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//
// Copyright 2014 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 "n230_impl.hpp"
#include "usrp3_fw_ctrl_iface.hpp"
#include "validate_subdev_spec.hpp"
#include <uhd/utils/static.hpp>
#include <uhd/transport/if_addrs.hpp>
#include <uhd/transport/udp_zero_copy.hpp>
#include <uhd/usrp/subdev_spec.hpp>
#include <uhd/utils/byteswap.hpp>
#include <uhd/utils/log.hpp>
#include <uhd/utils/msg.hpp>
#include <uhd/types/sensors.hpp>
#include <uhd/types/ranges.hpp>
#include <uhd/types/direction.hpp>
#include <uhd/usrp/mboard_eeprom.hpp>
#include <uhd/usrp/dboard_eeprom.hpp>
#include <uhd/usrp/gps_ctrl.hpp>
#include <boost/format.hpp>
#include <boost/lexical_cast.hpp>
#include <boost/bind.hpp>
#include <boost/algorithm/string.hpp>
#include <boost/assign/list_of.hpp>
#include <boost/asio/ip/address_v4.hpp>
#include <boost/asio.hpp> //used for htonl and ntohl
#include <boost/make_shared.hpp>
#include "../common/fw_comm_protocol.h"
#include "n230_defaults.h"
#include "n230_fpga_defs.h"
#include "n230_fw_defs.h"
#include "n230_fw_host_iface.h"
namespace uhd { namespace usrp { namespace n230 {
using namespace uhd::transport;
namespace asio = boost::asio;
//----------------------------------------------------------
// Static device registration with framework
//----------------------------------------------------------
UHD_STATIC_BLOCK(register_n230_device)
{
device::register_device(&n230_impl::n230_find, &n230_impl::n230_make, device::USRP);
}
//----------------------------------------------------------
// Device discovery
//----------------------------------------------------------
uhd::device_addrs_t n230_impl::n230_find(const uhd::device_addr_t &multi_dev_hint)
{
//handle the multi-device discovery
device_addrs_t hints = separate_device_addr(multi_dev_hint);
if (hints.size() > 1){
device_addrs_t found_devices;
std::string error_msg;
for(const device_addr_t &hint_i: hints){
device_addrs_t found_devices_i = n230_find(hint_i);
if (found_devices_i.size() != 1) error_msg += str(boost::format(
"Could not resolve device hint \"%s\" to a single device."
) % hint_i.to_string());
else found_devices.push_back(found_devices_i[0]);
}
if (found_devices.empty()) return device_addrs_t();
if (not error_msg.empty()) throw uhd::value_error(error_msg);
return device_addrs_t(1, combine_device_addrs(found_devices));
}
//initialize the hint for a single device case
UHD_ASSERT_THROW(hints.size() <= 1);
hints.resize(1); //in case it was empty
device_addr_t hint = hints[0];
device_addrs_t n230_addrs;
//return an empty list of addresses when type is set to non-n230
if (hint.has_key("type") and hint["type"] != "n230") return n230_addrs;
//Return an empty list of addresses when a resource is specified,
//since a resource is intended for a different, non-networked, device.
if (hint.has_key("resource")) return n230_addrs;
//if no address was specified, send a broadcast on each interface
if (not hint.has_key("addr")) {
for(const if_addrs_t &if_addrs: get_if_addrs()) {
//avoid the loopback device
if (if_addrs.inet == asio::ip::address_v4::loopback().to_string()) continue;
//create a new hint with this broadcast address
device_addr_t new_hint = hint;
new_hint["addr"] = if_addrs.bcast;
//call discover with the new hint and append results
device_addrs_t new_n230_addrs = n230_find(new_hint);
n230_addrs.insert(n230_addrs.begin(),
new_n230_addrs.begin(), new_n230_addrs.end()
);
}
return n230_addrs;
}
std::vector<std::string> discovered_addrs =
usrp3::usrp3_fw_ctrl_iface::discover_devices(
hint["addr"], BOOST_STRINGIZE(N230_FW_COMMS_UDP_PORT), N230_FW_PRODUCT_ID);
for(const std::string& addr: discovered_addrs)
{
device_addr_t new_addr;
new_addr["type"] = "n230";
new_addr["addr"] = addr;
//Attempt a simple 2-way communication with a connected socket.
