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//
// Copyright 2012-2015 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 "b200_regs.hpp"
#include "b200_impl.hpp"
#include "validate_subdev_spec.hpp"
#include "../../transport/super_recv_packet_handler.hpp"
#include "../../transport/super_send_packet_handler.hpp"
#include "async_packet_handler.hpp"
#include <uhd/utils/math.hpp>
#include <boost/bind.hpp>
#include <boost/make_shared.hpp>
#include <boost/math/common_factor.hpp>
#include <set>
using namespace uhd;
using namespace uhd::usrp;
using namespace uhd::transport;
/***********************************************************************
* update streamer rates
**********************************************************************/
void b200_impl::check_tick_rate_with_current_streamers(double rate)
{
// Defined in b200_impl.cpp
enforce_tick_rate_limits(max_chan_count("RX"), rate, "RX");
enforce_tick_rate_limits(max_chan_count("TX"), rate, "TX");
}
// direction can either be "TX", "RX", or empty (default)
size_t b200_impl::max_chan_count(const std::string &direction /* = "" */)
{
size_t max_count = 0;
BOOST_FOREACH(radio_perifs_t &perif, _radio_perifs)
{
if ((direction == "RX" or direction.empty()) and not perif.rx_streamer.expired()) {
boost::shared_ptr<sph::recv_packet_streamer> rx_streamer =
boost::dynamic_pointer_cast<sph::recv_packet_streamer>(perif.rx_streamer.lock());
max_count = std::max(max_count, rx_streamer->get_num_channels());
}
if ((direction == "TX" or direction.empty()) and not perif.tx_streamer.expired()) {
boost::shared_ptr<sph::send_packet_streamer> tx_streamer =
boost::dynamic_pointer_cast<sph::send_packet_streamer>(perif.tx_streamer.lock());
max_count = std::max(max_count, tx_streamer->get_num_channels());
}
}
return max_count;
}
void b200_impl::check_streamer_args(const uhd::stream_args_t &args, double tick_rate, const std::string &direction /*= ""*/)
{
std::set<size_t> chans_set;
for (size_t stream_i = 0; stream_i < args.channels.size(); stream_i++)
{
const size_t chan = args.channels[stream_i];
chans_set.insert(chan);
}
enforce_tick_rate_limits(chans_set.size(), tick_rate, direction); // Defined in b200_impl.cpp
}
void b200_impl::set_auto_tick_rate(
const double rate,
const fs_path &tree_dsp_path,
size_t num_chans
) {
if (num_chans == 0) { // Divine them
num_chans = std::max(size_t(1), max_chan_count());
}
const double max_tick_rate = ad9361_device_t::AD9361_MAX_CLOCK_RATE/num_chans;
using namespace uhd::math;
if (rate != 0.0 and
(fp_compare::fp_compare_delta<double>(rate, FREQ_COMPARISON_DELTA_HZ) > max_tick_rate)) {
throw uhd::value_error(str(
boost::format("Requested sampling rate (%.2f Msps) exceeds maximum tick rate of %.2f MHz.")
% (rate / 1e6) % (max_tick_rate / 1e6)
));
}
// See also the doxygen documentation for these steps in b200_impl.hpp
// Step 1: Obtain LCM and max rate from all relevant dsps
boost::uint32_t lcm_rate = (rate == 0) ? 1 : static_cast<boost::uint32_t>(floor(rate + 0.5));
for (int i = 0; i < 2; i++) { // Loop through rx and tx
std::string dir = (i == 0) ? "tx" : "rx";
// We assume all 'set' DSPs are being used.
BOOST_FOREACH(const std::string &dsp_no, _tree->list(str(boost::format("/mboards/0/%s_dsps") % dir))) {
fs_path dsp_path = str(boost::format("/mboards/0/%s_dsps/%s") % dir % dsp_no);
if (dsp_path == tree_dsp_path) {
continue;
}
if (not _tree->access<bool>(dsp_path / "rate/set").get()) {
continue;
}
double this_dsp_rate = _tree->access<double>(dsp_path / "rate/value").get();
// Check if the user selected something completely unreasonable:
if (fp_compare::fp_compare_delta<double>(this_dsp_rate, FREQ_COMPARISON_DELTA_HZ) > max_tick_rate) {
throw uhd::value_error(str(
boost::format("Requested sampling rate (%.2f Msps) exceeds maximum tick rate of %.2f MHz.")
