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|
//
// Copyright 2016 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 "legacy_compat.hpp"
#include "../usrp/device3/device3_impl.hpp"
#include <uhd/property_tree.hpp>
#include <uhd/rfnoc/radio_ctrl.hpp>
#include <uhd/rfnoc/ddc_block_ctrl.hpp>
#include <uhd/rfnoc/graph.hpp>
#include <uhd/usrp/subdev_spec.hpp>
#include <uhd/stream.hpp>
#include <uhd/types/stream_cmd.hpp>
#include <uhd/types/direction.hpp>
#include <uhd/types/ranges.hpp>
#include <uhd/utils/log.hpp>
#include <uhd/transport/chdr.hpp>
#include <uhd/usrp/multi_usrp.hpp>
#include <boost/make_shared.hpp>
#include <boost/assign.hpp>
#define UHD_LEGACY_LOG() UHD_LOGGER_TRACE("RFNOC")
using namespace uhd::rfnoc;
using uhd::usrp::subdev_spec_t;
using uhd::usrp::subdev_spec_pair_t;
using uhd::stream_cmd_t;
/************************************************************************
* Constants and globals
***********************************************************************/
static const std::string RADIO_BLOCK_NAME = "Radio";
static const std::string DFIFO_BLOCK_NAME = "DmaFIFO";
static const std::string DDC_BLOCK_NAME = "DDC";
static const std::string DUC_BLOCK_NAME = "DUC";
static const size_t MAX_BYTES_PER_HEADER =
uhd::transport::vrt::chdr::max_if_hdr_words64 * sizeof(uint64_t);
static const size_t BYTES_PER_SAMPLE = 4; // We currently only support sc16
static boost::mutex _make_mutex;
/************************************************************************
* Static helpers
***********************************************************************/
static uhd::fs_path mb_root(const size_t mboard)
{
return uhd::fs_path("/mboards") / mboard;
}
size_t num_ports(const uhd::property_tree::sptr &tree, const std::string &block_name, const std::string &in_out)
{
return tree->list(
uhd::fs_path("/mboards/0/xbar") /
str(boost::format("%s_0") % block_name) /
"ports" / in_out
).size();
}
size_t calc_num_tx_chans_per_radio(
const uhd::property_tree::sptr &tree,
const size_t num_radios_per_board,
const bool has_ducs,
const bool has_dmafifo
) {
const size_t num_radio_ports = num_ports(tree, RADIO_BLOCK_NAME, "in");
if (has_ducs) {
return std::min(
num_radio_ports,
num_ports(tree, DUC_BLOCK_NAME, "in")
);
}
if (not has_dmafifo) {
return num_radio_ports;
}
const size_t num_dmafifo_ports_per_radio = num_ports(tree, DFIFO_BLOCK_NAME, "in") / num_radios_per_board;
UHD_ASSERT_THROW(num_dmafifo_ports_per_radio);
return std::min(
num_radio_ports,
num_dmafifo_ports_per_radio
);
}
/*! Recreate passed property without bound subscribers. Maintains current property value.
*/
template <typename T>
static void recreate_property(const uhd::fs_path &path, uhd::property_tree::sptr &tree) {
T temp = tree->access<T>(path).get();
tree->remove(path);
tree->create<T>(path).set(temp);
}
/************************************************************************
* Class Definition
***********************************************************************/
class legacy_compat_impl : public legacy_compat
{
public:
/************************************************************************
* Structors and Initialization
***********************************************************************/
legacy_compat_impl(
uhd::device3::sptr device,
const uhd::device_addr_t &args
) : _device(device),
_tree(device->get_tree()),
_has_ducs(not args.has_key("skip_duc") and not device->find_blocks(DUC_BLOCK_NAME).empty()),
_has_ddcs(not args.has_key("skip_ddc") and not device->find_blocks(DDC_BLOCK_NAME).empty()),
_has_dmafifo(not args.has_key("skip_dram") and not device->find_blocks(DFIFO_BLOCK_NAME).empty()),
_num_mboards(_tree->list("/mboards").size()),
_num_radios_per_board(device->find_blocks<radio_ctrl>("0/Radio").size()), // These might throw, maybe we catch that and provide a nicer error message.