//Reason: Although the USRP will respond the broadcast above,
//we may not be able to communicate directly (non-broadcast).
udp_simple::sptr ctrl_xport = udp_simple::make_connected(new_addr["addr"], BOOST_STRINGIZE(N230_FW_COMMS_UDP_PORT));
//Corner case: If two devices have the same IP but different MAC
//addresses and are used back-to-back it takes a while for ARP tables
//on the host to update in which period brodcasts will respond but
//connected communication can fail. Retry the following call to allow
//the stack to update
size_t first_conn_retries = 10;
usrp3::usrp3_fw_ctrl_iface::sptr fw_ctrl;
while (first_conn_retries > 0) {
try {
fw_ctrl = usrp3::usrp3_fw_ctrl_iface::make(ctrl_xport, N230_FW_PRODUCT_ID, false /*verbose*/);
break;
} catch (uhd::io_error& ex) {
boost::this_thread::sleep(boost::posix_time::milliseconds(500));
first_conn_retries--;
}
}
if (first_conn_retries > 0) {
uint32_t compat_reg = fw_ctrl->peek32(fw::reg_addr(fw::WB_SBRB_BASE, fw::RB_ZPU_COMPAT));
if (fw::get_prod_num(compat_reg) == fw::PRODUCT_NUM) {
if (!n230_resource_manager::is_device_claimed(fw_ctrl)) {
//Not claimed by another process or host
try {
//Try to read the EEPROM to get the name and serial
n230_eeprom_manager eeprom_mgr(new_addr["addr"]);
const mboard_eeprom_t& eeprom = eeprom_mgr.get_mb_eeprom();
new_addr["name"] = eeprom["name"];
new_addr["serial"] = eeprom["serial"];
}
catch(const std::exception &)
{
//set these values as empty string so the device may still be found
//and the filter's below can still operate on the discovered device
new_addr["name"] = "";
new_addr["serial"] = "";
}
//filter the discovered device below by matching optional keys
if ((not hint.has_key("name") or hint["name"] == new_addr["name"]) and
(not hint.has_key("serial") or hint["serial"] == new_addr["serial"]))
{
n230_addrs.push_back(new_addr);
}
}
}
}
}
return n230_addrs;
}
/***********************************************************************
* Make
**********************************************************************/
device::sptr n230_impl::n230_make(const device_addr_t &device_addr)
{
return device::sptr(new n230_impl(device_addr));
}
/***********************************************************************
* n230_impl::ctor
**********************************************************************/
n230_impl::n230_impl(const uhd::device_addr_t& dev_addr)
{
UHD_MSG(status) << "N230 initialization sequence..." << std::endl;
_dev_args.parse(dev_addr);
_tree = uhd::property_tree::make();
//TODO: Only supports one motherboard per device class.
const fs_path mb_path = "/mboards/0";
//Initialize addresses
std::vector<std::string> ip_addrs(1, dev_addr["addr"]);
if (dev_addr.has_key("second_addr")) {
ip_addrs.push_back(dev_addr["second_addr"]);
}
//Read EEPROM and perform version checks before talking to HW
_eeprom_mgr = boost::make_shared<n230_eeprom_manager>(ip_addrs[0]);
const mboard_eeprom_t& mb_eeprom = _eeprom_mgr->get_mb_eeprom();
bool recover_mb_eeprom = dev_addr.has_key("recover_mb_eeprom");
if (recover_mb_eeprom) {
UHD_MSG(warning) << "UHD is operating in EEPROM Recovery Mode which disables hardware version "
"checks.\nOperating in this mode may cause hardware damage and unstable "
"radio performance!"<< std::endl;
}
uint16_t hw_rev = boost::lexical_cast<uint16_t>(mb_eeprom["revision"]);
uint16_t hw_rev_compat = boost::lexical_cast<uint16_t>(mb_eeprom["revision_compat"]);
if (not recover_mb_eeprom) {
if (hw_rev_compat > N230_HW_REVISION_COMPAT) {
throw uhd::runtime_error(str(boost::format(
"Hardware is too new for this software. Please upgrade to a driver that supports hardware revision %d.")
