.Enums.NetworkConnectivity
getNetworkMonitorConnectivity obj = liftIO $ getObjectPropertyEnum obj "connectivity"

#if ENABLE_OVERLOADING
data NetworkMonitorConnectivityPropertyInfo
instance AttrInfo NetworkMonitorConnectivityPropertyInfo where
    type AttrAllowedOps NetworkMonitorConnectivityPropertyInfo = '[ 'AttrGet]
    type AttrSetTypeConstraint NetworkMonitorConnectivityPropertyInfo = (~) ()
    type AttrBaseTypeConstraint NetworkMonitorConnectivityPropertyInfo = IsNetworkMonitor
    type AttrGetType NetworkMonitorConnectivityPropertyInfo = Gio.Enums.NetworkConnectivity
    type AttrLabel NetworkMonitorConnectivityPropertyInfo = "connectivity"
    type AttrOrigin NetworkMonitorConnectivityPropertyInfo = NetworkMonitor
    attrGet _ = getNetworkMonitorConnectivity
    attrSet _ = undefined
    attrConstruct _ = undefined
    attrClear _ = undefined
#endif

-- VVV Prop "network-available"
   -- Type: TBasicType TBoolean
   -- Flags: [PropertyReadable]
   -- Nullable: (Just False,Nothing)

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

@
'Data.GI.Base.Attributes.get' networkMonitor #networkAvailable
@
-}
getNetworkMonitorNetworkAvailable :: (MonadIO m, IsNetworkMonitor o) => o -> m Bool
getNetworkMonitorNetworkAvailable obj = liftIO $ getObjectPropertyBool obj "network-available"

#if ENABLE_OVERLOADING
data NetworkMonitorNetworkAvailablePropertyInfo
instance AttrInfo NetworkMonitorNetworkAvailablePropertyInfo where
    type AttrAllowedOps NetworkMonitorNetworkAvailablePropertyInfo = '[ 'AttrGet]
    type AttrSetTypeConstraint NetworkMonitorNetworkAvailablePropertyInfo = (~) ()
    type AttrBaseTypeConstraint NetworkMonitorNetworkAvailablePropertyInfo = IsNetworkMonitor
    type AttrGetType NetworkMonitorNetworkAvailablePropertyInfo = Bool
    type AttrLabel NetworkMonitorNetworkAvailablePropertyInfo = "network-available"
    type AttrOrigin NetworkMonitorNetworkAvailablePropertyInfo = NetworkMonitor
    attrGet _ = getNetworkMonitorNetworkAvailable
    attrSet _ = undefined
    attrConstruct _ = undefined
    attrClear _ = undefined
#endif

-- VVV Prop "network-metered"
   -- Type: TBasicType TBoolean
   -- Flags: [PropertyReadable]
   -- Nullable: (Just False,Nothing)

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

@
'Data.GI.Base.Attributes.get' networkMonitor #networkMetered
@
-}
getNetworkMonitorNetworkMetered :: (MonadIO m, IsNetworkMonitor o) => o -> m Bool
getNetworkMonitorNetworkMetered obj = liftIO $ getObjectPropertyBool obj "network-metered"

#if ENABLE_OVERLOADING
data NetworkMonitorNetworkMeteredPropertyInfo
instance AttrInfo NetworkMonitorNetworkMeteredPropertyInfo where
    type AttrAllowedOps NetworkMonitorNetworkMeteredPropertyInfo = '[ 'AttrGet]
    type AttrSetTypeConstraint NetworkMonitorNetworkMeteredPropertyInfo = (~) ()
    type AttrBaseTypeConstraint NetworkMonitorNetworkMeteredPropertyInfo = IsNetworkMonitor
    type AttrGetType NetworkMonitorNetworkMeteredPropertyInfo = Bool
    type AttrLabel NetworkMonitorNetworkMeteredPropertyInfo = "network-metered"
    type AttrOrigin NetworkMonitorNetworkMeteredPropertyInfo = NetworkMonitor
    attrGet _ = getNetworkMonitorNetworkMetered
    attrSet _ = undefined
    attrConstruct _ = undefined
    attrClear _ = undefined
#endif