_num_tx_chans_per_radio(
calc_num_tx_chans_per_radio(_tree, _num_radios_per_board, _has_ducs, not device->find_blocks(DFIFO_BLOCK_NAME).empty())
),
_num_rx_chans_per_radio(_has_ddcs ?
std::min(num_ports(_tree, RADIO_BLOCK_NAME, "out"), num_ports(_tree, DDC_BLOCK_NAME, "out"))
: num_ports(_tree, RADIO_BLOCK_NAME, "out")),
_rx_spp(get_block_ctrl<radio_ctrl>(0, RADIO_BLOCK_NAME, 0)->get_arg<int>("spp")),
_tx_spp(_rx_spp),
_rx_channel_map(_num_mboards, std::vector<radio_port_pair_t>(_num_radios_per_board)),
_tx_channel_map(_num_mboards, std::vector<radio_port_pair_t>(_num_radios_per_board))
{
_device->clear();
check_available_periphs(); // Throws if invalid configuration.
setup_prop_tree();
if (_tree->exists("/mboards/0/mtu/send")) {
_tx_spp = (_tree->access<size_t>("/mboards/0/mtu/send").get() - MAX_BYTES_PER_HEADER) / BYTES_PER_SAMPLE;
}
connect_blocks();
if (args.has_key("skip_ddc")) {
UHD_LEGACY_LOG() << "[legacy_compat] Skipping DDCs by user request." ;
} else if (not _has_ddcs) {
UHD_LOGGER_WARNING("RFNOC")
<< "[legacy_compat] No DDCs detected. You will only be able to receive at the radio frontend rate."
;
}
if (args.has_key("skip_duc")) {
UHD_LEGACY_LOG() << "[legacy_compat] Skipping DUCs by user request." ;
} else if (not _has_ducs) {
UHD_LOGGER_WARNING("RFNOC") << "[legacy_compat] No DUCs detected. You will only be able to transmit at the radio frontend rate." ;
}
if (args.has_key("skip_dram")) {
UHD_LEGACY_LOG() << "[legacy_compat] Skipping DRAM by user request." ;
} else if (not _has_dmafifo) {
UHD_LOGGER_WARNING("RFNOC") << "[legacy_compat] No DMA FIFO detected. You will only be able to transmit at slow rates." ;
}
for (size_t mboard = 0; mboard < _num_mboards; mboard++) {
for (size_t radio = 0; radio < _num_radios_per_board; radio++) {
_rx_channel_map[mboard][radio].radio_index = radio;
_tx_channel_map[mboard][radio].radio_index = radio;
}
const double tick_rate = _tree->access<double>(mb_root(mboard) / "tick_rate").get();
update_tick_rate_on_blocks(tick_rate, mboard);
}
}
~legacy_compat_impl()
{
remove_prop_subscribers();
}
/************************************************************************
* API Calls
***********************************************************************/
inline uhd::fs_path rx_dsp_root(const size_t mboard_idx, const size_t dsp_index, const size_t port_index)
{
return mb_root(mboard_idx) / "xbar" /
str(boost::format("%s_%d") % DDC_BLOCK_NAME % dsp_index) /
"legacy_api" / port_index;
}
uhd::fs_path rx_dsp_root(const size_t mboard_idx, const size_t chan)
{
// The DSP index is the same as the radio index
size_t dsp_index = _rx_channel_map[mboard_idx][chan].radio_index;
size_t port_index = _rx_channel_map[mboard_idx][chan].port_index;
if (not _has_ddcs) {
return mb_root(mboard_idx) / "rx_dsps" / dsp_index / port_index;
}
return rx_dsp_root(mboard_idx, dsp_index, port_index);
}
inline uhd::fs_path tx_dsp_root(const size_t mboard_idx, const size_t dsp_index, const size_t port_index)
{
return mb_root(mboard_idx) / "xbar" /
str(boost::format("%s_%d") % DUC_BLOCK_NAME % dsp_index) /
"legacy_api" / port_index;
}
uhd::fs_path tx_dsp_root(const size_t mboard_idx, const size_t chan)
{
// The DSP index is the same as the radio index
size_t dsp_index = _tx_channel_map[mboard_idx][chan].radio_index;
size_t port_index = _tx_channel_map[mboard_idx][chan].port_index;
if (not _has_ducs) {
return mb_root(mboard_idx) / "tx_dsps" / dsp_index / port_index;
}
return tx_dsp_root(mboard_idx, dsp_index, port_index);
}
uhd::fs_path rx_fe_root(const size_t mboard_idx, const size_t chan)
{
size_t radio_index = _rx_channel_map[mboard_idx][chan].radio_index;
size_t port_index = _rx_channel_map[mboard_idx][chan].port_index;
return uhd::fs_path(str(
boost::format("/mboards/%d/xbar/%s_%d/rx_fe_corrections/%d/")
% mboard_idx % RADIO_BLOCK_NAME % radio_index % port_index
