/*! * \file channel.cc * \brief Implementation of a GPS_L1_CA_Channel with a Finite State Machine * \author Carlos Aviles, 2010. carlos.avilesr(at)googlemail.com * Luis Esteve, 2011. luis(at)epsilon-formacion.com * * ------------------------------------------------------------------------- * * Copyright (C) 2010-2011 (see AUTHORS file for a list of contributors) * * GNSS-SDR is a software defined Global Navigation * Satellite Systems receiver * * This file is part of GNSS-SDR. * * GNSS-SDR is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * at your option) any later version. * * GNSS-SDR is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GNSS-SDR. If not, see . * * ------------------------------------------------------------------------- */ #include "channel.h" #include "acquisition_interface.h" #include "tracking_interface.h" #include "telemetry_decoder_interface.h" #include "configuration_interface.h" #include "gnss_flowgraph.h" #include #include #include #include #include #include #include #include using google::LogMessage; // Constructor Channel::Channel(ConfigurationInterface *configuration, unsigned int channel, GNSSBlockInterface *pass_through, AcquisitionInterface *acq, TrackingInterface *trk, TelemetryDecoderInterface *nav, std::string role, std::string implementation, gr_msg_queue_sptr queue) : pass_through_(pass_through), acq_(acq), trk_(trk), nav_(nav), role_(role), implementation_(implementation), channel_(channel), queue_(queue) { stop_ = false; acq_->set_channel(channel_); trk_->set_channel(channel_); nav_->set_channel(channel_); gnss_synchro_.Channel_ID=channel_; acq_->set_gnss_synchro(&gnss_synchro_); trk_->set_gnss_synchro(&gnss_synchro_); acq_->set_threshold(configuration->property("Acquisition" + boost::lexical_cast(channel_) + ".threshold", 0.0)); acq_->set_doppler_max(configuration->property("Acquisition" + boost::lexical_cast(channel_) + ".doppler_max", 10000)); acq_->set_doppler_step(configuration->property("Acquisition" + boost::lexical_cast(channel_) + ".doppler_step", 250)); repeat_ = configuration->property("Acquisition" + boost::lexical_cast< std::string>(channel_) + ".repeat_satellite", false); DLOG(INFO) << "Channel " << channel_ << " satellite repeat = " << repeat_ << std::endl; acq_->set_channel_queue(&channel_internal_queue_); trk_->set_channel_queue(&channel_internal_queue_); channel_fsm_.set_acquisition(acq_); channel_fsm_.set_tracking(trk_); channel_fsm_.set_channel(channel_); channel_fsm_.set_queue(queue_); connected_ = false; message_ = 0; gnss_signal_ = Gnss_Signal(); } // Destructor Channel::~Channel() { delete acq_; delete trk_; delete nav_; delete pass_through_; } void Channel::connect(gr_top_block_sptr top_block) { if (connected_) { LOG_AT_LEVEL(WARNING) << "channel already connected internally"; return; } pass_through_->connect(top_block); acq_->connect(top_block); trk_->connect(top_block); nav_->connect(top_block); top_block->connect(pass_through_->get_right_block(), 0, acq_->get_left_block(), 0); DLOG(INFO) << "pass_through_ -> acquisition"; top_block->connect(pass_through_->get_right_block(), 0, trk_->get_left_block(), 0); DLOG(INFO) << "pass_through_ -> tracking"; top_block->connect(trk_->get_right_block(), 0, nav_->get_left_block(), 0); DLOG(INFO) << "tracking -> telemetry_decoder"; connected_ = true; } void Channel::disconnect(gr_top_block_sptr top_block) { if (!connected_) { LOG_AT_LEVEL(WARNING) << "Channel already disconnected internally"; return; } top_block->disconnect(pass_through_->get_right_block(), 0, acq_->get_left_block(), 0); top_block->disconnect(pass_through_->get_right_block(), 0, trk_->get_left_block(), 0); top_block->disconnect(trk_->get_right_block(), 0, nav_->get_left_block(), 0); pass_through_->disconnect(top_block); acq_->disconnect(top_block); trk_->disconnect(top_block); nav_->disconnect(top_block); connected_ = false; } gr_basic_block_sptr Channel::get_left_block() { return pass_through_->get_left_block(); } gr_basic_block_sptr Channel::get_right_block() { return nav_->get_right_block(); } void Channel::set_signal(Gnss_Signal gnss_signal) { gnss_signal_ = gnss_signal; gnss_signal_.get_signal().copy(gnss_synchro_.Signal,2,0); gnss_synchro_.PRN = gnss_signal_.get_satellite().get_PRN(); gnss_synchro_.System = gnss_signal_.get_satellite().get_system_short().c_str()[0]; acq_->init(); nav_->set_satellite(gnss_signal_.get_satellite()); } void Channel::start_acquisition() { channel_fsm_.Event_gps_start_acquisition(); } void Channel::start() { ch_thread_ = boost::thread(&Channel::run, this); } void Channel::run() { while (!stop_) { channel_internal_queue_.wait_and_pop(message_); process_channel_messages(); } } void Channel::standby(){ channel_fsm_.Event_gps_failed_tracking_standby(); } /* * Set stop_ to true and blocks the calling thread until * the thread of the constructor has completed */ void Channel::stop() { channel_internal_queue_.push(0); //message to stop channel stop_ = true; /* When the boost::thread object that represents a thread of execution * is destroyed the thread becomes detached. Once a thread is detached, * it will continue executing until the invocation of the function or * callable object supplied on construction has completed, * or the program is terminated. In order to wait for a thread of * execution to finish, the join() or timed_join() member functions of * the boost::thread object must be used. join() will block the calling * thread until the thread represented by the boost::thread object * has completed. * */ ch_thread_.join(); } void Channel::process_channel_messages() { switch (message_) { case 0: DLOG(INFO) << "Stop channel " << channel_; break; case 1: DLOG(INFO) << "Channel " << channel_ << " ACQ SUCCESS satellite " << gnss_synchro_.System << " " << gnss_synchro_.PRN; channel_fsm_.Event_gps_valid_acquisition(); break; case 2: DLOG(INFO) << "Channel " << channel_ << " ACQ FAILED satellite " << gnss_synchro_.System << " "<< gnss_synchro_.PRN; if (repeat_ == true) { channel_fsm_.Event_gps_failed_acquisition_repeat(); } else { channel_fsm_.Event_gps_failed_acquisition_no_repeat(); } break; default: LOG_AT_LEVEL(WARNING) << "Default case, invalid message."; break; } }