% hw_rev));
}
}
//Initialize all subsystems
_resource_mgr = boost::make_shared<n230_resource_manager>(ip_addrs, _dev_args.get_safe_mode());
_stream_mgr = boost::make_shared<n230_stream_manager>(_dev_args, _resource_mgr, _tree);
//Build property tree
_initialize_property_tree(mb_path);
//Debug loopback mode
switch(_dev_args.get_loopback_mode()) {
case n230_device_args_t::LOOPBACK_RADIO:
UHD_MSG(status) << "DEBUG: Running in TX->RX Radio loopback mode.\n";
_resource_mgr->get_frontend_ctrl().set_self_test_mode(LOOPBACK_RADIO);
break;
case n230_device_args_t::LOOPBACK_CODEC:
UHD_MSG(status) << "DEBUG: Running in TX->RX CODEC loopback mode.\n";
_resource_mgr->get_frontend_ctrl().set_self_test_mode(LOOPBACK_CODEC);
break;
default:
_resource_mgr->get_frontend_ctrl().set_self_test_mode(LOOPBACK_DISABLED);
break;
}
}
/***********************************************************************
* n230_impl::dtor
**********************************************************************/
n230_impl::~n230_impl()
{
_stream_mgr.reset();
_eeprom_mgr.reset();
_resource_mgr.reset();
_tree.reset();
}
/***********************************************************************
* n230_impl::get_rx_stream
**********************************************************************/
rx_streamer::sptr n230_impl::get_rx_stream(const uhd::stream_args_t &args)
{
return _stream_mgr->get_rx_stream(args);
}
/***********************************************************************
* n230_impl::get_tx_stream
**********************************************************************/
tx_streamer::sptr n230_impl::get_tx_stream(const uhd::stream_args_t &args)
{
return _stream_mgr->get_tx_stream(args);
}
/***********************************************************************
* n230_impl::recv_async_msg
**********************************************************************/
bool n230_impl::recv_async_msg(uhd::async_metadata_t &async_metadata, double timeout)
{
return _stream_mgr->recv_async_msg(async_metadata, timeout);
}
/***********************************************************************
* _initialize_property_tree
**********************************************************************/
void n230_impl::_initialize_property_tree(const fs_path& mb_path)
{
//------------------------------------------------------------------
// General info
//------------------------------------------------------------------
_tree->create<std::string>("/name").set("N230 Device");
_tree->create<std::string>(mb_path / "name").set("N230");
_tree->create<std::string>(mb_path / "codename").set("N230");
_tree->create<std::string>(mb_path / "dboards").set("none"); //No dboards.
_tree->create<std::string>(mb_path / "fw_version").set(str(boost::format("%u.%u")
% _resource_mgr->get_version(FIRMWARE, COMPAT_MAJOR)
% _resource_mgr->get_version(FIRMWARE, COMPAT_MINOR)));
_tree->create<std::string>(mb_path / "fw_version_hash").set(str(boost::format("%s")
% _resource_mgr->get_version_hash(FIRMWARE)));
_tree->create<std::string>(mb_path / "fpga_version").set(str(boost::format("%u.%u")
% _resource_mgr->get_version(FPGA, COMPAT_MAJOR)
% _resource_mgr->get_version(FPGA, COMPAT_MINOR)));
_tree->create<std::string>(mb_path / "fpga_version_hash").set(str(boost::format("%s")
% _resource_mgr->get_version_hash(FPGA)));
_tree->create<double>(mb_path / "link_max_rate").set(_resource_mgr->get_max_link_rate());
//------------------------------------------------------------------
// EEPROM
//------------------------------------------------------------------
_tree->create<mboard_eeprom_t>(mb_path / "eeprom")
.set(_eeprom_mgr->get_mb_eeprom()) //Set first...
