// // generated automatically from "IWifiControl.h" // // implements COM-RPC proxy stubs for: // - class RPC::IIteratorType [with ELEMENT = Exchange::IWifiControl::SecurityInfo, INTERFACE_ID = Exchange::ID_WIFICONTROL_SECURITY_INFO_ITERATOR] [[iterator]] // - class RPC::IIteratorType [with ELEMENT = Exchange::IWifiControl::NetworkInfo, INTERFACE_ID = Exchange::ID_WIFICONTROL_NETWORK_INFO_ITERATOR] [[iterator]] // - class RPC::IIteratorType [with ELEMENT = string, INTERFACE_ID = RPC::ID_STRINGITERATOR] [[iterator]] // - class Exchange::IWifiControl // - class Exchange::IWifiControl::INotification // #include "Module.h" #include "IWifiControl.h" #include namespace Thunder { namespace ProxyStubs { PUSH_WARNING(DISABLE_WARNING_DEPRECATED_USE) PUSH_WARNING(DISABLE_WARNING_TYPE_LIMITS) // ----------------------------------------------------------------- // STUBS // ----------------------------------------------------------------- // // RPC::IIteratorTypeInstance_c46f4bc0bed3f7fd interface stub definitions // // Methods: // (0) virtual bool Next(Exchange::IWifiControl::SecurityInfo&) = 0 // (1) virtual bool Previous(Exchange::IWifiControl::SecurityInfo&) = 0 // (2) virtual void Reset(const uint32_t) = 0 // (3) virtual bool IsValid() const = 0 // (4) virtual uint32_t Count() const = 0 // (5) virtual Exchange::IWifiControl::SecurityInfo Current() const = 0 // static ProxyStub::MethodHandler RPCIteratorTypeInstance_c46f4bc0bed3f7fdStubMethods[] = { // (0) virtual bool Next(Exchange::IWifiControl::SecurityInfo&) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); Exchange::IWifiControl::SecurityInfo _info{}; bool result = implementation->Next(_info); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); writer.Number(_info.method); writer.Boolean(_info.keys.IsSet()); if (_info.keys.IsSet() == true) { writer.Number(_info.keys.Value()); } }, // (1) virtual bool Previous(Exchange::IWifiControl::SecurityInfo&) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); Exchange::IWifiControl::SecurityInfo _info{}; bool result = implementation->Previous(_info); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); writer.Number(_info.method); writer.Boolean(_info.keys.IsSet()); if (_info.keys.IsSet() == true) { writer.Number(_info.keys.Value()); } }, // (2) virtual void Reset(const uint32_t) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); const uint32_t _position = reader.Number(); implementation->Reset(_position); }, // (3) virtual bool IsValid() const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); bool result = implementation->IsValid(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); }, // (4) virtual uint32_t Count() const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); uint32_t result = implementation->Count(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); }, // (5) virtual Exchange::IWifiControl::SecurityInfo Current() const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); Exchange::IWifiControl::SecurityInfo result = implementation->Current(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result.method); writer.Boolean(result.keys.IsSet()); if (result.keys.IsSet() == true) { writer.Number(result.keys.Value()); } } , nullptr }; // RPCIteratorTypeInstance_c46f4bc0bed3f7fdStubMethods // // RPC::IIteratorTypeInstance_7ed557741e4e75e2 interface stub definitions // // Methods: // (0) virtual bool Next(Exchange::IWifiControl::NetworkInfo&) = 0 // (1) virtual bool Previous(Exchange::IWifiControl::NetworkInfo&) = 0 // (2) virtual void Reset(const uint32_t) = 0 // (3) virtual bool IsValid() const = 0 // (4) virtual uint32_t Count() const = 0 // (5) virtual Exchange::IWifiControl::NetworkInfo Current() const = 0 // static ProxyStub::MethodHandler RPCIteratorTypeInstance_7ed557741e4e75e2StubMethods[] = { // (0) virtual bool Next(Exchange::IWifiControl::NetworkInfo&) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); Exchange::IWifiControl::NetworkInfo _info{}; bool result = implementation->Next(_info); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); writer.Boolean(_info.ssid.IsSet()); if (_info.ssid.IsSet() == true) { writer.Text(_info.ssid.Value()); } writer.Number(_info.bssid); writer.Number(_info.frequency); writer.Number(_info.signal); writer.Number(_info.security); }, // (1) virtual bool Previous(Exchange::IWifiControl::NetworkInfo&) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); Exchange::IWifiControl::NetworkInfo _info{}; bool result = implementation->Previous(_info); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); writer.Boolean(_info.ssid.IsSet()); if (_info.ssid.IsSet() == true) { writer.Text(_info.ssid.Value()); } writer.Number(_info.bssid); writer.Number(_info.frequency); writer.Number(_info.signal); writer.Number(_info.security); }, // (2) virtual void Reset(const uint32_t) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); const uint32_t _position = reader.Number(); implementation->Reset(_position); }, // (3) virtual bool IsValid() const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); bool result = implementation->IsValid(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); }, // (4) virtual uint32_t Count() const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); uint32_t result = implementation->Count(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); }, // (5) virtual Exchange::IWifiControl::NetworkInfo Current() const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); Exchange::IWifiControl::NetworkInfo result = implementation->Current(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result.ssid.IsSet()); if (result.ssid.IsSet() == true) { writer.Text(result.ssid.Value()); } writer.Number(result.bssid); writer.Number(result.frequency); writer.Number(result.signal); writer.Number(result.security); } , nullptr }; // RPCIteratorTypeInstance_7ed557741e4e75e2StubMethods // // RPC::IIteratorTypeInstance_b3acff3685df4032 interface stub definitions // // Methods: // (0) virtual bool Next(string&) = 0 // (1) virtual bool Previous(string&) = 0 // (2) virtual void Reset(const uint32_t) = 0 // (3) virtual bool IsValid() const = 0 // (4) virtual uint32_t Count() const = 0 // (5) virtual string Current() const = 0 // static ProxyStub::MethodHandler RPCIteratorTypeInstance_b3acff3685df4032StubMethods[] = { // (0) virtual bool Next(string&) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); string _info{}; bool result = implementation->Next(_info); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); writer.Text(_info); }, // (1) virtual bool Previous(string&) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); string _info{}; bool result = implementation->Previous(_info); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); writer.Text(_info); }, // (2) virtual void Reset(const uint32_t) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); const uint32_t _position = reader.Number(); implementation->Reset(_position); }, // (3) virtual bool IsValid() const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); bool result = implementation->IsValid(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); }, // (4) virtual uint32_t Count() const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); uint32_t result = implementation->Count(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); }, // (5) virtual string Current() const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { using interface = RPC::IIteratorType; const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); string result = implementation->Current(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Text(result); } , nullptr }; // RPCIteratorTypeInstance_b3acff3685df4032StubMethods // // Exchange::IWifiControl interface stub definitions // // Methods: // (0) virtual uint32_t Register(Exchange::IWifiControl::INotification*) = 0 // (1) virtual uint32_t Unregister(Exchange::IWifiControl::INotification*) = 0 // (2) virtual uint32_t Networks(Exchange::IWifiControl::INetworkInfoIterator*&) const = 0 // (3) virtual uint32_t Securities(const string&, Exchange::IWifiControl::ISecurityIterator*&) const = 0 // (4) virtual uint32_t Configs(Exchange::IWifiControl::IStringIterator*&) const = 0 // (5) virtual uint32_t Config(const string&, Exchange::IWifiControl::ConfigInfo&) const = 0 // (6) virtual uint32_t Config(const string&, const Exchange::IWifiControl::ConfigInfo&) = 0 // (7) virtual uint32_t Scan() = 0 // (8) virtual uint32_t AbortScan() = 0 // (9) virtual uint32_t Connect(const string&) = 0 // (10) virtual uint32_t Disconnect(const string&) = 0 // (11) virtual uint32_t Status(string&, bool&) const = 0 // static ProxyStub::MethodHandler ExchangeWifiControlStubMethods[] = { // (0) virtual uint32_t Register(Exchange::IWifiControl::INotification*) = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); Core::instance_id _sinkInstanceId__ = reader.Number(); Exchange::IWifiControl::INotification* _sink{}; ProxyStub::UnknownProxy* _sinkProxy__ = nullptr; if (_sinkInstanceId__ != 0) { _sinkProxy__ = RPC::Administrator::Instance().ProxyInstance(channel, _sinkInstanceId__, false, _sink); ASSERT((_sink != nullptr) && (_sinkProxy__ != nullptr)); } uint32_t result = implementation->Register(_sink); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); if (_sinkProxy__ != nullptr) { RPC::Administrator::Instance().Release(_sinkProxy__, message->Response()); } }, // (1) virtual uint32_t Unregister(Exchange::IWifiControl::INotification*) = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); Core::instance_id _sinkInstanceId__ = reader.Number(); Exchange::IWifiControl::INotification* _sink{}; ProxyStub::UnknownProxy* _sinkProxy__ = nullptr; if (_sinkInstanceId__ != 0) { _sinkProxy__ = RPC::Administrator::Instance().ProxyInstance(channel, _sinkInstanceId__, false, _sink); ASSERT((_sink != nullptr) && (_sinkProxy__ != nullptr)); } uint32_t result = implementation->Unregister(_sink); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); if (_sinkProxy__ != nullptr) { RPC::Administrator::Instance().Release(_sinkProxy__, message->Response()); } }, // (2) virtual uint32_t Networks(Exchange::IWifiControl::INetworkInfoIterator*&) const = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { const Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); Exchange::IWifiControl::INetworkInfoIterator* _networkInfoList{}; uint32_t result = implementation->Networks(_networkInfoList); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); writer.Number(RPC::instance_cast(_networkInfoList)); RPC::Administrator::Instance().RegisterInterface(channel, _networkInfoList); }, // (3) virtual uint32_t Securities(const string&, Exchange::IWifiControl::ISecurityIterator*&) const = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { const Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); const string _ssid = reader.Text(); Exchange::IWifiControl::ISecurityIterator* _securityMethods{}; uint32_t result = implementation->Securities(static_cast(_ssid), _securityMethods); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); writer.Number(RPC::instance_cast(_securityMethods)); RPC::Administrator::Instance().RegisterInterface(channel, _securityMethods); }, // (4) virtual uint32_t Configs(Exchange::IWifiControl::IStringIterator*&) const = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { const Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); Exchange::IWifiControl::IStringIterator* _configs{}; uint32_t result = implementation->Configs(_configs); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); writer.Number(RPC::instance_cast(_configs)); RPC::Administrator::Instance().RegisterInterface(channel, _configs); }, // (5) virtual uint32_t Config(const string&, Exchange::IWifiControl::ConfigInfo&) const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { const Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); const string _ssid = reader.Text(); Exchange::IWifiControl::ConfigInfo _configInfo{}; uint32_t result = implementation->Config(static_cast(_ssid), _configInfo); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); writer.Boolean(_configInfo.hidden); writer.Boolean(_configInfo.accesspoint); writer.Boolean(_configInfo.ssid.IsSet()); if (_configInfo.ssid.IsSet() == true) { writer.Text(_configInfo.ssid.Value()); } writer.Boolean(_configInfo.secret.IsSet()); if (_configInfo.secret.IsSet() == true) { writer.Text(_configInfo.secret.Value()); } writer.Boolean(_configInfo.identity.IsSet()); if (_configInfo.identity.IsSet() == true) { writer.Text(_configInfo.identity.Value()); } writer.Number(_configInfo.method); writer.Boolean(_configInfo.key.IsSet()); if (_configInfo.key.IsSet() == true) { writer.Number(_configInfo.key.Value()); } }, // (6) virtual uint32_t Config(const string&, const Exchange::IWifiControl::ConfigInfo&) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); const string _ssid = reader.Text(); Exchange::IWifiControl::ConfigInfo _configInfo{}; _configInfo.hidden = reader.Boolean(); _configInfo.accesspoint = reader.Boolean(); if (reader.Boolean() == true) { _configInfo.ssid = reader.Text(); } if (reader.Boolean() == true) { _configInfo.secret = reader.Text(); } if (reader.Boolean() == true) { _configInfo.identity = reader.Text(); } _configInfo.method = reader.Number(); if (reader.Boolean() == true) { _configInfo.key = reader.Number(); } uint32_t result = implementation->Config(static_cast(_ssid), static_cast(_configInfo)); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); }, // (7) virtual uint32_t Scan() = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); uint32_t result = implementation->Scan(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); }, // (8) virtual uint32_t AbortScan() = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); uint32_t result = implementation->AbortScan(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); }, // (9) virtual uint32_t Connect(const string&) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); const string _configSSID = reader.Text(); uint32_t result = implementation->Connect(static_cast(_configSSID)); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); }, // (10) virtual uint32_t Disconnect(const string&) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); const string _configSSID = reader.Text(); uint32_t result = implementation->Disconnect(static_cast(_configSSID)); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); }, // (11) virtual uint32_t Status(string&, bool&) const = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { const Exchange::IWifiControl* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); string _connectedSsid{}; bool _isScanning{}; uint32_t result = implementation->Status(_connectedSsid, _isScanning); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); writer.Text(_connectedSsid); writer.Boolean(_isScanning); } , nullptr }; // ExchangeWifiControlStubMethods // // Exchange::IWifiControl::INotification interface stub definitions // // Methods: // (0) virtual void NetworkChange() = 0 // (1) virtual void ConnectionChange(const string&) = 0 // static ProxyStub::MethodHandler ExchangeWifiControlNotificationStubMethods[] = { // (0) virtual void NetworkChange() = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { Exchange::IWifiControl::INotification* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); implementation->NetworkChange(); }, // (1) virtual void ConnectionChange(const string&) = 0 // [](Core::ProxyType& /* channel */, Core::ProxyType& message) { Exchange::IWifiControl::INotification* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); RPC::Data::Frame::Reader reader(message->Parameters().Reader()); const string _ssid = reader.Text(); implementation->ConnectionChange(static_cast(_ssid)); } , nullptr }; // ExchangeWifiControlNotificationStubMethods // ----------------------------------------------------------------- // PROXIES // ----------------------------------------------------------------- // // RPC::IIteratorTypeInstance_c46f4bc0bed3f7fd interface proxy definitions // // Methods: // (0) virtual bool Next(Exchange::IWifiControl::SecurityInfo&) = 0 // (1) virtual bool Previous(Exchange::IWifiControl::SecurityInfo&) = 0 // (2) virtual void Reset(const uint32_t) = 0 // (3) virtual bool IsValid() const = 0 // (4) virtual uint32_t Count() const = 0 // (5) virtual Exchange::IWifiControl::SecurityInfo Current() const = 0 // class RPCIteratorTypeInstance_c46f4bc0bed3f7fdProxy final : public ProxyStub::UnknownProxyType> { public: RPCIteratorTypeInstance_c46f4bc0bed3f7fdProxy(const Core::ProxyType& channel, const Core::instance_id implementation, const bool otherSideInformed) : BaseClass(channel, implementation, otherSideInformed) { } bool Next(Exchange::IWifiControl::SecurityInfo& _info) override { IPCMessage message(static_cast(*this).Message(0)); bool result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Boolean(); _info.method = reader.Number(); if (reader.Boolean() == true) { _info.keys = reader.Number(); } } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } bool Previous(Exchange::IWifiControl::SecurityInfo& _info) override { IPCMessage message(static_cast(*this).Message(1)); bool result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Boolean(); _info.method = reader.Number(); if (reader.Boolean() == true) { _info.keys = reader.Number(); } } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } void Reset(const uint32_t _position) override { IPCMessage message(static_cast(*this).Message(2)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Number(_position); static_cast(*this).Invoke(message); } bool IsValid() const override { IPCMessage message(static_cast(*this).Message(3)); bool result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Boolean(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } uint32_t Count() const override { IPCMessage message(static_cast(*this).Message(4)); uint32_t result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } Exchange::IWifiControl::SecurityInfo Current() const override { IPCMessage message(static_cast(*this).Message(5)); Exchange::IWifiControl::SecurityInfo result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result.method = reader.Number(); if (reader.Boolean() == true) { result.keys = reader.Number(); } } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } }; // class RPCIteratorTypeInstance_c46f4bc0bed3f7fdProxy // // RPC::IIteratorTypeInstance_7ed557741e4e75e2 interface proxy definitions // // Methods: // (0) virtual bool Next(Exchange::IWifiControl::NetworkInfo&) = 0 // (1) virtual bool Previous(Exchange::IWifiControl::NetworkInfo&) = 0 // (2) virtual void Reset(const uint32_t) = 0 // (3) virtual bool IsValid() const = 0 // (4) virtual uint32_t Count() const = 0 // (5) virtual Exchange::IWifiControl::NetworkInfo Current() const = 0 // class RPCIteratorTypeInstance_7ed557741e4e75e2Proxy final : public ProxyStub::UnknownProxyType> { public: RPCIteratorTypeInstance_7ed557741e4e75e2Proxy(const Core::ProxyType& channel, const Core::instance_id implementation, const bool otherSideInformed) : BaseClass(channel, implementation, otherSideInformed) { } bool Next(Exchange::IWifiControl::NetworkInfo& _info) override { IPCMessage message(static_cast(*this).Message(0)); bool result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Boolean(); if (reader.Boolean() == true) { _info.ssid = reader.Text(); } _info.bssid = reader.Number(); _info.frequency = reader.Number(); _info.signal = reader.Number(); _info.security = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } bool Previous(Exchange::IWifiControl::NetworkInfo& _info) override { IPCMessage message(static_cast(*this).Message(1)); bool result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Boolean(); if (reader.Boolean() == true) { _info.ssid = reader.Text(); } _info.bssid = reader.Number(); _info.frequency = reader.Number(); _info.signal = reader.Number(); _info.security = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } void Reset(const uint32_t _position) override { IPCMessage message(static_cast(*this).Message(2)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Number(_position); static_cast(*this).Invoke(message); } bool IsValid() const override { IPCMessage message(static_cast(*this).Message(3)); bool result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Boolean(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } uint32_t Count() const override { IPCMessage message(static_cast(*this).Message(4)); uint32_t result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } Exchange::IWifiControl::NetworkInfo Current() const override { IPCMessage message(static_cast(*this).Message(5)); Exchange::IWifiControl::NetworkInfo result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Boolean() == true) { result.ssid = reader.Text(); } result.bssid = reader.Number(); result.frequency = reader.Number(); result.signal = reader.Number(); result.security = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } }; // class RPCIteratorTypeInstance_7ed557741e4e75e2Proxy // // RPC::IIteratorTypeInstance_b3acff3685df4032 interface proxy definitions // // Methods: // (0) virtual bool Next(string&) = 0 // (1) virtual bool Previous(string&) = 0 // (2) virtual void Reset(const uint32_t) = 0 // (3) virtual bool IsValid() const = 0 // (4) virtual uint32_t Count() const = 0 // (5) virtual string Current() const = 0 // class RPCIteratorTypeInstance_b3acff3685df4032Proxy final : public ProxyStub::UnknownProxyType> { public: RPCIteratorTypeInstance_b3acff3685df4032Proxy(const Core::ProxyType& channel, const Core::instance_id implementation, const bool otherSideInformed) : BaseClass(channel, implementation, otherSideInformed) { } bool Next(string& _info) override { IPCMessage message(static_cast(*this).Message(0)); bool result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Boolean(); _info = reader.Text(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } bool Previous(string& _info) override { IPCMessage message(static_cast(*this).Message(1)); bool result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Boolean(); _info = reader.Text(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } void Reset(const uint32_t _position) override { IPCMessage message(static_cast(*this).Message(2)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Number(_position); static_cast(*this).Invoke(message); } bool IsValid() const override { IPCMessage message(static_cast(*this).Message(3)); bool result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Boolean(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } uint32_t Count() const override { IPCMessage message(static_cast(*this).Message(4)); uint32_t