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//
// Copyright 2013-2014 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 "e300_regs.hpp"
#include "e300_impl.hpp"
#include "e300_fpga_defs.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/transport/bounded_buffer.hpp>
#include <boost/bind.hpp>
#include <uhd/utils/tasks.hpp>
#include <uhd/utils/log.hpp>
#include <boost/make_shared.hpp>
using namespace uhd;
using namespace uhd::usrp;
using namespace uhd::transport;
namespace uhd { namespace usrp { namespace e300 {
static const uint32_t HW_SEQ_NUM_MASK = 0xfff;
/***********************************************************************
* update streamer rates
**********************************************************************/
void e300_impl::_check_tick_rate_with_current_streamers(const double rate)
{
size_t max_tx_chan_count = 0, max_rx_chan_count = 0;
for(radio_perifs_t &perif: _radio_perifs)
{
{
boost::shared_ptr<sph::recv_packet_streamer> rx_streamer =
boost::dynamic_pointer_cast<sph::recv_packet_streamer>(
perif.rx_streamer.lock());
if (rx_streamer)
max_rx_chan_count = std::max(
max_rx_chan_count,
rx_streamer->get_num_channels());
}
{
boost::shared_ptr<sph::send_packet_streamer> tx_streamer =
boost::dynamic_pointer_cast<sph::send_packet_streamer>(
perif.tx_streamer.lock());
if (tx_streamer)
max_tx_chan_count = std::max(
max_tx_chan_count,
tx_streamer->get_num_channels());
}
}
_enforce_tick_rate_limits(max_rx_chan_count, rate, "RX");
_enforce_tick_rate_limits(max_tx_chan_count, rate, "TX");
}
void e300_impl::_update_tick_rate(const double rate)
{
_check_tick_rate_with_current_streamers(rate);
for(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(rate);
perif.framer->set_tick_rate(_tick_rate);
}
for(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(rate);
}
}
void e300_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 (my_streamer)
my_streamer->set_samp_rate(rate);
_codec_mgr->check_bandwidth(rate, "Rx");
}
void e300_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 (my_streamer)
my_streamer->set_samp_rate(rate);
_codec_mgr->check_bandwidth(rate, "Tx");
}
/***********************************************************************
* frontend selection
**********************************************************************/
void e300_impl::_update_subdev_spec(
const std::string &txrx,
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() >= 1)
{
UHD_ASSERT_THROW(spec[0].db_name == "A");
UHD_ASSERT_THROW(spec[0].sd_name == "A" or spec[0].sd_name == "B");
}
if (spec.size() == 2)
{
UHD_ASSERT_THROW(spec[1].db_name == "A");
UHD_ASSERT_THROW(
(spec[0].sd_name == "A" and spec[1].sd_name == "B") or
(spec[0].sd_name == "B" and spec[1].sd_name == "A")
);
}
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" / (txrx + "_chan_dsp_mapping")).set(chan_to_dsp_map);
const fs_path mb_path = "/mboards/0";
if (txrx == "tx") {
for (size_t i = 0; i < spec.size(); i++)
{
const std::string conn = _tree->access<std::string>(
mb_path / "dboards" / spec[i].db_name /
("tx_frontends") / spec[i].sd_name / "connection").get();
_radio_perifs[i].tx_fe->set_mux(conn);
}
} else {
for (size_t i = 0; i < spec.size(); i++)
{
const std::string conn = _tree->access<std::string>(
mb_path / "dboards" / spec[i].db_name /
("rx_frontends") / spec[i].sd_name / "connection").get();
_radio_perifs[i].ddc->set_mux(usrp::fe_connection_t(conn));
_radio_perifs[i].rx_fe->set_mux(false);
}
}
this->_update_enables();
}
/***********************************************************************
* VITA stuff
**********************************************************************/
static void e300_if_hdr_unpack_le(
const 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 e300_if_hdr_pack_le(
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);
}
/***********************************************************************
* RX flow control handler
**********************************************************************/
struct e300_rx_fc_cache_t
{
e300_rx_fc_cache_t():
last_seq_in(0){}
size_t last_seq_in;
};
void e300_impl::_handle_overflow(
radio_perifs_t &perif,
boost::weak_ptr<uhd::rx_streamer> streamer)
{
boost::shared_ptr<sph::recv_packet_streamer> my_streamer =
boost::dynamic_pointer_cast<sph::recv_packet_streamer>(streamer.lock());
//If the rx_streamer has expired then overflow handling makes no sense.
