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//
// Copyright 2015-2016 Ettus Research
// Copyright 2018 Ettus Research, a National Instruments Company
//
// SPDX-License-Identifier: GPL-3.0-or-later
//
#ifndef INCLUDED_LIBUHD_RFNOC_X300_RADIO_CTRL_IMPL_HPP
#define INCLUDED_LIBUHD_RFNOC_X300_RADIO_CTRL_IMPL_HPP
#include "x300_clock_ctrl.hpp"
#include "x300_adc_ctrl.hpp"
#include "x300_dac_ctrl.hpp"
#include "x300_regs.hpp"
#include <uhd/usrp/dboard_eeprom.hpp>
#include <uhd/usrp/dboard_manager.hpp>
#include <uhd/usrp/gpio_defs.hpp>
#include <uhdlib/rfnoc/radio_ctrl_impl.hpp>
#include <uhdlib/usrp/cores/rx_frontend_core_3000.hpp>
#include <uhdlib/usrp/cores/tx_frontend_core_200.hpp>
#include <uhdlib/usrp/cores/spi_core_3000.hpp>
namespace uhd {
namespace rfnoc {
/*! \brief Provide access to an X300 radio.
*/
class x300_radio_ctrl_impl : public radio_ctrl_impl
{
public:
typedef boost::shared_ptr<x300_radio_ctrl_impl> sptr;
/************************************************************************
* Structors
***********************************************************************/
UHD_RFNOC_RADIO_BLOCK_CONSTRUCTOR_DECL(x300_radio_ctrl)
virtual ~x300_radio_ctrl_impl();
/************************************************************************
* API calls
***********************************************************************/
double set_rate(double rate);
void set_tx_antenna(const std::string &ant, const size_t chan);
void set_rx_antenna(const std::string &ant, const size_t chan);
double set_tx_frequency(const double freq, const size_t chan);
double set_rx_frequency(const double freq, const size_t chan);
double set_rx_bandwidth(const double bandwidth, const size_t chan);
double get_tx_frequency(const size_t chan);
double get_rx_frequency(const size_t chan);
double get_rx_bandwidth(const size_t chan);
double set_tx_gain(const double gain, const size_t chan);
double set_rx_gain(const double gain, const size_t chan);
std::vector<std::string> get_rx_lo_names(const size_t chan);
std::vector<std::string> get_rx_lo_sources(const std::string &name, const size_t chan);
freq_range_t get_rx_lo_freq_range(const std::string &name, const size_t chan);
void set_rx_lo_source(const std::string &src, const std::string &name, const size_t chan);
const std::string get_rx_lo_source(const std::string &name, const size_t chan);
void set_rx_lo_export_enabled(bool enabled, const std::string &name, const size_t chan);
bool get_rx_lo_export_enabled(const std::string &name, const size_t chan);
double set_rx_lo_freq(double freq, const std::string &name, const size_t chan);
double get_rx_lo_freq(const std::string &name, const size_t chan);
size_t get_chan_from_dboard_fe(const std::string &fe, const direction_t dir);
std::string get_dboard_fe_from_chan(const size_t chan, const direction_t dir);
std::vector<std::string> get_gpio_banks() const;
void set_gpio_attr(const std::string &bank, const std::string &attr, const uint32_t value, const uint32_t mask);
uint32_t get_gpio_attr(const std::string &bank, const std::string &attr);
double get_output_samp_rate(size_t port);
/************************************************************************
* Hardware setup and control
***********************************************************************/
/*! Set up the radio. No API calls may be made before this one.
*/
void setup_radio(
uhd::i2c_iface::sptr zpu_i2c,
x300_clock_ctrl::sptr clock,
bool ignore_cal_file,
bool verbose
);
void reset_codec();
void self_test_adc(
uint32_t ramp_time_ms = 100);
static void extended_adc_test(
const std::vector<x300_radio_ctrl_impl::sptr>&, double duration_s);
static void synchronize_dacs(
const std::vector<x300_radio_ctrl_impl::sptr>& radios);
static double self_cal_adc_xfer_delay(
const std::vector<x300_radio_ctrl_impl::sptr>& radios,
x300_clock_ctrl::sptr clock,
boost::function<void(double)> wait_for_clk_locked,
