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-rw-r--r--host/lib/usrp/usrp2/usrp2_impl.cpp431
1 files changed, 383 insertions, 48 deletions
diff --git a/host/lib/usrp/usrp2/usrp2_impl.cpp b/host/lib/usrp/usrp2/usrp2_impl.cpp
index aa584ac8b..e00924ebd 100644
--- a/host/lib/usrp/usrp2/usrp2_impl.cpp
+++ b/host/lib/usrp/usrp2/usrp2_impl.cpp
@@ -22,18 +22,18 @@
#include <uhd/exception.hpp>
#include <uhd/transport/if_addrs.hpp>
#include <uhd/transport/udp_zero_copy.hpp>
-#include <uhd/usrp/device_props.hpp>
+#include <uhd/types/ranges.hpp>
#include <uhd/exception.hpp>
#include <uhd/utils/static.hpp>
#include <uhd/utils/byteswap.hpp>
-#include <boost/assign/list_of.hpp>
+#include <uhd/utils/safe_call.hpp>
#include <boost/format.hpp>
#include <boost/foreach.hpp>
#include <boost/lexical_cast.hpp>
#include <boost/bind.hpp>
+#include <boost/assign/list_of.hpp>
#include <boost/asio/ip/address_v4.hpp>
#include <boost/asio.hpp> //used for htonl and ntohl
-#include <vector>
using namespace uhd;
using namespace uhd::usrp;
@@ -227,6 +227,23 @@ static mtu_result_t determine_mtu(const std::string &addr, const mtu_result_t &u
}
/***********************************************************************
+ * Helpers
+ **********************************************************************/
+static void init_xport(zero_copy_if::sptr xport){
+ //Send a small data packet so the usrp2 knows the udp source port.
+ //This setup must happen before further initialization occurs
+ //or the async update packets will cause ICMP destination unreachable.
+ static const boost::uint32_t data[2] = {
+ uhd::htonx(boost::uint32_t(0 /* don't care seq num */)),
+ uhd::htonx(boost::uint32_t(USRP2_INVALID_VRT_HEADER))
+ };
+
+ transport::managed_send_buffer::sptr send_buff = xport->get_send_buff();
+ std::memcpy(send_buff->cast<void*>(), &data, sizeof(data));
+ send_buff->commit(sizeof(data));
+}
+
+/***********************************************************************
* Structors
**********************************************************************/
usrp2_impl::usrp2_impl(const device_addr_t &_device_addr){
@@ -272,67 +289,385 @@ usrp2_impl::usrp2_impl(const device_addr_t &_device_addr){
device_args = separate_device_addr(device_addr); //update args for new frame sizes
- //setup rx otw type
- _rx_otw_type.width = 16;
- _rx_otw_type.shift = 0;
- _rx_otw_type.byteorder = uhd::otw_type_t::BO_BIG_ENDIAN;
+ ////////////////////////////////////////////////////////////////////
+ // create controller objects and initialize the properties tree
+ ////////////////////////////////////////////////////////////////////
+ _tree = property_tree::make();
+ _tree->create<std::string>("/name").set("USRP2 / N-Series Device");
+
+ for (size_t mbi = 0; mbi < device_args.size(); mbi++){
+ const device_addr_t device_args_i = device_args[mbi];
+ const std::string mb = boost::lexical_cast<std::string>(mbi);
+ const std::string addr = device_args_i["addr"];
+ property_tree::path_type mb_path = "/mboards/" + mb;
+
+ ////////////////////////////////////////////////////////////////
+ // construct transports for dsp and async errors
+ ////////////////////////////////////////////////////////////////
+ UHD_LOG << "Making transport for DSP0..." << std::endl;
