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//
// Copyright 2010 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 "usrp2_impl.hpp"
#include "usrp2_regs.hpp"
#include <uhd/usrp/misc_utils.hpp>
#include <uhd/usrp/dsp_utils.hpp>
#include <uhd/usrp/mboard_props.hpp>
#include <uhd/utils/assert.hpp>
#include <uhd/utils/byteswap.hpp>
#include <uhd/utils/algorithm.hpp>
#include <boost/bind.hpp>
#include <iostream>
#include <boost/date_time/posix_time/posix_time.hpp>
static const double mimo_clock_delay_usrp2_rev4 = 4.18e-9;
static const double mimo_clock_delay_usrp_n2xx = 0; //TODO
static const int mimo_clock_sync_delay_cycles = 134;
using namespace uhd;
using namespace uhd::usrp;
using namespace boost::posix_time;
/***********************************************************************
* Structors
**********************************************************************/
usrp2_mboard_impl::usrp2_mboard_impl(
size_t index,
transport::udp_simple::sptr ctrl_transport,
transport::zero_copy_if::sptr data_transport,
transport::zero_copy_if::sptr err0_transport,
const device_addr_t &device_args,
size_t recv_samps_per_packet
):
_index(index),
_iface(usrp2_iface::make(ctrl_transport))
{
//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.
transport::managed_send_buffer::sptr send_buff;
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))
};
send_buff = data_transport->get_send_buff();
std::memcpy(send_buff->cast<void*>(), &data, sizeof(data));
send_buff->commit(sizeof(data));
send_buff = err0_transport->get_send_buff();
std::memcpy(send_buff->cast<void*>(), &data, sizeof(data));
send_buff->commit(sizeof(data));
//contruct the interfaces to mboard perifs
_clock_ctrl = usrp2_clock_ctrl::make(_iface);
_codec_ctrl = usrp2_codec_ctrl::make(_iface);
//_gps_ctrl = usrp2_gps_ctrl::make(_iface);
//if(_gps_ctrl->gps_detected()) std::cout << "GPS time: " << _gps_ctrl->get_time() << std::endl;
//TODO move to dsp impl...
//load the allowed decim/interp rates
//_USRP2_RATES = range(4, 128+1, 1) + range(130, 256+1, 2) + range(260, 512+1, 4)
_allowed_decim_and_interp_rates.clear();
for (size_t i = 4; i <= 128; i+=1){
_allowed_decim_and_interp_rates.push_back(i);
}
for (size_t i = 130; i <= 256; i+=2){
_allowed_decim_and_interp_rates.push_back(i);
}
for (size_t i = 260; i <= 512; i+=4){
_allowed_decim_and_interp_rates.push_back(i);
}
//setup the vrt rx registers
_iface->poke32(_iface->regs.rx_ctrl_clear_overrun, 1); //reset
_iface->poke32(_iface->regs.rx_ctrl_nsamps_per_pkt, recv_samps_per_packet);
_iface->poke32(_iface->regs.rx_ctrl_nchannels, 1);
_iface->poke32(_iface->regs.rx_ctrl_vrt_header, 0
| (0x1 << 28) //if data with stream id
| (0x1 << 26) //has trailer
| (0x3 << 22) //integer time other
| (0x1 << 20) //fractional time sample count
);
_iface->poke32(_iface->regs.rx_ctrl_vrt_stream_id, usrp2_impl::RECV_SID);
_iface->poke32(_iface->regs.rx_ctrl_vrt_trailer, 0);
_iface->poke32(_iface->regs.time64_tps, size_t(get_master_clock_freq()));
//init the tx control registers
_iface->poke32(_iface->regs.tx_ctrl_clear_state, 1); //reset
_iface->poke32(_iface->regs.tx_ctrl_num_chan, 0); //1 channel
_iface->poke32(_iface->regs.tx_ctrl_report_sid, usrp2_impl::ASYNC_SID);
_iface->poke32(_iface->regs.tx_ctrl_policy, U2_FLAG_TX_CTRL_POLICY_NEXT_PACKET);
//setting the cycles per update (disabled by default)
const double ups_per_sec = device_args.cast<double>("ups_per_sec", 0.0);
if (ups_per_sec > 0.0){
const size_t cycles_per_up = size_t(_clock_ctrl->get_master_clock_rate()/ups_per_sec);
_iface->poke32(_iface->regs.tx_ctrl_cycles_per_up, U2_FLAG_TX_CTRL_UP_ENB | cycles_per_up);
}
