mirror of https://github.com/PentHertz/srsLTE.git
Exposed continuous TX mode to ue.conf
This commit is contained in:
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68cbb6ca7f
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3ab74fb552
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@ -34,150 +34,152 @@
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#define SRSLTE_RADIO_H
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typedef struct {
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float tx_corr_dc_gain;
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float tx_corr_dc_phase;
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float tx_corr_iq_i;
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float tx_corr_iq_q;
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float rx_corr_dc_gain;
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float rx_corr_dc_phase;
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float rx_corr_iq_i;
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float rx_corr_iq_q;
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}rf_cal_t;
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float tx_corr_dc_gain;
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float tx_corr_dc_phase;
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float tx_corr_iq_i;
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float tx_corr_iq_q;
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float rx_corr_dc_gain;
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float rx_corr_dc_phase;
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float rx_corr_iq_i;
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float rx_corr_iq_q;
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} rf_cal_t;
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namespace srslte {
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/* Interface to the RF frontend.
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*/
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class radio
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{
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public:
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radio() : tr_local_time(1024*10), tr_usrp_time(1024*10), tr_tx_time(1024*10), tr_is_eob(1024*10) {
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bzero(&rf_device, sizeof(srslte_rf_t));
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bzero(&end_of_burst_time, sizeof(srslte_timestamp_t));
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bzero(zeros, burst_preamble_max_samples*sizeof(cf_t));
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burst_preamble_sec = 0;
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is_start_of_burst = false;
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burst_preamble_samples = 0;
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burst_preamble_time_rounded = 0;
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cur_tx_srate = 0;
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tx_adv_sec = 0;
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tx_adv_nsamples = 0;
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tx_adv_auto = false;
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tx_adv_negative = false;
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tx_freq = 0;
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rx_freq = 0;
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trace_enabled = false;
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tti = 0;
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agc_enabled = false;
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radio_is_streaming = false;
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is_initialized = false;
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};
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bool init(char *args = NULL, char *devname = NULL, uint32_t nof_channels = 1);
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void stop();
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void reset();
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bool start_agc(bool tx_gain_same_rx);
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void set_burst_preamble(double preamble_us);
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void set_tx_adv(int nsamples);
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void set_tx_adv_neg(bool tx_adv_is_neg);
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void set_manual_calibration(rf_cal_t *calibration);
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void get_time(srslte_timestamp_t *now);
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bool tx_single(void *buffer, uint32_t nof_samples, srslte_timestamp_t tx_time);
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bool tx(void *buffer[SRSLTE_MAX_PORTS], uint32_t nof_samples, srslte_timestamp_t tx_time);
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void tx_end();
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bool rx_now(void *buffer[SRSLTE_MAX_PORTS], uint32_t nof_samples, srslte_timestamp_t *rxd_time);
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bool rx_at(void *buffer, uint32_t nof_samples, srslte_timestamp_t rx_time);
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class radio {
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public:
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radio() : tr_local_time(1024 * 10), tr_usrp_time(1024 * 10), tr_tx_time(1024 * 10), tr_is_eob(1024 * 10) {
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bzero(&rf_device, sizeof(srslte_rf_t));
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bzero(&end_of_burst_time, sizeof(srslte_timestamp_t));
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bzero(zeros, burst_preamble_max_samples * sizeof(cf_t));
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void set_tx_gain(float gain);
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void set_rx_gain(float gain);
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void set_tx_rx_gain_offset(float offset);
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double set_rx_gain_th(float gain);
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burst_preamble_sec = 0;
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is_start_of_burst = false;
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burst_preamble_samples = 0;
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burst_preamble_time_rounded = 0;
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void set_freq_offset(double freq);
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void set_tx_freq(double freq);
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void set_rx_freq(double freq);
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cur_tx_srate = 0;
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tx_adv_sec = 0;
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tx_adv_nsamples = 0;
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tx_adv_auto = false;
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tx_adv_negative = false;
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tx_freq = 0;
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rx_freq = 0;
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trace_enabled = false;
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tti = 0;
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agc_enabled = false;
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radio_is_streaming = false;
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is_initialized = false;
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continuous_tx = false;
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};
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double get_freq_offset();
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double get_tx_freq();
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double get_rx_freq();
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bool init(char *args = NULL, char *devname = NULL, uint32_t nof_channels = 1);
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void stop();
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void reset();
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bool start_agc(bool tx_gain_same_rx);
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void set_master_clock_rate(double rate);
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void set_tx_srate(double srate);
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void set_rx_srate(double srate);
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void set_burst_preamble(double preamble_us);
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void set_tx_adv(int nsamples);
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void set_tx_adv_neg(bool tx_adv_is_neg);
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float get_tx_gain();
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float get_rx_gain();
