// Copyright 2021 The Pigweed Authors // // Licensed under the Apache License, Version 2.0 (the "License"); you may not // use this file except in compliance with the License. You may obtain a copy of // the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, WITHOUT // WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the // License for the specific language governing permissions and limitations under // the License. #include #include #include #include #include #include "pw_assert/check.h" #include "pw_hdlc/decoder.h" #include "pw_hdlc/default_addresses.h" #include "pw_hdlc/encoded_size.h" #include "pw_hdlc/rpc_channel.h" #include "pw_log/log.h" #include "pw_rpc/channel.h" #include "pw_sync/mutex.h" #include "pw_system/config.h" #include "pw_system/io.h" #include "pw_system/rpc_server.h" #include "pw_trace/trace.h" #if PW_SYSTEM_DEFAULT_CHANNEL_ID != PW_SYSTEM_LOGGING_CHANNEL_ID && \ PW_SYSTEM_DEFAULT_RPC_HDLC_ADDRESS == PW_SYSTEM_LOGGING_RPC_HDLC_ADDRESS #error \ "Default and logging addresses must be different to support multiple channels." #endif namespace pw::system { namespace { constexpr size_t kMaxTransmissionUnit = PW_SYSTEM_MAX_TRANSMISSION_UNIT; static_assert(kMaxTransmissionUnit == hdlc::MaxEncodedFrameSize(rpc::cfg::kEncodingBufferSizeBytes)); #if PW_SYSTEM_DEFAULT_CHANNEL_ID == PW_SYSTEM_LOGGING_CHANNEL_ID hdlc::FixedMtuChannelOutput hdlc_channel_output( GetWriter(), PW_SYSTEM_DEFAULT_RPC_HDLC_ADDRESS, "HDLC channel"); rpc::Channel channels[] = { rpc::Channel::Create(&hdlc_channel_output)}; #else class SynchronizedChannelOutput : public rpc::ChannelOutput { public: SynchronizedChannelOutput(stream::Writer& writer, uint64_t address, const char* channel_name) : rpc::ChannelOutput(channel_name), inner_(writer, address, channel_name) {} Status Send(span buffer) override { std::lock_guard guard(mtx_); auto s = inner_.Send(buffer); return s; } size_t MaximumTransmissionUnit() override { std::lock_guard guard(mtx_); auto s = inner_.MaximumTransmissionUnit(); return s; } private: sync::Mutex mtx_; hdlc::FixedMtuChannelOutput inner_ PW_GUARDED_BY(mtx_); }; SynchronizedChannelOutput hdlc_channel_output[] = { SynchronizedChannelOutput(GetWriter(), PW_SYSTEM_DEFAULT_RPC_HDLC_ADDRESS, "HDLC default channel"), SynchronizedChannelOutput(GetWriter(), PW_SYSTEM_LOGGING_RPC_HDLC_ADDRESS, "HDLC logging channel"), }; rpc::Channel channels[] = { rpc::Channel::Create(&hdlc_channel_output[0]), rpc::Channel::Create(&hdlc_channel_output[1]), }; #endif rpc::Server server(channels); constexpr size_t kDecoderBufferSize = hdlc::Decoder::RequiredBufferSizeForFrameSize(kMaxTransmissionUnit); // Declare a buffer for decoding incoming HDLC frames. std::array input_buffer; hdlc::Decoder decoder(input_buffer); std::array data; } // namespace rpc::Server& GetRpcServer() { return server; } class RpcDispatchThread final : public thread::ThreadCore { public: RpcDispatchThread() = default; RpcDispatchThread(const RpcDispatchThread&) = delete; RpcDispatchThread(RpcDispatchThread&&) = delete; RpcDispatchThread& operator=(const RpcDispatchThread&) = delete; RpcDispatchThread& operator=(RpcDispatchThread&&) = delete; void Run() override { PW_LOG_INFO("Running RPC server"); while (true) { auto ret_val = GetReader().Read(data); if (ret_val.ok()) { for (std::byte byte : ret_val.value()) { if (auto result = decoder.Process(byte); result.ok()) { hdlc::Frame& frame = result.value(); PW_TRACE_SCOPE("RPC process frame"); if (frame.address() == PW_SYSTEM_DEFAULT_RPC_HDLC_ADDRESS || frame.address() == PW_SYSTEM_LOGGING_RPC_HDLC_ADDRESS) { server.ProcessPacket(frame.data()); } } } } } } }; thread::ThreadCore& GetRpcDispatchThread() { static RpcDispatchThread rpc_dispatch_thread; return rpc_dispatch_thread; } } // namespace pw::system