// // generated automatically from "IZigWave.h" // // implements COM-RPC proxy stubs for: // - class RPC::IIteratorType [with ELEMENT = Exchange::IZigWave::Device, INTERFACE_ID = Exchange::ID_ZIGWAVE_DEVICE_ITERATOR] [[iterator]] // - class Exchange::IZigWave // // secure code enabled: // - instance verification enabled // - range verification enabled // - frame coherency verification enabled // #include "Module.h" #include "IZigWave.h" #include namespace Thunder { namespace ProxyStubs { PUSH_WARNING(DISABLE_WARNING_DEPRECATED_USE) PUSH_WARNING(DISABLE_WARNING_TYPE_LIMITS) // ----------------------------------------------------------------- // STUBS // ----------------------------------------------------------------- // // RPC::IIteratorTypeInstance_8cf2fde167b3c2b7 interface stub definitions // // Methods: // (0) virtual bool Next(Exchange::IZigWave::Device&) = 0 // (1) virtual bool Previous(Exchange::IZigWave::Device&) = 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::IZigWave::Device Current() const = 0 // static ProxyStub::MethodHandler RPCIteratorTypeInstance_8cf2fde167b3c2b7StubMethods[] = { // (0) virtual bool Next(Exchange::IZigWave::Device&) = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { using interface = RPC::IIteratorType; if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), interface::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } Exchange::IZigWave::Device _info{}; bool result = implementation->Next(_info); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); writer.Number(_info.Parent); writer.Number(_info.Address); writer.Number(_info.Type); writer.Number(_info.Manufacturer); writer.Text(_info.Metadata); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 0, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } }, // (1) virtual bool Previous(Exchange::IZigWave::Device&) = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { using interface = RPC::IIteratorType; if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), interface::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } Exchange::IZigWave::Device _info{}; bool result = implementation->Previous(_info); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); writer.Number(_info.Parent); writer.Number(_info.Address); writer.Number(_info.Type); writer.Number(_info.Manufacturer); writer.Text(_info.Metadata); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 1, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } }, // (2) virtual void Reset(const uint32_t) = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { using interface = RPC::IIteratorType; if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), interface::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } RPC::Data::Frame::Reader reader(message->Parameters().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint32_t _position = reader.Number(); implementation->Reset(_position); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 2, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } }, // (3) virtual bool IsValid() const = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { using interface = RPC::IIteratorType; if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), interface::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } bool result = implementation->IsValid(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Boolean(result); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 3, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } }, // (4) virtual uint32_t Count() const = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { using interface = RPC::IIteratorType; if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), interface::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } uint32_t result = implementation->Count(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 4, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } }, // (5) virtual Exchange::IZigWave::Device Current() const = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { using interface = RPC::IIteratorType; if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const interface* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), interface::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } Exchange::IZigWave::Device result = implementation->Current(); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result.Parent); writer.Number(result.Address); writer.Number(result.Type); writer.Number(result.Manufacturer); writer.Text(result.Metadata); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 5, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } } , nullptr }; // RPCIteratorTypeInstance_8cf2fde167b3c2b7StubMethods // // Exchange::IZigWave interface stub definitions // // Methods: // (0) virtual Core::hresult Permutable(const uint32_t, bool&) const = 0 // (1) virtual Core::hresult Permutable(const uint32_t, const bool) = 0 // (2) virtual Core::hresult Devices(const uint32_t, Exchange::IZigWave::IDeviceIterator*&) const = 0 // (3) virtual Core::hresult Bind(const uint32_t, const uint32_t) = 0 // (4) virtual Core::hresult Unbind(const uint32_t, const uint32_t) = 0 // (5) virtual Core::hresult Metadata(Exchange::IZigWave::Controller&) const = 0 // static ProxyStub::MethodHandler ExchangeZigWaveStubMethods[] = { // (0) virtual Core::hresult Permutable(const uint32_t, bool&) const = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const Exchange::IZigWave* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), Exchange::IZigWave::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } RPC::Data::Frame::Reader reader(message->Parameters().