.add_coerced_subscriber(boost::bind(&n230_eeprom_manager::write_mb_eeprom, _eeprom_mgr, _1)); //..then enable writer
//------------------------------------------------------------------
// Create codec nodes
//------------------------------------------------------------------
const fs_path rx_codec_path = mb_path / ("rx_codecs") / "A";
_tree->create<std::string>(rx_codec_path / "name")
.set("N230 RX dual ADC");
_tree->create<int>(rx_codec_path / "gains"); //Empty because gains are in frontend
const fs_path tx_codec_path = mb_path / ("tx_codecs") / "A";
_tree->create<std::string>(tx_codec_path / "name")
.set("N230 TX dual DAC");
_tree->create<int>(tx_codec_path / "gains"); //Empty because gains are in frontend
//------------------------------------------------------------------
// Create clock and time control nodes
//------------------------------------------------------------------
_tree->create<double>(mb_path / "tick_rate")
.set_coercer(boost::bind(&n230_clk_pps_ctrl::set_tick_rate, _resource_mgr->get_clk_pps_ctrl_sptr(), _1))
.set_publisher(boost::bind(&n230_clk_pps_ctrl::get_tick_rate, _resource_mgr->get_clk_pps_ctrl_sptr()))
.add_coerced_subscriber(boost::bind(&n230_stream_manager::update_tick_rate, _stream_mgr, _1));
//Register time now and pps onto available radio cores
//radio0 is the master
_tree->create<time_spec_t>(mb_path / "time" / "cmd");
_tree->create<time_spec_t>(mb_path / "time" / "now")
.set_publisher(boost::bind(&time_core_3000::get_time_now, _resource_mgr->get_radio(0).time));
_tree->create<time_spec_t>(mb_path / "time" / "pps")
.set_publisher(boost::bind(&time_core_3000::get_time_last_pps, _resource_mgr->get_radio(0).time));
//Setup time source props
_tree->create<std::string>(mb_path / "time_source" / "value")
.add_coerced_subscriber(boost::bind(&n230_impl::_check_time_source, this, _1))
.add_coerced_subscriber(boost::bind(&n230_clk_pps_ctrl::set_pps_source, _resource_mgr->get_clk_pps_ctrl_sptr(), _1))
.set(n230::DEFAULT_TIME_SRC);
static const std::vector<std::string> time_sources = boost::assign::list_of("none")("external")("gpsdo");
_tree->create<std::vector<std::string> >(mb_path / "time_source" / "options")
.set(time_sources);
//Setup reference source props
_tree->create<std::string>(mb_path / "clock_source" / "value")
.add_coerced_subscriber(boost::bind(&n230_impl::_check_clock_source, this, _1))
.add_coerced_subscriber(boost::bind(&n230_clk_pps_ctrl::set_clock_source, _resource_mgr->get_clk_pps_ctrl_sptr(), _1))
.set(n230::DEFAULT_CLOCK_SRC);
static const std::vector<std::string> clock_sources = boost::assign::list_of("internal")("external")("gpsdo");
_tree->create<std::vector<std::string> >(mb_path / "clock_source" / "options")
.set(clock_sources);
_tree->create<sensor_value_t>(mb_path / "sensors" / "ref_locked")
.set_publisher(boost::bind(&n230_clk_pps_ctrl::get_ref_locked, _resource_mgr->get_clk_pps_ctrl_sptr()));
//------------------------------------------------------------------
// Create frontend mapping
//------------------------------------------------------------------
_tree->create<subdev_spec_t>(mb_path / "rx_subdev_spec")
.set(subdev_spec_t())
.add_coerced_subscriber(boost::bind(&n230_impl::_update_rx_subdev_spec, this, _1));