+ _mbc[mb].dsp_xports.push_back(udp_zero_copy::make(
+ addr, BOOST_STRINGIZE(USRP2_UDP_DSP0_PORT), device_args_i
+ ));
+ init_xport(_mbc[mb].dsp_xports.back());
- //setup tx otw type
- _tx_otw_type.width = 16;
- _tx_otw_type.shift = 0;
- _tx_otw_type.byteorder = uhd::otw_type_t::BO_BIG_ENDIAN;
+ UHD_LOG << "Making transport for DSP1..." << std::endl;
+ _mbc[mb].dsp_xports.push_back(udp_zero_copy::make(
+ addr, BOOST_STRINGIZE(USRP2_UDP_DSP1_PORT), device_args_i
+ ));
+ init_xport(_mbc[mb].dsp_xports.back());
- //!!!!! set the otw type here before continuing, its used below
+ UHD_LOG << "Making transport for ERR0..." << std::endl;
+ _mbc[mb].err_xports.push_back(udp_zero_copy::make(
+ addr, BOOST_STRINGIZE(USRP2_UDP_ERR0_PORT), device_addr_t()
+ ));
+ init_xport(_mbc[mb].err_xports.back());
- //create a new mboard handler for each control transport
- for(size_t i = 0; i < device_args.size(); i++){
- device_addr_t dev_addr_i = device_args[i];
- BOOST_FOREACH(const std::string &key, device_addr.keys()){
- if (dev_addr_i.has_key(key)) continue;
- dev_addr_i[key] = device_addr[key];
+ ////////////////////////////////////////////////////////////////
+ // create the iface that controls i2c, spi, uart, and wb
+ ////////////////////////////////////////////////////////////////
+ _mbc[mb].iface = usrp2_iface::make(udp_simple::make_connected(
+ addr, BOOST_STRINGIZE(USRP2_UDP_CTRL_PORT)
+ ));
+ _tree->create<std::string>(mb_path / "name").set(_mbc[mb].iface->get_cname());
+
+ ////////////////////////////////////////////////////////////////
+ // setup the mboard eeprom
+ ////////////////////////////////////////////////////////////////
+ _tree->create<mboard_eeprom_t>(mb_path / "eeprom")
+ .set(_mbc[mb].iface->mb_eeprom)
+ .subscribe(boost::bind(&usrp2_impl::set_mb_eeprom, this, mb, _1));
+
+ ////////////////////////////////////////////////////////////////
+ // create clock control objects
+ ////////////////////////////////////////////////////////////////
+ _mbc[mb].clock = usrp2_clock_ctrl::make(_mbc[mb].iface);
+ _tree->create<double>(mb_path / "tick_rate")
+ .publish(boost::bind(&usrp2_clock_ctrl::get_master_clock_rate, _mbc[mb].clock))
+ .subscribe(boost::bind(&usrp2_impl::update_tick_rate, this, _1));
+
+ ////////////////////////////////////////////////////////////////
+ // create codec control objects
+ ////////////////////////////////////////////////////////////////
+ property_tree::path_type rx_codec_path = mb_path / "rx_codecs/A";
+ property_tree::path_type tx_codec_path = mb_path / "tx_codecs/A";
+ _tree->create<int>(rx_codec_path / "gains"); //phony property so this dir exists
+ _tree->create<int>(tx_codec_path / "gains"); //phony property so this dir exists
+ _mbc[mb].codec = usrp2_codec_ctrl::make(_mbc[mb].iface);
+ switch(_mbc[mb].iface->get_rev()){
+ case usrp2_iface::USRP_N200:
+ case usrp2_iface::USRP_N210:
+ case usrp2_iface::USRP_N200_R4:
+ case usrp2_iface::USRP_N210_R4:{
+ _tree->create<std::string>(rx_codec_path / "name").set("ads62p44");
+ _tree->create<meta_range_t>(rx_codec_path / "gains/digital/range").set(meta_range_t(0, 6.0, 0.5));
+ _tree->create<double>(rx_codec_path / "gains/digital/value")
+ .subscribe(boost::bind(&usrp2_codec_ctrl::set_rx_digital_gain, _mbc[mb].codec, _1)).set(0);
