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//
// Copyright 2010 Ettus Research LLC
//
// This program 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.
//
// This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
//
#include <uhd/usrp/mimo_usrp.hpp>
#include <uhd/usrp/tune_helper.hpp>
#include <uhd/utils/assert.hpp>
#include <uhd/utils/algorithm.hpp>
#include <uhd/usrp/subdev_props.hpp>
#include <uhd/usrp/mboard_props.hpp>
#include <uhd/usrp/device_props.hpp>
#include <uhd/usrp/dboard_props.hpp>
#include <uhd/usrp/dsp_props.hpp>
#include <boost/foreach.hpp>
#include <boost/format.hpp>
#include <boost/thread.hpp>
#include <stdexcept>
#include <iostream>
using namespace uhd;
using namespace uhd::usrp;
/***********************************************************************
* MIMO USRP Implementation
**********************************************************************/
class mimo_usrp_impl : public mimo_usrp{
public:
mimo_usrp_impl(const device_addr_t &addr){
_dev = device::make(addr);
//extract each mboard and its sub-devices
BOOST_FOREACH(const std::string &name, (*_dev)[DEVICE_PROP_MBOARD_NAMES].as<prop_names_t>()){
_mboards.push_back((*_dev)[named_prop_t(DEVICE_PROP_MBOARD, name)]);
_rx_dsps.push_back(_mboards.back()[MBOARD_PROP_RX_DSP]);
_tx_dsps.push_back(_mboards.back()[MBOARD_PROP_TX_DSP]);
//extract rx subdevice
_rx_dboards.push_back(_mboards.back()[MBOARD_PROP_RX_DBOARD]);
std::string rx_subdev_in_use = _rx_dboards.back()[DBOARD_PROP_USED_SUBDEVS].as<prop_names_t>().at(0);
_rx_subdevs.push_back(_rx_dboards.back()[named_prop_t(DBOARD_PROP_SUBDEV, rx_subdev_in_use)]);
//extract tx subdevice
_tx_dboards.push_back(_mboards.back()[MBOARD_PROP_TX_DBOARD]);
std::string tx_subdev_in_use = _tx_dboards.back()[DBOARD_PROP_USED_SUBDEVS].as<prop_names_t>().at(0);
_tx_subdevs.push_back(_tx_dboards.back()[named_prop_t(DBOARD_PROP_SUBDEV, tx_subdev_in_use)]);
}
//set the clock config across all mboards (TODO set through api)
clock_config_t clock_config;
clock_config.ref_source = clock_config_t::REF_SMA;
clock_config.pps_source = clock_config_t::PPS_SMA;
BOOST_FOREACH(wax::obj mboard, _mboards){
mboard[MBOARD_PROP_CLOCK_CONFIG] = clock_config;
}
}
~mimo_usrp_impl(void){
/* NOP */
}
device::sptr get_device(void){
return _dev;
}
std::string get_pp_string(void){
std::string buff = str(boost::format(
"MIMO USRP:\n"
" Device: %s\n"
)
% (*_dev)[DEVICE_PROP_NAME].as<std::string>()
);
for (size_t i = 0; i < get_num_channels(); i++){
buff += str(boost::format(
" Channel: %u\n"
" Mboard: %s\n"
" RX DSP: %s\n"
" RX Dboard: %s\n"
" RX Subdev: %s\n"
" TX DSP: %s\n"
" TX Dboard: %s\n"
" TX Subdev: %s\n"
) % i
% _mboards.at(i)[MBOARD_PROP_NAME].as<std::string>()
% _rx_dsps.at(i)[DSP_PROP_NAME].as<std::string>()
% _rx_dboards.at(i)[DBOARD_PROP_NAME].as<std::string>()
% _rx_subdevs.at(i)[SUBDEV_PROP_NAME].as<std::string>()
% _tx_dsps.at(i)[DSP_PROP_NAME].as<std::string>()
% _tx_dboards.at(i)[DBOARD_PROP_NAME].as<std::string>()
% _tx_subdevs.at(i)[SUBDEV_PROP_NAME].as<std::string>()
);
}
return buff;
}
size_t get_num_channels(void){