_tree->create<subdev_spec_t>(mb_path / "tx_subdev_spec")
.set(subdev_spec_t())
.add_coerced_subscriber(boost::bind(&n230_impl::_update_tx_subdev_spec, this, _1));
//------------------------------------------------------------------
// Create a fake dboard to put frontends in
//------------------------------------------------------------------
//For completeness we give it a fake EEPROM as well
dboard_eeprom_t db_eeprom; //Default state: ID is 0xffff, Version and serial empty
_tree->create<dboard_eeprom_t>(mb_path / "dboards" / "A" / "rx_eeprom").set(db_eeprom);
_tree->create<dboard_eeprom_t>(mb_path / "dboards" / "A" / "tx_eeprom").set(db_eeprom);
_tree->create<dboard_eeprom_t>(mb_path / "dboards" / "A" / "gdb_eeprom").set(db_eeprom);
//------------------------------------------------------------------
// Create radio specific nodes
//------------------------------------------------------------------
for (size_t radio_instance = 0; radio_instance < fpga::NUM_RADIOS; radio_instance++) {
_initialize_radio_properties(mb_path, radio_instance);
}
//Update tick rate on newly created radio objects
_tree->access<double>(mb_path / "tick_rate").set(_dev_args.get_master_clock_rate());
//------------------------------------------------------------------
// Initialize subdev specs
//------------------------------------------------------------------
subdev_spec_t rx_spec, tx_spec;
for(const std::string &fe: _tree->list(mb_path / "dboards" / "A" / "rx_frontends"))
{
rx_spec.push_back(subdev_spec_pair_t("A", fe));
}
for(const std::string &fe: _tree->list(mb_path / "dboards" / "A" / "tx_frontends"))
{
tx_spec.push_back(subdev_spec_pair_t("A", fe));
}
_tree->access<subdev_spec_t>(mb_path / "rx_subdev_spec").set(rx_spec);
_tree->access<subdev_spec_t>(mb_path / "tx_subdev_spec").set(tx_spec);
//------------------------------------------------------------------
// MiniSAS GPIO
//------------------------------------------------------------------
_tree->create<uint32_t>(mb_path / "gpio" / "FP0" / "DDR")
.set(0)
.add_coerced_subscriber(boost::bind(&gpio_atr::gpio_atr_3000::set_gpio_attr,
_resource_mgr->get_minisas_gpio_ctrl_sptr(0), gpio_atr::GPIO_DDR, _1));
_tree->create<uint32_t>(mb_path / "gpio" / "FP1" / "DDR")
.set(0)
.add_coerced_subscriber(boost::bind(&gpio_atr::gpio_atr_3000::set_gpio_attr,
_resource_mgr->get_minisas_gpio_ctrl_sptr(1), gpio_atr::GPIO_DDR, _1));
_tree->create<uint32_t>(mb_path / "gpio" / "FP0" / "OUT")
.set(0)
.add_coerced_subscriber(boost::bind(&gpio_atr::gpio_atr_3000::set_gpio_attr,
_resource_mgr->get_minisas_gpio_ctrl_sptr(0), gpio_atr::GPIO_OUT, _1));
_tree->create<uint32_t>(mb_path / "gpio" / "FP1" / "OUT")
.set(0)
.add_coerced_subscriber(boost::bind(&gpio_atr::gpio_atr_3000::set_gpio_attr,
_resource_mgr->get_minisas_gpio_ctrl_sptr(1), gpio_atr::GPIO_OUT, _1));
_tree->create<uint32_t>(mb_path / "gpio" / "FP0" / "READBACK")
.set_publisher(boost::bind(&gpio_atr::gpio_atr_3000::read_gpio, _resource_mgr->get_minisas_gpio_ctrl_sptr(0)));
_tree->create<uint32_t>(mb_path / "gpio" / "FP1" / "READBACK")
.set_publisher(boost::bind(&gpio_atr::gpio_atr_3000::read_gpio, _resource_mgr->get_minisas_gpio_ctrl_sptr(1)));