));
}
uhd::fs_path tx_fe_root(const size_t mboard_idx, const size_t chan)
{
size_t radio_index = _tx_channel_map[mboard_idx][chan].radio_index;
size_t port_index = _tx_channel_map[mboard_idx][chan].port_index;
return uhd::fs_path(str(
boost::format("/mboards/%d/xbar/%s_%d/tx_fe_corrections/%d/")
% mboard_idx % RADIO_BLOCK_NAME % radio_index % port_index
));
}
void issue_stream_cmd(const stream_cmd_t &stream_cmd, size_t mboard, size_t chan)
{
UHD_LEGACY_LOG() << "[legacy_compat] issue_stream_cmd() " ;
const size_t &radio_index = _rx_channel_map[mboard][chan].radio_index;
const size_t &port_index = _rx_channel_map[mboard][chan].port_index;
if (_has_ddcs) {
get_block_ctrl<ddc_block_ctrl>(mboard, DDC_BLOCK_NAME, radio_index)->issue_stream_cmd(stream_cmd, port_index);
} else {
get_block_ctrl<radio_ctrl>(mboard, RADIO_BLOCK_NAME, radio_index)->issue_stream_cmd(stream_cmd, port_index);
}
}
//! Sets block_id<N> and block_port<N> in the streamer args, otherwise forwards the call
uhd::rx_streamer::sptr get_rx_stream(const uhd::stream_args_t &args_)
{
uhd::stream_args_t args(args_);
if (args.otw_format.empty()) {
args.otw_format = "sc16";
}
_update_stream_args_for_streaming<uhd::RX_DIRECTION>(args, _rx_channel_map);
UHD_LEGACY_LOG() << "[legacy_compat] rx stream args: " << args.args.to_string() ;
uhd::rx_streamer::sptr streamer = _device->get_rx_stream(args);
for(const size_t chan: args.channels) {
_rx_stream_cache[chan] = streamer;
}
return streamer;
}
//! Sets block_id<N> and block_port<N> in the streamer args, otherwise forwards the call.
// If spp is in the args, update the radios. If it's not set, copy the value from the radios.
uhd::tx_streamer::sptr get_tx_stream(const uhd::stream_args_t &args_)
{
uhd::stream_args_t args(args_);
if (args.otw_format.empty()) {
args.otw_format = "sc16";
}
_update_stream_args_for_streaming<uhd::TX_DIRECTION>(args, _tx_channel_map);
UHD_LEGACY_LOG() << "[legacy_compat] tx stream args: " << args.args.to_string() ;
uhd::tx_streamer::sptr streamer = _device->get_tx_stream(args);
for(const size_t chan: args.channels) {
_tx_stream_cache[chan] = streamer;
}
return streamer;
}
double get_tick_rate(const size_t mboard_idx=0)
{
return _tree->access<double>(mb_root(mboard_idx) / "tick_rate").get();
}
uhd::meta_range_t lambda_get_samp_rate_range(
const size_t mboard_idx,
const size_t radio_idx,
const size_t chan,
uhd::direction_t dir
) {
radio_ctrl::sptr radio_sptr = get_block_ctrl<radio_ctrl>(mboard_idx, RADIO_BLOCK_NAME, radio_idx);
const double samp_rate = (dir == uhd::TX_DIRECTION) ?
radio_sptr->get_input_samp_rate(chan) :
radio_sptr->get_output_samp_rate(chan)
;
return uhd::meta_range_t(samp_rate, samp_rate, 0.0);
}
void set_tick_rate(const double tick_rate, const size_t mboard_idx=0)
{
_tree->access<double>(mb_root(mboard_idx) / "tick_rate").set(tick_rate);
update_tick_rate_on_blocks(tick_rate, mboard_idx);
}
void set_rx_rate(const double rate, const size_t chan)
{
if (not _has_ddcs) {
return;
}
// Set DDC values:
if (chan == uhd::usrp::multi_usrp::ALL_CHANS) {
for (size_t mboard_idx = 0; mboard_idx < _rx_channel_map.size(); mboard_idx++) {
for (size_t chan_idx = 0; chan_idx < _rx_channel_map[mboard_idx].size(); chan_idx++) {
const size_t dsp_index = _rx_channel_map[mboard_idx][chan_idx].radio_index;
const size_t port_index = _rx_channel_map[mboard_idx][chan_idx].port_index;
_tree->access<double>(rx_dsp_root(mboard_idx, dsp_index, port_index) / "rate/value")
.set(rate)
;
}
}
} else {
std::set<size_t> chans_to_change = boost::assign::list_of(chan);
if (_rx_stream_cache.count(chan)) {
uhd::rx_streamer::sptr str_ptr = _rx_stream_cache[chan].lock();
if (str_ptr) {
for(const rx_stream_map_type::value_type &chan_streamer_pair: _rx_stream_cache) {
if (chan_streamer_pair.second.lock() == str_ptr) {