if (not my_streamer)
return;
if (my_streamer->get_num_channels() == 1) {
perif.framer->handle_overflow();
return;
}
// MIMO overflow recovery time
// find out if we were in continuous mode before stopping
const bool in_continuous_streaming_mode = perif.framer->in_continuous_streaming_mode();
// stop streaming
my_streamer->issue_stream_cmd(stream_cmd_t::STREAM_MODE_STOP_CONTINUOUS);
// flush transports
my_streamer->flush_all(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 = perif.time64->get_time_now() + time_spec_t(0.01);
my_streamer->issue_stream_cmd(stream_cmd);
}
}
static size_t get_rx_flow_control_window(size_t frame_size, size_t sw_buff_size, double fullness_factor)
{
if (fullness_factor < 0.01 || fullness_factor > 1) {
throw uhd::value_error("recv_buff_fullness must be between 0.01 and 1 inclusive (1% to 100%)");
}
size_t window_in_pkts = (static_cast<size_t>(sw_buff_size * fullness_factor) / frame_size);
if (window_in_pkts == 0) {
throw uhd::value_error("recv_buff_size must be larger than the recv_frame_size.");
}
return window_in_pkts;
}
static void handle_rx_flowctrl(
const uint32_t sid,
zero_copy_if::sptr xport,
boost::shared_ptr<e300_rx_fc_cache_t> fc_cache,
const size_t last_seq)
{
static const size_t RXFC_PACKET_LEN_IN_WORDS = 2;
static const size_t RXFC_CMD_CODE_OFFSET = 0;
static const size_t RXFC_SEQ_NUM_OFFSET = 1;
managed_send_buffer::sptr buff = xport->get_send_buff(1.0);
if (not buff)
{
throw uhd::runtime_error("handle_rx_flowctrl timed out getting a send buffer");
}
uint32_t *pkt = buff->cast<uint32_t *>();
//recover seq32
size_t& seq_sw = fc_cache->last_seq_in;
const size_t seq_hw = seq_sw & HW_SEQ_NUM_MASK;
if (last_seq < seq_hw)
seq_sw += (HW_SEQ_NUM_MASK + 1);
seq_sw &= ~HW_SEQ_NUM_MASK;
seq_sw |= last_seq;
//load packet info
vrt::if_packet_info_t packet_info;
packet_info.packet_type = vrt::if_packet_info_t::PACKET_TYPE_CONTEXT;
packet_info.num_payload_words32 = RXFC_PACKET_LEN_IN_WORDS;
packet_info.num_payload_bytes = packet_info.num_payload_words32*sizeof(uint32_t);
packet_info.packet_count = seq_sw;
packet_info.sob = false;
packet_info.eob = false;
packet_info.sid = sid;
packet_info.has_sid = true;
packet_info.has_cid = false;
packet_info.has_tsi = false;
packet_info.has_tsf = false;
packet_info.has_tlr = false;
//load header
e300_if_hdr_pack_le(pkt, packet_info);
//load payload
pkt[packet_info.num_header_words32+RXFC_CMD_CODE_OFFSET] = uhd::htowx<uint32_t>(0);
pkt[packet_info.num_header_words32+RXFC_SEQ_NUM_OFFSET] = uhd::htowx<uint32_t>(seq_sw);
//send the buffer over the interface
buff->commit(sizeof(uint32_t)*(packet_info.num_packet_words32));
}
/***********************************************************************
* TX flow control handler
**********************************************************************/
struct e300_tx_fc_cache_t
{
e300_tx_fc_cache_t(void):
stream_channel(0),
device_channel(0),
last_seq_out(0),
last_seq_ack(0),
seq_queue(1){}
size_t stream_channel;
size_t device_channel;
size_t last_seq_out;
size_t last_seq_ack;
bounded_buffer<size_t> seq_queue;
boost::shared_ptr<e300_impl::async_md_type> async_queue;
boost::shared_ptr<e300_impl::async_md_type> old_async_queue;
};
#define E300_ASYNC_EVENT_CODE_FLOW_CTRL 0
typedef boost::function<double(void)> tick_rate_retriever_t;
static void handle_tx_async_msgs(boost::shared_ptr<e300_tx_fc_cache_t> fc_cache,
zero_copy_if::sptr xport,
boost::function<double(void)> get_tick_rate)
{
managed_recv_buffer::sptr buff = xport->get_recv_buff();
if (not buff)
return;
//extract packet info
vrt::if_packet_info_t if_packet_info;
if_packet_info.num_packet_words32 = buff->size()/sizeof(uint32_t);
const uint32_t *packet_buff = buff->cast<const uint32_t *>();
//unpacking can fail
try
{
e300_if_hdr_unpack_le(packet_buff, if_packet_info);
}
catch(const std::exception &ex)
{