result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } string Current() const override { IPCMessage message(static_cast(*this).Message(5)); string result{}; const Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); result = reader.Text(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (result); } }; // class RPCIteratorTypeInstance_b3acff3685df4032Proxy // // Exchange::IWifiControl interface proxy definitions // // Methods: // (0) virtual uint32_t Register(Exchange::IWifiControl::INotification*) = 0 // (1) virtual uint32_t Unregister(Exchange::IWifiControl::INotification*) = 0 // (2) virtual uint32_t Networks(Exchange::IWifiControl::INetworkInfoIterator*&) const = 0 // (3) virtual uint32_t Securities(const string&, Exchange::IWifiControl::ISecurityIterator*&) const = 0 // (4) virtual uint32_t Configs(Exchange::IWifiControl::IStringIterator*&) const = 0 // (5) virtual uint32_t Config(const string&, Exchange::IWifiControl::ConfigInfo&) const = 0 // (6) virtual uint32_t Config(const string&, const Exchange::IWifiControl::ConfigInfo&) = 0 // (7) virtual uint32_t Scan() = 0 // (8) virtual uint32_t AbortScan() = 0 // (9) virtual uint32_t Connect(const string&) = 0 // (10) virtual uint32_t Disconnect(const string&) = 0 // (11) virtual uint32_t Status(string&, bool&) const = 0 // class ExchangeWifiControlProxy final : public ProxyStub::UnknownProxyType { public: ExchangeWifiControlProxy(const Core::ProxyType& channel, const Core::instance_id implementation, const bool otherSideInformed) : BaseClass(channel, implementation, otherSideInformed) { } uint32_t Register(Exchange::IWifiControl::INotification* _sink) override { IPCMessage message(static_cast(*this).Message(0)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Number(RPC::instance_cast(_sink)); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); _Complete(reader); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t Unregister(Exchange::IWifiControl::INotification* _sink) override { IPCMessage message(static_cast(*this).Message(1)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Number(RPC::instance_cast(_sink)); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); _Complete(reader); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t Networks(Exchange::IWifiControl::INetworkInfoIterator*& _networkInfoList) const override { IPCMessage message(static_cast(*this).Message(2)); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); _networkInfoList = reinterpret_cast(static_cast(*this).Interface(reader.Number(), Exchange::IWifiControl::INetworkInfoIterator::ID)); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t Securities(const string& _ssid, Exchange::IWifiControl::ISecurityIterator*& _securityMethods) const override { IPCMessage message(static_cast(*this).Message(3)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Text(_ssid); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); _securityMethods = reinterpret_cast(static_cast(*this).Interface(reader.Number(), Exchange::IWifiControl::ISecurityIterator::ID)); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t Configs(Exchange::IWifiControl::IStringIterator*& _configs) const override { IPCMessage message(static_cast(*this).Message(4)); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); _configs = reinterpret_cast(static_cast(*this).Interface(reader.Number(), Exchange::IWifiControl::IStringIterator::ID)); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t Config(const string& _ssid, Exchange::IWifiControl::ConfigInfo& _configInfo) const override { IPCMessage message(static_cast(*this).Message(5)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Text(_ssid); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); _configInfo.hidden = reader.Boolean(); _configInfo.accesspoint = reader.Boolean(); if (reader.Boolean() == true) { _configInfo.ssid = reader.Text(); } if (reader.Boolean() == true) { _configInfo.secret = reader.Text(); } if (reader.Boolean() == true) { _configInfo.identity = reader.Text(); } _configInfo.method = reader.Number(); if (reader.Boolean() == true) { _configInfo.key = reader.Number(); } } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t Config(const string& _ssid, const Exchange::IWifiControl::ConfigInfo& _configInfo) override { IPCMessage message(static_cast(*this).Message(6)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Text(_ssid); writer.Boolean(_configInfo.hidden); writer.Boolean(_configInfo.accesspoint); writer.Boolean(_configInfo.ssid.IsSet()); if (_configInfo.ssid.IsSet() == true) { writer.Text(_configInfo.ssid.Value()); } writer.Boolean(_configInfo.secret.IsSet()); if (_configInfo.secret.IsSet() == true) { writer.Text(_configInfo.secret.Value()); } writer.Boolean(_configInfo.identity.IsSet()); if (_configInfo.identity.IsSet() == true) { writer.Text(_configInfo.identity.Value()); } writer.Number(_configInfo.method); writer.Boolean(_configInfo.key.IsSet()); if (_configInfo.key.IsSet() == true) { writer.Number(_configInfo.key.Value()); } Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t Scan() override { IPCMessage message(static_cast(*this).Message(7)); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t AbortScan() override { IPCMessage message(static_cast(*this).Message(8)); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t Connect(const string& _configSSID) override { IPCMessage message(static_cast(*this).Message(9)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Text(_configSSID); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t Disconnect(const string& _configSSID) override { IPCMessage message(static_cast(*this).Message(10)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Text(_configSSID); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } uint32_t Status(string& _connectedSsid, bool& _isScanning) const override { IPCMessage message(static_cast(*this).Message(11)); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { RPC::Data::Frame::Reader reader(message->Response().Reader()); hresult = reader.Number(); _connectedSsid = reader.Text(); _isScanning = reader.Boolean(); } else { ASSERT((hresult & COM_ERROR) != 0); } return (hresult); } private: uint32_t _Complete(RPC::Data::Frame::Reader& reader) const { uint32_t result = Core::ERROR_NONE; while (reader.HasData() == true) { const Core::instance_id implementation = reader.Number(); ASSERT(implementation != 0); const uint32_t id = reader.Number(); const RPC::Data::Output::mode how = reader.Number(); result = static_cast(*this).Complete(implementation, id, how); if (result != Core::ERROR_NONE) { return (COM_ERROR | result); } } return (result); } }; // class ExchangeWifiControlProxy // // Exchange::IWifiControl::INotification interface proxy definitions // // Methods: // (0) virtual void NetworkChange() = 0 // (1) virtual void ConnectionChange(const string&) = 0 // class ExchangeWifiControlNotificationProxy final : public ProxyStub::UnknownProxyType { public: ExchangeWifiControlNotificationProxy(const Core::ProxyType& channel, const Core::instance_id implementation, const bool otherSideInformed) : BaseClass(channel, implementation, otherSideInformed) { } void NetworkChange() override { IPCMessage message(static_cast(*this).Message(0)); static_cast(*this).Invoke(message); } void ConnectionChange(const string& _ssid) override { IPCMessage message(static_cast(*this).Message(1)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Text(_ssid); static_cast(*this).Invoke(message); } }; // class ExchangeWifiControlNotificationProxy POP_WARNING() POP_WARNING() // ----------------------------------------------------------------- // REGISTRATION // ----------------------------------------------------------------- namespace { typedef ProxyStub::UnknownStubType, RPCIteratorTypeInstance_c46f4bc0bed3f7fdStubMethods> RPCIteratorTypeInstance_c46f4bc0bed3f7fdStub; typedef ProxyStub::UnknownStubType, RPCIteratorTypeInstance_7ed557741e4e75e2StubMethods> RPCIteratorTypeInstance_7ed557741e4e75e2Stub; typedef ProxyStub::UnknownStubType, RPCIteratorTypeInstance_b3acff3685df4032StubMethods> RPCIteratorTypeInstance_b3acff3685df4032Stub; typedef ProxyStub::UnknownStubType ExchangeWifiControlStub; typedef ProxyStub::UnknownStubType ExchangeWifiControlNotificationStub; static class Instantiation { public: Instantiation() { RPC::Administrator::Instance().Announce, RPCIteratorTypeInstance_c46f4bc0bed3f7fdProxy, RPCIteratorTypeInstance_c46f4bc0bed3f7fdStub>(); RPC::Administrator::Instance().Announce, RPCIteratorTypeInstance_7ed557741e4e75e2Proxy, RPCIteratorTypeInstance_7ed557741e4e75e2Stub>(); RPC::Administrator::Instance().Announce, RPCIteratorTypeInstance_b3acff3685df4032Proxy, RPCIteratorTypeInstance_b3acff3685df4032Stub>(); RPC::Administrator::Instance().Announce(); RPC::Administrator::Instance().Announce(); } ~Instantiation() { RPC::Administrator::Instance().Recall>(); RPC::Administrator::Instance().Recall>(); RPC::Administrator::Instance().Recall>(); RPC::Administrator::Instance().Recall(); RPC::Administrator::Instance().Recall(); } } ProxyStubRegistration; } // namespace } // namespace ProxyStubs }