//------------------------------------------------------------------
// GPSDO sensors
//------------------------------------------------------------------
if (_resource_mgr->is_gpsdo_present()) {
uhd::gps_ctrl::sptr gps_ctrl = _resource_mgr->get_gps_ctrl();
for(const std::string &name: gps_ctrl->get_sensors())
{
_tree->create<sensor_value_t>(mb_path / "sensors" / name)
.set_publisher(boost::bind(&gps_ctrl::get_sensor, gps_ctrl, name));
}
}
}
/***********************************************************************
* _initialize_radio_properties
**********************************************************************/
void n230_impl::_initialize_radio_properties(const fs_path& mb_path, size_t instance)
{
radio_resource_t& perif = _resource_mgr->get_radio(instance);
//Time
_tree->access<time_spec_t>(mb_path / "time" / "cmd")
.add_coerced_subscriber(boost::bind(&radio_ctrl_core_3000::set_time, perif.ctrl, _1));
_tree->access<double>(mb_path / "tick_rate")
.add_coerced_subscriber(boost::bind(&radio_ctrl_core_3000::set_tick_rate, perif.ctrl, _1));
_tree->access<time_spec_t>(mb_path / "time" / "now")
.add_coerced_subscriber(boost::bind(&time_core_3000::set_time_now, perif.time, _1));
_tree->access<time_spec_t>(mb_path / "time" / "pps")
.add_coerced_subscriber(boost::bind(&time_core_3000::set_time_next_pps, perif.time, _1));
//RX DSP
_tree->access<double>(mb_path / "tick_rate")
.add_coerced_subscriber(boost::bind(&rx_vita_core_3000::set_tick_rate, perif.framer, _1))
.add_coerced_subscriber(boost::bind(&rx_dsp_core_3000::set_tick_rate, perif.ddc, _1));
const fs_path rx_dsp_path = mb_path / "rx_dsps" / str(boost::format("%u") % instance);
_tree->create<meta_range_t>(rx_dsp_path / "rate" / "range")
.set_publisher(boost::bind(&rx_dsp_core_3000::get_host_rates, perif.ddc));
_tree->create<double>(rx_dsp_path / "rate" / "value")
.set_coercer(boost::bind(&rx_dsp_core_3000::set_host_rate, perif.ddc, _1))
.add_coerced_subscriber(boost::bind(&n230_stream_manager::update_rx_samp_rate, _stream_mgr, instance, _1))
.set(n230::DEFAULT_RX_SAMP_RATE);
_tree->create<double>(rx_dsp_path / "freq" / "value")
.set_coercer(boost::bind(&rx_dsp_core_3000::set_freq, perif.ddc, _1))
.set(n230::DEFAULT_DDC_FREQ);
_tree->create<meta_range_t>(rx_dsp_path / "freq" / "range")
.set_publisher(boost::bind(&rx_dsp_core_3000::get_freq_range, perif.ddc));
_tree->create<stream_cmd_t>(rx_dsp_path / "stream_cmd")
.add_coerced_subscriber(boost::bind(&rx_vita_core_3000::issue_stream_command, perif.framer, _1));
//TX DSP
_tree->access<double>(mb_path / "tick_rate")
.add_coerced_subscriber(boost::bind(&tx_dsp_core_3000::set_tick_rate, perif.duc, _1));
const fs_path tx_dsp_path = mb_path / "tx_dsps" / str(boost::format("%u") % instance);
_tree->create<meta_range_t>(tx_dsp_path / "rate" / "range")
.set_publisher(boost::bind(&tx_dsp_core_3000::get_host_rates, perif.duc));
_tree->create<double>(tx_dsp_path / "rate" / "value")
.set_coercer(boost::bind(&tx_dsp_core_3000::set_host_rate, perif.duc, _1))
.add_coerced_subscriber(boost::bind(&n230_stream_manager::update_tx_samp_rate, _stream_mgr, instance, _1))
.set(n230::DEFAULT_TX_SAMP_RATE);
_tree->create<double>(tx_dsp_path / "freq" / "value")
.set_coercer(boost::bind(&tx_dsp_core_3000::set_freq, perif.duc, _1))