UHD_MSG(error) << "Error parsing async message packet: " << ex.what() << std::endl;
return;
}
//catch the flow control packets and react
if (uhd::wtohx(packet_buff[if_packet_info.num_header_words32+0]) == 0)
{
const size_t seq = uhd::wtohx(packet_buff[if_packet_info.num_header_words32+1]);
fc_cache->seq_queue.push_with_haste(seq);
return;
}
//fill in the async metadata
async_metadata_t metadata;
load_metadata_from_buff(uhd::wtohx<uint32_t>,
metadata, if_packet_info, packet_buff,
get_tick_rate(), fc_cache->stream_channel);
//The FC response and the burst ack are two indicators that the radio
//consumed packets. Use them to update the FC metadata
if (metadata.event_code == E300_ASYNC_EVENT_CODE_FLOW_CTRL or
metadata.event_code == async_metadata_t::EVENT_CODE_BURST_ACK
) {
const size_t seq = metadata.user_payload[0];
fc_cache->seq_queue.push_with_pop_on_full(seq);
}
//FC responses don't propagate up to the user so filter them here
if (metadata.event_code != E300_ASYNC_EVENT_CODE_FLOW_CTRL) {
fc_cache->async_queue->push_with_pop_on_full(metadata);
metadata.channel = fc_cache->device_channel;
fc_cache->old_async_queue->push_with_pop_on_full(metadata);
standard_async_msg_prints(metadata);
}
}
static managed_send_buffer::sptr get_tx_buff_with_flowctrl(
task::sptr /*holds ref*/,
boost::shared_ptr<e300_tx_fc_cache_t> fc_cache,
zero_copy_if::sptr xport,
const size_t fc_window,
const double timeout
){
while (true)
{
const size_t delta = (fc_cache->last_seq_out & HW_SEQ_NUM_MASK) - (fc_cache->last_seq_ack & HW_SEQ_NUM_MASK);
if ((delta & HW_SEQ_NUM_MASK) <= fc_window)
break;
const bool ok = fc_cache->seq_queue.pop_with_timed_wait(fc_cache->last_seq_ack, timeout);
if (not ok)
return managed_send_buffer::sptr(); //timeout waiting for flow control
}
managed_send_buffer::sptr buff = xport->get_send_buff(timeout);
if (buff) {
fc_cache->last_seq_out++; //update seq, this will actually be a send
}
return buff;
}
/***********************************************************************
* Async Data
**********************************************************************/
bool e300_impl::recv_async_msg(
async_metadata_t &async_metadata, double timeout
)
{
return _async_md->pop_with_timed_wait(async_metadata, timeout);
}
/***********************************************************************
* Receive streamer
**********************************************************************/
rx_streamer::sptr e300_impl::get_rx_stream(const uhd::stream_args_t &args_)
{
boost::mutex::scoped_lock lock(_stream_spawn_mutex);
stream_args_t args = args_;
//setup defaults for unspecified values
if (not args.otw_format.empty() and args.otw_format != "sc16")
{
throw uhd::value_error("e300_impl::get_rx_stream only supports otw_format sc16");
}
args.otw_format = "sc16";
args.channels = args.channels.empty()? std::vector<size_t>(1, 0) : args.channels;
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];
// make a transport, grab a sid
uint32_t data_sid;
both_xports_t data_xports = _make_transport(
radio_index ? E300_XB_DST_R1 : E300_XB_DST_R0,
E300_RADIO_DEST_PREFIX_RX,
_data_xport_params,
data_sid);
//calculate packet size
static const size_t hdr_size = 0
+ vrt::num_vrl_words32*sizeof(uint32_t)
+ vrt::max_if_hdr_words32*sizeof(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
;
const size_t bpp = data_xports.recv->get_recv_frame_size() - hdr_size;
const size_t bpi = convert::get_bytes_per_item(args.otw_format);
const size_t spp = unsigned(args.args.cast<double>("spp", bpp/bpi));
//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(&e300_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); //seems to be a good place to set this
perif.framer->set_sid((data_sid << 16) | (data_sid >> 16));
perif.framer->setup(args);
perif.ddc->setup(args);
// flow control setup
const size_t frame_size = data_xports.recv->get_recv_frame_size();