chans_to_change.insert(chan_streamer_pair.first);
}
}
}
}
for(const size_t this_chan: chans_to_change) {
size_t mboard, mb_chan;
chan_to_mcp<uhd::RX_DIRECTION>(this_chan, _rx_channel_map, mboard, mb_chan);
const size_t dsp_index = _rx_channel_map[mboard][mb_chan].radio_index;
const size_t port_index = _rx_channel_map[mboard][mb_chan].port_index;
_tree->access<double>(rx_dsp_root(mboard, dsp_index, port_index) / "rate/value")
.set(rate)
;
}
}
// Update streamers:
boost::dynamic_pointer_cast<uhd::usrp::device3_impl>(_device)->update_rx_streamers(rate);
}
void set_tx_rate(const double rate, const size_t chan)
{
if (not _has_ducs) {
return;
}
// Set DUC values:
if (chan == uhd::usrp::multi_usrp::ALL_CHANS) {
for (size_t mboard_idx = 0; mboard_idx < _tx_channel_map.size(); mboard_idx++) {
for (size_t chan_idx = 0; chan_idx < _tx_channel_map[mboard_idx].size(); chan_idx++) {
const size_t dsp_index = _tx_channel_map[mboard_idx][chan_idx].radio_index;
const size_t port_index = _tx_channel_map[mboard_idx][chan_idx].port_index;
_tree->access<double>(tx_dsp_root(mboard_idx, dsp_index, port_index) / "rate/value")
.set(rate)
;
}
}
} else {
std::set<size_t> chans_to_change = boost::assign::list_of(chan);
if (_tx_stream_cache.count(chan)) {
uhd::tx_streamer::sptr str_ptr = _tx_stream_cache[chan].lock();
if (str_ptr) {
for(const tx_stream_map_type::value_type &chan_streamer_pair: _tx_stream_cache) {
if (chan_streamer_pair.second.lock() == str_ptr) {
chans_to_change.insert(chan_streamer_pair.first);
}
}
}
}
for(const size_t this_chan: chans_to_change) {
size_t mboard, mb_chan;
chan_to_mcp<uhd::TX_DIRECTION>(this_chan, _tx_channel_map, mboard, mb_chan);
const size_t dsp_index = _tx_channel_map[mboard][mb_chan].radio_index;
const size_t port_index = _tx_channel_map[mboard][mb_chan].port_index;
_tree->access<double>(tx_dsp_root(mboard, dsp_index, port_index) / "rate/value")
.set(rate)
;
}
}
// Update streamers:
boost::dynamic_pointer_cast<uhd::usrp::device3_impl>(_device)->update_tx_streamers(rate);
}
private: // types
struct radio_port_pair_t {
radio_port_pair_t(const size_t radio=0, const size_t port=0) : radio_index(radio), port_index(port) {}
size_t radio_index;
size_t port_index;
};
//! Map: _rx_channel_map[mboard_idx][chan_idx] => (Radio, Port)
// Container is not a std::map because we need to guarantee contiguous
// ports and correct order anyway.
typedef std::vector< std::vector<radio_port_pair_t> > chan_map_t;
private: // methods
/************************************************************************
* Private helpers
***********************************************************************/
std::string get_slot_name(const size_t radio_index)
{
return (radio_index == 0) ? "A" : "B";
}
size_t get_radio_index(const std::string slot_name)
{
return (slot_name == "A") ? 0 : 1;
}
template <typename block_type>
inline typename block_type::sptr get_block_ctrl(const size_t mboard_idx, const std::string &name, const size_t block_count)
{
block_id_t block_id(mboard_idx, name, block_count);
return _device->get_block_ctrl<block_type>(block_id);
}
template <uhd::direction_t dir>
inline void chan_to_mcp(
const size_t chan, const chan_map_t &chan_map,
size_t &mboard_idx, size_t &mb_chan_idx
) {
mboard_idx = 0;
mb_chan_idx = chan;
while (mb_chan_idx >= chan_map[mboard_idx].size()) {
mb_chan_idx -= chan_map[mboard_idx++].size();
}
if (mboard_idx >= chan_map.size()) {
throw uhd::index_error(str(
boost::format("[legacy_compat]: %s channel %u out of range for given frontend configuration.")
% (dir == uhd::TX_DIRECTION ? "TX" : "RX")
% chan
));
}
}
template <uhd::direction_t dir>
void _update_stream_args_for_streaming(
uhd::stream_args_t &args,
chan_map_t &chan_map
) {
// If the user provides spp, that value is always applied. If it's
// different from what we thought it was, we need to update the blocks.
