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275 lines
7.3 KiB
C++
275 lines
7.3 KiB
C++
/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2014 The libLTE Developers. See the
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* COPYRIGHT file at the top-level directory of this distribution.
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*
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* \section LICENSE
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*
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* This file is part of the libLTE library.
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*
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* libLTE is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Lesser General Public License as
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* published by the Free Software Foundation, either version 3 of
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* the License, or (at your option) any later version.
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*
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* libLTE is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License for more details.
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*
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* A copy of the GNU Lesser General Public License can be found in
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* the LICENSE file in the top-level directory of this distribution
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* and at http://www.gnu.org/licenses/.
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*
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*/
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#include <uhd/usrp/multi_usrp.hpp>
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#include <iostream>
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#include <complex>
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#include <cstdio>
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#include <uhd/utils/msg.hpp>
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#include "cuhd_handler.hpp"
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#include "liblte/cuhd/cuhd.h"
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//#define METADATA_VERBOSE
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void my_handler(uhd::msg::type_t type, const std::string & msg)
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{
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//handle the message...
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}
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typedef _Complex float complex_t;
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#define SAMPLE_SZ sizeof(complex_t)
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bool isLocked(void *h)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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std::vector < std::string > mb_sensors =
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handler->usrp->get_mboard_sensor_names();
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std::vector < std::string > rx_sensors =
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handler->usrp->get_rx_sensor_names(0);
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if (std::find(rx_sensors.begin(), rx_sensors.end(), "lo_locked") !=
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rx_sensors.end()) {
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return handler->usrp->get_rx_sensor("lo_locked", 0).to_bool();
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} else if (std::find(mb_sensors.begin(), mb_sensors.end(), "ref_locked") !=
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mb_sensors.end()) {
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return handler->usrp->get_mboard_sensor("ref_locked", 0).to_bool();
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} else {
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usleep(500);
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return true;
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}
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}
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bool cuhd_rx_wait_lo_locked(void *h)
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{
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double report = 0.0;
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while (isLocked(h) && report < 3.0) {
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report += 0.1;
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usleep(1000);
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}
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return isLocked(h);
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}
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int cuhd_start_rx_stream(void *h)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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uhd::stream_cmd_t cmd(uhd::stream_cmd_t::STREAM_MODE_START_CONTINUOUS);
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cmd.time_spec = handler->usrp->get_time_now();
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cmd.stream_now = true;
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handler->usrp->issue_stream_cmd(cmd);
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return 0;
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}
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int cuhd_stop_rx_stream(void *h)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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uhd::stream_cmd_t cmd(uhd::stream_cmd_t::STREAM_MODE_STOP_CONTINUOUS);
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cmd.time_spec = handler->usrp->get_time_now();
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cmd.stream_now = true;
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handler->usrp->issue_stream_cmd(cmd);
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return 0;
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}
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void cuhd_flush_buffer(void *h)
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{
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int n;
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_Complex float tmp[1024];
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do {
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n = cuhd_recv(h, tmp, 1024, 0);
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} while (n > 0);
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}
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int cuhd_start_rx_stream_nsamples(void *h, uint32_t nsamples)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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uhd::stream_cmd_t cmd(uhd::stream_cmd_t::STREAM_MODE_NUM_SAMPS_AND_MORE);
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cmd.time_spec = handler->usrp->get_time_now();
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cmd.stream_now = true;
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cmd.num_samps = nsamples;
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handler->usrp->issue_stream_cmd(cmd);
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return 0;
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}
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int cuhd_open(char *args, void **h)
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{
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cuhd_handler *handler = new cuhd_handler();
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std::string _args = std::string(args);
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handler->usrp = uhd::usrp::multi_usrp::make(_args + ", master_clock_rate=30720000" + ", num_recv_frames=512");
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// handler->usrp = uhd::usrp::multi_usrp::make(_args + ", master_clock_rate=50000000" + ", num_recv_frames=512");
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handler->usrp->set_clock_source("internal");
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std::string otw, cpu;
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otw = "sc16";
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cpu = "fc32";
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uhd::stream_args_t stream_args(cpu, otw);
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handler->rx_stream = handler->usrp->get_rx_stream(stream_args);
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handler->tx_stream = handler->usrp->get_tx_stream(stream_args);
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*h = handler;
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return 0;
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}