+ _tree->create<meta_range_t>(rx_codec_path / "gains/fine/range").set(meta_range_t(0, 0.5, 0.05));
+ _tree->create<double>(rx_codec_path / "gains/fine/value")
+ .subscribe(boost::bind(&usrp2_codec_ctrl::set_rx_digital_fine_gain, _mbc[mb].codec, _1)).set(0);
+ }break;
+
+ case usrp2_iface::USRP2_REV3:
+ case usrp2_iface::USRP2_REV4:
+ _tree->create<std::string>(rx_codec_path / "name").set("ltc2284");
+ break;
+
+ case usrp2_iface::USRP_NXXX:
+ _tree->create<std::string>(rx_codec_path / "name").set("??????");
+ break;
+ }
+ _tree->create<std::string>(tx_codec_path / "name").set("ad9777");
+
+ ////////////////////////////////////////////////////////////////
+ // create gpsdo control objects
+ ////////////////////////////////////////////////////////////////
+ if (_mbc[mb].iface->mb_eeprom["gpsdo"] == "internal"){
+ _mbc[mb].gps = gps_ctrl::make(
+ _mbc[mb].iface->get_gps_write_fn(),
+ _mbc[mb].iface->get_gps_read_fn()
+ );
+ BOOST_FOREACH(const std::string &name, _mbc[mb].gps->get_sensors()){
+ _tree->create<sensor_value_t>(mb_path / "sensors" / name)
+ .publish(boost::bind(&gps_ctrl::get_sensor, _mbc[mb].gps, name));
+ }
}
- _mboards.push_back(usrp2_mboard_impl::sptr(
- new usrp2_mboard_impl(dev_addr_i, i, *this)
+
+ ////////////////////////////////////////////////////////////////
+ // and do the misc mboard sensors
+ ////////////////////////////////////////////////////////////////
+ _tree->create<sensor_value_t>(mb_path / "sensors/mimo_locked")
+ .publish(boost::bind(&usrp2_impl::get_mimo_locked, this, mb));
+ _tree->create<sensor_value_t>(mb_path / "sensors/ref_locked")
+ .publish(boost::bind(&usrp2_impl::get_ref_locked, this, mb));
+
+ ////////////////////////////////////////////////////////////////
+ // create frontend control objects
+ ////////////////////////////////////////////////////////////////
+ _mbc[mb].rx_fe = rx_frontend_core_200::make(
+ _mbc[mb].iface, U2_REG_SR_ADDR(SR_RX_FRONT)
+ );
+ _mbc[mb].tx_fe = tx_frontend_core_200::make(
+ _mbc[mb].iface, U2_REG_SR_ADDR(SR_TX_FRONT)
+ );
+ //TODO lots of properties to expose here for frontends
+ _tree->create<subdev_spec_t>(mb_path / "rx_subdev_spec")
+ .subscribe(boost::bind(&usrp2_impl::update_rx_subdev_spec, this, mb, _1));
+ _tree->create<subdev_spec_t>(mb_path / "tx_subdev_spec")
+ .subscribe(boost::bind(&usrp2_impl::update_tx_subdev_spec, this, mb, _1));
+
+ ////////////////////////////////////////////////////////////////
+ // create rx dsp control objects
+ ////////////////////////////////////////////////////////////////
+ _mbc[mb].rx_dsps.push_back(rx_dsp_core_200::make(
+ _mbc[mb].iface, U2_REG_SR_ADDR(SR_RX_DSP0), U2_REG_SR_ADDR(SR_RX_CTRL0), USRP2_RX_SID_BASE + 0, true
+ ));
+ _mbc[mb].rx_dsps.push_back(rx_dsp_core_200::make(
+ _mbc[mb].iface, U2_REG_SR_ADDR(SR_RX_DSP1), U2_REG_SR_ADDR(SR_RX_CTRL1), USRP2_RX_SID_BASE + 1, true
));
- //use an empty name when there is only one mboard
- std::string name = (device_args.size() > 1)? boost::lexical_cast<std::string>(i) : "";
- _mboard_dict[name] = _mboards.back();
+ for (size_t dspno = 0; dspno < _mbc[mb].rx_dsps.size(); dspno++){
+ _tree->access<double>(mb_path / "tick_rate")
+ .subscribe(boost::bind(&rx_dsp_core_200::set_tick_rate, _mbc[mb].rx_dsps[dspno], _1));
+ //This is a hack/fix for the lingering packet problem.