//setting the packets per update (enabled by default)
const double ups_per_fifo = device_args.cast<double>("ups_per_fifo", 8.0);
if (ups_per_fifo > 0.0){
const size_t packets_per_up = size_t(usrp2_impl::sram_bytes/ups_per_fifo/data_transport->get_send_frame_size());
_iface->poke32(_iface->regs.tx_ctrl_packets_per_up, U2_FLAG_TX_CTRL_UP_ENB | packets_per_up);
}
//init the ddc
init_ddc_config();
//init the duc
init_duc_config();
//initialize the clock configuration
if (device_args.has_key("mimo_mode")){
if (device_args["mimo_mode"] == "master"){
_mimo_clocking_mode_is_master = true;
}
else if (device_args["mimo_mode"] == "slave"){
_mimo_clocking_mode_is_master = false;
}
else throw std::runtime_error(
"mimo_mode must be set to master or slave"
);
}
else {
_mimo_clocking_mode_is_master = bool(_iface->peek32(_iface->regs.status) & (1 << 8));
}
std::cout << boost::format("mboard%d MIMO %s") % _index %
(_mimo_clocking_mode_is_master?"master":"slave") << std::endl;
init_clock_config();
//init the codec before the dboard
codec_init();
//init the tx and rx dboards (do last)
dboard_init();
//set default subdev specs
(*this)[MBOARD_PROP_RX_SUBDEV_SPEC] = subdev_spec_t();
(*this)[MBOARD_PROP_TX_SUBDEV_SPEC] = subdev_spec_t();
}
usrp2_mboard_impl::~usrp2_mboard_impl(void){
_iface->poke32(_iface->regs.tx_ctrl_cycles_per_up, 0);
_iface->poke32(_iface->regs.tx_ctrl_packets_per_up, 0);
}
/***********************************************************************
* Helper Methods
**********************************************************************/
void usrp2_mboard_impl::init_clock_config(void){
//setup the clock configuration settings
_clock_config.ref_source = clock_config_t::REF_INT;
_clock_config.pps_source = clock_config_t::PPS_SMA;
_clock_config.pps_polarity = clock_config_t::PPS_NEG;
//update the clock config (sends a control packet)
update_clock_config();
}
void usrp2_mboard_impl::update_clock_config(void){
boost::uint32_t pps_flags = 0;
//translate pps source enums
switch(_clock_config.pps_source){
case clock_config_t::PPS_SMA: pps_flags |= U2_FLAG_TIME64_PPS_SMA; break;
default: throw std::runtime_error("unhandled clock configuration pps source");
}
//translate pps polarity enums
switch(_clock_config.pps_polarity){
case clock_config_t::PPS_POS: pps_flags |= U2_FLAG_TIME64_PPS_POSEDGE; break;
case clock_config_t::PPS_NEG: pps_flags |= U2_FLAG_TIME64_PPS_NEGEDGE; break;
default: throw std::runtime_error("unhandled clock configuration pps polarity");
}
//set the pps flags
_iface->poke32(_iface->regs.time64_flags, pps_flags);
//clock source ref 10mhz
switch(_iface->get_rev()){
case usrp2_iface::USRP_N200:
case usrp2_iface::USRP_N210:
switch(_clock_config.ref_source){
case clock_config_t::REF_INT : _iface->poke32(_iface->regs.misc_ctrl_clock, 0x12); break;
case clock_config_t::REF_SMA : _iface->poke32(_iface->regs.misc_ctrl_clock, 0x1C); break;
default: throw std::runtime_error("unhandled clock configuration reference source");
}
_clock_ctrl->enable_external_ref(true); //USRP2P has an internal 10MHz TCXO
break;
case usrp2_iface::USRP2_REV3:
case usrp2_iface::USRP2_REV4:
switch(_clock_config.ref_source){
case clock_config_t::REF_INT : _iface->poke32(_iface->regs.misc_ctrl_clock, 0x10); break;
case clock_config_t::REF_SMA : _iface->poke32(_iface->regs.misc_ctrl_clock, 0x1C); break;
default: throw std::runtime_error("unhandled clock configuration reference source");
}
_clock_ctrl->enable_external_ref(_clock_config.ref_source != clock_config_t::REF_INT);
break;
case usrp2_iface::USRP_NXXX: break;
}
//Handle the serdes clocking based on master/slave mode:
// - Masters always drive the clock over serdes.
