// WARNING: Please don't edit this file. It was generated by C++/WinRT v2.0.240405.15 #pragma once #ifndef WINRT_Windows_Networking_Sockets_0_H #define WINRT_Windows_Networking_Sockets_0_H WINRT_EXPORT namespace winrt::Windows::ApplicationModel::Background { struct IBackgroundTask; struct IBackgroundTrigger; } WINRT_EXPORT namespace winrt::Windows::Foundation { struct Deferral; struct EventRegistrationToken; struct IAsyncAction; template struct WINRT_IMPL_EMPTY_BASES TypedEventHandler; struct Uri; } WINRT_EXPORT namespace winrt::Windows::Networking { struct EndpointPair; struct HostName; enum class HostNameSortOptions : uint32_t; } WINRT_EXPORT namespace winrt::Windows::Networking::Connectivity { struct NetworkAdapter; } WINRT_EXPORT namespace winrt::Windows::Security::Credentials { struct PasswordCredential; } WINRT_EXPORT namespace winrt::Windows::Security::Cryptography::Certificates { struct Certificate; } WINRT_EXPORT namespace winrt::Windows::Storage::Streams { struct DataReader; struct IBuffer; struct IInputStream; struct IOutputStream; } WINRT_EXPORT namespace winrt::Windows::Web { enum class WebErrorStatus : int32_t; } WINRT_EXPORT namespace winrt::Windows::Networking::Sockets { enum class ControlChannelTriggerResetReason : int32_t { FastUserSwitched = 0, LowPowerExit = 1, QuietHoursExit = 2, ApplicationRestart = 3, }; enum class ControlChannelTriggerResourceType : int32_t { RequestSoftwareSlot = 0, RequestHardwareSlot = 1, }; enum class ControlChannelTriggerStatus : int32_t { HardwareSlotRequested = 0, SoftwareSlotAllocated = 1, HardwareSlotAllocated = 2, PolicyError = 3, SystemError = 4, TransportDisconnected = 5, ServiceUnavailable = 6, }; enum class MessageWebSocketReceiveMode : int32_t { FullMessage = 0, PartialMessage = 1, }; enum class SocketActivityConnectedStandbyAction : int32_t { DoNotWake = 0, Wake = 1, }; enum class SocketActivityKind : int32_t { None = 0, StreamSocketListener = 1, DatagramSocket = 2, StreamSocket = 3, }; enum class SocketActivityTriggerReason : int32_t { None = 0, SocketActivity = 1, ConnectionAccepted = 2, KeepAliveTimerExpired = 3, SocketClosed = 4, }; enum class SocketErrorStatus : int32_t { Unknown = 0, OperationAborted = 1, HttpInvalidServerResponse = 2, ConnectionTimedOut = 3, AddressFamilyNotSupported = 4, SocketTypeNotSupported = 5, HostNotFound = 6, NoDataRecordOfRequestedType = 7, NonAuthoritativeHostNotFound = 8, ClassTypeNotFound = 9, AddressAlreadyInUse = 10, CannotAssignRequestedAddress = 11, ConnectionRefused = 12, NetworkIsUnreachable = 13, UnreachableHost = 14, NetworkIsDown = 15, NetworkDroppedConnectionOnReset = 16, SoftwareCausedConnectionAbort = 17, ConnectionResetByPeer = 18, HostIsDown = 19, NoAddressesFound = 20, TooManyOpenFiles = 21, MessageTooLong = 22, CertificateExpired = 23, CertificateUntrustedRoot = 24, CertificateCommonNameIsIncorrect = 25, CertificateWrongUsage = 26, CertificateRevoked = 27, CertificateNoRevocationCheck = 28, CertificateRevocationServerOffline = 29, CertificateIsInvalid = 30, }; enum class SocketMessageType : int32_t { Binary = 0, Utf8 = 1, }; enum class SocketProtectionLevel : int32_t { PlainSocket = 0, Ssl = 1, SslAllowNullEncryption = 2, BluetoothEncryptionAllowNullAuthentication = 3, BluetoothEncryptionWithAuthentication = 4, Ssl3AllowWeakEncryption = 5, Tls10 = 6, Tls11 = 7, Tls12 = 8, Unspecified = 9, Tls13 = 10, }; enum class SocketQualityOfService : int32_t { Normal = 0, LowLatency = 1, }; enum class SocketSslErrorSeverity : int32_t { None = 0, Ignorable = 1, Fatal = 2, }; struct IControlChannelTrigger; struct IControlChannelTrigger2; struct IControlChannelTriggerEventDetails; struct IControlChannelTriggerFactory; struct IControlChannelTriggerResetEventDetails; struct IDatagramSocket; struct IDatagramSocket2; struct IDatagramSocket3; struct IDatagramSocketControl; struct IDatagramSocketControl2; struct IDatagramSocketControl3; struct IDatagramSocketInformation; struct IDatagramSocketMessageReceivedEventArgs; struct IDatagramSocketStatics; struct IMessageWebSocket; struct IMessageWebSocket2; struct IMessageWebSocket3; struct IMessageWebSocketControl; struct IMessageWebSocketControl2; struct IMessageWebSocketMessageReceivedEventArgs; struct IMessageWebSocketMessageReceivedEventArgs2; struct IServerMessageWebSocket; struct IServerMessageWebSocketControl; struct IServerMessageWebSocketInformation; struct IServerStreamWebSocket; struct IServerStreamWebSocketInformation; struct ISocketActivityContext; struct ISocketActivityContextFactory; struct ISocketActivityInformation; struct ISocketActivityInformationStatics; struct ISocketActivityTriggerDetails; struct ISocketErrorStatics; struct IStreamSocket; struct IStreamSocket2; struct IStreamSocket3; struct IStreamSocketControl; struct IStreamSocketControl2; struct IStreamSocketControl3; struct IStreamSocketControl4; struct IStreamSocketInformation; struct IStreamSocketInformation2; struct IStreamSocketListener; struct IStreamSocketListener2; struct IStreamSocketListener3; struct IStreamSocketListenerConnectionReceivedEventArgs; struct IStreamSocketListenerControl; struct IStreamSocketListenerControl2; struct IStreamSocketListenerInformation; struct IStreamSocketStatics; struct IStreamWebSocket; struct IStreamWebSocket2; struct IStreamWebSocketControl; struct IStreamWebSocketControl2; struct IWebSocket; struct IWebSocketClosedEventArgs; struct IWebSocketControl; struct IWebSocketControl2; struct IWebSocketErrorStatics; struct IWebSocketInformation; struct IWebSocketInformation2; struct IWebSocketServerCustomValidationRequestedEventArgs; struct ControlChannelTrigger; struct DatagramSocket; struct DatagramSocketControl; struct DatagramSocketInformation; struct DatagramSocketMessageReceivedEventArgs; struct MessageWebSocket; struct MessageWebSocketControl; struct MessageWebSocketInformation; struct MessageWebSocketMessageReceivedEventArgs; struct ServerMessageWebSocket; struct ServerMessageWebSocketControl; struct ServerMessageWebSocketInformation; struct