#if ENABLE_OVERLOADING
instance O.HasAttributeList NetworkMonitor
type instance O.AttributeList NetworkMonitor = NetworkMonitorAttributeList
type NetworkMonitorAttributeList = ('[ '("connectivity", NetworkMonitorConnectivityPropertyInfo), '("networkAvailable", NetworkMonitorNetworkAvailablePropertyInfo), '("networkMetered", NetworkMonitorNetworkMeteredPropertyInfo)] :: [(Symbol, *)])
#endif

#if ENABLE_OVERLOADING
networkMonitorConnectivity :: AttrLabelProxy "connectivity"
networkMonitorConnectivity = AttrLabelProxy

networkMonitorNetworkAvailable :: AttrLabelProxy "networkAvailable"
networkMonitorNetworkAvailable = AttrLabelProxy

networkMonitorNetworkMetered :: AttrLabelProxy "networkMetered"
networkMonitorNetworkMetered = AttrLabelProxy

#endif

#if ENABLE_OVERLOADING
type family ResolveNetworkMonitorMethod (t :: Symbol) (o :: *) :: * where
    ResolveNetworkMonitorMethod "bindProperty" o = GObject.Object.ObjectBindPropertyMethodInfo
    ResolveNetworkMonitorMethod "bindPropertyFull" o = GObject.Object.ObjectBindPropertyFullMethodInfo
    ResolveNetworkMonitorMethod "canReach" o = NetworkMonitorCanReachMethodInfo
    ResolveNetworkMonitorMethod "canReachAsync" o = NetworkMonitorCanReachAsyncMethodInfo
    ResolveNetworkMonitorMethod "canReachFinish" o = NetworkMonitorCanReachFinishMethodInfo
    ResolveNetworkMonitorMethod "forceFloating" o = GObject.Object.ObjectForceFloatingMethodInfo
    ResolveNetworkMonitorMethod "freezeNotify" o = GObject.Object.ObjectFreezeNotifyMethodInfo
    ResolveNetworkMonitorMethod "getv" o = GObject.Object.ObjectGetvMethodInfo
    ResolveNetworkMonitorMethod "init" o = Gio.Initable.InitableInitMethodInfo
    ResolveNetworkMonitorMethod "isFloating" o = GObject.Object.ObjectIsFloatingMethodInfo
    ResolveNetworkMonitorMethod "notify" o = GObject.Object.ObjectNotifyMethodInfo
    ResolveNetworkMonitorMethod "notifyByPspec" o = GObject.Object.ObjectNotifyByPspecMethodInfo
    ResolveNetworkMonitorMethod "ref" o = GObject.Object.ObjectRefMethodInfo
    ResolveNetworkMonitorMethod "refSink" o = GObject.Object.ObjectRefSinkMethodInfo
    ResolveNetworkMonitorMethod "runDispose" o = GObject.Object.ObjectRunDisposeMethodInfo
    ResolveNetworkMonitorMethod "stealData" o = GObject.Object.ObjectStealDataMethodInfo
    ResolveNetworkMonitorMethod "stealQdata" o = GObject.Object.ObjectStealQdataMethodInfo
    ResolveNetworkMonitorMethod "thawNotify" o = GObject.Object.ObjectThawNotifyMethodInfo
    ResolveNetworkMonitorMethod "unref" o = GObject.Object.ObjectUnrefMethodInfo
    ResolveNetworkMonitorMethod "watchClosure" o = GObject.Object.ObjectWatchClosureMethodInfo
    ResolveNetworkMonitorMethod "getConnectivity" o = NetworkMonitorGetConnectivityMethodInfo
    ResolveNetworkMonitorMethod "getData" o = GObject.Object.ObjectGetDataMethodInfo
    ResolveNetworkMonitorMethod "getNetworkAvailable" o = NetworkMonitorGetNetworkAvailableMethodInfo
    ResolveNetworkMonitorMethod "getNetworkMetered" o = NetworkMonitorGetNetworkMeteredMethodInfo
    ResolveNetworkMonitorMethod "getProperty" o = GObject.Object.ObjectGetPropertyMethodInfo
    ResolveNetworkMonitorMethod "getQdata" o = GObject.Object.ObjectGetQdataMethodInfo
    ResolveNetworkMonitorMethod "setData" o = GObject.Object.ObjectSetDataMethodInfo
    ResolveNetworkMonitorMethod "setProperty" o = GObject.Object.ObjectSetPropertyMethodInfo
    ResolveNetworkMonitorMethod l o = O.MethodResolutionFailed l o

instance (info ~ ResolveNetworkMonitorMethod t NetworkMonitor, O.MethodInfo info NetworkMonitor p) => O.IsLabelProxy t (NetworkMonitor -> p) where
    fromLabelProxy _ = O.overloadedMethod (O.MethodProxy :: O.MethodProxy info)