% (this_dsp_rate / 1e6) % (max_tick_rate / 1e6)
));
}
// Clean up floating point rounding errors if they crept in
this_dsp_rate = std::min(max_tick_rate, this_dsp_rate);
lcm_rate = boost::math::lcm<boost::uint32_t>(
lcm_rate,
static_cast<boost::uint32_t>(floor(this_dsp_rate + 0.5))
);
}
}
if (lcm_rate == 1) {
// In this case, no one has ever set a sampling rate.
return;
}
double base_rate = static_cast<double>(lcm_rate);
try {
// Step 2: Get a good tick rate value
const double new_rate = _codec_mgr->get_auto_tick_rate(base_rate, num_chans);
// Step 3: Set the new tick rate value (if any change)
if (!uhd::math::frequencies_are_equal(_tree->access<double>("/mboards/0/tick_rate").get(), new_rate)) {
_tree->access<double>("/mboards/0/tick_rate").set(new_rate);
}
} catch (const uhd::value_error &) {
UHD_MSG(warning)
<< "Cannot automatically determine an appropriate tick rate for these sampling rates." << std::endl
<< "Consider using different sampling rates, or manually specify a suitable master clock rate." << std::endl;
return; // Let the others handle this
}
}
void b200_impl::update_tick_rate(const double new_tick_rate)
{
check_tick_rate_with_current_streamers(new_tick_rate);
BOOST_FOREACH(radio_perifs_t &perif, _radio_perifs)
{
boost::shared_ptr<sph::recv_packet_streamer> my_streamer =
boost::dynamic_pointer_cast<sph::recv_packet_streamer>(perif.rx_streamer.lock());
if (my_streamer) my_streamer->set_tick_rate(new_tick_rate);
perif.framer->set_tick_rate(new_tick_rate);
}
BOOST_FOREACH(radio_perifs_t &perif, _radio_perifs)
{
boost::shared_ptr<sph::send_packet_streamer> my_streamer =
boost::dynamic_pointer_cast<sph::send_packet_streamer>(perif.tx_streamer.lock());
if (my_streamer) my_streamer->set_tick_rate(new_tick_rate);
perif.deframer->set_tick_rate(new_tick_rate);
}
}
void b200_impl::update_rx_dsp_tick_rate(const double tick_rate, rx_dsp_core_3000::sptr ddc, uhd::fs_path rx_dsp_path)
{
ddc->set_tick_rate(tick_rate);
if (_tree->access<bool>(rx_dsp_path / "rate" / "set").get()) {
ddc->set_host_rate(_tree->access<double>(rx_dsp_path / "rate" / "value").get());
}
}
void b200_impl::update_tx_dsp_tick_rate(const double tick_rate, tx_dsp_core_3000::sptr duc, uhd::fs_path tx_dsp_path)
{
duc->set_tick_rate(tick_rate);
if (_tree->access<bool>(tx_dsp_path / "rate" / "set").get()) {
duc->set_host_rate(_tree->access<double>(tx_dsp_path / "rate" / "value").get());
}
}
#define CHECK_RATE_AND_THROW(rate) \
if (uhd::math::fp_compare::fp_compare_delta<double>(rate, uhd::math::FREQ_COMPARISON_DELTA_HZ) > \
uhd::math::fp_compare::fp_compare_delta<double>(ad9361_device_t::AD9361_MAX_CLOCK_RATE, uhd::math::FREQ_COMPARISON_DELTA_HZ)) { \
throw uhd::value_error(str( \
boost::format("Requested sampling rate (%.2f Msps) exceeds maximum tick rate.") \
% (rate / 1e6) \
)); \
}
double b200_impl::coerce_rx_samp_rate(rx_dsp_core_3000::sptr ddc, size_t dspno, const double rx_rate)
{
// Have to set tick rate first, or the ddc will change the requested rate based on default tick rate
if (_tree->access<bool>("/mboards/0/auto_tick_rate").get()) {
CHECK_RATE_AND_THROW(rx_rate);
const std::string dsp_path = (boost::format("/mboards/0/rx_dsps/%s") % dspno).str();
set_auto_tick_rate(rx_rate, dsp_path);
}
return ddc->set_host_rate(rx_rate);
}
void b200_impl::update_rx_samp_rate(const size_t dspno, const double rate)