// If it's not provided, we provide our own spp value.
const size_t args_spp = args.args.cast<size_t>("spp", 0);
if (dir == uhd::RX_DIRECTION) {
size_t target_spp = _rx_spp;
if (args.args.has_key("spp") and args_spp != _rx_spp) {
target_spp = args_spp;
// TODO: Update flow control on the blocks
} else {
for (size_t mboard = 0; mboard < _num_mboards; mboard++) {
for (size_t radio = 0; radio < _num_radios_per_board; radio++) {
const size_t this_spp = get_block_ctrl<radio_ctrl>(mboard, RADIO_BLOCK_NAME, radio)->get_arg<int>("spp");
target_spp = std::min(this_spp, target_spp);
}
}
}
for (size_t mboard = 0; mboard < _num_mboards; mboard++) {
for (size_t radio = 0; radio < _num_radios_per_board; radio++) {
get_block_ctrl<radio_ctrl>(mboard, RADIO_BLOCK_NAME, radio)->set_arg<int>("spp", target_spp);
}
}
_rx_spp = target_spp;
args.args["spp"] = str(boost::format("%d") % _rx_spp);
} else {
if (args.args.has_key("spp") and args_spp != _tx_spp) {
_tx_spp = args_spp;
// TODO: Update flow control on the blocks
} else {
args.args["spp"] = str(boost::format("%d") % _tx_spp);
}
}
if (args.channels.empty()) {
args.channels = std::vector<size_t>(1, 0);
}
for (size_t i = 0; i < args.channels.size(); i++) {
const size_t stream_arg_chan_idx = args.channels[i];
// Determine which mboard, and on that mboard, which channel this is:
size_t mboard_idx, this_mboard_chan_idx;
chan_to_mcp<dir>(stream_arg_chan_idx, chan_map, mboard_idx, this_mboard_chan_idx);
// Map that mboard and channel to a block:
const size_t radio_index = chan_map[mboard_idx][this_mboard_chan_idx].radio_index;
size_t port_index = chan_map[mboard_idx][this_mboard_chan_idx].port_index;
const std::string block_name = _get_streamer_block_id_and_port<dir>(mboard_idx, radio_index, port_index);
args.args[str(boost::format("block_id%d") % stream_arg_chan_idx)] = block_name;
args.args[str(boost::format("block_port%d") % stream_arg_chan_idx)] = str(boost::format("%d") % port_index);
// Map radio to channel (for in-band response)
args.args[str(boost::format("radio_id%d") % stream_arg_chan_idx)] = block_id_t(mboard_idx, RADIO_BLOCK_NAME, radio_index).to_string();
args.args[str(boost::format("radio_port%d") % stream_arg_chan_idx)] = str(boost::format("%d") % chan_map[mboard_idx][this_mboard_chan_idx].port_index);
}
}
template <uhd::direction_t dir>
std::string _get_streamer_block_id_and_port(
const size_t mboard_idx,
const size_t radio_index,
size_t &port_index
) {
if (dir == uhd::TX_DIRECTION) {
if (_has_dmafifo) {
port_index = radio_index;
return block_id_t(mboard_idx, DFIFO_BLOCK_NAME, 0).to_string();
} else {
if (_has_ducs) {
return block_id_t(mboard_idx, DUC_BLOCK_NAME, radio_index).to_string();
} else {
return block_id_t(mboard_idx, RADIO_BLOCK_NAME, radio_index).to_string();
}
}
} else {
if (_has_ddcs) {
return block_id_t(mboard_idx, DDC_BLOCK_NAME, radio_index).to_string();
} else {
return block_id_t(mboard_idx, RADIO_BLOCK_NAME, radio_index).to_string();
}
}
}
/************************************************************************
* Initialization
***********************************************************************/
/*! Check this device has all the required peripherals.
*
* Check rules:
* - Every mboard needs the same number of radios.
* - For every radio block, there must be DDC and a DUC block,
* with matching number of ports.
*
* \throw uhd::runtime_error if any of these checks fail.