#if MIN_VERSION_base(4,9,0)
instance (info ~ ResolveNetworkMonitorMethod t NetworkMonitor, O.MethodInfo info NetworkMonitor p) => O.IsLabel t (NetworkMonitor -> 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

#endif

-- method NetworkMonitor::can_reach
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "monitor", argType = TInterface (Name {namespace = "Gio", name = "NetworkMonitor"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GNetworkMonitor", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "connectable", argType = TInterface (Name {namespace = "Gio", name = "SocketConnectable"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocketConnectable", 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_network_monitor_can_reach" g_network_monitor_can_reach ::
    Ptr NetworkMonitor ->                   -- monitor : TInterface (Name {namespace = "Gio", name = "NetworkMonitor"})
    Ptr Gio.SocketConnectable.SocketConnectable -> -- connectable : TInterface (Name {namespace = "Gio", name = "SocketConnectable"})
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Attempts to determine whether or not the host pointed to by
/@connectable@/ can be reached, without actually trying to connect to
it.

This may return 'True' even when 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor':@/network-available/@
is 'False', if, for example, /@monitor@/ can determine that
/@connectable@/ refers to a host on a local network.

If /@monitor@/ believes that an attempt to connect to /@connectable@/
will succeed, it will return 'True'. Otherwise, it will return
'False' and set /@error@/ to an appropriate error (such as
'GI.Gio.Enums.IOErrorEnumHostUnreachable').

Note that although this does not attempt to connect to
/@connectable@/, it may still block for a brief period of time (eg,
trying to do multicast DNS on the local network), so if you do not
want to block, you should use 'GI.Gio.Interfaces.NetworkMonitor.networkMonitorCanReachAsync'.

/Since: 2.32/
-}
networkMonitorCanReach ::
    (B.CallStack.HasCallStack, MonadIO m, IsNetworkMonitor a, Gio.SocketConnectable.IsSocketConnectable b, Gio.Cancellable.IsCancellable c) =>
    a
    {- ^ /@monitor@/: a 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor' -}
    -> b
    {- ^ /@connectable@/: a 'GI.Gio.Interfaces.SocketConnectable.SocketConnectable' -}
    -> Maybe (c)
    {- ^ /@cancellable@/: a 'GI.Gio.Objects.Cancellable.Cancellable', or 'Nothing' -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
networkMonitorCanReach monitor connectable cancellable = liftIO $ do
    monitor' <- unsafeManagedPtrCastPtr monitor
    connectable' <- unsafeManagedPtrCastPtr connectable
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    onException (do
        _ <- propagateGError $ g_network_monitor_can_reach monitor' connectable' maybeCancellable
        touchManagedPtr monitor
        touchManagedPtr connectable
        whenJust cancellable touchManagedPtr
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data NetworkMonitorCanReachMethodInfo
instance (signature ~ (b -> Maybe (c) -> m ()), MonadIO m, IsNetworkMonitor a, Gio.SocketConnectable.IsSocketConnectable b, Gio.Cancellable.IsCancellable c) => O.MethodInfo NetworkMonitorCanReachMethodInfo a signature where
    overloadedMethod _ = networkMonitorCanReach

#endif

-- method NetworkMonitor::can_reach_async
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "monitor", argType = TInterface (Name {namespace = "Gio", name = "NetworkMonitor"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GNetworkMonitor", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "connectable", argType = TInterface (Name {namespace = "Gio", name = "SocketConnectable"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GSocketConnectable", 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},Arg {argCName = "callback", argType = TInterface (Name {namespace = "Gio", name = "AsyncReadyCallback"}), direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "a #GAsyncReadyCallback to call when the\n    request is satisfied", sinceVersion = Nothing}, argScope = ScopeTypeAsync, argClosure = 4, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "user_data", argType = TBasicType TPtr, direction = DirectionIn, mayBeNull = True, argDoc = Documentation {rawDocText = Just "the data to pass to callback function", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_network_monitor_can_reach_async" g_network_monitor_can_reach_async ::
    Ptr NetworkMonitor ->                   -- monitor : TInterface (Name {namespace = "Gio", name = "NetworkMonitor"})
    Ptr Gio.SocketConnectable.SocketConnectable -> -- connectable : TInterface (Name {namespace = "Gio", name = "SocketConnectable"})
    Ptr Gio.Cancellable.Cancellable ->      -- cancellable : TInterface (Name {namespace = "Gio", name = "Cancellable"})
    FunPtr Gio.Callbacks.C_AsyncReadyCallback -> -- callback : TInterface (Name {namespace = "Gio", name = "AsyncReadyCallback"})
    Ptr () ->                               -- user_data : TBasicType TPtr
    IO ()

