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|
//
// Copyright 2010-2012 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 "validate_subdev_spec.hpp"
#include "async_packet_handler.hpp"
#include "../../transport/super_recv_packet_handler.hpp"
#include "../../transport/super_send_packet_handler.hpp"
#include "usrp2_impl.hpp"
#include "usrp2_regs.hpp"
#include "fw_common.h"
#include <uhd/utils/log.hpp>
#include <uhd/utils/tasks.hpp>
#include <uhd/exception.hpp>
#include <uhd/utils/byteswap.hpp>
#include <uhd/utils/thread.hpp>
#include <uhd/transport/bounded_buffer.hpp>
#include <boost/thread/thread.hpp>
#include <boost/format.hpp>
#include <boost/bind.hpp>
#include <boost/asio.hpp>
#include <boost/thread/mutex.hpp>
#include <boost/make_shared.hpp>
#include <iostream>
using namespace uhd;
using namespace uhd::usrp;
using namespace uhd::transport;
namespace asio = boost::asio;
namespace pt = boost::posix_time;
/***********************************************************************
* helpers
**********************************************************************/
static UHD_INLINE pt::time_duration to_time_dur(double timeout){
return pt::microseconds(long(timeout*1e6));
}
/***********************************************************************
* constants
**********************************************************************/
static const size_t vrt_send_header_offset_words32 = 1;
/***********************************************************************
* flow control monitor for a single tx channel
* - the pirate thread calls update
* - the get send buffer calls check
**********************************************************************/
class flow_control_monitor{
public:
typedef uint32_t seq_type;
typedef boost::shared_ptr<flow_control_monitor> sptr;
/*!
* Make a new flow control monitor.
* \param max_seqs_out num seqs before throttling
*/
flow_control_monitor(seq_type max_seqs_out):_max_seqs_out(max_seqs_out){
this->clear();
_ready_fcn = boost::bind(&flow_control_monitor::ready, this);
}
//! Clear the monitor, Ex: when a streamer is created
void clear(void){
_last_seq_out = 0;
_last_seq_ack = 0;
}
/*!
* Gets the current sequence number to go out.
* Increments the sequence for the next call
* \return the sequence to be sent to the dsp
*/
UHD_INLINE seq_type get_curr_seq_out(void){
return _last_seq_out++;
}
/*!
* Check the flow control condition.
* \param timeout the timeout in seconds
* \return false on timeout
*/
UHD_INLINE bool check_fc_condition(double timeout){
boost::mutex::scoped_lock lock(_fc_mutex);
if (this->ready()) return true;
boost::this_thread::disable_interruption di; //disable because the wait can throw
return _fc_cond.timed_wait(lock, to_time_dur(timeout), _ready_fcn);
}
/*!
* Update the flow control condition.
* \param seq the last sequence number to be ACK'd
*/
UHD_INLINE void update_fc_condition(seq_type seq){
boost::mutex::scoped_lock lock(_fc_mutex);
_last_seq_ack = seq;
lock.unlock();
_fc_cond.notify_one();
}
private:
bool ready(void){
return seq_type(_last_seq_out -_last_seq_ack) < _max_seqs_out;
}
boost::mutex _fc_mutex;
boost::condition _fc_cond;
seq_type _last_seq_out, _last_seq_ack;
const seq_type _max_seqs_out;
boost::function<bool(void)> _ready_fcn;
};
/***********************************************************************
* io impl details (internal to this file)
* - pirate crew
* - alignment buffer
* - thread loop
* - vrt packet handler states
**********************************************************************/
struct usrp2_impl::io_impl{
io_impl(void):
async_msg_fifo(1000/*messages deep*/),
tick_rate(1 /*non-zero default*/)
{
/* NOP */
}
~io_impl(void){
//Manually deconstuct the tasks, since this was not happening automatically.