// - Slaves always lock to this serdes clock.
// - Slaves lock their time over the serdes.
if (_mimo_clocking_mode_is_master){
_clock_ctrl->enable_mimo_clock_out(true);
switch(_iface->get_rev()){
case usrp2_iface::USRP_N200:
case usrp2_iface::USRP_N210:
_clock_ctrl->set_mimo_clock_delay(mimo_clock_delay_usrp_n2xx);
break;
case usrp2_iface::USRP2_REV4:
_clock_ctrl->set_mimo_clock_delay(mimo_clock_delay_usrp2_rev4);
break;
default: break; //not handled
}
_iface->poke32(_iface->regs.time64_mimo_sync, 0);
}
else{
_iface->poke32(_iface->regs.misc_ctrl_clock, 0x15);
_clock_ctrl->enable_external_ref(true);
_clock_ctrl->enable_mimo_clock_out(false);
_iface->poke32(_iface->regs.time64_mimo_sync,
(1 << 8) | (mimo_clock_sync_delay_cycles & 0xff)
);
}
}
void usrp2_mboard_impl::set_time_spec(const time_spec_t &time_spec, bool now){
//set the ticks
_iface->poke32(_iface->regs.time64_ticks, time_spec.get_tick_count(get_master_clock_freq()));
//set the flags register
boost::uint32_t imm_flags = (now)? U2_FLAG_TIME64_LATCH_NOW : U2_FLAG_TIME64_LATCH_NEXT_PPS;
_iface->poke32(_iface->regs.time64_imm, imm_flags);
//set the seconds (latches in all 3 registers)
_iface->poke32(_iface->regs.time64_secs, boost::uint32_t(time_spec.get_full_secs()));
}
void usrp2_mboard_impl::handle_overflow(void){
if (_continuous_streaming){ //re-issue the stream command if already continuous
this->issue_ddc_stream_cmd(stream_cmd_t::STREAM_MODE_START_CONTINUOUS);
}
}
void usrp2_mboard_impl::issue_ddc_stream_cmd(const stream_cmd_t &stream_cmd){
_continuous_streaming = stream_cmd.stream_mode == stream_cmd_t::STREAM_MODE_START_CONTINUOUS;
_iface->poke32(_iface->regs.rx_ctrl_stream_cmd, dsp_type1::calc_stream_cmd_word(stream_cmd));
_iface->poke32(_iface->regs.rx_ctrl_time_secs, boost::uint32_t(stream_cmd.time_spec.get_full_secs()));
_iface->poke32(_iface->regs.rx_ctrl_time_ticks, stream_cmd.time_spec.get_tick_count(get_master_clock_freq()));
}
/***********************************************************************
* MBoard Get Properties
**********************************************************************/
static const std::string dboard_name = "0";
void usrp2_mboard_impl::get(const wax::obj &key_, wax::obj &val){
named_prop_t key = named_prop_t::extract(key_);
//handle the get request conditioned on the key
switch(key.as<mboard_prop_t>()){
case MBOARD_PROP_NAME:
val = _iface->get_cname() + " mboard";
return;
case MBOARD_PROP_OTHERS:
val = prop_names_t();
return;
case MBOARD_PROP_RX_DBOARD:
UHD_ASSERT_THROW(key.name == dboard_name);
val = _rx_dboard_proxy->get_link();
return;
case MBOARD_PROP_RX_DBOARD_NAMES:
val = prop_names_t(1, dboard_name);
return;
case MBOARD_PROP_TX_DBOARD:
UHD_ASSERT_THROW(key.name == dboard_name);
val = _tx_dboard_proxy->get_link();
return;