{- |
Asynchronously attempts to determine whether or not the host
pointed to by /@connectable@/ can be reached, without actually
trying to connect to it.

For more details, see 'GI.Gio.Interfaces.NetworkMonitor.networkMonitorCanReach'.

When the operation is finished, /@callback@/ will be called.
You can then call 'GI.Gio.Interfaces.NetworkMonitor.networkMonitorCanReachFinish'
to get the result of the operation.
-}
networkMonitorCanReachAsync ::
    (B.CallStack.HasCallStack, MonadIO m, IsNetworkMonitor a, Gio.SocketConnectable.IsSocketConnectable b, Gio.Cancellable.IsCancellable c) =>
    a
    {- ^ /@monitor@/: a 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor' -}
    -> b
    {- ^ /@connectable@/: a 'GI.Gio.Interfaces.SocketConnectable.SocketConnectable' -}
    -> Maybe (c)
    {- ^ /@cancellable@/: a 'GI.Gio.Objects.Cancellable.Cancellable', or 'Nothing' -}
    -> Maybe (Gio.Callbacks.AsyncReadyCallback)
    {- ^ /@callback@/: a 'GI.Gio.Callbacks.AsyncReadyCallback' to call when the
    request is satisfied -}
    -> m ()
networkMonitorCanReachAsync monitor connectable cancellable callback = liftIO $ do
    monitor' <- unsafeManagedPtrCastPtr monitor
    connectable' <- unsafeManagedPtrCastPtr connectable
    maybeCancellable <- case cancellable of
        Nothing -> return nullPtr
        Just jCancellable -> do
            jCancellable' <- unsafeManagedPtrCastPtr jCancellable
            return jCancellable'
    maybeCallback <- case callback of
        Nothing -> return (castPtrToFunPtr nullPtr)
        Just jCallback -> do
            ptrcallback <- callocMem :: IO (Ptr (FunPtr Gio.Callbacks.C_AsyncReadyCallback))
            jCallback' <- Gio.Callbacks.mk_AsyncReadyCallback (Gio.Callbacks.wrap_AsyncReadyCallback (Just ptrcallback) (Gio.Callbacks.drop_closures_AsyncReadyCallback jCallback))
            poke ptrcallback jCallback'
            return jCallback'
    let userData = nullPtr
    g_network_monitor_can_reach_async monitor' connectable' maybeCancellable maybeCallback userData
    touchManagedPtr monitor
    touchManagedPtr connectable
    whenJust cancellable touchManagedPtr
    return ()

#if ENABLE_OVERLOADING
data NetworkMonitorCanReachAsyncMethodInfo
instance (signature ~ (b -> Maybe (c) -> Maybe (Gio.Callbacks.AsyncReadyCallback) -> m ()), MonadIO m, IsNetworkMonitor a, Gio.SocketConnectable.IsSocketConnectable b, Gio.Cancellable.IsCancellable c) => O.MethodInfo NetworkMonitorCanReachAsyncMethodInfo a signature where
    overloadedMethod _ = networkMonitorCanReachAsync

#endif

-- method NetworkMonitor::can_reach_finish
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "monitor", argType = TInterface (Name {namespace = "Gio", name = "NetworkMonitor"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GNetworkMonitor", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing},Arg {argCName = "result", argType = TInterface (Name {namespace = "Gio", name = "AsyncResult"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "a #GAsyncResult", 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_network_monitor_can_reach_finish" g_network_monitor_can_reach_finish ::
    Ptr NetworkMonitor ->                   -- monitor : TInterface (Name {namespace = "Gio", name = "NetworkMonitor"})
    Ptr Gio.AsyncResult.AsyncResult ->      -- result : TInterface (Name {namespace = "Gio", name = "AsyncResult"})
    Ptr (Ptr GError) ->                     -- error
    IO CInt