{
boost::shared_ptr<sph::recv_packet_streamer> my_streamer =
boost::dynamic_pointer_cast<sph::recv_packet_streamer>(_radio_perifs[dspno].rx_streamer.lock());
if (not my_streamer) return;
my_streamer->set_samp_rate(rate);
const double adj = _radio_perifs[dspno].ddc->get_scaling_adjustment();
my_streamer->set_scale_factor(adj);
_codec_mgr->check_bandwidth(rate, "Rx");
}
double b200_impl::coerce_tx_samp_rate(tx_dsp_core_3000::sptr duc, size_t dspno, const double tx_rate)
{
// Have to set tick rate first, or the duc will change the requested rate based on default tick rate
if (_tree->access<bool>("/mboards/0/auto_tick_rate").get()) {
CHECK_RATE_AND_THROW(tx_rate);
const std::string dsp_path = (boost::format("/mboards/0/tx_dsps/%s") % dspno).str();
set_auto_tick_rate(tx_rate, dsp_path);
}
return duc->set_host_rate(tx_rate);
}
void b200_impl::update_tx_samp_rate(const size_t dspno, const double rate)
{
boost::shared_ptr<sph::send_packet_streamer> my_streamer =
boost::dynamic_pointer_cast<sph::send_packet_streamer>(_radio_perifs[dspno].tx_streamer.lock());
if (not my_streamer) return;
my_streamer->set_samp_rate(rate);
const double adj = _radio_perifs[dspno].duc->get_scaling_adjustment();
my_streamer->set_scale_factor(adj);
_codec_mgr->check_bandwidth(rate, "Tx");
}
/***********************************************************************
* frontend selection
**********************************************************************/
uhd::usrp::subdev_spec_t b200_impl::coerce_subdev_spec(const uhd::usrp::subdev_spec_t &spec_)
{
uhd::usrp::subdev_spec_t spec = spec_;
// Because of the confusing nature of the subdevs on B200
// with different revs, we provide a convenience override,
// where both A:A and A:B are mapped to A:A.
//
// Any other spec is probably illegal and will be caught by
// validate_subdev_spec().
if (spec.size() and (_product == B200 or _product == B200MINI or _product == B205MINI) and spec[0].sd_name == "B")
{
spec[0].sd_name = "A";
}
return spec;
}
void b200_impl::update_subdev_spec(const std::string &tx_rx, const uhd::usrp::subdev_spec_t &spec)
{
//sanity checking
if (spec.size()) {
validate_subdev_spec(_tree, spec, tx_rx);
}
std::vector<size_t> chan_to_dsp_map(spec.size(), 0);
for (size_t i = 0; i < spec.size(); i++) {
chan_to_dsp_map[i] = (spec[i].sd_name == "A") ? 0 : 1;
}
_tree->access<std::vector<size_t> >("/mboards/0" / (tx_rx + "_chan_dsp_mapping")).set(chan_to_dsp_map);
this->update_enables();
}
static void b200_if_hdr_unpack_le(
const boost::uint32_t *packet_buff,
vrt::if_packet_info_t &if_packet_info
){
if_packet_info.link_type = vrt::if_packet_info_t::LINK_TYPE_CHDR;
return vrt::if_hdr_unpack_le(packet_buff, if_packet_info);
}
static void b200_if_hdr_pack_le(
boost::uint32_t *packet_buff,
vrt::if_packet_info_t &if_packet_info
){
if_packet_info.link_type = vrt::if_packet_info_t::LINK_TYPE_CHDR;
return vrt::if_hdr_pack_le(packet_buff, if_packet_info);
}
/***********************************************************************
* Async Data
**********************************************************************/
bool b200_impl::recv_async_msg(
async_metadata_t &async_metadata, double timeout
){
return _async_task_data->async_md->pop_with_timed_wait(async_metadata, timeout);
}
/*
* This method is constantly called in a msg_task loop.