*/
void check_available_periphs()
{
if (_num_radios_per_board == 0) {
throw uhd::runtime_error("For legacy APIs, all devices require at least one radio.");
}
block_id_t radio_block_id(0, RADIO_BLOCK_NAME);
block_id_t duc_block_id(0, DUC_BLOCK_NAME);
block_id_t ddc_block_id(0, DDC_BLOCK_NAME);
block_id_t fifo_block_id(0, DFIFO_BLOCK_NAME, 0);
for (size_t i = 0; i < _num_mboards; i++) {
radio_block_id.set_device_no(i);
duc_block_id.set_device_no(i);
ddc_block_id.set_device_no(i);
fifo_block_id.set_device_no(i);
for (size_t k = 0; k < _num_radios_per_board; k++) {
radio_block_id.set_block_count(k);
duc_block_id.set_block_count(k);
ddc_block_id.set_block_count(k);
// Only one FIFO per crossbar, so don't set block count for that block
if (not _device->has_block(radio_block_id)
or (_has_ducs and not _device->has_block(duc_block_id))
or (_has_ddcs and not _device->has_block(ddc_block_id))
or (_has_dmafifo and not _device->has_block(fifo_block_id))
) {
throw uhd::runtime_error("For legacy APIs, all devices require the same number of radios, DDCs and DUCs.");
}
const size_t this_spp = get_block_ctrl<radio_ctrl>(i, RADIO_BLOCK_NAME, k)->get_arg<int>("spp");
if (this_spp != _rx_spp) {
UHD_LOGGER_WARNING("RFNOC") << str(
boost::format("[legacy compat] Radios have differing spp values: %s has %d, others have %d. UHD will use smaller spp value for all connections. Performance might be not optimal.")
% radio_block_id.to_string() % this_spp % _rx_spp
);
}
}
}
}
/*! Initialize properties in property tree to match legacy mode
*/
void setup_prop_tree()
{
for (size_t mboard_idx = 0; mboard_idx < _num_mboards; mboard_idx++) {
uhd::fs_path root = mb_root(mboard_idx);
// Subdev specs
if (_tree->exists(root / "tx_subdev_spec")) {
_tree->access<subdev_spec_t>(root / "tx_subdev_spec")
.add_coerced_subscriber(boost::bind(&legacy_compat_impl::set_subdev_spec, this, _1, mboard_idx, uhd::TX_DIRECTION))
.update()
.set_publisher(boost::bind(&legacy_compat_impl::get_subdev_spec, this, mboard_idx, uhd::TX_DIRECTION));
} else {
_tree->create<subdev_spec_t>(root / "tx_subdev_spec")
.add_coerced_subscriber(boost::bind(&legacy_compat_impl::set_subdev_spec, this, _1, mboard_idx, uhd::TX_DIRECTION))
.set_publisher(boost::bind(&legacy_compat_impl::get_subdev_spec, this, mboard_idx, uhd::TX_DIRECTION));
}
if (_tree->exists(root / "rx_subdev_spec")) {
_tree->access<subdev_spec_t>(root / "rx_subdev_spec")
.add_coerced_subscriber(boost::bind(&legacy_compat_impl::set_subdev_spec, this, _1, mboard_idx, uhd::RX_DIRECTION))
.update()
.set_publisher(boost::bind(&legacy_compat_impl::get_subdev_spec, this, mboard_idx, uhd::RX_DIRECTION));
} else {
_tree->create<subdev_spec_t>(root / "rx_subdev_spec")
.add_coerced_subscriber(boost::bind(&legacy_compat_impl::set_subdev_spec, this, _1, mboard_idx, uhd::RX_DIRECTION))
.set_publisher(boost::bind(&legacy_compat_impl::get_subdev_spec, this, mboard_idx, uhd::RX_DIRECTION));
}
if (not _has_ddcs) {
for (size_t radio_idx = 0; radio_idx < _num_radios_per_board; radio_idx++) {
for (size_t chan = 0; chan < _num_rx_chans_per_radio; chan++) {
const uhd::fs_path rx_dsp_base_path(mb_root(mboard_idx) / "rx_dsps" / radio_idx / chan);
_tree->create<double>(rx_dsp_base_path / "rate/value")
.set(0.0)
.set_publisher(
boost::bind(
&radio_ctrl::get_output_samp_rate,
get_block_ctrl<radio_ctrl>(mboard_idx, RADIO_BLOCK_NAME, radio_idx),
chan
)
)
;
_tree->create<uhd::meta_range_t>(rx_dsp_base_path / "rate/range")
.set_publisher(
boost::bind(
&legacy_compat_impl::lambda_get_samp_rate_range,