const size_t num_frames = data_xports.recv->get_num_recv_frames();
const size_t fc_window = get_rx_flow_control_window(
frame_size,num_frames * frame_size,
E300_RX_SW_BUFF_FULLNESS);
const size_t fc_handle_window = std::max<size_t>(1, fc_window / E300_RX_FC_REQUEST_FREQ);
UHD_LOG << "RX Flow Control Window = " << fc_window
<< ", RX Flow Control Handler Window = "
<< fc_handle_window << std::endl;
perif.framer->configure_flow_control(fc_window);
boost::shared_ptr<e300_rx_fc_cache_t> fc_cache(new e300_rx_fc_cache_t());
my_streamer->set_xport_chan_get_buff(stream_i, boost::bind(
&zero_copy_if::get_recv_buff, data_xports.recv, _1
), true /*flush*/);
my_streamer->set_overflow_handler(stream_i,
boost::bind(&e300_impl::_handle_overflow, this, boost::ref(perif),
boost::weak_ptr<uhd::rx_streamer>(my_streamer))
);
my_streamer->set_xport_handle_flowctrl(stream_i,
boost::bind(&handle_rx_flowctrl, data_sid, data_xports.send, fc_cache, _1),
fc_handle_window, true/*init*/);
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();
}
_update_enables();
return my_streamer;
}
/***********************************************************************
* Transmit streamer
**********************************************************************/
tx_streamer::sptr e300_impl::get_tx_stream(const uhd::stream_args_t &args_)
{
boost::mutex::scoped_lock lock(_stream_spawn_mutex);
stream_args_t args = args_;
//setup defaults for unspecified values
if (not args.otw_format.empty() and args.otw_format != "sc16")
{
throw uhd::value_error("e300_impl::get_tx_stream only supports otw_format sc16");
}
args.otw_format = "sc16";
args.channels = args.channels.empty()? std::vector<size_t>(1, 0) : args.channels;
//shared async queue for all channels in streamer
boost::shared_ptr<async_md_type> async_md(new async_md_type(1000/*messages deep*/));
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];
// make a transport, grab a sid
uint32_t data_sid;
both_xports_t data_xports = _make_transport(
radio_index ? E300_XB_DST_R1 : E300_XB_DST_R0,
E300_RADIO_DEST_PREFIX_TX,
_data_xport_params,
data_sid);
//calculate packet size
static const size_t hdr_size = 0
+ vrt::num_vrl_words32*sizeof(uint32_t)
+ vrt::max_if_hdr_words32*sizeof(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
;
const size_t bpp = data_xports.send->get_send_frame_size() - hdr_size;
const size_t bpi = convert::get_bytes_per_item(args.otw_format);
const size_t spp = unsigned(args.args.cast<double>("spp", bpp/bpi));
//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(&e300_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);
//flow control setup
const size_t fc_window = data_xports.send->get_num_send_frames();
const size_t fc_handle_window = std::max<size_t>(1, fc_window/E300_TX_FC_RESPONSE_FREQ);
UHD_LOG << "TX Flow Control Window = " << fc_window
<< ", TX Flow Control Handler Window = "
<< fc_handle_window << std::endl;
perif.deframer->configure_flow_control(0/*cycs off*/, fc_handle_window/*pkts*/);
boost::shared_ptr<e300_tx_fc_cache_t> fc_cache(new e300_tx_fc_cache_t());
fc_cache->stream_channel = stream_i;
fc_cache->device_channel = args.channels[stream_i];
fc_cache->async_queue = async_md;
fc_cache->old_async_queue = _async_md;
tick_rate_retriever_t get_tick_rate_fn = boost::bind(&e300_impl::_get_tick_rate, this);
task::sptr task = task::make(boost::bind(&handle_tx_async_msgs,
fc_cache, data_xports.recv,
get_tick_rate_fn));
my_streamer->set_xport_chan_get_buff(
stream_i,
boost::bind(&get_tx_buff_with_flowctrl, task, fc_cache, data_xports.send, fc_window, _1)
);
my_streamer->set_async_receiver(
boost::bind(&async_md_type::pop_with_timed_wait, async_md, _1, _2)
);
my_streamer->set_xport_chan_sid(stream_i, true, data_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();
}
_update_enables();
return my_streamer;
}
}}} // namespace
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