return _mboards.size();
}
/*******************************************************************
* Misc
******************************************************************/
time_spec_t get_time_now(void){
//the time on the first mboard better be the same on all
return _mboards.front()[MBOARD_PROP_TIME_NOW].as<time_spec_t>();
}
void set_time_next_pps(const time_spec_t &time_spec){
BOOST_FOREACH(wax::obj mboard, _mboards){
mboard[MBOARD_PROP_TIME_NEXT_PPS] = time_spec;
}
}
void set_time_unknown_pps(const time_spec_t &time_spec){
std::cout << "Set time with unknown pps edge:" << std::endl;
std::cout << " 1) set times next pps (race condition)" << std::endl;
set_time_next_pps(time_spec);
boost::this_thread::sleep(boost::posix_time::seconds(1));
std::cout << " 2) catch seconds rollover at pps edge" << std::endl;
time_t last_secs = 0, curr_secs = 0;
while(curr_secs == last_secs){
last_secs = curr_secs;
curr_secs = get_time_now().get_full_secs();
}
std::cout << " 3) set times next pps (synchronously)" << std::endl;
set_time_next_pps(time_spec);
boost::this_thread::sleep(boost::posix_time::seconds(1));
//verify that the time registers are read to be within a few RTT
for (size_t i = 1; i < get_num_channels(); i++){
time_spec_t time_0 = _mboards.front()[MBOARD_PROP_TIME_NOW].as<time_spec_t>();
time_spec_t time_i = _mboards.at(i)[MBOARD_PROP_TIME_NOW].as<time_spec_t>();
if (time_i < time_0 or (time_i - time_0) > time_spec_t(0.01)){ //10 ms: greater than RTT but not too big
std::cerr << boost::format(
"Error: time deviation between board %d and board 0.\n"
" Board 0 time is %f seconds.\n"
" Board %d time is %f seconds.\n"
) % i % time_0.get_real_secs() % i % time_i.get_real_secs() << std::endl;
}
}
}
void issue_stream_cmd(const stream_cmd_t &stream_cmd){
BOOST_FOREACH(wax::obj mboard, _mboards){
mboard[MBOARD_PROP_STREAM_CMD] = stream_cmd;
}
}
/*******************************************************************
* RX methods
******************************************************************/
void set_rx_rate_all(double rate){
std::vector<double> _actual_rates;
BOOST_FOREACH(wax::obj rx_dsp, _rx_dsps){
rx_dsp[DSP_PROP_HOST_RATE] = rate;
_actual_rates.push_back(rx_dsp[DSP_PROP_HOST_RATE].as<double>());
}
_rx_rate = _actual_rates.front();
if (std::count(_actual_rates, _rx_rate) != _actual_rates.size()) throw std::runtime_error(
"MIMO configuratio error: rx rate inconsistent across mboards"
);
}
double get_rx_rate_all(void){
return _rx_rate;
}
tune_result_t set_rx_freq(size_t chan, double target_freq){
return tune_rx_subdev_and_ddc(_rx_subdevs.at(chan), _rx_dsps.at(chan), target_freq);
}
tune_result_t set_rx_freq(size_t chan, double target_freq, double lo_off){
return tune_rx_subdev_and_ddc(_rx_subdevs.at(chan), _rx_dsps.at(chan), target_freq, lo_off);
}
freq_range_t get_rx_freq_range(size_t chan){
return _rx_subdevs.at(chan)[SUBDEV_PROP_FREQ_RANGE].as<freq_range_t>();
}
void set_rx_gain(size_t chan, float gain){
_rx_subdevs.at(chan)[SUBDEV_PROP_GAIN] = gain;
}
float get_rx_gain(size_t chan){
return _rx_subdevs.at(chan)[SUBDEV_PROP_GAIN].as<float>();
}