pirate_tasks.clear();
}
managed_send_buffer::sptr get_send_buff(size_t chan, double timeout){
flow_control_monitor &fc_mon = *fc_mons[chan];
//wait on flow control w/ timeout
if (not fc_mon.check_fc_condition(timeout)) return managed_send_buffer::sptr();
//get a buffer from the transport w/ timeout
managed_send_buffer::sptr buff = tx_xports[chan]->get_send_buff(timeout);
//write the flow control word into the buffer
if (buff.get()) buff->cast<uint32_t *>()[0] = uhd::htonx(fc_mon.get_curr_seq_out());
return buff;
}
//tx dsp: xports and flow control monitors
std::vector<zero_copy_if::sptr> tx_xports;
std::vector<flow_control_monitor::sptr> fc_mons;
//methods and variables for the pirate crew
void recv_pirate_loop(zero_copy_if::sptr, size_t, const std::atomic<bool> &);
std::list<task::sptr> pirate_tasks;
bounded_buffer<async_metadata_t> async_msg_fifo;
double tick_rate;
};
/***********************************************************************
* Receive Pirate Loop
* - while raiding, loot for message packet
* - update flow control condition count
* - put async message packets into queue
**********************************************************************/
void usrp2_impl::io_impl::recv_pirate_loop(
zero_copy_if::sptr err_xport, size_t index, const std::atomic<bool> &exit_loop
){
set_thread_priority_safe();
//store a reference to the flow control monitor (offset by max dsps)
flow_control_monitor &fc_mon = *(this->fc_mons[index]);
while (not exit_loop){
managed_recv_buffer::sptr buff = err_xport->get_recv_buff();
if (not buff.get()) continue; //ignore timeout/error buffers
try{
//extract the vrt header packet info
vrt::if_packet_info_t if_packet_info;
if_packet_info.num_packet_words32 = buff->size()/sizeof(uint32_t);
const uint32_t *vrt_hdr = buff->cast<const uint32_t *>();
vrt::if_hdr_unpack_be(vrt_hdr, if_packet_info);
//handle a tx async report message
if (if_packet_info.sid == USRP2_TX_ASYNC_SID and if_packet_info.packet_type != vrt::if_packet_info_t::PACKET_TYPE_DATA){
//fill in the async metadata
async_metadata_t metadata;
load_metadata_from_buff(uhd::ntohx<uint32_t>, metadata, if_packet_info, vrt_hdr, tick_rate, index);
//catch the flow control packets and react
if (metadata.event_code == 0){
uint32_t fc_word32 = (vrt_hdr + if_packet_info.num_header_words32)[1];
fc_mon.update_fc_condition(uhd::ntohx(fc_word32));
continue;
}
//else UHD_LOGGER_DEBUG("USRP2") << "metadata.event_code " << metadata.event_code;
async_msg_fifo.push_with_pop_on_full(metadata);
standard_async_msg_prints(metadata);
}
else{
//TODO unknown received packet, may want to print error...
}
}catch(const std::exception &e){
UHD_LOGGER_ERROR("USRP2") << "Error in recv pirate loop: " << e.what() ;
}
}
}
/***********************************************************************
* Helper Functions
**********************************************************************/
void usrp2_impl::io_init(void){
//create new io impl
_io_impl = UHD_PIMPL_MAKE(io_impl, ());
//init first so we dont have an access race
for(const std::string &mb: _mbc.keys()){
//init the tx xport and flow control monitor
_io_impl->tx_xports.push_back(_mbc[mb].tx_dsp_xport);
_io_impl->fc_mons.push_back(flow_control_monitor::sptr(new flow_control_monitor(
device_addr.cast("send_buff_size", USRP2_SRAM_BYTES) /
_mbc[mb].tx_dsp_xport->get_send_frame_size()
)));
}
//allocate streamer weak ptrs containers
for(const std::string &mb: _mbc.keys()){
_mbc[mb].rx_streamers.resize(_mbc[mb].rx_dsps.size());
_mbc[mb].tx_streamers.resize(1/*known to be 1 dsp*/);
}
//create a new pirate thread for each zc if (yarr!!)
size_t index = 0;
for(const std::string &mb: _mbc.keys()){
//spawn a new pirate to plunder the recv booty
_io_impl->pirate_tasks.push_back(task::make(boost::bind(
&usrp2_impl::io_impl::recv_pirate_loop, _io_impl.get(),
_mbc[mb].tx_dsp_xport, index++,
boost::ref(_pirate_task_exit)
)));
}
}
void usrp2_impl::update_tick_rate(const double rate){
_io_impl->tick_rate = rate; //shadow for async msg
//update the tick rate on all existing streamers -> thread safe
for(const std::string &mb: _mbc.keys()){
for (size_t i = 0; i < _mbc[mb].rx_streamers.size(); i++){
boost::shared_ptr<sph::recv_packet_streamer> my_streamer =
boost::dynamic_pointer_cast<sph::recv_packet_streamer>(_mbc[mb].rx_streamers[i].lock());
if (my_streamer.get() == NULL) continue;
my_streamer->set_tick_rate(rate);
}
for (size_t i = 0; i < _mbc[mb].tx_streamers.size(); i++){
boost::shared_ptr<sph::send_packet_streamer> my_streamer =
boost::dynamic_pointer_cast<sph::send_packet_streamer>(_mbc[mb].tx_streamers[i].lock());
if (my_streamer.get() == NULL) continue;
my_streamer->set_tick_rate(rate);
}
}
}
void usrp2_impl::update_rx_samp_rate(const std::string &mb, const size_t dsp, const double rate){
boost::shared_ptr<sph::recv_packet_streamer> my_streamer =
boost::dynamic_pointer_cast<sph::recv_packet_streamer>(_mbc[mb].rx_streamers[dsp].lock());