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float get_max_tx_power();
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float set_tx_power(float power);
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float get_rssi();
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bool has_rssi();
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void start_trace();
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void write_trace(std::string filename);
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void set_manual_calibration(rf_cal_t *calibration);
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void set_tti(uint32_t tti);
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bool is_continuous_tx();
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void set_continuous_tx(bool enable);
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bool is_first_of_burst();
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void get_time(srslte_timestamp_t *now);
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bool tx_single(void *buffer, uint32_t nof_samples, srslte_timestamp_t tx_time);
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bool tx(void *buffer[SRSLTE_MAX_PORTS], uint32_t nof_samples, srslte_timestamp_t tx_time);
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void tx_end();
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bool rx_now(void *buffer[SRSLTE_MAX_PORTS], uint32_t nof_samples, srslte_timestamp_t *rxd_time);
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bool rx_at(void *buffer, uint32_t nof_samples, srslte_timestamp_t rx_time);
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bool is_init();
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void set_tx_gain(float gain);
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void set_rx_gain(float gain);
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void set_tx_rx_gain_offset(float offset);
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double set_rx_gain_th(float gain);
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void register_error_handler(srslte_rf_error_handler_t h);
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protected:
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void save_trace(uint32_t is_eob, srslte_timestamp_t *usrp_time);
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srslte_rf_t rf_device;
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const static uint32_t burst_preamble_max_samples = 30720000; // 30.72 MHz is maximum frequency
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double burst_preamble_sec;// Start of burst preamble time (off->on RF transition time)
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srslte_timestamp_t end_of_burst_time;
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bool is_start_of_burst;
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uint32_t burst_preamble_samples;
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double burst_preamble_time_rounded; // preamble time rounded to sample time
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cf_t zeros[burst_preamble_max_samples];
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double cur_tx_srate;
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void set_freq_offset(double freq);
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void set_tx_freq(double freq);
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void set_rx_freq(double freq);
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double tx_adv_sec; // Transmission time advance to compensate for antenna->timestamp delay
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int tx_adv_nsamples; // Transmision time advance in number of samples
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// Define default values for known radios
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bool tx_adv_auto;
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bool tx_adv_negative;
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const static double uhd_default_burst_preamble_sec = 600*1e-6;
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const static double uhd_default_tx_adv_samples = 98;
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const static double uhd_default_tx_adv_offset_sec = 4*1e-6;
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const static double blade_default_burst_preamble_sec = 0.0;
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const static double blade_default_tx_adv_samples = 27;
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const static double blade_default_tx_adv_offset_sec = 1e-6;
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double get_freq_offset();
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double get_tx_freq();
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double get_rx_freq();
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double tx_freq, rx_freq, freq_offset;
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trace<uint32_t> tr_local_time;
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trace<uint32_t> tr_usrp_time;
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trace<uint32_t> tr_tx_time;
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trace<uint32_t> tr_is_eob;
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bool trace_enabled;
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uint32_t tti;
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bool agc_enabled;
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void set_master_clock_rate(double rate);
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void set_tx_srate(double srate);
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void set_rx_srate(double srate);
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bool is_initialized = true;;
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bool radio_is_streaming;
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float get_tx_gain();
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float get_rx_gain();
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uint32_t saved_nof_channels;
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char saved_args[128];
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char saved_devname[128];
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float get_max_tx_power();
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float set_tx_power(float power);
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float get_rssi();
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bool has_rssi();
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};
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void start_trace();
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void write_trace(std::string filename);
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void set_tti(uint32_t tti);
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bool is_first_of_burst();
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bool is_init();
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void register_error_handler(srslte_rf_error_handler_t h);
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protected:
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void save_trace(uint32_t is_eob, srslte_timestamp_t *usrp_time);
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srslte_rf_t rf_device;
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const static uint32_t burst_preamble_max_samples = 30720000; // 30.72 MHz is maximum frequency
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double burst_preamble_sec;// Start of burst preamble time (off->on RF transition time)
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srslte_timestamp_t end_of_burst_time;
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bool is_start_of_burst;
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uint32_t burst_preamble_samples;
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double burst_preamble_time_rounded; // preamble time rounded to sample time
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cf_t zeros[burst_preamble_max_samples];
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double cur_tx_srate;
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double tx_adv_sec; // Transmission time advance to compensate for antenna->timestamp delay
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int tx_adv_nsamples; // Transmision time advance in number of samples
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// Define default values for known radios
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bool tx_adv_auto;
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bool tx_adv_negative;
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const static double uhd_default_burst_preamble_sec = 600 * 1e-6;
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const static double uhd_default_tx_adv_samples = 98;
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const static double uhd_default_tx_adv_offset_sec = 4 * 1e-6;