.set(n230::DEFAULT_DUC_FREQ);
_tree->create<meta_range_t>(tx_dsp_path / "freq" / "range")
.set_publisher(boost::bind(&tx_dsp_core_3000::get_freq_range, perif.duc));
//RF Frontend Interfacing
static const std::vector<direction_t> data_directions = boost::assign::list_of(RX_DIRECTION)(TX_DIRECTION);
for(direction_t direction: data_directions) {
const std::string dir_str = (direction == RX_DIRECTION) ? "rx" : "tx";
const std::string key = boost::to_upper_copy(dir_str) + str(boost::format("%u") % (instance + 1));
const fs_path rf_fe_path = mb_path / "dboards" / "A" / (dir_str + "_frontends") / ((instance==0)?"A":"B");
//CODEC subtree
_resource_mgr->get_codec_mgr().populate_frontend_subtree(_tree->subtree(rf_fe_path), key, direction);
//User settings
_tree->create<uhd::wb_iface::sptr>(rf_fe_path / "user_settings" / "iface")
.set(perif.user_settings);
//Setup antenna stuff
if (key[0] == 'R') {
static const std::vector<std::string> ants = boost::assign::list_of("TX/RX")("RX2");
_tree->create<std::vector<std::string> >(rf_fe_path / "antenna" / "options")
.set(ants);
_tree->create<std::string>(rf_fe_path / "antenna" / "value")
.add_coerced_subscriber(boost::bind(&n230_frontend_ctrl::set_antenna_sel, _resource_mgr->get_frontend_ctrl_sptr(), instance, _1))
.set("RX2");
}
if (key[0] == 'T') {
static const std::vector<std::string> ants(1, "TX/RX");
_tree->create<std::vector<std::string> >(rf_fe_path / "antenna" / "options")
.set(ants);
_tree->create<std::string>(rf_fe_path / "antenna" / "value")
.set("TX/RX");
}
}
}
void n230_impl::_update_rx_subdev_spec(const uhd::usrp::subdev_spec_t &spec)
{
//sanity checking
if (spec.size()) validate_subdev_spec(_tree, spec, "rx");
UHD_ASSERT_THROW(spec.size() <= fpga::NUM_RADIOS);
if (spec.size() > 0) {
UHD_ASSERT_THROW(spec[0].db_name == "A");
UHD_ASSERT_THROW(spec[0].sd_name == "A");
}
if (spec.size() > 1) {
//TODO we can support swapping at a later date, only this combo is supported
UHD_ASSERT_THROW(spec[1].db_name == "A");
UHD_ASSERT_THROW(spec[1].sd_name == "B");
}
_stream_mgr->update_stream_states();
}
void n230_impl::_update_tx_subdev_spec(const uhd::usrp::subdev_spec_t &spec)
{
//sanity checking
if (spec.size()) validate_subdev_spec(_tree, spec, "tx");
UHD_ASSERT_THROW(spec.size() <= fpga::NUM_RADIOS);
if (spec.size() > 0) {
UHD_ASSERT_THROW(spec[0].db_name == "A");
UHD_ASSERT_THROW(spec[0].sd_name == "A");
}
if (spec.size() > 1) {
//TODO we can support swapping at a later date, only this combo is supported
UHD_ASSERT_THROW(spec[1].db_name == "A");
UHD_ASSERT_THROW(spec[1].sd_name == "B");
}
_stream_mgr->update_stream_states();
}
void n230_impl::_check_time_source(std::string source)
{
if (source == "gpsdo")
{
uhd::gps_ctrl::sptr gps_ctrl = _resource_mgr->get_gps_ctrl();
if (not (gps_ctrl and gps_ctrl->gps_detected()))
throw uhd::runtime_error("GPSDO time source not available");
}
}
void n230_impl::_check_clock_source(std::string source)
{
if (source == "gpsdo")
{
uhd::gps_ctrl::sptr gps_ctrl = _resource_mgr->get_gps_ctrl();
if (not (gps_ctrl and gps_ctrl->gps_detected()))
throw uhd::runtime_error("GPSDO clock source not available");
}
}
}}} //namespace
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