* Incoming messages are dispatched in to the hosts radio_ctrl_cores.
* The radio_ctrl_core queues are accessed via a weak_ptr to them, stored in AsyncTaskData.
* During shutdown the radio_ctrl_core dtor's are called.
* An empty peek32(0) is sent out to flush pending async messages.
* The response to those messages can't be delivered to the ctrl_core queues anymore
* because the shared pointer corresponding to the weak_ptrs is no longer valid.
* Those stranded messages are put into a dump_queue implemented in msg_task.
* A radio_ctrl_core can search for missing messages there.
*/
boost::optional<uhd::msg_task::msg_type_t> b200_impl::handle_async_task(
uhd::transport::zero_copy_if::sptr xport,
boost::shared_ptr<AsyncTaskData> data
)
{
managed_recv_buffer::sptr buff = xport->get_recv_buff();
if (not buff or buff->size() < 8)
return boost::none;
const boost::uint32_t sid = uhd::wtohx(buff->cast<const boost::uint32_t *>()[1]);
switch (sid) {
//if the packet is a control response
case B200_RESP0_MSG_SID:
case B200_RESP1_MSG_SID:
case B200_LOCAL_RESP_SID:
{
radio_ctrl_core_3000::sptr ctrl;
if (sid == B200_RESP0_MSG_SID) ctrl = data->radio_ctrl[0].lock();
if (sid == B200_RESP1_MSG_SID) ctrl = data->radio_ctrl[1].lock();
if (sid == B200_LOCAL_RESP_SID) ctrl = data->local_ctrl.lock();
if (ctrl){
ctrl->push_response(buff->cast<const boost::uint32_t *>());
}
else{
return std::make_pair(sid, uhd::msg_task::buff_to_vector(buff->cast<boost::uint8_t *>(), buff->size() ) );
}
break;
}
//if the packet is a uart message
case B200_RX_GPS_UART_SID:
{
data->gpsdo_uart->handle_uart_packet(buff);
break;
}
//or maybe the packet is a TX async message
case B200_TX_MSG0_SID:
case B200_TX_MSG1_SID:
{
const size_t i = (sid == B200_TX_MSG0_SID)? 0 : 1;
//extract packet info
vrt::if_packet_info_t if_packet_info;
if_packet_info.num_packet_words32 = buff->size()/sizeof(boost::uint32_t);
const boost::uint32_t *packet_buff = buff->cast<const boost::uint32_t *>();
//unpacking can fail
try
{
b200_if_hdr_unpack_le(packet_buff, if_packet_info);
}
catch(const std::exception &ex)
{
UHD_MSG(error) << "Error parsing ctrl packet: " << ex.what() << std::endl;
break;
}
//fill in the async metadata
async_metadata_t metadata;
load_metadata_from_buff(uhd::wtohx<boost::uint32_t>, metadata, if_packet_info, packet_buff, _tick_rate, i);
data->async_md->push_with_pop_on_full(metadata);
standard_async_msg_prints(metadata);
break;
}
//doh!