gain_range_t get_rx_gain_range(size_t chan){
return _rx_subdevs.at(chan)[SUBDEV_PROP_GAIN_RANGE].as<gain_range_t>();
}
void set_rx_antenna(size_t chan, const std::string &ant){
_rx_subdevs.at(chan)[SUBDEV_PROP_ANTENNA] = ant;
}
std::string get_rx_antenna(size_t chan){
return _rx_subdevs.at(chan)[SUBDEV_PROP_ANTENNA].as<std::string>();
}
std::vector<std::string> get_rx_antennas(size_t chan){
return _rx_subdevs.at(chan)[SUBDEV_PROP_ANTENNA_NAMES].as<prop_names_t>();
}
bool get_rx_lo_locked(size_t chan){
return _rx_subdevs.at(chan)[SUBDEV_PROP_LO_LOCKED].as<bool>();
}
float read_rssi(size_t chan){
return _rx_subdevs.at(chan)[SUBDEV_PROP_RSSI].as<float>();
}
/*******************************************************************
* TX methods
******************************************************************/
void set_tx_rate_all(double rate){
std::vector<double> _actual_rates;
BOOST_FOREACH(wax::obj tx_dsp, _tx_dsps){
tx_dsp[DSP_PROP_HOST_RATE] = rate;
_actual_rates.push_back(tx_dsp[DSP_PROP_HOST_RATE].as<double>());
}
_tx_rate = _actual_rates.front();
if (std::count(_actual_rates, _tx_rate) != _actual_rates.size()) throw std::runtime_error(
"MIMO configuratio error: tx rate inconsistent across mboards"
);
}
double get_tx_rate_all(void){
return _tx_rate;
}
tune_result_t set_tx_freq(size_t chan, double target_freq){
return tune_tx_subdev_and_duc(_tx_subdevs.at(chan), _tx_dsps.at(chan), target_freq);
}
tune_result_t set_tx_freq(size_t chan, double target_freq, double lo_off){
return tune_tx_subdev_and_duc(_tx_subdevs.at(chan), _tx_dsps.at(chan), target_freq, lo_off);
}
freq_range_t get_tx_freq_range(size_t chan){
return _tx_subdevs.at(chan)[SUBDEV_PROP_FREQ_RANGE].as<freq_range_t>();
}
void set_tx_gain(size_t chan, float gain){
_tx_subdevs.at(chan)[SUBDEV_PROP_GAIN] = gain;
}
float get_tx_gain(size_t chan){
return _tx_subdevs.at(chan)[SUBDEV_PROP_GAIN].as<float>();
}
gain_range_t get_tx_gain_range(size_t chan){
return _tx_subdevs.at(chan)[SUBDEV_PROP_GAIN_RANGE].as<gain_range_t>();
}
void set_tx_antenna(size_t chan, const std::string &ant){
_tx_subdevs.at(chan)[SUBDEV_PROP_ANTENNA] = ant;
}
std::string get_tx_antenna(size_t chan){
return _tx_subdevs.at(chan)[SUBDEV_PROP_ANTENNA].as<std::string>();
}
std::vector<std::string> get_tx_antennas(size_t chan){
return _tx_subdevs.at(chan)[SUBDEV_PROP_ANTENNA_NAMES].as<prop_names_t>();
}
bool get_tx_lo_locked(size_t chan){
return _tx_subdevs.at(chan)[SUBDEV_PROP_LO_LOCKED].as<bool>();
}
private:
device::sptr _dev;
std::vector<wax::obj> _mboards;
std::vector<wax::obj> _rx_dsps;
std::vector<wax::obj> _tx_dsps;
std::vector<wax::obj> _rx_dboards;
std::vector<wax::obj> _tx_dboards;
std::vector<wax::obj> _rx_subdevs;
std::vector<wax::obj> _tx_subdevs;
//shadows
double _rx_rate, _tx_rate;
};
/***********************************************************************
* The Make Function
**********************************************************************/
mimo_usrp::sptr mimo_usrp::make(const device_addr_t &dev_addr){
return sptr(new mimo_usrp_impl(dev_addr));
}
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