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int cuhd_close(void *h)
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{
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cuhd_stop_rx_stream(h);
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/** Something else to close the USRP?? */
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return 0;
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}
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double cuhd_set_rx_srate(void *h, double freq)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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handler->usrp->set_rx_rate(freq);
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double ret = handler->usrp->get_rx_rate();
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return ret;
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}
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double cuhd_set_rx_gain(void *h, double gain)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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handler->usrp->set_rx_gain(gain);
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return handler->usrp->get_rx_gain();
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}
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double cuhd_set_rx_freq(void *h, double freq)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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handler->usrp->set_rx_freq(freq);
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return handler->usrp->get_rx_freq();
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}
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double cuhd_set_rx_freq_offset(void *h, double freq, double off) {
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cuhd_handler* handler = static_cast<cuhd_handler*>(h);
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handler->usrp->set_rx_freq(uhd::tune_request_t(freq,off));
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return handler->usrp->get_rx_freq();
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}
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int cuhd_recv(void *h, void *data, uint32_t nsamples, bool blocking)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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uhd::rx_metadata_t md;
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if (blocking) {
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int n = 0, p;
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complex_t *data_c = (complex_t *) data;
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do {
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p = handler->rx_stream->recv(&data_c[n], nsamples - n, md);
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if (p == -1) {
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return -1;
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}
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n += p;
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#ifdef METADATA_VERBOSE
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if (md.error_code != uhd::rx_metadata_t::ERROR_CODE_NONE) {
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std::cout << "\nError code: " << md.to_pp_string() << "\n\n";
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}
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#endif
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} while (n < nsamples);
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return nsamples;
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} else {
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return handler->rx_stream->recv(data, nsamples, md, 0.0);
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}
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}
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int cuhd_recv_timed(void *h,
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void *data,
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uint32_t nsamples,
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int blocking,
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time_t *secs,
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double *frac_secs) {
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cuhd_handler* handler = static_cast<cuhd_handler*>(h);
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uhd::rx_metadata_t md;
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*secs = -1;
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*frac_secs = -1;
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int p;
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if (blocking) {
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int n=0;
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complex_t *data_c = (complex_t*) data;
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do {
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p=handler->rx_stream->recv(&data_c[n], nsamples-n, md);
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if (p == -1) {
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return -1;
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}
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if(*secs < 0){
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*secs = md.time_spec.get_full_secs();
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*frac_secs = md.time_spec.get_frac_secs();
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}
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n+=p;
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} while(n<nsamples);
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return n;
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} else {
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p = handler->rx_stream->recv(data, nsamples, md, 0.0);
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*secs = md.time_spec.get_full_secs();
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*frac_secs = md.time_spec.get_frac_secs();
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return p;
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}
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}
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double cuhd_set_tx_gain(void *h, double gain)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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handler->usrp->set_tx_gain(gain);
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return handler->usrp->get_tx_gain();
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}
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double cuhd_set_tx_srate(void *h, double freq)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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handler->usrp->set_tx_rate(freq);
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return handler->usrp->get_tx_rate();
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}
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double cuhd_set_tx_freq(void *h, double freq)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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handler->usrp->set_tx_freq(freq);
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return handler->usrp->get_tx_freq();
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}
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int cuhd_send(void *h, void *data, uint32_t nsamples, bool blocking)
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{
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cuhd_handler *handler = static_cast < cuhd_handler * >(h);
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uhd::tx_metadata_t md;
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if (blocking) {
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int n = 0, p;
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complex_t *data_c = (complex_t *) data;
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do {
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p = handler->tx_stream->send(&data_c[n], nsamples - n, md);
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if (p == -1) {
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return -1;
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}
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n += p;
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} while (n < nsamples);
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return nsamples;
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} else {
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return handler->tx_stream->send(data, nsamples, md, 0.0);
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}
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}
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