this,
mboard_idx, radio_idx, chan,
uhd::RX_DIRECTION
)
)
;
_tree->create<double>(rx_dsp_base_path / "freq/value")
.set_publisher([](){ return 0.0; })
;
_tree->create<uhd::meta_range_t>(rx_dsp_base_path / "freq/range")
.set_publisher([](){ return uhd::meta_range_t(0.0, 0.0, 0.0); })
;
}
}
} /* if not _has_ddcs */
if (not _has_ducs) {
for (size_t radio_idx = 0; radio_idx < _num_radios_per_board; radio_idx++) {
for (size_t chan = 0; chan < _num_tx_chans_per_radio; chan++) {
const uhd::fs_path tx_dsp_base_path(mb_root(mboard_idx) / "tx_dsps" / radio_idx / chan);
_tree->create<double>(tx_dsp_base_path / "rate/value")
.set(0.0)
.set_publisher(
boost::bind(
&radio_ctrl::get_output_samp_rate,
get_block_ctrl<radio_ctrl>(mboard_idx, RADIO_BLOCK_NAME, radio_idx),
chan
)
)
;
_tree->create<uhd::meta_range_t>(tx_dsp_base_path / "rate/range")
.set_publisher(
boost::bind(
&legacy_compat_impl::lambda_get_samp_rate_range,
this,
mboard_idx, radio_idx, chan,
uhd::TX_DIRECTION
)
)
;
_tree->create<double>(tx_dsp_base_path / "freq/value")
.set_publisher([](){ return 0.0; })
;
_tree->create<uhd::meta_range_t>(tx_dsp_base_path / "freq/range")
.set_publisher([](){ return uhd::meta_range_t(0.0, 0.0, 0.0); })
;
}
}
} /* if not _has_ducs */
}
}
/*! Remove properties with bound functions in property tree and recreate
*/
void remove_prop_subscribers()
{
for (size_t mboard_idx = 0; mboard_idx < _num_mboards; mboard_idx++) {
uhd::fs_path root = mb_root(mboard_idx);
// Subdev specs
if (_tree->exists(root / "tx_subdev_spec")) {
recreate_property<subdev_spec_t>(root / "tx_subdev_spec", _tree);
}
if (_tree->exists(root / "rx_subdev_spec")) {
recreate_property<subdev_spec_t>(root / "rx_subdev_spec", _tree);
}
}
}
/*! Default block connections.
*
* Tx connections:
*
* [Host] => DMA FIFO => DUC => Radio
*
* Note: There is only one DMA FIFO per crossbar, with twice the number of ports.
*
* Rx connections:
*
* Radio => DDC => [Host]
*
* Streamers are *not* generated here.
*/
void connect_blocks()
{
_graph = _device->create_graph("legacy");
const size_t rx_bpp = _rx_spp * BYTES_PER_SAMPLE + MAX_BYTES_PER_HEADER;
const size_t tx_bpp = _tx_spp * BYTES_PER_SAMPLE + MAX_BYTES_PER_HEADER;
for (size_t mboard = 0; mboard < _num_mboards; mboard++) {
for (size_t radio = 0; radio < _num_radios_per_board; radio++) {
// Tx Channels
for (size_t chan = 0; chan < _num_tx_chans_per_radio; chan++) {
if (_has_ducs) {
_graph->connect(
block_id_t(mboard, DUC_BLOCK_NAME, radio), chan,
block_id_t(mboard, RADIO_BLOCK_NAME, radio), chan,
tx_bpp
);
if (_has_dmafifo) {
// We have DMA FIFO *and* DUCs
_graph->connect(
block_id_t(mboard, DFIFO_BLOCK_NAME, 0), radio,
block_id_t(mboard, DUC_BLOCK_NAME, radio), chan,
tx_bpp
);
}
} else if (_has_dmafifo) {
// We have DMA FIFO, *no* DUCs
_graph->connect(
block_id_t(mboard, DFIFO_BLOCK_NAME, 0), radio,
block_id_t(mboard, RADIO_BLOCK_NAME, radio), chan,
tx_bpp
);
}
}
// Rx Channels
for (size_t chan = 0; chan < _num_rx_chans_per_radio; chan++) {
if (_has_ddcs) {
_graph->connect(
block_id_t(mboard, RADIO_BLOCK_NAME, radio), chan,
block_id_t(mboard, DDC_BLOCK_NAME, radio), chan,
rx_bpp
);
}
}
}
}
}
/************************************************************************
* Subdev translation
***********************************************************************/
/*! Subdev -> (Radio, Port)
*
* Example: Device is X300, subdev spec is 'A:0 B:0', we have 2 radios.
* Then we map to ((0, 0), (1, 0)). I.e., zero-th port on radio 0 and
* radio 1, respectively.