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint32_t _address = reader.Number(); bool _enabled{}; Core::hresult result = implementation->Permutable(_address, _enabled); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); writer.Boolean(_enabled); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(hresult); fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 0, hresult); } }, // (1) virtual Core::hresult Permutable(const uint32_t, const bool) = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } Exchange::IZigWave* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), Exchange::IZigWave::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } RPC::Data::Frame::Reader reader(message->Parameters().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint32_t _address = reader.Number(); if (reader.Length() < (1)) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const bool _enabled = reader.Boolean(); Core::hresult result = implementation->Permutable(_address, _enabled); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(hresult); fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 1, hresult); } }, // (2) virtual Core::hresult Devices(const uint32_t, Exchange::IZigWave::IDeviceIterator*&) const = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const Exchange::IZigWave* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), Exchange::IZigWave::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } RPC::Data::Frame::Reader reader(message->Parameters().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint32_t _id = reader.Number(); Exchange::IZigWave::IDeviceIterator* _devices{}; Core::hresult result = implementation->Devices(_id, _devices); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); writer.Number(RPC::instance_cast(_devices)); RPC::Administrator::Instance().RegisterInterface(channel, _devices); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(hresult); fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 2, hresult); } }, // (3) virtual Core::hresult Bind(const uint32_t, const uint32_t) = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } Exchange::IZigWave* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), Exchange::IZigWave::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } RPC::Data::Frame::Reader reader(message->Parameters().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint32_t _source = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint32_t _destination = reader.Number(); Core::hresult result = implementation->Bind(_source, _destination); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(hresult); fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 3, hresult); } }, // (4) virtual Core::hresult Unbind(const uint32_t, const uint32_t) = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } Exchange::IZigWave* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), Exchange::IZigWave::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } RPC::Data::Frame::Reader reader(message->Parameters().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint32_t _source = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint32_t _destination = reader.Number(); Core::hresult result = implementation->Unbind(_source, _destination); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(hresult); fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 4, hresult); } }, // (5) virtual Core::hresult Metadata(Exchange::IZigWave::Controller&) const = 0 // [](Core::ProxyType& channel, Core::ProxyType& message) { Core::hresult hresult = Core::ERROR_NONE; hresult = [&]() -> Core::hresult { if (message->Parameters().IsValid() == false) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const Exchange::IZigWave* implementation = reinterpret_cast(message->Parameters().Implementation()); ASSERT(implementation != nullptr); if (RPC::Administrator::Instance().IsValid(channel, RPC::instance_cast(implementation), Exchange::IZigWave::ID) == false) { return (COM_ERROR | Core::ERROR_NOT_EXIST); } Exchange::IZigWave::Controller _metadata{}; Core::hresult result = implementation->Metadata(_metadata); RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(result); writer.Boolean(_metadata.Permutable); writer.Text(_metadata.Port); writer.Number(_metadata.Id); writer.Number(_metadata.Major); writer.Number(_metadata.Minor); writer.Number(_metadata.Nodes); return (Core::ERROR_NONE); } (); if (hresult != Core::ERROR_NONE) { RPC::Data::Frame::Writer writer(message->Response().Writer()); writer.Number(hresult); fprintf(stderr, "COM-RPC stub 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 5, hresult); } } , nullptr }; // ExchangeZigWaveStubMethods // ----------------------------------------------------------------- // PROXIES // ----------------------------------------------------------------- // // RPC::IIteratorTypeInstance_8cf2fde167b3c2b7 interface proxy definitions // // Methods: // (0) virtual bool Next(Exchange::IZigWave::Device&) = 0 // (1) virtual bool Previous(Exchange::IZigWave::Device&) = 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::IZigWave::Device Current() const = 0 // class RPCIteratorTypeInstance_8cf2fde167b3c2b7Proxy final : public ProxyStub::UnknownProxyType> { public: RPCIteratorTypeInstance_8cf2fde167b3c2b7Proxy(const Core::ProxyType& channel, const Core::instance_id implementation, const bool otherSideInformed) : BaseClass(channel, implementation, otherSideInformed) { } bool Next(Exchange::IZigWave::Device& _info) override { IPCMessage message(static_cast(*this).Message(0)); bool result{}; Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (1)) { return (COM_ERROR | Core::ERROR_READ_ERROR); } result = reader.Boolean(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _info.Parent = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _info.Address = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _info.Type = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _info.Manufacturer = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint16_t _info_MetadataPeekedLen__ = reader.PeekNumber(); if (reader.Length() < (static_cast(Core::RealSize()) + _info_MetadataPeekedLen__)) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _info.Metadata = reader.Text(); return (Core::ERROR_NONE); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 0, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } return (result); } bool Previous(Exchange::IZigWave::Device& _info) override { IPCMessage message(static_cast(*this).Message(1)); bool result{}; Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (1)) { return (COM_ERROR | Core::ERROR_READ_ERROR); } result = reader.Boolean(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _info.Parent = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _info.Address = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _info.Type = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _info.Manufacturer = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint16_t _info_MetadataPeekedLen__ = reader.PeekNumber(); if (reader.Length() < (static_cast(Core::RealSize()) + _info_MetadataPeekedLen__)) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _info.Metadata = reader.Text(); return (Core::ERROR_NONE); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 1, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } 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); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { return (Core::ERROR_NONE); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 2, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } } bool IsValid() const override { IPCMessage message(static_cast(*this).Message(3)); bool result{}; Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (1)) { return (COM_ERROR | Core::ERROR_READ_ERROR); } result = reader.Boolean(); return (Core::ERROR_NONE); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 3, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } return (result); } uint32_t Count() const override { IPCMessage message(static_cast(*this).Message(4)); uint32_t result{}; Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } result = reader.Number(); return (Core::ERROR_NONE); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 4, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } return (result); } Exchange::IZigWave::Device Current() const override { IPCMessage message(static_cast(*this).Message(5)); Exchange::IZigWave::Device result{}; Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } result.Parent = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } result.Address = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } result.Type = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } result.Manufacturer = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint16_t result_MetadataPeekedLen__ = reader.PeekNumber(); if (reader.Length() < (static_cast(Core::RealSize()) + result_MetadataPeekedLen__)) { return (COM_ERROR | Core::ERROR_READ_ERROR); } result.Metadata = reader.Text(); return (Core::ERROR_NONE); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", RPC::IIteratorType::ID, 5, hresult); TRACE_L1("Warning: This COM-RPC failure will not propagate!"); } return (result); } }; // class RPCIteratorTypeInstance_8cf2fde167b3c2b7Proxy // // Exchange::IZigWave interface proxy definitions // // Methods: // (0) virtual Core::hresult Permutable(const uint32_t, bool&) const = 0 // (1) virtual Core::hresult Permutable(const uint32_t, const bool) = 0 // (2) virtual Core::hresult Devices(const uint32_t, Exchange::IZigWave::IDeviceIterator*&) const = 0 // (3) virtual Core::hresult Bind(const uint32_t, const uint32_t) = 0 // (4) virtual Core::hresult Unbind(const uint32_t, const uint32_t) = 0 // (5) virtual Core::hresult