{- |
Finishes an async network connectivity test.
See 'GI.Gio.Interfaces.NetworkMonitor.networkMonitorCanReachAsync'.
-}
networkMonitorCanReachFinish ::
    (B.CallStack.HasCallStack, MonadIO m, IsNetworkMonitor a, Gio.AsyncResult.IsAsyncResult b) =>
    a
    {- ^ /@monitor@/: a 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor' -}
    -> b
    {- ^ /@result@/: a 'GI.Gio.Interfaces.AsyncResult.AsyncResult' -}
    -> m ()
    {- ^ /(Can throw 'Data.GI.Base.GError.GError')/ -}
networkMonitorCanReachFinish monitor result_ = liftIO $ do
    monitor' <- unsafeManagedPtrCastPtr monitor
    result_' <- unsafeManagedPtrCastPtr result_
    onException (do
        _ <- propagateGError $ g_network_monitor_can_reach_finish monitor' result_'
        touchManagedPtr monitor
        touchManagedPtr result_
        return ()
     ) (do
        return ()
     )

#if ENABLE_OVERLOADING
data NetworkMonitorCanReachFinishMethodInfo
instance (signature ~ (b -> m ()), MonadIO m, IsNetworkMonitor a, Gio.AsyncResult.IsAsyncResult b) => O.MethodInfo NetworkMonitorCanReachFinishMethodInfo a signature where
    overloadedMethod _ = networkMonitorCanReachFinish

#endif

-- method NetworkMonitor::get_connectivity
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "monitor", argType = TInterface (Name {namespace = "Gio", name = "NetworkMonitor"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the #GNetworkMonitor", sinceVersion = Nothing}, argScope = ScopeTypeInvalid, argClosure = -1, argDestroy = -1, argCallerAllocates = False, transfer = TransferNothing}]
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "NetworkConnectivity"}))
-- throws : False
-- Skip return : False

foreign import ccall "g_network_monitor_get_connectivity" g_network_monitor_get_connectivity ::
    Ptr NetworkMonitor ->                   -- monitor : TInterface (Name {namespace = "Gio", name = "NetworkMonitor"})
    IO CUInt

{- |
Gets a more detailed networking state than
'GI.Gio.Interfaces.NetworkMonitor.networkMonitorGetNetworkAvailable'.

If 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor':@/network-available/@ is 'False', then the
connectivity state will be 'GI.Gio.Enums.NetworkConnectivityLocal'.

If 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor':@/network-available/@ is 'True', then the
connectivity state will be 'GI.Gio.Enums.NetworkConnectivityFull' (if there
is full Internet connectivity), 'GI.Gio.Enums.NetworkConnectivityLimited' (if
the host has a default route, but appears to be unable to actually
reach the full Internet), or 'GI.Gio.Enums.NetworkConnectivityPortal' (if the
host is trapped behind a \"captive portal\" that requires some sort
of login or acknowledgement before allowing full Internet access).

Note that in the case of 'GI.Gio.Enums.NetworkConnectivityLimited' and
'GI.Gio.Enums.NetworkConnectivityPortal', it is possible that some sites are
reachable but others are not. In this case, applications can
attempt to connect to remote servers, but should gracefully fall
back to their \"offline\" behavior if the connection attempt fails.

/Since: 2.44/
-}
networkMonitorGetConnectivity ::
    (B.CallStack.HasCallStack, MonadIO m, IsNetworkMonitor a) =>
    a
    {- ^ /@monitor@/: the 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor' -}
    -> m Gio.Enums.NetworkConnectivity
    {- ^ __Returns:__ the network connectivity state -}
networkMonitorGetConnectivity monitor = liftIO $ do
    monitor' <- unsafeManagedPtrCastPtr monitor
    result <- g_network_monitor_get_connectivity monitor'
    let result' = (toEnum . fromIntegral) result
    touchManagedPtr monitor
    return result'

#if ENABLE_OVERLOADING
data NetworkMonitorGetConnectivityMethodInfo
instance (signature ~ (m Gio.Enums.NetworkConnectivity), MonadIO m, IsNetworkMonitor a) => O.MethodInfo NetworkMonitorGetConnectivityMethodInfo a signature where
    overloadedMethod _ = networkMonitorGetConnectivity