default:
UHD_MSG(error) << "Got a ctrl packet with unknown SID " << sid << std::endl;
}
return boost::none;
}
/***********************************************************************
* Receive streamer
**********************************************************************/
rx_streamer::sptr b200_impl::get_rx_stream(const uhd::stream_args_t &args_)
{
boost::mutex::scoped_lock lock(_transport_setup_mutex);
stream_args_t args = args_;
//setup defaults for unspecified values
if (args.otw_format.empty()) args.otw_format = "sc16";
args.channels = args.channels.empty()? std::vector<size_t>(1, 0) : args.channels;
if (_tree->access<bool>("/mboards/0/auto_tick_rate").get()) {
set_auto_tick_rate(0, "", args.channels.size());
}
check_streamer_args(args, this->get_tick_rate(), "RX");
boost::shared_ptr<sph::recv_packet_streamer> my_streamer;
for (size_t stream_i = 0; stream_i < args.channels.size(); stream_i++)
{
const size_t radio_index = _tree->access<std::vector<size_t> >("/mboards/0/rx_chan_dsp_mapping")
.get().at(args.channels[stream_i]);
radio_perifs_t &perif = _radio_perifs[radio_index];
if (args.otw_format == "sc16") perif.ctrl->poke32(TOREG(SR_RX_FMT), 0);
if (args.otw_format == "sc12") perif.ctrl->poke32(TOREG(SR_RX_FMT), 1);
if (args.otw_format == "fc32") perif.ctrl->poke32(TOREG(SR_RX_FMT), 2);
if (args.otw_format == "sc8") perif.ctrl->poke32(TOREG(SR_RX_FMT), 3);
const boost::uint32_t sid = radio_index ? B200_RX_DATA1_SID : B200_RX_DATA0_SID;
//calculate packet size
static const size_t hdr_size = 0
+ vrt::max_if_hdr_words32*sizeof(boost::uint32_t)
//+ sizeof(vrt::if_packet_info_t().tlr) //no longer using trailer
- sizeof(vrt::if_packet_info_t().cid) //no class id ever used
- sizeof(vrt::if_packet_info_t().tsi) //no int time ever used
;
const size_t bpp = _data_transport->get_recv_frame_size() - hdr_size;
const size_t bpi = convert::get_bytes_per_item(args.otw_format);
size_t spp = unsigned(args.args.cast<double>("spp", bpp/bpi));
spp = std::min<size_t>(4092, spp); //FPGA FIFO maximum for framing at full rate
//make the new streamer given the samples per packet
if (not my_streamer) my_streamer = boost::make_shared<sph::recv_packet_streamer>(spp);
my_streamer->resize(args.channels.size());
//init some streamer stuff
my_streamer->set_vrt_unpacker(&b200_if_hdr_unpack_le);
//set the converter
uhd::convert::id_type id;
id.input_format = args.otw_format + "_item32_le";
id.num_inputs = 1;
id.output_format = args.cpu_format;
id.num_outputs = 1;
my_streamer->set_converter(id);
perif.framer->clear();
perif.framer->set_nsamps_per_packet(spp);
perif.framer->set_sid(sid);
perif.framer->setup(args);
perif.ddc->setup(args);
_demux->realloc_sid(sid);
my_streamer->set_xport_chan_get_buff(stream_i, boost::bind(
&recv_packet_demuxer_3000::get_recv_buff, _demux, sid, _1
), true /*flush*/);
my_streamer->set_overflow_handler(stream_i, boost::bind(
&b200_impl::handle_overflow, this, radio_index
));
my_streamer->set_issue_stream_cmd(stream_i, boost::bind(
&rx_vita_core_3000::issue_stream_command, perif.framer, _1
));
perif.rx_streamer = my_streamer; //store weak pointer
//sets all tick and samp rates on this streamer
this->update_tick_rate(this->get_tick_rate());
_tree->access<double>(str(boost::format("/mboards/0/rx_dsps/%u/rate/value") % radio_index)).update();
}
this->update_enables();
return my_streamer;
}
void b200_impl::handle_overflow(const size_t radio_index)
{
boost::shared_ptr<sph::recv_packet_streamer> my_streamer =
boost::dynamic_pointer_cast<sph::recv_packet_streamer>(_radio_perifs[radio_index].rx_streamer.lock());
if (my_streamer->get_num_channels() == 2) //MIMO time
{
//find out if we were in continuous mode before stopping