Metadata(Exchange::IZigWave::Controller&) const = 0 // class ExchangeZigWaveProxy final : public ProxyStub::UnknownProxyType { public: ExchangeZigWaveProxy(const Core::ProxyType& channel, const Core::instance_id implementation, const bool otherSideInformed) : BaseClass(channel, implementation, otherSideInformed) { } Core::hresult Permutable(const uint32_t _address, bool& _enabled) const override { IPCMessage message(static_cast(*this).Message(0)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Number(_address); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } hresult = reader.Number(); if ((hresult & COM_ERROR) == 0) { if (reader.Length() < (1)) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _enabled = reader.Boolean(); } return (hresult); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 0, hresult); } return (hresult); } Core::hresult Permutable(const uint32_t _address, const bool _enabled) override { IPCMessage message(static_cast(*this).Message(1)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Number(_address); writer.Boolean(_enabled); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } hresult = reader.Number(); return (hresult); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 1, hresult); } return (hresult); } Core::hresult Devices(const uint32_t _id, Exchange::IZigWave::IDeviceIterator*& _devices) const override { IPCMessage message(static_cast(*this).Message(2)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Number(_id); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } hresult = reader.Number(); if ((hresult & COM_ERROR) == 0) { _devices = reinterpret_cast(static_cast(*this).Interface(reader.Number(), Exchange::IZigWave::IDeviceIterator::ID)); } return (hresult); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 2, hresult); } return (hresult); } Core::hresult Bind(const uint32_t _source, const uint32_t _destination) override { IPCMessage message(static_cast(*this).Message(3)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Number(_source); writer.Number(_destination); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } hresult = reader.Number(); return (hresult); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 3, hresult); } return (hresult); } Core::hresult Unbind(const uint32_t _source, const uint32_t _destination) override { IPCMessage message(static_cast(*this).Message(4)); RPC::Data::Frame::Writer writer(message->Parameters().Writer()); writer.Number(_source); writer.Number(_destination); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } hresult = reader.Number(); return (hresult); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 4, hresult); } return (hresult); } Core::hresult Metadata(Exchange::IZigWave::Controller& _metadata) const override { IPCMessage message(static_cast(*this).Message(5)); Core::hresult hresult = static_cast(*this).Invoke(message); if (hresult == Core::ERROR_NONE) { hresult = [&]() -> Core::hresult { RPC::Data::Frame::Reader reader(message->Response().Reader()); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } hresult = reader.Number(); if ((hresult & COM_ERROR) == 0) { if (reader.Length() < (1)) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _metadata.Permutable = reader.Boolean(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } const uint16_t _metadata_PortPeekedLen__ = reader.PeekNumber(); if (reader.Length() < (static_cast(Core::RealSize()) + _metadata_PortPeekedLen__)) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _metadata.Port = reader.Text(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _metadata.Id = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _metadata.Major = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _metadata.Minor = reader.Number(); if (reader.Length() < (Core::RealSize())) { return (COM_ERROR | Core::ERROR_READ_ERROR); } _metadata.Nodes = reader.Number(); } return (hresult); } (); } else { ASSERT((hresult & COM_ERROR) != 0); } if ((hresult & COM_ERROR) != 0) { fprintf(stderr, "COM-RPC call 0x%08x(%u) failed: 0x%08x\n", Exchange::IZigWave::ID, 5, hresult); } return (hresult); } }; // class ExchangeZigWaveProxy POP_WARNING() POP_WARNING() // ----------------------------------------------------------------- // REGISTRATION // ----------------------------------------------------------------- namespace { typedef ProxyStub::UnknownStubType, RPCIteratorTypeInstance_8cf2fde167b3c2b7StubMethods> RPCIteratorTypeInstance_8cf2fde167b3c2b7Stub; typedef ProxyStub::UnknownStubType ExchangeZigWaveStub; static class Instantiation { public: Instantiation() { const RPC::SecureProxyStubType security = static_cast(static_cast::type>(RPC::SecureProxyStubType::PROXYSTUBS_SECURITY_SECURE) | static_cast::type>(RPC::SecureProxyStubType::PROXYSTUBS_SECURITY_COHERENT)); RPC::Administrator::Instance().Announce, RPCIteratorTypeInstance_8cf2fde167b3c2b7Proxy, RPCIteratorTypeInstance_8cf2fde167b3c2b7Stub>(security); RPC::Administrator::Instance().Announce(security); } ~Instantiation() { RPC::Administrator::Instance().Recall>(); RPC::Administrator::Instance().Recall(); } } ProxyStubRegistration; } // namespace } // namespace ProxyStubs }