/******************************************************************************** * Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH * * * * This software is distributed under the terms of the * * GNU Lesser General Public Licence version 3 (LGPL) version 3, * * copied verbatim in the file "LICENSE" * ********************************************************************************/ /** * runBuffer.cxx * * @since 2012-10-26 * @author: D. Klein, A. Rybalchenko */ #include #include #include "boost/program_options.hpp" #include "FairMQLogger.h" #include "FairMQBuffer.h" #ifdef NANOMSG #include "FairMQTransportFactoryNN.h" #else #include "FairMQTransportFactoryZMQ.h" #endif using namespace std; FairMQBuffer buffer; static void s_signal_handler(int signal) { cout << endl << "Caught signal " << signal << endl; buffer.ChangeState(FairMQBuffer::STOP); buffer.ChangeState(FairMQBuffer::END); cout << "Shutdown complete. Bye!" << endl; exit(1); } static void s_catch_signals(void) { struct sigaction action; action.sa_handler = s_signal_handler; action.sa_flags = 0; sigemptyset(&action.sa_mask); sigaction(SIGINT, &action, NULL); sigaction(SIGTERM, &action, NULL); } typedef struct DeviceOptions { string id; int ioThreads; string inputSocketType; int inputBufSize; string inputMethod; string inputAddress; string outputSocketType; int outputBufSize; string outputMethod; string outputAddress; } DeviceOptions_t; inline bool parse_cmd_line(int _argc, char* _argv[], DeviceOptions* _options) { if (_options == NULL) throw runtime_error("Internal error: options' container is empty."); namespace bpo = boost::program_options; bpo::options_description desc("Options"); desc.add_options() ("id", bpo::value(), "Device ID") ("io-threads", bpo::value()->default_value(1), "Number of I/O threads") ("input-socket-type", bpo::value()->required(), "Input socket type: sub/pull") ("input-buff-size", bpo::value()->required(), "Input buffer size in number of messages (ZeroMQ)/bytes(nanomsg)") ("input-method", bpo::value()->required(), "Input method: bind/connect") ("input-address", bpo::value()->required(), "Input address, e.g.: \"tcp://localhost:5555\"") ("output-socket-type", bpo::value()->required(), "Output socket type: pub/push") ("output-buff-size", bpo::value()->required(), "Output buffer size in number of messages (ZeroMQ)/bytes(nanomsg)") ("output-method", bpo::value()->required(), "Output method: bind/connect") ("output-address", bpo::value()->required(), "Output address, e.g.: \"tcp://localhost:5555\"") ("help", "Print help messages"); bpo::variables_map vm; bpo::store(bpo::parse_command_line(_argc, _argv, desc), vm); if ( vm.count("help") ) { LOG(INFO) << "FairMQ Buffer" << endl << desc; return false; } bpo::notify(vm); if ( vm.count("id") ) _options->id = vm["id"].as(); if ( vm.count("io-threads") ) _options->ioThreads = vm["io-threads"].as(); if ( vm.count("input-socket-type") ) _options->inputSocketType = vm["input-socket-type"].as(); if ( vm.count("input-buff-size") ) _options->inputBufSize = vm["input-buff-size"].as(); if ( vm.count("input-method") ) _options->inputMethod = vm["input-method"].as(); if ( vm.count("input-address") ) _options->inputAddress = vm["input-address"].as(); if ( vm.count("output-socket-type") ) _options->outputSocketType = vm["output-socket-type"].as(); if ( vm.count("output-buff-size") ) _options->outputBufSize = vm["output-buff-size"].as(); if ( vm.count("output-method") ) _options->outputMethod = vm["output-method"].as(); if ( vm.count("output-address") ) _options->outputAddress = vm["output-address"].as(); return true; } int main(int argc, char** argv) { s_catch_signals(); DeviceOptions_t options; try { if (!parse_cmd_line(argc, argv, &options)) return 0; } catch (exception& e) { LOG(ERROR) << e.what(); return 1; } LOG(INFO) << "PID: " << getpid(); #ifdef NANOMSG FairMQTransportFactory* transportFactory = new FairMQTransportFactoryNN(); #else FairMQTransportFactory* transportFactory = new FairMQTransportFactoryZMQ(); #endif buffer.SetTransport(transportFactory); buffer.SetProperty(FairMQBuffer::Id, options.id); buffer.SetProperty(FairMQBuffer::NumIoThreads, options.ioThreads); buffer.SetProperty(FairMQBuffer::NumInputs, 1); buffer.SetProperty(FairMQBuffer::NumOutputs, 1); buffer.ChangeState(FairMQBuffer::INIT); buffer.SetProperty(FairMQBuffer::InputSocketType, options.inputSocketType); buffer.SetProperty(FairMQBuffer::InputRcvBufSize, options.inputBufSize); buffer.SetProperty(FairMQBuffer::InputMethod, options.inputMethod); buffer.SetProperty(FairMQBuffer::InputAddress, options.inputAddress); buffer.SetProperty(FairMQBuffer::OutputSocketType, options.outputSocketType); buffer.SetProperty(FairMQBuffer::OutputSndBufSize, options.outputBufSize); buffer.SetProperty(FairMQBuffer::OutputMethod, options.outputMethod); buffer.SetProperty(FairMQBuffer::OutputAddress, options.outputAddress); buffer.ChangeState(FairMQBuffer::SETOUTPUT); buffer.ChangeState(FairMQBuffer::SETINPUT); buffer.ChangeState(FairMQBuffer::RUN); // wait until the running thread has finished processing. boost::unique_lock lock(buffer.fRunningMutex); while (!buffer.fRunningFinished) { buffer.fRunningCondition.wait(lock); } buffer.ChangeState(FairMQBuffer::STOP); buffer.ChangeState(FairMQBuffer::END); return 0; }