// // Copyright © 2019 Arm Ltd and Contributors. All rights reserved. // SPDX-License-Identifier: MIT // #pragma once // local includes #include "PeriodicCounterCaptureCommandHandler.hpp" #include "StreamMetadataCommandHandler.hpp" #include "StubCommandHandler.hpp" #include #include #include #include #include #include #include #include #include #include #include namespace armnn { namespace gatordmock { /// A class that implements a Mock Gatord server. It will listen on a specified Unix domain socket (UDS) /// namespace for client connections. It will then allow opertaions to manage counters while receiving counter data. class GatordMockService { public: /// @param registry reference to a command handler registry. /// @param echoPackets if true the raw packets will be printed to stdout. GatordMockService(std::unique_ptr clientConnection, bool echoPackets) : m_BasePipeServer(std::move(clientConnection)) , m_EchoPackets(echoPackets) , m_CloseReceivingThread(false) , m_PacketVersionResolver() , m_HandlerRegistry() , m_TimelineDecoder() , m_CounterCaptureCommandHandler( 0, 4, m_PacketVersionResolver.ResolvePacketVersion(0, 4).GetEncodedValue(), !echoPackets) , m_StreamMetadataCommandHandler( 0, 0, m_PacketVersionResolver.ResolvePacketVersion(0, 0).GetEncodedValue(), !echoPackets) // This stub lets us ignore any counter capture packets we receive without throwing an error , m_StubCommandHandler(3, 0, m_PacketVersionResolver.ResolvePacketVersion(0, 3).GetEncodedValue()) , m_DirectoryCaptureCommandHandler( "ARMNN", 0, 2, m_PacketVersionResolver.ResolvePacketVersion(0, 2).GetEncodedValue(), !echoPackets) , m_TimelineCaptureCommandHandler( 1, 1, m_PacketVersionResolver.ResolvePacketVersion(1, 1).GetEncodedValue(), m_TimelineDecoder) , m_TimelineDirectoryCaptureCommandHandler( 1, 0, m_PacketVersionResolver.ResolvePacketVersion(1, 0).GetEncodedValue(), m_TimelineCaptureCommandHandler, !echoPackets) { m_TimelineDecoder.SetDefaultCallbacks(); m_HandlerRegistry.RegisterFunctor(&m_CounterCaptureCommandHandler); m_HandlerRegistry.RegisterFunctor(&m_StreamMetadataCommandHandler); m_HandlerRegistry.RegisterFunctor(&m_StubCommandHandler); m_HandlerRegistry.RegisterFunctor(&m_DirectoryCaptureCommandHandler); m_HandlerRegistry.RegisterFunctor(&m_TimelineDirectoryCaptureCommandHandler); m_HandlerRegistry.RegisterFunctor(&m_TimelineCaptureCommandHandler); } GatordMockService(const GatordMockService&) = delete; GatordMockService& operator=(const GatordMockService&) = delete; GatordMockService(GatordMockService&&) = delete; GatordMockService& operator=(GatordMockService&&) = delete; /// Once the connection is open wait to receive the stream meta data packet from the client. Reading this /// packet differs from others as we need to determine endianness. /// @return true only if a valid stream met data packet has been received. bool WaitForStreamMetaData(); /// Send a connection acknowledged packet back to the client. void SendConnectionAck(); /// Send a request counter directory packet back to the client. void SendRequestCounterDir(); /// Send a activate timeline packet back to the client. void SendActivateTimelinePacket(); /// Send a deactivate timeline packet back to the client. void SendDeactivateTimelinePacket(); /// Start the thread that will receive all packets and print them nicely to stdout. bool LaunchReceivingThread(); /// Return the total number of periodic counter capture packets received since the receive thread started. /// @return number of periodic counter capture packets received. uint32_t GetPacketsReceivedCount() { return m_PacketsReceivedCount.load(std::memory_order_acquire); } /// This is a placeholder method to prevent main exiting. It can be removed once the /// command handling code is added. void WaitForReceivingThread(); // @return true only if the receive thread is closed or closing. bool ReceiveThreadRunning() { return !m_CloseReceivingThread.load(); } /// Send the counter list to ArmNN. void SendPeriodicCounterSelectionList(uint32_t period, std::vector counters); /// Execute the WAIT command from the comamnd file. void WaitCommand(uint32_t timeout); arm::pipe::DirectoryCaptureCommandHandler& GetDirectoryCaptureCommandHandler() { return m_DirectoryCaptureCommandHandler; } arm::pipe::TimelineDecoder& GetTimelineDecoder() { return m_TimelineDecoder; } arm::pipe::TimelineDirectoryCaptureCommandHandler& GetTimelineDirectoryCaptureCommandHandler() { return m_TimelineDirectoryCaptureCommandHandler; } private: void ReceiveLoop(); std::unique_ptr m_BasePipeServer; std::atomic m_PacketsReceivedCount; bool m_EchoPackets; std::thread m_ListeningThread; std::atomic m_CloseReceivingThread; arm::pipe::PacketVersionResolver m_PacketVersionResolver; arm::pipe::CommandHandlerRegistry m_HandlerRegistry; arm::pipe::TimelineDecoder m_TimelineDecoder; gatordmock::PeriodicCounterCaptureCommandHandler m_CounterCaptureCommandHandler; gatordmock::StreamMetadataCommandHandler m_StreamMetadataCommandHandler; gatordmock::StubCommandHandler m_StubCommandHandler; arm::pipe::DirectoryCaptureCommandHandler m_DirectoryCaptureCommandHandler; arm::pipe::TimelineCaptureCommandHandler m_TimelineCaptureCommandHandler; arm::pipe::TimelineDirectoryCaptureCommandHandler m_TimelineDirectoryCaptureCommandHandler; }; } // namespace gatordmock } // namespace armnn