+ //The dsp core starts streaming briefly... now we flush
+ _mbc[mb].dsp_xports[dspno]->get_recv_buff(0.01).get(); //recv with timeout for lingering
+ _mbc[mb].dsp_xports[dspno]->get_recv_buff(0.01).get(); //recv with timeout for expected
+ property_tree::path_type rx_dsp_path = mb_path / str(boost::format("rx_dsps/%u") % dspno);
+ _tree->create<double>(rx_dsp_path / "rate/value")
+ .coerce(boost::bind(&rx_dsp_core_200::set_host_rate, _mbc[mb].rx_dsps[dspno], _1))
+ .subscribe(boost::bind(&usrp2_impl::update_rx_samp_rate, this, _1));
+ _tree->create<double>(rx_dsp_path / "freq/value")
+ .coerce(boost::bind(&rx_dsp_core_200::set_freq, _mbc[mb].rx_dsps[dspno], _1));
+ _tree->create<meta_range_t>(rx_dsp_path / "freq/range")
+ .publish(boost::bind(&rx_dsp_core_200::get_freq_range, _mbc[mb].rx_dsps[dspno]));
+ _tree->create<stream_cmd_t>(rx_dsp_path / "stream_cmd")
+ .subscribe(boost::bind(&rx_dsp_core_200::issue_stream_command, _mbc[mb].rx_dsps[dspno], _1));
+ }
+
+ ////////////////////////////////////////////////////////////////
+ // create tx dsp control objects
+ ////////////////////////////////////////////////////////////////
+ _mbc[mb].tx_dsp = tx_dsp_core_200::make(
+ _mbc[mb].iface, U2_REG_SR_ADDR(SR_TX_DSP), U2_REG_SR_ADDR(SR_TX_CTRL), USRP2_TX_ASYNC_SID
+ );
+ _tree->access<double>(mb_path / "tick_rate")
+ .subscribe(boost::bind(&tx_dsp_core_200::set_tick_rate, _mbc[mb].tx_dsp, _1));
+ _tree->create<double>(mb_path / "tx_dsps/0/rate/value")
+ .coerce(boost::bind(&tx_dsp_core_200::set_host_rate, _mbc[mb].tx_dsp, _1))
+ .subscribe(boost::bind(&usrp2_impl::update_tx_samp_rate, this, _1));
+ _tree->create<double>(mb_path / "tx_dsps/0/freq/value")
+ .coerce(boost::bind(&usrp2_impl::set_tx_dsp_freq, this, mb, _1));
+ _tree->create<meta_range_t>(mb_path / "tx_dsps/0/freq/range")
+ .publish(boost::bind(&usrp2_impl::get_tx_dsp_freq_range, this, mb));
+
+ //setup dsp flow control
+ const double ups_per_sec = device_args_i.cast<double>("ups_per_sec", 20);
+ const size_t send_frame_size = _mbc[mb].dsp_xports.front()->get_send_frame_size();
+ const double ups_per_fifo = device_args_i.cast<double>("ups_per_fifo", 8.0);
+ _mbc[mb].tx_dsp->set_updates(
+ (ups_per_sec > 0.0)? size_t(100e6/*approx tick rate*//ups_per_sec) : 0,
+ (ups_per_fifo > 0.0)? size_t(USRP2_SRAM_BYTES/ups_per_fifo/send_frame_size) : 0
+ );
+
+ ////////////////////////////////////////////////////////////////
+ // create time control objects
+ ////////////////////////////////////////////////////////////////
+ time64_core_200::readback_bases_type time64_rb_bases;
+ time64_rb_bases.rb_secs_imm = U2_REG_TIME64_SECS_RB_IMM;
+ time64_rb_bases.rb_ticks_imm = U2_REG_TIME64_TICKS_RB_IMM;
+ time64_rb_bases.rb_secs_pps = U2_REG_TIME64_SECS_RB_PPS;
+ time64_rb_bases.rb_ticks_pps = U2_REG_TIME64_TICKS_RB_PPS;
+ _mbc[mb].time64 = time64_core_200::make(
+ _mbc[mb].iface, U2_REG_SR_ADDR(SR_TIME64), time64_rb_bases, mimo_clock_sync_delay_cycles
+ );
+ _tree->access<double>(mb_path / "tick_rate")
+ .subscribe(boost::bind(&time64_core_200::set_tick_rate, _mbc[mb].time64, _1));
+ _tree->create<time_spec_t>(mb_path / "time/now")