ServerStreamWebSocket; struct ServerStreamWebSocketInformation; struct SocketActivityContext; struct SocketActivityInformation; struct SocketActivityTriggerDetails; struct SocketError; struct StreamSocket; struct StreamSocketControl; struct StreamSocketInformation; struct StreamSocketListener; struct StreamSocketListenerConnectionReceivedEventArgs; struct StreamSocketListenerControl; struct StreamSocketListenerInformation; struct StreamWebSocket; struct StreamWebSocketControl; struct StreamWebSocketInformation; struct WebSocketClosedEventArgs; struct WebSocketError; struct WebSocketKeepAlive; struct WebSocketServerCustomValidationRequestedEventArgs; struct BandwidthStatistics; struct RoundTripTimeStatistics; struct ControlChannelTriggerContract; } namespace winrt::impl { template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = struct_category; }; template <> struct category{ using type = struct_category; }; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ControlChannelTrigger"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.DatagramSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.DatagramSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.DatagramSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.DatagramSocketMessageReceivedEventArgs"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.MessageWebSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.MessageWebSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.MessageWebSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.MessageWebSocketMessageReceivedEventArgs"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ServerMessageWebSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ServerMessageWebSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ServerMessageWebSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ServerStreamWebSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ServerStreamWebSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketActivityContext"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketActivityInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketActivityTriggerDetails"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketError"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.StreamSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.StreamSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.StreamSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.StreamSocketListener"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.StreamSocketListenerConnectionReceivedEventArgs"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.StreamSocketListenerControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.StreamSocketListenerInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.StreamWebSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.StreamWebSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.StreamWebSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.WebSocketClosedEventArgs"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.WebSocketError"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.WebSocketKeepAlive"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.WebSocketServerCustomValidationRequestedEventArgs"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ControlChannelTriggerResetReason"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ControlChannelTriggerResourceType"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ControlChannelTriggerStatus"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.MessageWebSocketReceiveMode"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketActivityConnectedStandbyAction"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketActivityKind"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketActivityTriggerReason"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketErrorStatus"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketMessageType"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketProtectionLevel"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketQualityOfService"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.SocketSslErrorSeverity"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.BandwidthStatistics"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.RoundTripTimeStatistics"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IControlChannelTrigger"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IControlChannelTrigger2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IControlChannelTriggerEventDetails"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IControlChannelTriggerFactory"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IControlChannelTriggerResetEventDetails"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IDatagramSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IDatagramSocket2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IDatagramSocket3"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IDatagramSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IDatagramSocketControl2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IDatagramSocketControl3"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IDatagramSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IDatagramSocketMessageReceivedEventArgs"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IDatagramSocketStatics"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IMessageWebSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IMessageWebSocket2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IMessageWebSocket3"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IMessageWebSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IMessageWebSocketControl2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IMessageWebSocketMessageReceivedEventArgs"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IMessageWebSocketMessageReceivedEventArgs2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IServerMessageWebSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IServerMessageWebSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IServerMessageWebSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IServerStreamWebSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IServerStreamWebSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ISocketActivityContext"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ISocketActivityContextFactory"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ISocketActivityInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ISocketActivityInformationStatics"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ISocketActivityTriggerDetails"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ISocketErrorStatics"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocket2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocket3"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketControl2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketControl3"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketControl4"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketInformation2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketListener"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketListener2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketListener3"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketListenerConnectionReceivedEventArgs"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketListenerControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketListenerControl2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketListenerInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamSocketStatics"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamWebSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamWebSocket2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamWebSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IStreamWebSocketControl2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IWebSocket"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IWebSocketClosedEventArgs"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IWebSocketControl"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IWebSocketControl2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IWebSocketErrorStatics"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IWebSocketInformation"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IWebSocketInformation2"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.IWebSocketServerCustomValidationRequestedEventArgs"; template <> inline constexpr auto& name_v = L"Windows.Networking.Sockets.ControlChannelTriggerContract"; template <> inline constexpr guid guid_v{ 0x7D1431A7,0xEE96,0x40E8,{ 0xA1,0x99,0x87,0x03,0xCD,0x96,0x9E,0xC3 } }; // 7D1431A7-EE96-40E8-A199-8703CD969EC3 template <> inline constexpr guid guid_v{ 0xAF00D237,0x51BE,0x4514,{ 0x97,0x25,0x35,0x56,0xE1,0x87,0x95,0x80 } }; // AF00D237-51BE-4514-9725-3556E1879580 template <> inline constexpr guid guid_v{ 0x1B36E047,0x89BB,0x4236,{ 0x96,0xAC,0x71,0xD0,0x12,0xBB,0x48,0x69 } }; // 1B36E047-89BB-4236-96AC-71D012BB4869 template <> inline constexpr guid guid_v{ 0xDA4B7CF0,0x8D71,0x446F,{ 0x88,0xC3,0xB9,0x51,0x84,0xA2,0xD6,0xCD } }; // DA4B7CF0-8D71-446F-88C3-B95184A2D6CD template <> inline constexpr guid guid_v{ 0x6851038E,0x8EC4,0x42FE,{ 0x9B,0xB2,0x21,0xE9,0x1B,0x7B,0xFC,0xB1 } }; // 6851038E-8EC4-42FE-9BB2-21E91B7BFCB1 template <> inline constexpr guid guid_v{ 0x7FE25BBB,0xC3BC,0x4677,{ 0x84,0x46,0xCA,0x28,0xA4,0x65,0xA3,0xAF } }; // 7FE25BBB-C3BC-4677-8446-CA28A465A3AF template <> inline constexpr guid guid_v{ 0xD83BA354,0x9A9D,0x4185,{ 0xA2,0x0A,0x14,0x24,0xC9,0xC2,0xA7,0xCD } }; // D83BA354-9A9D-4185-A20A-1424C9C2A7CD template <> inline constexpr guid guid_v{ 0x37544F09,0xAB92,0x4306,{ 0x9A,0xC1,0x0C,0x38,0x12,0x83,0xD9,0xC6 } }; // 37544F09-AB92-4306-9AC1-0C381283D9C6 template <> inline constexpr guid guid_v{ 0x52AC3F2E,0x349A,0x4135,{ 0xBB,0x58,0xB7,0x9B,0x26,0x47,0xD3,0x90 } }; // 52AC3F2E-349A-4135-BB58-B79B2647D390 template <> inline constexpr guid guid_v{ 0x33EAD5C2,0x979C,0x4415,{ 0x82,0xA1,0x3C,0xFA,0xF6,0x46,0xC1,0x92 } }; // 33EAD5C2-979C-4415-82A1-3CFAF646C192 template <> inline constexpr guid guid_v{ 0xD4EB8256,0x1F6D,0x4598,{ 0x9B,0x57,0xD4,0x2A,0x00,0x1D,0xF3,0x49 } }; // D4EB8256-1F6D-4598-9B57-D42A001DF349 template <> inline constexpr guid guid_v{ 0x5F1A569A,0x55FB,0x48CD,{ 0x97,0x06,0x7A,0x97,0x4F,0x7B,0x15,0x85 } }; // 5F1A569A-55FB-48CD-9706-7A974F7B1585 template <> inline constexpr guid guid_v{ 0x9E2DDCA2,0x1712,0x4CE4,{ 0xB1,0x79,0x8C,0x65,0x2C,0x6D,0x10,0x7E } }; // 9E2DDCA2-1712-4CE4-B179-8C652C6D107E template <> inline constexpr guid guid_v{ 0xE9C62AEE,0x1494,0x4A21,{ 0xBB,0x7E,0x85,0x89,0xFC,0x75,0x1D,0x9D } }; // E9C62AEE-1494-4A21-BB7E-8589FC751D9D template <> inline constexpr guid guid_v{ 0x33727D08,0x34D5,0x4746,{ 0xAD,0x7B,0x8D,0xDE,0x5B,0xC2,0xEF,0x88 } }; // 33727D08-34D5-4746-AD7B-8DDE5BC2EF88 template <> inline constexpr guid guid_v{ 0xBED0CEE7,0xF9C8,0x440A,{ 0x9A,0xD5,0x73,0x72,0x81,0xD9,0x74,0x2E } }; // BED0CEE7-F9C8-440A-9AD5-737281D9742E template <> inline constexpr guid guid_v{ 0x59D9DEFB,0x71AF,0x4349,{ 0x84,0x87,0x91,0x1F,0xCF,0x68,0x15,0x97 } }; // 59D9DEFB-71AF-4349-8487-911FCF681597 template <> inline constexpr guid guid_v{ 0x8118388A,0xC629,0x4F0A,{ 0x80,0xFB,0x81,0xFC,0x05,0x53,0x88,0x62 } }; // 8118388A-C629-4F0A-80FB-81FC05538862 template <> inline constexpr guid guid_v{ 0xE30FD791,0x080C,0x400A,{ 0xA7,0x12,0x27,0xDF,0xA9,0xE7,0x44,0xD8 } }; // E30FD791-080C-400A-A712-27DFA9E744D8 template <> inline constexpr guid guid_v{ 0x478C22AC,0x4C4B,0x42ED,{ 0x9E,0xD7,0x1E,0xF9,0xF9,0x4F,0xA3,0xD5 } }; // 478C22AC-4C4B-42ED-9ED7-1EF9F94FA3D5 template <> inline constexpr guid guid_v{ 0x89CE06FD,0xDD6F,0x4A07,{ 0x87,0xF9,0xF9,0xEB,0x4D,0x89,0xD8,0x3D } }; // 89CE06FD-DD6F-4A07-87F9-F9EB4D89D83D template <> inline constexpr guid guid_v{ 0xE3AC9240,0x813B,0x5EFD,{ 0x7E,0x11,0xAE,0x23,0x05,0xFC,0x77,0xF1 } }; // E3AC9240-813B-5EFD-7E11-AE2305FC77F1 template <> inline constexpr guid guid_v{ 0x69C2F051,0x1C1F,0x587A,{ 0x45,0x19,0x21,0x81,0x61,0x01,0x92,0xB7 } }; // 69C2F051-1C1F-587A-4519-2181610192B7 template <> inline constexpr guid guid_v{ 0xFC32B45F,0x4448,0x5505,{ 0x6C,0xC9,0x09,0xAF,0xA8,0x91,0x5F,0x5D } }; // FC32B45F-4448-5505-6CC9-09AFA8915F5D template <> inline constexpr guid guid_v{ 0x2CED5BBF,0x74F6,0x55E4,{ 0x79,0xDF,0x91,0x32,0x68,0x0D,0xFE,0xE8 } }; // 2CED5BBF-74F6-55E4-79DF-9132680DFEE8 template <> inline constexpr guid guid_v{ 0xFC32B45F,0x4448,0x5505,{ 0x6C,0xC9,0x09,0xAB,0xA8,0x91,0x5F,0x5D } }; // FC32B45F-4448-5505-6CC9-09ABA8915F5D template <> inline constexpr guid guid_v{ 0x43B04D64,0x4C85,0x4396,{ 0xA6,0x37,0x1D,0x97,0x3F,0x6E,0xBD,0x49 } }; // 43B04D64-4C85-4396-A637-1D973F6EBD49 template <> inline constexpr guid guid_v{ 0xB99FC3C3,0x088C,0x4388,{ 0x83,0xAE,0x25,0x25,0x13,0x8E,0x04,0x9A } }; // B99FC3C3-088C-4388-83AE-2525138E049A template <> inline constexpr guid guid_v{ 0x8D8A42E4,0xA87E,0x4B74,{ 0x99,0x68,0x18,0x5B,0x25,0x11,0xDE,0xFE } }; // 8D8A42E4-A87E-4B74-9968-185B2511DEFE template <> inline constexpr guid guid_v{ 0x8570B47A,0x7E7D,0x4736,{ 0x80,0x41,0x13,0x27,0xA6,0x54,0x3C,0x56 } }; // 8570B47A-7E7D-4736-8041-1327A6543C56 template <> inline constexpr guid guid_v{ 0x45F406A7,0xFC9F,0x4F81,{ 0xAC,0xAD,0x35,0x5F,0xEF,0x51,0xE6,0x7B } }; // 45F406A7-FC9F-4F81-ACAD-355FEF51E67B template <> inline constexpr guid guid_v{ 0x828337F4,0x7D56,0x4D8E,{ 0xB7,0xB4,0xA0,0x7D,0xD7,0xC1,0xBC,0xA9 } }; // 828337F4-7D56-4D8E-B7B4-A07DD7C1BCA9 template <> inline constexpr guid guid_v{ 0x69A22CF3,0xFC7B,0x4857,{ 0xAF,0x38,0xF6,0xE7,0xDE,0x6A,0x5B,0x49 } }; // 69A22CF3-FC7B-4857-AF38-F6E7DE6A5B49 template <> inline constexpr guid guid_v{ 0x29D0E575,0xF314,0x4D09,{ 0xAD,0xF0,0x0F,0xBD,0x96,0x7F,0xBD,0x9F } }; // 29D0E575-F314-4D09-ADF0-0FBD967FBD9F template <> inline constexpr guid guid_v{ 0x3F430B00,0x9D28,0x4854,{ 0xBA,0xC3,0x23,0x01,0x94,0x1E,0xC2,0x23 } }; // 3F430B00-9D28-4854-BAC3-2301941EC223 template <> inline constexpr guid guid_v{ 0xFE25ADF1,0x92AB,0x4AF3,{ 0x99,0x92,0x0F,0x4C,0x85,0xE3,0x6C,0xC4 } }; // FE25ADF1-92AB-4AF3-9992-0F4C85E36CC4 template <> inline constexpr guid guid_v{ 0xC2D09A56,0x060F,0x44C1,{ 0xB8,0xE2,0x1F,0xBF,0x60,0xBD,0x62,0xC5 } }; // C2D09A56-060F-44C1-B8E2-1FBF60BD62C5 template <> inline constexpr guid guid_v{ 0xC56A444C,0x4E74,0x403E,{ 0x89,0x4C,0xB3,0x1C,0xAE,0x5C,0x73,0x42 } }; // C56A444C-4E74-403E-894C-B31CAE5C7342 template <> inline constexpr guid guid_v{ 0x964E2B3D,0xEC27,0x4888,{ 0xB3,0xCE,0xC7,0x4B,0x41,0x84,0x23,0xAD } }; // 964E2B3D-EC27-4888-B3CE-C74B418423AD template <> inline constexpr guid guid_v{ 0x3B80AE30,0x5E68,0x4205,{ 0x88,0xF0,0xDC,0x85,0xD2,0xE2,0x5D,0xED } }; // 3B80AE30-5E68-4205-88F0-DC85D2E25DED template <> inline constexpr guid guid_v{ 0x12C28452,0x4BDC,0x4EE4,{ 0x97,0x6A,0xCF,0x13,0x0E,0x9D,0x92,0xE3 } }; // 12C28452-4BDC-4EE4-976A-CF130E9D92E3 template <> inline constexpr guid guid_v{ 0xFF513437,0xDF9F,0x4DF0,{ 0xBF,0x82,0x0E,0xC5,0xD7,0xB3,0x5A,0xAE } }; // FF513437-DF9F-4DF0-BF82-0EC5D7B35AAE template <> inline constexpr guid guid_v{ 0x658DC13E,0xBB3E,0x4458,{ 0xB2,0x32,0xED,0x10,0x88,0x69,0x4B,0x98 } }; // 658DC13E-BB3E-4458-B232-ED1088694B98 template <> inline constexpr guid guid_v{ 0x4798201C,0xBDF8,0x4919,{ 0x85,0x42,0x28,0xD4,0x50,0xE7,0x45,0x07 } }; // 4798201C-BDF8-4919-8542-28D450E74507 template <> inline constexpr guid guid_v{ 0x0C472EA9,0x373F,0x447B,{ 0x85,0xB1,0xDD,0xD4,0x54,0x88,0x03,0xBA } }; // 0C472EA9-373F-447B-85B1-DDD4548803BA template <> inline constexpr guid guid_v{ 0x20D8C576,0x8D8A,0x4DBA,{ 0x97,0x22,0xA1,0x6C,0x4D,0x98,0x49,0x80 } }; // 20D8C576-8D8A-4DBA-9722-A16C4D984980 template <> inline constexpr guid guid_v{ 0x948BB665,0x2C3E,0x404B,{ 0xB8,0xB0,0x8E,0xB2,0x49,0xA2,0xB0,0xA1 } }; // 948BB665-2C3E-404B-B8B0-8EB249A2B0A1 template <> inline constexpr guid guid_v{ 0xE62BA82F,0xA63A,0x430B,{ 0xBF,0x62,0x29,0xE9,0x3E,0x56,0x33,0xB4 } }; // E62BA82F-A63A-430B-BF62-29E93E5633B4 template <> inline constexpr guid guid_v{ 0xA420BC4A,0x6E2E,0x4AF5,{ 0xB5,0x56,0x35,0x5A,0xE0,0xCD,0x4F,0x29 } }; // A420BC4A-6E2E-4AF5-B556-355AE0CD4F29 template <> inline constexpr guid guid_v{ 0xBD4A49D8,0xB289,0x45BB,{ 0x97,0xEB,0xC7,0x52,0x52,0x05,0xA8,0x43 } }; // BD4A49D8-B289-45BB-97EB-C7525205A843 template <> inline constexpr guid guid_v{ 0xAA4D08CB,0x93F5,0x4678,{ 0x82,0x36,0x57,0xCC,0xE5,0x41,0x7E,0xD5 } }; // AA4D08CB-93F5-4678-8236-57CCE5417ED5 template <> inline constexpr guid guid_v{ 0xB4F478B1,0xA45A,0x48DB,{ 0x95,0x3A,0x64,0x5B,0x7D,0x96,0x4C,0x07 } }; // B4F478B1-A45A-48DB-953A-645B7D964C07 template <> inline constexpr guid guid_v{ 0x215D9F7E,0xFA58,0x40DA,{ 0x9F,0x11,0xA4,0x8D,0xAF,0xE9,0x50,0x37 } }; // 215D9F7E-FA58-40DA-9F11-A48DAFE95037 template <> inline constexpr guid guid_v{ 0xF877396F,0x99B1,0x4E18,{ 0xBC,0x08,0x85,0x0C,0x9A,0xDF,0x15,0x6E } }; // F877396F-99B1-4E18-BC08-850C9ADF156E template <> inline constexpr guid guid_v{ 0xCEB78D07,0xD0A8,0x4703,{ 0xA0,0x91,0xC8,0xC2,0xC0,0x91,0x5B,0xC3 } }; // CEB78D07-D0A8-4703-A091-C8C2C0915BC3 template <> inline constexpr guid guid_v{ 0x2EC4BDC3,0xD9A5,0x455A,{ 0x98,0x11,0xDE,0x24,0xD4,0x53,0x37,0xE9 } }; // 2EC4BDC3-D9A5-455A-9811-DE24D45337E9 template <> inline constexpr guid guid_v{ 0x79C3BE03,0xF2CA,0x461E,{ 0xAF,0x4E,0x96,0x65,0xBC,0x2D,0x06,0x20 } }; // 79C3BE03-F2CA-461E-AF4E-9665BC2D0620 template <> inline constexpr guid guid_v{ 0x27CDF35B,0x1F61,0x4709,{ 0x8E,0x02,0x61,0x28,0x3A,0xDA,0x4E,0x9D } }; // 27CDF35B-1F61-4709-8E02-61283ADA4E9D template <> inline constexpr guid guid_v{ 0x5E01E316,0xC92A,0x47A5,{ 0xB2,0x5F,0x07,0x84,0x76,0x39,0xD1,0x81 } }; // 5E01E316-C92A-47A5-B25F-07847639D181 template <> inline constexpr guid guid_v{ 0xCE1D39CE,0xA1B7,0x4D43,{ 0x82,0x69,0x8D,0x5B,0x98,0x1B,0xD4,0x7A } }; // CE1D39CE-A1B7-4D43-8269-8D5B981BD47A template <> inline constexpr guid guid_v{ 0xFFEFFE48,0x022A,0x4AB7,{ 0x8B,0x36,0xE1,0x0A,0xF4,0x64,0x0E,0x6B } }; // FFEFFE48-022A-4AB7-8B36-E10AF4640E6B template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IControlChannelTrigger; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IDatagramSocket; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IDatagramSocketControl; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IDatagramSocketInformation; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IDatagramSocketMessageReceivedEventArgs; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IMessageWebSocket; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IMessageWebSocketControl; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IWebSocketInformation; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IMessageWebSocketMessageReceivedEventArgs; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IServerMessageWebSocket; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IServerMessageWebSocketControl; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IServerMessageWebSocketInformation; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IServerStreamWebSocket; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IServerStreamWebSocketInformation; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::ISocketActivityContext; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::ISocketActivityInformation; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::ISocketActivityTriggerDetails; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IStreamSocket; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IStreamSocketControl; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IStreamSocketInformation; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IStreamSocketListener; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IStreamSocketListenerConnectionReceivedEventArgs; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IStreamSocketListenerControl; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IStreamSocketListenerInformation; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IStreamWebSocket; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IStreamWebSocketControl; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IWebSocketInformation; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IWebSocketClosedEventArgs; }; template <> struct default_interface{ using type = winrt::Windows::ApplicationModel::Background::IBackgroundTask; }; template <> struct default_interface{ using type = winrt::Windows::Networking::Sockets::IWebSocketServerCustomValidationRequestedEventArgs; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ControlChannelTriggerId(void**) noexcept = 0; virtual int32_t __stdcall get_ServerKeepAliveIntervalInMinutes(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_ServerKeepAliveIntervalInMinutes(uint32_t) noexcept = 0; virtual int32_t __stdcall get_CurrentKeepAliveIntervalInMinutes(uint32_t*) noexcept = 0; virtual int32_t __stdcall get_TransportObject(void**) noexcept = 0; virtual int32_t __stdcall get_KeepAliveTrigger(void**) noexcept = 0; virtual int32_t __stdcall get_PushNotificationTrigger(void**) noexcept = 0; virtual int32_t __stdcall UsingTransport(void*) noexcept = 0; virtual int32_t __stdcall WaitForPushEnabled(int32_t*) noexcept = 0; virtual int32_t __stdcall DecreaseNetworkKeepAliveInterval() noexcept = 0; virtual int32_t __stdcall FlushTransport() noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_IsWakeFromLowPowerSupported(bool*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ControlChannelTrigger(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateControlChannelTrigger(void*, uint32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateControlChannelTriggerEx(void*, uint32_t, int32_t, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ResetReason(int32_t*) noexcept = 0; virtual int32_t __stdcall get_HardwareSlotReset(bool*) noexcept = 0; virtual int32_t __stdcall get_SoftwareSlotReset(bool*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Control(void**) noexcept = 0; virtual int32_t __stdcall get_Information(void**) noexcept = 0; virtual int32_t __stdcall get_OutputStream(void**) noexcept = 0; virtual int32_t __stdcall ConnectAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall ConnectWithEndpointPairAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall BindServiceNameAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall BindEndpointAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall JoinMulticastGroup(void*) noexcept = 0; virtual int32_t __stdcall GetOutputStreamAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall GetOutputStreamWithEndpointPairAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall add_MessageReceived(void*, winrt::event_token*) noexcept = 0; virtual int32_t __stdcall remove_MessageReceived(winrt::event_token) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall BindServiceNameAndAdapterAsync(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CancelIOAsync(void**) noexcept = 0; virtual int32_t __stdcall EnableTransferOwnership(winrt::guid) noexcept = 0; virtual int32_t __stdcall EnableTransferOwnershipWithConnectedStandbyAction(winrt::guid, int32_t) noexcept = 0; virtual int32_t __stdcall TransferOwnership(void*) noexcept = 0; virtual int32_t __stdcall TransferOwnershipWithContext(void*, void*) noexcept = 0; virtual int32_t __stdcall TransferOwnershipWithContextAndKeepAliveTime(void*, void*, int64_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_QualityOfService(int32_t*) noexcept = 0; virtual int32_t __stdcall put_QualityOfService(int32_t) noexcept = 0; virtual int32_t __stdcall get_OutboundUnicastHopLimit(uint8_t*) noexcept = 0; virtual int32_t __stdcall put_OutboundUnicastHopLimit(uint8_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_InboundBufferSizeInBytes(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_InboundBufferSizeInBytes(uint32_t) noexcept = 0; virtual int32_t __stdcall get_DontFragment(bool*) noexcept = 0; virtual