const bool in_continuous_streaming_mode = _radio_perifs[radio_index].framer->in_continuous_streaming_mode();
//stop streaming
my_streamer->issue_stream_cmd(stream_cmd_t::STREAM_MODE_STOP_CONTINUOUS);
//flush demux
_demux->realloc_sid(B200_RX_DATA0_SID);
_demux->realloc_sid(B200_RX_DATA1_SID);
//flush actual transport
while (_data_transport->get_recv_buff(0.001)){}
//restart streaming
if (in_continuous_streaming_mode)
{
stream_cmd_t stream_cmd(stream_cmd_t::STREAM_MODE_START_CONTINUOUS);
stream_cmd.stream_now = false;
stream_cmd.time_spec = _radio_perifs[radio_index].time64->get_time_now() + time_spec_t(0.01);
my_streamer->issue_stream_cmd(stream_cmd);
}
}
else _radio_perifs[radio_index].framer->handle_overflow();
}
/***********************************************************************
* Transmit streamer
**********************************************************************/
tx_streamer::sptr b200_impl::get_tx_stream(const uhd::stream_args_t &args_)
{
boost::mutex::scoped_lock lock(_transport_setup_mutex);
stream_args_t args = args_;
//setup defaults for unspecified values
if (args.otw_format.empty()) args.otw_format = "sc16";
args.channels = args.channels.empty()? std::vector<size_t>(1, 0) : args.channels;
if (_tree->access<bool>("/mboards/0/auto_tick_rate").get()) {
set_auto_tick_rate(0, "", args.channels.size());
}
check_streamer_args(args, this->get_tick_rate(), "TX");
boost::shared_ptr<sph::send_packet_streamer> my_streamer;
for (size_t stream_i = 0; stream_i < args.channels.size(); stream_i++)
{
const size_t radio_index = _tree->access<std::vector<size_t> >("/mboards/0/tx_chan_dsp_mapping")
.get().at(args.channels[stream_i]);
radio_perifs_t &perif = _radio_perifs[radio_index];
if (args.otw_format == "sc16") perif.ctrl->poke32(TOREG(SR_TX_FMT), 0);
if (args.otw_format == "sc12") perif.ctrl->poke32(TOREG(SR_TX_FMT), 1);
if (args.otw_format == "fc32") perif.ctrl->poke32(TOREG(SR_TX_FMT), 2);
if (args.otw_format == "sc8") perif.ctrl->poke32(TOREG(SR_TX_FMT), 3);
//calculate packet size
static const size_t hdr_size = 0
+ vrt::max_if_hdr_words32*sizeof(boost::uint32_t)
//+ sizeof(vrt::if_packet_info_t().tlr) //forced to have trailer
- sizeof(vrt::if_packet_info_t().cid) //no class id ever used
- sizeof(vrt::if_packet_info_t().tsi) //no int time ever used
;
static const size_t bpp = _data_transport->get_send_frame_size() - hdr_size;
const size_t spp = bpp/convert::get_bytes_per_item(args.otw_format);
//make the new streamer given the samples per packet
if (not my_streamer) my_streamer = boost::make_shared<sph::send_packet_streamer>(spp);
my_streamer->resize(args.channels.size());
//init some streamer stuff
my_streamer->set_vrt_packer(&b200_if_hdr_pack_le);
//set the converter
uhd::convert::id_type id;
id.input_format = args.cpu_format;
id.num_inputs = 1;
id.output_format = args.otw_format + "_item32_le";
id.num_outputs = 1;
my_streamer->set_converter(id);
perif.deframer->clear();
perif.deframer->setup(args);
perif.duc->setup(args);
my_streamer->set_xport_chan_get_buff(stream_i, boost::bind(
&zero_copy_if::get_send_buff, _data_transport, _1
));
my_streamer->set_async_receiver(boost::bind(
&async_md_type::pop_with_timed_wait, _async_task_data->async_md, _1, _2
));
my_streamer->set_xport_chan_sid(stream_i, true, radio_index ? B200_TX_DATA1_SID : B200_TX_DATA0_SID);
my_streamer->set_enable_trailer(false); //TODO not implemented trailer support yet
perif.tx_streamer = my_streamer; //store weak pointer
//sets all tick and samp rates on this streamer
this->update_tick_rate(this->get_tick_rate());
_tree->access<double>(str(boost::format("/mboards/0/tx_dsps/%u/rate/value") % radio_index)).update();
}
this->update_enables();
return my_streamer;
}
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