+ .publish(boost::bind(&time64_core_200::get_time_now, _mbc[mb].time64))
+ .subscribe(boost::bind(&time64_core_200::set_time_now, _mbc[mb].time64, _1));
+ _tree->create<time_spec_t>(mb_path / "time/pps")
+ .publish(boost::bind(&time64_core_200::get_time_last_pps, _mbc[mb].time64))
+ .subscribe(boost::bind(&time64_core_200::set_time_next_pps, _mbc[mb].time64, _1));
+ //setup time source props
+ _tree->create<std::string>(mb_path / "time_source/value")
+ .subscribe(boost::bind(&time64_core_200::set_time_source, _mbc[mb].time64, _1));
+ _tree->create<std::vector<std::string> >(mb_path / "time_source/options")
+ .publish(boost::bind(&time64_core_200::get_time_sources, _mbc[mb].time64));
+ //setup reference source props
+ _tree->create<std::string>(mb_path / "ref_source/value")
+ .subscribe(boost::bind(&usrp2_impl::update_ref_source, this, mb, _1));
+ static const std::vector<std::string> ref_sources = boost::assign::list_of("internal")("sma")("mimo");
+ _tree->create<std::vector<std::string> >(mb_path / "ref_source/options").set(ref_sources);
+
+ ////////////////////////////////////////////////////////////////
+ // create dboard control objects
+ ////////////////////////////////////////////////////////////////
+
+ //read the dboard eeprom to extract the dboard ids
+ dboard_eeprom_t rx_db_eeprom, tx_db_eeprom, gdb_eeprom;
+ rx_db_eeprom.load(*_mbc[mb].iface, USRP2_I2C_ADDR_RX_DB);
+ tx_db_eeprom.load(*_mbc[mb].iface, USRP2_I2C_ADDR_TX_DB);
+ gdb_eeprom.load(*_mbc[mb].iface, USRP2_I2C_ADDR_TX_DB ^ 5);
+
+ //create the properties and register subscribers
+ _tree->create<dboard_eeprom_t>(mb_path / "dboards/A/rx_eeprom")
+ .set(rx_db_eeprom)
+ .subscribe(boost::bind(&usrp2_impl::set_db_eeprom, this, mb, "rx", _1));
+ _tree->create<dboard_eeprom_t>(mb_path / "dboards/A/tx_eeprom")
+ .set(tx_db_eeprom)
+ .subscribe(boost::bind(&usrp2_impl::set_db_eeprom, this, mb, "tx", _1));
+ _tree->create<dboard_eeprom_t>(mb_path / "dboards/A/gdb_eeprom")
+ .set(gdb_eeprom)
+ .subscribe(boost::bind(&usrp2_impl::set_db_eeprom, this, mb, "gdb", _1));
+
+ //create a new dboard interface and manager
+ _mbc[mb].dboard_iface = make_usrp2_dboard_iface(_mbc[mb].iface, _mbc[mb].clock);
+ _tree->create<dboard_iface::sptr>(mb_path / "dboards/A/iface").set(_mbc[mb].dboard_iface);
+ _mbc[mb].dboard_manager = dboard_manager::make(
+ rx_db_eeprom.id,
+ ((gdb_eeprom.id == dboard_id_t::none())? tx_db_eeprom : gdb_eeprom).id,
+ _mbc[mb].dboard_iface
+ );
+ BOOST_FOREACH(const std::string &name, _mbc[mb].dboard_manager->get_rx_subdev_names()){
+ dboard_manager::populate_prop_tree_from_subdev(
+ _tree, mb_path / "dboards/A/rx_frontends" / name,
+ _mbc[mb].dboard_manager->get_rx_subdev(name)
+ );
+ }
+ BOOST_FOREACH(const std::string &name, _mbc[mb].dboard_manager->get_tx_subdev_names()){
+ dboard_manager::populate_prop_tree_from_subdev(
+ _tree, mb_path / "dboards/A/tx_frontends" / name,
+ _mbc[mb].dboard_manager->get_tx_subdev(name)
+ );
+ }
}
- //init the send and recv io
- io_init();
+ //initialize io handling
+ this->io_init();
+
+ //do some post-init tasks