bool apply_delay);
protected:
virtual bool check_radio_config();
private:
class radio_regmap_t : public uhd::soft_regmap_t {
public:
typedef boost::shared_ptr<radio_regmap_t> sptr;
class misc_outs_reg_t : public uhd::soft_reg32_wo_t {
public:
UHD_DEFINE_SOFT_REG_FIELD(DAC_ENABLED, /*width*/ 1, /*shift*/ 0); //[0]
UHD_DEFINE_SOFT_REG_FIELD(DAC_RESET_N, /*width*/ 1, /*shift*/ 1); //[1]
UHD_DEFINE_SOFT_REG_FIELD(ADC_RESET, /*width*/ 1, /*shift*/ 2); //[2]
UHD_DEFINE_SOFT_REG_FIELD(ADC_DATA_DLY_STB, /*width*/ 1, /*shift*/ 3); //[3]
UHD_DEFINE_SOFT_REG_FIELD(ADC_DATA_DLY_VAL, /*width*/ 5, /*shift*/ 4); //[8:4]
UHD_DEFINE_SOFT_REG_FIELD(ADC_CHECKER_ENABLED, /*width*/ 1, /*shift*/ 9); //[9]
UHD_DEFINE_SOFT_REG_FIELD(DAC_SYNC, /*width*/ 1, /*shift*/ 10); //[10]
misc_outs_reg_t(): uhd::soft_reg32_wo_t(regs::sr_addr(regs::MISC_OUTS)) {
//Initial values
set(DAC_ENABLED, 0);
set(DAC_RESET_N, 0);
set(ADC_RESET, 0);
set(ADC_DATA_DLY_STB, 0);
set(ADC_DATA_DLY_VAL, 16);
set(ADC_CHECKER_ENABLED, 0);
set(DAC_SYNC, 0);
}
} misc_outs_reg;
class misc_ins_reg_t : public uhd::soft_reg64_ro_t {
public:
UHD_DEFINE_SOFT_REG_FIELD(ADC_CHECKER0_Q_LOCKED, /*width*/ 1, /*shift*/ 32); //[0]
UHD_DEFINE_SOFT_REG_FIELD(ADC_CHECKER0_I_LOCKED, /*width*/ 1, /*shift*/ 33); //[1]
UHD_DEFINE_SOFT_REG_FIELD(ADC_CHECKER1_Q_LOCKED, /*width*/ 1, /*shift*/ 34); //[2]
UHD_DEFINE_SOFT_REG_FIELD(ADC_CHECKER1_I_LOCKED, /*width*/ 1, /*shift*/ 35); //[3]
UHD_DEFINE_SOFT_REG_FIELD(ADC_CHECKER0_Q_ERROR, /*width*/ 1, /*shift*/ 36); //[4]
UHD_DEFINE_SOFT_REG_FIELD(ADC_CHECKER0_I_ERROR, /*width*/ 1, /*shift*/ 37); //[5]
UHD_DEFINE_SOFT_REG_FIELD(ADC_CHECKER1_Q_ERROR, /*width*/ 1, /*shift*/ 38); //[6]
UHD_DEFINE_SOFT_REG_FIELD(ADC_CHECKER1_I_ERROR, /*width*/ 1, /*shift*/ 39); //[7]
misc_ins_reg_t(): uhd::soft_reg64_ro_t(regs::RB_MISC_IO) { }
} misc_ins_reg;
radio_regmap_t(int radio_num) : soft_regmap_t("radio" + std::to_string(radio_num) + "_regmap") {
add_to_map(misc_outs_reg, "misc_outs_reg", PRIVATE);
add_to_map(misc_ins_reg, "misc_ins_reg", PRIVATE);
}
};
struct x300_regs {
static const uint32_t TX_FE_BASE = 224;
static const uint32_t RX_FE_BASE = 232;
};
void _update_atr_leds(const std::string &rx_ant, const size_t chan);
void _self_cal_adc_capture_delay(bool print_status);
void _check_adc(const uint32_t val);
void _set_db_eeprom(uhd::i2c_iface::sptr i2c, const size_t, const uhd::usrp::dboard_eeprom_t &);
void set_rx_fe_corrections(const uhd::fs_path &db_path, const uhd::fs_path &rx_fe_corr_path, const double lo_freq);
void set_tx_fe_corrections(const uhd::fs_path &db_path, const uhd::fs_path &tx_fe_corr_path, const double lo_freq);
void _set_command_time(const uhd::time_spec_t &spec, const size_t port);
void set_fe_cmd_time(const time_spec_t &time, const size_t chan);
private: // members
enum radio_connection_t { PRIMARY, SECONDARY };
radio_connection_t _radio_type;
std::string _radio_slot;
//! Radio clock rate is the rate at which the ADC and DAC are running at.
// Not necessarily this block's sampling rate (tick rate).
double _radio_clk_rate;
radio_regmap_t::sptr _regs;
std::map<size_t, usrp::gpio_atr::gpio_atr_3000::sptr> _leds;
spi_core_3000::sptr _spi;
x300_adc_ctrl::sptr _adc;
x300_dac_ctrl::sptr _dac;
usrp::gpio_atr::gpio_atr_3000::sptr _fp_gpio;
std::map<size_t, usrp::dboard_eeprom_t> _db_eeproms;
usrp::dboard_manager::sptr _db_manager;
struct rx_fe_perif {
std::string name;
std::string db_fe_name;
rx_frontend_core_3000::sptr core;
};
struct tx_fe_perif {
std::string name;
std::string db_fe_name;
tx_frontend_core_200::sptr core;
};
std::map<size_t, rx_fe_perif> _rx_fe_map;
std::map<size_t, tx_fe_perif> _tx_fe_map;
bool _ignore_cal_file;
}; /* class radio_ctrl_impl */
}} /* namespace uhd::rfnoc */
#endif /* INCLUDED_LIBUHD_RFNOC_X300_RADIO_CTRL_IMPL_HPP */
// vim: sw=4 et:
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