case MBOARD_PROP_TX_DBOARD_NAMES:
val = prop_names_t(1, dboard_name);
return;
case MBOARD_PROP_RX_DSP:
UHD_ASSERT_THROW(key.name == "");
val = _rx_dsp_proxy->get_link();
return;
case MBOARD_PROP_RX_DSP_NAMES:
val = prop_names_t(1, "");
return;
case MBOARD_PROP_TX_DSP:
UHD_ASSERT_THROW(key.name == "");
val = _tx_dsp_proxy->get_link();
return;
case MBOARD_PROP_TX_DSP_NAMES:
val = prop_names_t(1, "");
return;
case MBOARD_PROP_CLOCK_CONFIG:
val = _clock_config;
return;
case MBOARD_PROP_TIME_NOW:{
usrp2_iface::pair64 time64(
_iface->peek64(_iface->regs.time64_secs_rb, _iface->regs.time64_ticks_rb)
);
val = time_spec_t(
time64.first, time64.second, get_master_clock_freq()
);
}
return;
case MBOARD_PROP_RX_SUBDEV_SPEC:
val = _rx_subdev_spec;
return;
case MBOARD_PROP_TX_SUBDEV_SPEC:
val = _tx_subdev_spec;
return;
case MBOARD_PROP_EEPROM_MAP:
val = _iface->mb_eeprom;
return;
default: UHD_THROW_PROP_GET_ERROR();
}
}
/***********************************************************************
* MBoard Set Properties
**********************************************************************/
void usrp2_mboard_impl::set(const wax::obj &key, const wax::obj &val){
//handle the set request conditioned on the key
switch(key.as<mboard_prop_t>()){
case MBOARD_PROP_CLOCK_CONFIG:
_clock_config = val.as<clock_config_t>();
update_clock_config();
return;
case MBOARD_PROP_TIME_NOW:
set_time_spec(val.as<time_spec_t>(), true);
return;
case MBOARD_PROP_TIME_NEXT_PPS:
set_time_spec(val.as<time_spec_t>(), false);
return;
case MBOARD_PROP_STREAM_CMD:
issue_ddc_stream_cmd(val.as<stream_cmd_t>());
return;
case MBOARD_PROP_RX_SUBDEV_SPEC:
_rx_subdev_spec = val.as<subdev_spec_t>();
verify_rx_subdev_spec(_rx_subdev_spec, this->get_link());
//sanity check
UHD_ASSERT_THROW(_rx_subdev_spec.size() == 1);
//set the mux
_iface->poke32(_iface->regs.dsp_rx_mux, dsp_type1::calc_rx_mux_word(
_dboard_manager->get_rx_subdev(_rx_subdev_spec.front().sd_name)[SUBDEV_PROP_CONNECTION].as<subdev_conn_t>()
));
return;
case MBOARD_PROP_TX_SUBDEV_SPEC:
_tx_subdev_spec = val.as<subdev_spec_t>();
verify_tx_subdev_spec(_tx_subdev_spec, this->get_link());
//sanity check
UHD_ASSERT_THROW(_tx_subdev_spec.size() == 1);
//set the mux
_iface->poke32(_iface->regs.dsp_tx_mux, dsp_type1::calc_tx_mux_word(
_dboard_manager->get_tx_subdev(_tx_subdev_spec.front().sd_name)[SUBDEV_PROP_CONNECTION].as<subdev_conn_t>()
));
return;
case MBOARD_PROP_EEPROM_MAP:
// Step1: commit the map, writing only those values set.
// Step2: readback the entire eeprom map into the iface.
val.as<mboard_eeprom_t>().commit(*_iface, mboard_eeprom_t::MAP_N100);
_iface->mb_eeprom = mboard_eeprom_t(*_iface, mboard_eeprom_t::MAP_N100);
return;
default: UHD_THROW_PROP_SET_ERROR();
}
}
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