*/
void set_subdev_spec(const subdev_spec_t &spec, const size_t mboard, const uhd::direction_t dir)
{
UHD_ASSERT_THROW(mboard < _num_mboards);
chan_map_t &chan_map = (dir == uhd::TX_DIRECTION) ? _tx_channel_map : _rx_channel_map;
std::vector<radio_port_pair_t> new_mapping(spec.size());
for (size_t i = 0; i < spec.size(); i++) {
const size_t new_radio_index = get_radio_index(spec[i].db_name);
radio_ctrl::sptr radio = get_block_ctrl<radio_ctrl>(mboard, "Radio", new_radio_index);
size_t new_port_index = radio->get_chan_from_dboard_fe(spec[i].sd_name, dir);
if (new_port_index >= radio->get_input_ports().size()) {
new_port_index = radio->get_input_ports().at(0);
}
radio_port_pair_t new_radio_port_pair(new_radio_index, new_port_index);
new_mapping[i] = new_radio_port_pair;
}
chan_map[mboard] = new_mapping;
}
subdev_spec_t get_subdev_spec(const size_t mboard, const uhd::direction_t dir)
{
UHD_ASSERT_THROW(mboard < _num_mboards);
subdev_spec_t subdev_spec;
chan_map_t &chan_map = (dir == uhd::TX_DIRECTION) ? _tx_channel_map : _rx_channel_map;
for (size_t chan_idx = 0; chan_idx < chan_map[mboard].size(); chan_idx++) {
const size_t radio_index = chan_map[mboard][chan_idx].radio_index;
const size_t port_index = chan_map[mboard][chan_idx].port_index;
const std::string new_db_name = get_slot_name(radio_index);
const std::string new_sd_name =
get_block_ctrl<radio_ctrl>(mboard, "Radio", radio_index)->get_dboard_fe_from_chan(port_index, dir);
subdev_spec_pair_t new_pair(new_db_name, new_sd_name);
subdev_spec.push_back(new_pair);
}
return subdev_spec;
}
void update_tick_rate_on_blocks(const double tick_rate, const size_t mboard_idx)
{
block_id_t radio_block_id(mboard_idx, RADIO_BLOCK_NAME);
block_id_t duc_block_id(mboard_idx, DUC_BLOCK_NAME);
block_id_t ddc_block_id(mboard_idx, DDC_BLOCK_NAME);
for (size_t radio = 0; radio < _num_radios_per_board; radio++) {
radio_block_id.set_block_count(radio);
duc_block_id.set_block_count(radio);
ddc_block_id.set_block_count(radio);
radio_ctrl::sptr radio_sptr = _device->get_block_ctrl<radio_ctrl>(radio_block_id);
radio_sptr->set_rate(tick_rate);
for (size_t chan = 0; chan < _num_rx_chans_per_radio and _has_ddcs; chan++) {
const double radio_output_rate = radio_sptr->get_output_samp_rate(chan);
_device->get_block_ctrl(ddc_block_id)->set_arg<double>("input_rate", radio_output_rate, chan);
}
for (size_t chan = 0; chan < _num_tx_chans_per_radio and _has_ducs; chan++) {
const double radio_input_rate = radio_sptr->get_input_samp_rate(chan);
_device->get_block_ctrl(duc_block_id)->set_arg<double>("output_rate", radio_input_rate, chan);
}
}
}
private: // attributes
uhd::device3::sptr _device;
uhd::property_tree::sptr _tree;
const bool _has_ducs;
const bool _has_ddcs;
const bool _has_dmafifo;
const size_t _num_mboards;
const size_t _num_radios_per_board;
const size_t _num_tx_chans_per_radio;
const size_t _num_rx_chans_per_radio;
size_t _rx_spp;
size_t _tx_spp;
chan_map_t _rx_channel_map;
chan_map_t _tx_channel_map;
//! Stores a weak pointer for every streamer that's generated through this API.
// Key is the channel number (same format as e.g. the set_rx_rate() call).
typedef std::map< size_t, boost::weak_ptr<uhd::rx_streamer> > rx_stream_map_type;
rx_stream_map_type _rx_stream_cache;
typedef std::map< size_t, boost::weak_ptr<uhd::tx_streamer> > tx_stream_map_type;
tx_stream_map_type _tx_stream_cache;
graph::sptr _graph;
};
legacy_compat::sptr legacy_compat::make(
uhd::device3::sptr device,
const uhd::device_addr_t &args
) {
boost::lock_guard<boost::mutex> lock(_make_mutex);
UHD_ASSERT_THROW(bool(device));
static std::map<void *, boost::weak_ptr<legacy_compat> > legacy_cache;
if (legacy_cache.count(device.get()) and not legacy_cache.at(device.get()).expired()) {
legacy_compat::sptr legacy_compat_copy = legacy_cache.at(device.get()).lock();
UHD_ASSERT_THROW(bool(legacy_compat_copy));
UHD_LEGACY_LOG() << "[legacy_compat] Using existing legacy compat object for this device." ;
return legacy_compat_copy;
}
legacy_compat::sptr new_legacy_compat = boost::make_shared<legacy_compat_impl>(device, args);
legacy_cache[device.get()] = new_legacy_compat;
return new_legacy_compat;
}
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