#endif

-- method NetworkMonitor::get_network_available
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "monitor", argType = TInterface (Name {namespace = "Gio", name = "NetworkMonitor"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the #GNetworkMonitor", 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_network_monitor_get_network_available" g_network_monitor_get_network_available ::
    Ptr NetworkMonitor ->                   -- monitor : TInterface (Name {namespace = "Gio", name = "NetworkMonitor"})
    IO CInt

{- |
Checks if the network is available. \"Available\" here means that the
system has a default route available for at least one of IPv4 or
IPv6. It does not necessarily imply that the public Internet is
reachable. See 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor':@/network-available/@ for more details.

/Since: 2.32/
-}
networkMonitorGetNetworkAvailable ::
    (B.CallStack.HasCallStack, MonadIO m, IsNetworkMonitor a) =>
    a
    {- ^ /@monitor@/: the 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor' -}
    -> m Bool
    {- ^ __Returns:__ whether the network is available -}
networkMonitorGetNetworkAvailable monitor = liftIO $ do
    monitor' <- unsafeManagedPtrCastPtr monitor
    result <- g_network_monitor_get_network_available monitor'
    let result' = (/= 0) result
    touchManagedPtr monitor
    return result'

#if ENABLE_OVERLOADING
data NetworkMonitorGetNetworkAvailableMethodInfo
instance (signature ~ (m Bool), MonadIO m, IsNetworkMonitor a) => O.MethodInfo NetworkMonitorGetNetworkAvailableMethodInfo a signature where
    overloadedMethod _ = networkMonitorGetNetworkAvailable

#endif

-- method NetworkMonitor::get_network_metered
-- method type : OrdinaryMethod
-- Args : [Arg {argCName = "monitor", argType = TInterface (Name {namespace = "Gio", name = "NetworkMonitor"}), direction = DirectionIn, mayBeNull = False, argDoc = Documentation {rawDocText = Just "the #GNetworkMonitor", 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_network_monitor_get_network_metered" g_network_monitor_get_network_metered ::
    Ptr NetworkMonitor ->                   -- monitor : TInterface (Name {namespace = "Gio", name = "NetworkMonitor"})
    IO CInt

{- |
Checks if the network is metered.
See 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor':@/network-metered/@ for more details.

/Since: 2.46/
-}
networkMonitorGetNetworkMetered ::
    (B.CallStack.HasCallStack, MonadIO m, IsNetworkMonitor a) =>
    a
    {- ^ /@monitor@/: the 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor' -}
    -> m Bool
    {- ^ __Returns:__ whether the connection is metered -}
networkMonitorGetNetworkMetered monitor = liftIO $ do
    monitor' <- unsafeManagedPtrCastPtr monitor
    result <- g_network_monitor_get_network_metered monitor'
    let result' = (/= 0) result
    touchManagedPtr monitor
    return result'

#if ENABLE_OVERLOADING
data NetworkMonitorGetNetworkMeteredMethodInfo
instance (signature ~ (m Bool), MonadIO m, IsNetworkMonitor a) => O.MethodInfo NetworkMonitorGetNetworkMeteredMethodInfo a signature where
    overloadedMethod _ = networkMonitorGetNetworkMetered

#endif

-- method NetworkMonitor::get_default
-- method type : MemberFunction
-- Args : []
-- Lengths : []
-- returnType : Just (TInterface (Name {namespace = "Gio", name = "NetworkMonitor"}))
-- throws : False
-- Skip return : False

foreign import ccall "g_network_monitor_get_default" g_network_monitor_get_default ::
    IO (Ptr NetworkMonitor)

{- |
Gets the default 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor' for the system.

/Since: 2.32/
-}
networkMonitorGetDefault ::
    (B.CallStack.HasCallStack, MonadIO m) =>
    m NetworkMonitor
    {- ^ __Returns:__ a 'GI.Gio.Interfaces.NetworkMonitor.NetworkMonitor' -}
networkMonitorGetDefault  = liftIO $ do
    result <- g_network_monitor_get_default
    checkUnexpectedReturnNULL "networkMonitorGetDefault" result
    result' <- (newObject NetworkMonitor) result
    return result'

#if ENABLE_OVERLOADING
#endif