+ BOOST_FOREACH(const std::string &mb, _mbc.keys()){
+ property_tree::path_type root = "/mboards/" + mb;
+ _tree->access<double>(root / "tick_rate").update();
+
+ //and now that the tick rate is set, init the host rates to something
+ BOOST_FOREACH(const std::string &name, _tree->list(root / "rx_dsps")){
+ _tree->access<double>(root / "rx_dsps" / name / "rate" / "value").set(1e6);
+ }
+ BOOST_FOREACH(const std::string &name, _tree->list(root / "tx_dsps")){
+ _tree->access<double>(root / "tx_dsps" / name / "rate" / "value").set(1e6);
+ }
+
+ _tree->access<subdev_spec_t>(root / "rx_subdev_spec").set(subdev_spec_t("A:"+_mbc[mb].dboard_manager->get_rx_subdev_names()[0]));
+ _tree->access<subdev_spec_t>(root / "tx_subdev_spec").set(subdev_spec_t("A:"+_mbc[mb].dboard_manager->get_tx_subdev_names()[0]));
+ _tree->access<std::string>(root / "ref_source/value").set("internal");
+ _tree->access<std::string>(root / "time_source/value").set("none");
+
+ //GPS installed: use external ref, time, and init time spec
+ if (_mbc[mb].gps.get() != NULL){
+ _tree->access<std::string>(root / "time_source/value").set("sma");
+ _tree->access<std::string>(root / "ref_source/value").set("sma");
+ _mbc[mb].time64->set_time_next_pps(time_spec_t(time_t(_mbc[mb].gps->get_sensor("gps_time").to_int()+1)));
+ }
+ }
}
-usrp2_impl::~usrp2_impl(void){
- /* NOP */
+usrp2_impl::~usrp2_impl(void){UHD_SAFE_CALL(
+ BOOST_FOREACH(const std::string &mb, _mbc.keys()){
+ _mbc[mb].tx_dsp->set_updates(0, 0);
+ }
+)}
+
+void usrp2_impl::set_mb_eeprom(const std::string &mb, const uhd::usrp::mboard_eeprom_t &mb_eeprom){
+ mb_eeprom.commit(*(_mbc[mb].iface), mboard_eeprom_t::MAP_N100);
}
-/***********************************************************************
- * Device Properties
- **********************************************************************/
-void usrp2_impl::get(const wax::obj &key_, wax::obj &val){
- named_prop_t key = named_prop_t::extract(key_);
+void usrp2_impl::set_db_eeprom(const std::string &mb, const std::string &type, const uhd::usrp::dboard_eeprom_t &db_eeprom){
+ if (type == "rx") db_eeprom.store(*_mbc[mb].iface, USRP2_I2C_ADDR_RX_DB);
+ if (type == "tx") db_eeprom.store(*_mbc[mb].iface, USRP2_I2C_ADDR_TX_DB);
+ if (type == "gdb") db_eeprom.store(*_mbc[mb].iface, USRP2_I2C_ADDR_TX_DB ^ 5);
+}
- //handle the get request conditioned on the key
- switch(key.as<device_prop_t>()){
- case DEVICE_PROP_NAME:
- if (_mboards.size() > 1) val = std::string("USRP2/N Series multi-device");
- else val = std::string("USRP2/N Series device");
- return;
+sensor_value_t usrp2_impl::get_mimo_locked(const std::string &mb){
+ const bool lock = (_mbc[mb].iface->peek32(U2_REG_IRQ_RB) & (1<<10)) != 0;
+ return sensor_value_t("MIMO", lock, "locked", "unlocked");
+}
- case DEVICE_PROP_MBOARD:
- val = _mboard_dict[key.name]->get_link();
- return;
+sensor_value_t usrp2_impl::get_ref_locked(const std::string &mb){
+ const bool lock = (_mbc[mb].iface->peek32(U2_REG_IRQ_RB) & (1<<11)) != 0;
+ return sensor_value_t("Ref", lock, "locked", "unlocked");
+}
- case DEVICE_PROP_MBOARD_NAMES:
- val = prop_names_t(_mboard_dict.keys());
- return;