int32_t __stdcall put_DontFragment(bool) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_MulticastOnly(bool*) noexcept = 0; virtual int32_t __stdcall put_MulticastOnly(bool) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_LocalAddress(void**) noexcept = 0; virtual int32_t __stdcall get_LocalPort(void**) noexcept = 0; virtual int32_t __stdcall get_RemoteAddress(void**) noexcept = 0; virtual int32_t __stdcall get_RemotePort(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_RemoteAddress(void**) noexcept = 0; virtual int32_t __stdcall get_RemotePort(void**) noexcept = 0; virtual int32_t __stdcall get_LocalAddress(void**) noexcept = 0; virtual int32_t __stdcall GetDataReader(void**) noexcept = 0; virtual int32_t __stdcall GetDataStream(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetEndpointPairsAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall GetEndpointPairsWithSortOptionsAsync(void*, void*, uint32_t, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Control(void**) noexcept = 0; virtual int32_t __stdcall get_Information(void**) noexcept = 0; virtual int32_t __stdcall add_MessageReceived(void*, winrt::event_token*) noexcept = 0; virtual int32_t __stdcall remove_MessageReceived(winrt::event_token) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall add_ServerCustomValidationRequested(void*, winrt::event_token*) noexcept = 0; virtual int32_t __stdcall remove_ServerCustomValidationRequested(winrt::event_token) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall SendNonfinalFrameAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall SendFinalFrameAsync(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_MaxMessageSize(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_MaxMessageSize(uint32_t) noexcept = 0; virtual int32_t __stdcall get_MessageType(int32_t*) noexcept = 0; virtual int32_t __stdcall put_MessageType(int32_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_DesiredUnsolicitedPongInterval(int64_t*) noexcept = 0; virtual int32_t __stdcall put_DesiredUnsolicitedPongInterval(int64_t) noexcept = 0; virtual int32_t __stdcall get_ActualUnsolicitedPongInterval(int64_t*) noexcept = 0; virtual int32_t __stdcall get_ReceiveMode(int32_t*) noexcept = 0; virtual int32_t __stdcall put_ReceiveMode(int32_t) noexcept = 0; virtual int32_t __stdcall get_ClientCertificate(void**) noexcept = 0; virtual int32_t __stdcall put_ClientCertificate(void*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_MessageType(int32_t*) noexcept = 0; virtual int32_t __stdcall GetDataReader(void**) noexcept = 0; virtual int32_t __stdcall GetDataStream(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_IsMessageComplete(bool*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall add_MessageReceived(void*, winrt::event_token*) noexcept = 0; virtual int32_t __stdcall remove_MessageReceived(winrt::event_token) noexcept = 0; virtual int32_t __stdcall get_Control(void**) noexcept = 0; virtual int32_t __stdcall get_Information(void**) noexcept = 0; virtual int32_t __stdcall get_OutputStream(void**) noexcept = 0; virtual int32_t __stdcall add_Closed(void*, winrt::event_token*) noexcept = 0; virtual int32_t __stdcall remove_Closed(winrt::event_token) noexcept = 0; virtual int32_t __stdcall CloseWithStatus(uint16_t, void*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_MessageType(int32_t*) noexcept = 0; virtual int32_t __stdcall put_MessageType(int32_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_BandwidthStatistics(struct struct_Windows_Networking_Sockets_BandwidthStatistics*) noexcept = 0; virtual int32_t __stdcall get_Protocol(void**) noexcept = 0; virtual int32_t __stdcall get_LocalAddress(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Information(void**) noexcept = 0; virtual int32_t __stdcall get_InputStream(void**) noexcept = 0; virtual int32_t __stdcall get_OutputStream(void**) noexcept = 0; virtual int32_t __stdcall add_Closed(void*, winrt::event_token*) noexcept = 0; virtual int32_t __stdcall remove_Closed(winrt::event_token) noexcept = 0; virtual int32_t __stdcall CloseWithStatus(uint16_t, void*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_BandwidthStatistics(struct struct_Windows_Networking_Sockets_BandwidthStatistics*) noexcept = 0; virtual int32_t __stdcall get_Protocol(void**) noexcept = 0; virtual int32_t __stdcall get_LocalAddress(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Data(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_TaskId(winrt::guid*) noexcept = 0; virtual int32_t __stdcall get_Id(void**) noexcept = 0; virtual int32_t __stdcall get_SocketKind(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Context(void**) noexcept = 0; virtual int32_t __stdcall get_DatagramSocket(void**) noexcept = 0; virtual int32_t __stdcall get_StreamSocket(void**) noexcept = 0; virtual int32_t __stdcall get_StreamSocketListener(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_AllSockets(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Reason(int32_t*) noexcept = 0; virtual int32_t __stdcall get_SocketInformation(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetStatus(int32_t, int32_t*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Control(void**) noexcept = 0; virtual int32_t __stdcall get_Information(void**) noexcept = 0; virtual int32_t __stdcall get_InputStream(void**) noexcept = 0; virtual int32_t __stdcall get_OutputStream(void**) noexcept = 0; virtual int32_t __stdcall ConnectWithEndpointPairAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall ConnectAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall ConnectWithEndpointPairAndProtectionLevelAsync(void*, int32_t, void**) noexcept = 0; virtual int32_t __stdcall ConnectWithProtectionLevelAsync(void*, void*, int32_t, void**) noexcept = 0; virtual int32_t __stdcall UpgradeToSslAsync(int32_t, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall ConnectWithProtectionLevelAndAdapterAsync(void*, void*, int32_t, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CancelIOAsync(void**) noexcept = 0; virtual int32_t __stdcall EnableTransferOwnership(winrt::guid) noexcept = 0; virtual int32_t __stdcall EnableTransferOwnershipWithConnectedStandbyAction(winrt::guid, int32_t) noexcept = 0; virtual int32_t __stdcall TransferOwnership(void*) noexcept = 0; virtual int32_t __stdcall TransferOwnershipWithContext(void*, void*) noexcept = 0; virtual int32_t __stdcall TransferOwnershipWithContextAndKeepAliveTime(void*, void*, int64_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_NoDelay(bool*) noexcept = 0; virtual int32_t __stdcall put_NoDelay(bool) noexcept = 0; virtual int32_t __stdcall get_KeepAlive(bool*) noexcept = 0; virtual int32_t __stdcall put_KeepAlive(bool) noexcept = 0; virtual int32_t __stdcall get_OutboundBufferSizeInBytes(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_OutboundBufferSizeInBytes(uint32_t) noexcept = 0; virtual int32_t __stdcall get_QualityOfService(int32_t*) noexcept = 0; virtual int32_t __stdcall put_QualityOfService(int32_t) noexcept = 0; virtual int32_t __stdcall get_OutboundUnicastHopLimit(uint8_t*) noexcept = 0; virtual int32_t __stdcall put_OutboundUnicastHopLimit(uint8_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_IgnorableServerCertificateErrors(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_SerializeConnectionAttempts(bool*) noexcept = 0; virtual int32_t __stdcall put_SerializeConnectionAttempts(bool) noexcept = 0; virtual int32_t __stdcall get_ClientCertificate(void**) noexcept = 0; virtual int32_t __stdcall put_ClientCertificate(void*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_MinProtectionLevel(int32_t*) noexcept = 0; virtual int32_t __stdcall put_MinProtectionLevel(int32_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_LocalAddress(void**) noexcept = 0; virtual int32_t __stdcall get_LocalPort(void**) noexcept = 0; virtual int32_t __stdcall get_RemoteHostName(void**) noexcept = 0; virtual int32_t __stdcall get_RemoteAddress(void**) noexcept = 0; virtual int32_t __stdcall get_RemoteServiceName(void**) noexcept = 0; virtual int32_t __stdcall get_RemotePort(void**) noexcept = 0; virtual int32_t __stdcall get_RoundTripTimeStatistics(struct struct_Windows_Networking_Sockets_RoundTripTimeStatistics*) noexcept = 0; virtual int32_t __stdcall get_BandwidthStatistics(struct struct_Windows_Networking_Sockets_BandwidthStatistics*) noexcept = 0; virtual int32_t __stdcall get_ProtectionLevel(int32_t*) noexcept = 0; virtual int32_t __stdcall get_SessionKey(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ServerCertificateErrorSeverity(int32_t*) noexcept = 0; virtual int32_t __stdcall get_ServerCertificateErrors(void**) noexcept = 0; virtual int32_t __stdcall get_ServerCertificate(void**) noexcept = 0; virtual int32_t __stdcall get_ServerIntermediateCertificates(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Control(void**) noexcept = 0; virtual int32_t __stdcall get_Information(void**) noexcept = 0; virtual int32_t __stdcall BindServiceNameAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall BindEndpointAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall add_ConnectionReceived(void*, winrt::event_token*) noexcept = 0; virtual int32_t __stdcall remove_ConnectionReceived(winrt::event_token) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall BindServiceNameWithProtectionLevelAsync(void*, int32_t, void**) noexcept = 0; virtual int32_t __stdcall BindServiceNameWithProtectionLevelAndAdapterAsync(void*, int32_t, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CancelIOAsync(void**) noexcept = 0; virtual int32_t __stdcall EnableTransferOwnership(winrt::guid) noexcept = 0; virtual int32_t __stdcall EnableTransferOwnershipWithConnectedStandbyAction(winrt::guid, int32_t) noexcept = 0; virtual int32_t __stdcall TransferOwnership(void*) noexcept = 0; virtual int32_t __stdcall TransferOwnershipWithContext(void*, void*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Socket(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_QualityOfService(int32_t*) noexcept = 0; virtual int32_t __stdcall put_QualityOfService(int32_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_NoDelay(bool*) noexcept = 0; virtual int32_t __stdcall put_NoDelay(bool) noexcept = 0; virtual int32_t __stdcall get_KeepAlive(bool*) noexcept = 0; virtual int32_t __stdcall put_KeepAlive(bool) noexcept = 0; virtual int32_t __stdcall get_OutboundBufferSizeInBytes(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_OutboundBufferSizeInBytes(uint32_t) noexcept = 0; virtual int32_t __stdcall get_OutboundUnicastHopLimit(uint8_t*) noexcept = 0; virtual int32_t __stdcall put_OutboundUnicastHopLimit(uint8_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_LocalPort(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetEndpointPairsAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall GetEndpointPairsWithSortOptionsAsync(void*, void*, uint32_t, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Control(void**) noexcept = 0; virtual int32_t __stdcall get_Information(void**) noexcept = 0; virtual int32_t __stdcall get_InputStream(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall add_ServerCustomValidationRequested(void*, winrt::event_token*) noexcept = 0; virtual int32_t __stdcall remove_ServerCustomValidationRequested(winrt::event_token) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_NoDelay(bool*) noexcept = 0; virtual int32_t __stdcall put_NoDelay(bool) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_DesiredUnsolicitedPongInterval(int64_t*) noexcept = 0; virtual int32_t __stdcall put_DesiredUnsolicitedPongInterval(int64_t) noexcept = 0; virtual int32_t __stdcall get_ActualUnsolicitedPongInterval(int64_t*) noexcept = 0; virtual int32_t __stdcall get_ClientCertificate(void**) noexcept = 0; virtual int32_t __stdcall put_ClientCertificate(void*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_OutputStream(void**) noexcept = 0; virtual int32_t __stdcall ConnectAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall SetRequestHeader(void*, void*) noexcept = 0; virtual int32_t __stdcall add_Closed(void*, winrt::event_token*) noexcept = 0; virtual int32_t __stdcall remove_Closed(winrt::event_token) noexcept = 0; virtual int32_t __stdcall CloseWithStatus(uint16_t, void*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Code(uint16_t*) noexcept = 0; virtual int32_t __stdcall get_Reason(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_OutboundBufferSizeInBytes(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_OutboundBufferSizeInBytes(uint32_t) noexcept = 0; virtual int32_t __stdcall get_ServerCredential(void**) noexcept = 0; virtual int32_t __stdcall put_ServerCredential(void*) noexcept = 0; virtual int32_t __stdcall get_ProxyCredential(void**) noexcept = 0; virtual int32_t __stdcall put_ProxyCredential(void*) noexcept = 0; virtual int32_t __stdcall get_SupportedProtocols(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_IgnorableServerCertificateErrors(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetStatus(int32_t, int32_t*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_LocalAddress(void**) noexcept = 0; virtual int32_t __stdcall get_BandwidthStatistics(struct struct_Windows_Networking_Sockets_BandwidthStatistics*) noexcept = 0; virtual int32_t __stdcall get_Protocol(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ServerCertificate(void**) noexcept = 0; virtual int32_t __stdcall get_ServerCertificateErrorSeverity(int32_t*) noexcept = 0; virtual int32_t __stdcall get_ServerCertificateErrors(void**) noexcept = 0; virtual int32_t __stdcall get_ServerIntermediateCertificates(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ServerCertificate(void**) noexcept = 0; virtual int32_t __stdcall get_ServerCertificateErrorSeverity(int32_t*) noexcept = 0; virtual int32_t __stdcall get_ServerCertificateErrors(void**) noexcept = 0; virtual int32_t __stdcall get_ServerIntermediateCertificates(void**) noexcept = 0; virtual int32_t __stdcall Reject() noexcept = 0; virtual int32_t __stdcall GetDeferral(void**) noexcept = 0; }; }; template struct consume_Windows_Networking_Sockets_IControlChannelTrigger { [[nodiscard]] auto ControlChannelTriggerId() const; [[nodiscard]] auto ServerKeepAliveIntervalInMinutes() const; auto ServerKeepAliveIntervalInMinutes(uint32_t value) const; [[nodiscard]] auto CurrentKeepAliveIntervalInMinutes() const; [[nodiscard]] auto TransportObject() const; [[nodiscard]] auto KeepAliveTrigger() const; [[nodiscard]] auto PushNotificationTrigger() const; auto UsingTransport(winrt::Windows::Foundation::IInspectable const& transport) const; auto WaitForPushEnabled() const; auto DecreaseNetworkKeepAliveInterval() const; auto FlushTransport() const; }; template <> struct consume { template using type = consume_Windows_Networking_Sockets_IControlChannelTrigger; }; template struct consume_Windows_Networking_Sockets_IControlChannelTrigger2 { [[nodiscard]] auto IsWakeFromLowPowerSupported() const; }; template <> struct consume { template using type = consume_Windows_Networking_Sockets_IControlChannelTrigger2; }; template struct consume_Windows_Networking_Sockets_IControlChannelTriggerEventDetails { [[nodiscard]] auto ControlChannelTrigger() const; }; template <> struct consume { template using type = consume_Windows_Networking_Sockets_IControlChannelTriggerEventDetails; }; template struct consume_Windows_Networking_Sockets_IControlChannelTriggerFactory { auto CreateControlChannelTrigger(param::hstring const& channelId, uint32_t serverKeepAliveIntervalInMinutes) const; auto CreateControlChannelTriggerEx(param::hstring const& channelId, uint32_t serverKeepAliveIntervalInMinutes, winrt::Windows::Networking::Sockets::ControlChannelTriggerResourceType const& resourceRequestType) const; }; template <> struct consume { template using type = consume_Windows_Networking_Sockets_IControlChannelTriggerFactory; }; template struct consume_Windows_Networking_Sockets_IControlChannelTriggerResetEventDetails { [[nodiscard]] auto ResetReason() const; [[nodiscard]] auto HardwareSlotReset() const; [[nodiscard]] auto SoftwareSlotReset() const; }; template <> struct consume { template using type = consume_Windows_Networking_Sockets_IControlChannelTriggerResetEventDetails; }; template struct consume_Windows_Networking_Sockets_IDatagramSocket { [[nodiscard]] auto Control() const; [[nodiscard]] auto Information() const; [[nodiscard]] auto OutputStream() const; auto ConnectAsync(winrt::Windows::Networking::HostName const& remoteHostName, param::hstring const& remoteServiceName) const; auto ConnectAsync(winrt::Windows::Networking::EndpointPair const& endpointPair) const; auto BindServiceNameAsync(param::hstring const& localServiceName) const; auto BindEndpointAsync(winrt::Windows::Networking::HostName const& localHostName, param::hstring const& localServiceName) const; auto JoinMulticastGroup(winrt::Windows::Networking::HostName const& host) const; auto GetOutputStreamAsync(winrt::Windows::Networking::HostName const& remoteHostName, param::hstring const& remoteServiceName) const; auto GetOutputStreamAsync(winrt::Windows::Networking::EndpointPair const& endpointPair) const; auto MessageReceived(winrt::Windows::Foundation::TypedEventHandler const& eventHandler) const; using MessageReceived_revoker = impl::event_revoker::remove_MessageReceived>; [[nodiscard]] auto MessageReceived(auto_revoke_t, winrt::Windows::Foundation::TypedEventHandler const& eventHandler) const; auto MessageReceived(winrt::event_token const& eventCookie) const noexcept; }; template <> struct consume { template using type = consume_Windows_Networking_Sockets_IDatagramSocket; }; template struct consume_Windows_Networking_Sockets_IDatagramSocket2 { auto BindServiceNameAsync(param::hstring const& localServiceName, winrt::Windows::Networking::Connectivity::NetworkAdapter const& adapter) const; }; template <> struct consume { template using type = consume_Windows_Networking_Sockets_IDatagramSocket2