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const static double blade_default_burst_preamble_sec = 0.0;
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const static double blade_default_tx_adv_samples = 27;
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const static double blade_default_tx_adv_offset_sec = 1e-6;
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double tx_freq, rx_freq, freq_offset;
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trace<uint32_t> tr_local_time;
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trace<uint32_t> tr_usrp_time;
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trace<uint32_t> tr_tx_time;
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trace<uint32_t> tr_is_eob;
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bool trace_enabled;
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uint32_t tti;
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bool agc_enabled;
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bool continuous_tx;
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bool is_initialized;
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bool radio_is_streaming;
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uint32_t saved_nof_channels;
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char saved_args[128];
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char saved_devname[128];
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};
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}
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#endif // SRSLTE_RADIO_H
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@ -50,12 +50,14 @@ bool radio::init(char *args, char *devname, uint32_t nof_channels)
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// Suppress radio stdout
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srslte_rf_suppress_stdout(&rf_device);
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tx_adv_auto = true;
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continuous_tx = false;
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tx_adv_auto = true;
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// Set default preamble length each known device
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// We distinguish by device family, maybe we should calibrate per device
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if (strstr(srslte_rf_name(&rf_device), "uhd")) {
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burst_preamble_sec = uhd_default_burst_preamble_sec;
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continuous_tx = true;
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} else if (strstr(srslte_rf_name(&rf_device), "bladerf")) {
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burst_preamble_sec = blade_default_burst_preamble_sec;
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} else {
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burst_preamble_sec = (double) preamble_us/1e6;
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}
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void radio::set_continuous_tx(bool enable) {
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continuous_tx = enable;
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}
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bool radio::is_continuous_tx() {
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return continuous_tx;
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}
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void radio::set_tx_adv(int nsamples)
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{
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tx_adv_auto = false;
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@ -27,9 +27,6 @@
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#ifndef SRSUE_PHCH_COMMON_H
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#define SRSUE_PHCH_COMMON_H
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#define TX_MODE_CONTINUOUS 1
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#include <pthread.h>
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#include <string.h>
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#include <vector>
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@ -64,6 +64,7 @@ typedef struct {
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std::string device_args;
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std::string time_adv_nsamples;
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std::string burst_preamble;
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std::string continuous_tx;
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}rf_args_t;
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typedef struct {
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@ -77,6 +77,7 @@ void parse_args(all_args_t *args, int argc, char *argv[]) {
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("rf.time_adv_nsamples", bpo::value<string>(&args->rf.time_adv_nsamples)->default_value("auto"),
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"Transmission time advance")
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("rf.burst_preamble_us", bpo::value<string>(&args->rf.burst_preamble)->default_value("auto"), "Transmission time advance")
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("rf.continuous_tx", bpo::value<string>(&args->rf.continuous_tx)->default_value("auto"), "Transmit samples continuously to the radio or on bursts (auto/yes/no). Default is auto (yes for UHD, no for rest)")
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("rrc.feature_group", bpo::value<uint32_t>(&args->rrc.feature_group)->default_value(0xe6041c00), "Hex value of the featureGroupIndicators field in the"
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"UECapabilityInformation message. Default 0xe6041c00")
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@ -248,7 +248,7 @@ void phch_common::worker_end(uint32_t tti, bool tx_enable,
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radio_h->tx_single(buffer, nof_samples, tx_time);
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is_first_of_burst = false;
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} else {
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if (TX_MODE_CONTINUOUS) {
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if (radio_h->is_continuous_tx()) {
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if (!is_first_of_burst) {
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radio_h->tx_single(zeros, nof_samples, tx_time);
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}
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@ -160,7 +160,10 @@ bool ue::init(all_args_t *args_)
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if (args->rf.burst_preamble.compare("auto")) {
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radio.set_burst_preamble(atof(args->rf.burst_preamble.c_str()));
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}
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if (args->rf.continuous_tx.compare("auto")) {
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radio.set_continuous_tx(args->rf.continuous_tx.compare("yes")?false:true);
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}
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radio.set_manual_calibration(&args->rf_cal);
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// Set PHY options
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@ -20,7 +20,9 @@
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# from antenna to timestamp insertion.
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# Default "auto". B210 USRP: 100 samples, bladeRF: 27.
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# burst_preamble_us: Preamble length to transmit before start of burst.
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# Default "auto". B210 USRP: 400 us, bladeRF: 0 us.
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# Default "auto". B210 USRP: 400 us, bladeRF: 0 us.
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# continuous_tx: Transmit samples continuously to the radio or on bursts (auto/yes/no).
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# Default is auto (yes for UHD, no for rest)
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#####################################################################
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[rf]
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dl_earfcn = 3400
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#device_args = auto
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#time_adv_nsamples = auto
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#burst_preamble_us = auto
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#continuous_tx = auto
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#####################################################################
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