+#include <boost/math/special_functions/round.hpp>
+#include <boost/math/special_functions/sign.hpp>
- default: UHD_THROW_PROP_GET_ERROR();
- }
+double usrp2_impl::set_tx_dsp_freq(const std::string &mb, const double freq_){
+ double new_freq = freq_;
+ const double tick_rate = _tree->access<double>("/mboards/"+mb+"/tick_rate").get();
+
+ //calculate the DAC shift (multiples of rate)
+ const int sign = boost::math::sign(new_freq);
+ const int zone = std::min(boost::math::iround(new_freq/tick_rate), 2);
+ const double dac_shift = sign*zone*tick_rate;
+ new_freq -= dac_shift; //update FPGA DSP target freq
+
+ //set the DAC shift (modulation mode)
+ if (zone == 0) _mbc[mb].codec->set_tx_mod_mode(0); //no shift
+ else _mbc[mb].codec->set_tx_mod_mode(sign*4/zone); //DAC interp = 4
+
+ return _mbc[mb].tx_dsp->set_freq(new_freq) + dac_shift; //actual freq
}
-void usrp2_impl::set(const wax::obj &, const wax::obj &){
- UHD_THROW_PROP_SET_ERROR();
+meta_range_t usrp2_impl::get_tx_dsp_freq_range(const std::string &mb){
+ const double tick_rate = _tree->access<double>("/mboards/"+mb+"/tick_rate").get();
+ const meta_range_t dsp_range = _mbc[mb].tx_dsp->get_freq_range();
+ return meta_range_t(dsp_range.start() - tick_rate*2, dsp_range.stop() + tick_rate*2, dsp_range.step());
+}
+
+void usrp2_impl::update_ref_source(const std::string &mb, const std::string &source){
+ //clock source ref 10mhz
+ switch(_mbc[mb].iface->get_rev()){
+ case usrp2_iface::USRP_N200:
+ case usrp2_iface::USRP_N210:
+ case usrp2_iface::USRP_N200_R4:
+ case usrp2_iface::USRP_N210_R4:
+ if (source == "internal") _mbc[mb].iface->poke32(U2_REG_MISC_CTRL_CLOCK, 0x12);
+ else if (source == "sma") _mbc[mb].iface->poke32(U2_REG_MISC_CTRL_CLOCK, 0x1C);
+ else if (source == "mimo") _mbc[mb].iface->poke32(U2_REG_MISC_CTRL_CLOCK, 0x15);
+ else throw uhd::value_error("unhandled clock configuration reference source: " + source);
+ _mbc[mb].clock->enable_external_ref(true); //USRP2P has an internal 10MHz TCXO
+ break;
+
+ case usrp2_iface::USRP2_REV3:
+ case usrp2_iface::USRP2_REV4:
+ if (source == "internal") _mbc[mb].iface->poke32(U2_REG_MISC_CTRL_CLOCK, 0x10);
+ else if (source == "sma") _mbc[mb].iface->poke32(U2_REG_MISC_CTRL_CLOCK, 0x1C);
+ else if (source == "mimo") _mbc[mb].iface->poke32(U2_REG_MISC_CTRL_CLOCK, 0x15);
+ else throw uhd::value_error("unhandled clock configuration reference source: " + source);
+ _mbc[mb].clock->enable_external_ref(source != "internal");
+ break;
+
+ case usrp2_iface::USRP_NXXX: break;
+ }
+
+ //always drive the clock over serdes if not locking to it
+ _mbc[mb].clock->enable_mimo_clock_out(source != "mimo");
+
+ //set the mimo clock delay over the serdes
+ if (source != "mimo"){
+ switch(_mbc[mb].iface->get_rev()){
+ case usrp2_iface::USRP_N200:
+ case usrp2_iface::USRP_N210:
+ case usrp2_iface::USRP_N200_R4:
+ case usrp2_iface::USRP_N210_R4:
+ _mbc[mb].clock->set_mimo_clock_delay(mimo_clock_delay_usrp_n2xx);
+ break;
+
+ case usrp2_iface::USRP2_REV4:
+ _mbc[mb].clock->set_mimo_clock_delay(mimo_clock_delay_usrp2_rev4);
+ break;
+
+ default: break; //not handled
+ }
+ }
}