if (my_streamer.get() == NULL) return;
my_streamer->set_samp_rate(rate);
const double adj = _mbc[mb].rx_dsps[dsp]->get_scaling_adjustment();
my_streamer->set_scale_factor(adj);
}
void usrp2_impl::update_tx_samp_rate(const std::string &mb, const size_t dsp, const double rate){
boost::shared_ptr<sph::send_packet_streamer> my_streamer =
boost::dynamic_pointer_cast<sph::send_packet_streamer>(_mbc[mb].tx_streamers[dsp].lock());
if (my_streamer.get() == NULL) return;
my_streamer->set_samp_rate(rate);
const double adj = _mbc[mb].tx_dsp->get_scaling_adjustment();
my_streamer->set_scale_factor(adj);
}
void usrp2_impl::update_rates(void){
for(const std::string &mb: _mbc.keys()){
fs_path root = "/mboards/" + mb;
_tree->access<double>(root / "tick_rate").update();
//and now that the tick rate is set, init the host rates to something
for(const std::string &name: _tree->list(root / "rx_dsps")){
_tree->access<double>(root / "rx_dsps" / name / "rate" / "value").update();
}
for(const std::string &name: _tree->list(root / "tx_dsps")){
_tree->access<double>(root / "tx_dsps" / name / "rate" / "value").update();
}
}
}
void usrp2_impl::update_rx_subdev_spec(const std::string &which_mb, const subdev_spec_t &spec){
fs_path root = "/mboards/" + which_mb + "/dboards";
//sanity checking
validate_subdev_spec(_tree, spec, "rx", which_mb);
//setup mux for this spec
bool fe_swapped = false;
for (size_t i = 0; i < spec.size(); i++){
const std::string conn = _tree->access<std::string>(root / spec[i].db_name / "rx_frontends" / spec[i].sd_name / "connection").get();
if (i == 0 and (conn == "QI" or conn == "Q")) fe_swapped = true;
_mbc[which_mb].rx_dsps[i]->set_mux(conn, fe_swapped);
}
_mbc[which_mb].rx_fe->set_mux(fe_swapped);
//compute the new occupancy and resize
_mbc[which_mb].rx_chan_occ = spec.size();
size_t nchan = 0;
for(const std::string &mb: _mbc.keys()) nchan += _mbc[mb].rx_chan_occ;
}
void usrp2_impl::update_tx_subdev_spec(const std::string &which_mb, const subdev_spec_t &spec){
fs_path root = "/mboards/" + which_mb + "/dboards";
//sanity checking
validate_subdev_spec(_tree, spec, "tx", which_mb);
//set the mux for this spec
const std::string conn = _tree->access<std::string>(root / spec[0].db_name / "tx_frontends" / spec[0].sd_name / "connection").get();
_mbc[which_mb].tx_fe->set_mux(conn);
//compute the new occupancy and resize
_mbc[which_mb].tx_chan_occ = spec.size();
size_t nchan = 0;
for(const std::string &mb: _mbc.keys()) nchan += _mbc[mb].tx_chan_occ;
}
/***********************************************************************
* Async Data
**********************************************************************/
bool usrp2_impl::recv_async_msg(
async_metadata_t &async_metadata, double timeout
){
boost::this_thread::disable_interruption di; //disable because the wait can throw
return _io_impl->async_msg_fifo.pop_with_timed_wait(async_metadata, timeout);
}
/***********************************************************************
* Stream destination programmer
**********************************************************************/
void usrp2_impl::program_stream_dest(
zero_copy_if::sptr &xport, const uhd::stream_args_t &args
){
//perform an initial flush of transport
while (xport->get_recv_buff(0.0)){}
//program the stream command
usrp2_stream_ctrl_t stream_ctrl = usrp2_stream_ctrl_t();
stream_ctrl.sequence = uhd::htonx(uint32_t(0 /* don't care seq num */));
stream_ctrl.vrt_hdr = uhd::htonx(uint32_t(USRP2_INVALID_VRT_HEADER));
//user has provided an alternative address and port for destination
if (args.args.has_key("addr") and args.args.has_key("port")){
UHD_LOGGER_INFO("USRP2") << boost::format(
"Programming streaming destination for custom address. "
"IPv4 Address: %s, UDP Port: %s"
) % args.args["addr"] % args.args["port"];
asio::io_service io_service;
asio::ip::udp::resolver resolver(io_service);
asio::ip::udp::resolver::query query(asio::ip::udp::v4(), args.args["addr"], args.args["port"]);
asio::ip::udp::endpoint endpoint = *resolver.resolve(query);
stream_ctrl.ip_addr = uhd::htonx(uint32_t(endpoint.address().to_v4().to_ulong()));
stream_ctrl.udp_port = uhd::htonx(uint32_t(endpoint.port()));
for (size_t i = 0; i < 3; i++){
UHD_LOGGER_INFO("USRP2") << "ARP attempt " << i;
managed_send_buffer::sptr send_buff = xport->get_send_buff();
std::memcpy(send_buff->cast<void *>(), &stream_ctrl, sizeof(stream_ctrl));
send_buff->commit(sizeof(stream_ctrl));
send_buff.reset();
boost::this_thread::sleep(boost::posix_time::milliseconds(300));
managed_recv_buffer::sptr recv_buff = xport->get_recv_buff(0.0);
if (recv_buff and recv_buff->size() >= sizeof(uint32_t)){
const uint32_t result = uhd::ntohx(recv_buff->cast<const uint32_t *>()[0]);
if (result == 0){
UHD_LOGGER_INFO("USRP2") << "Success! ";
return;
}
}
}
throw uhd::runtime_error("Device failed to ARP when programming alternative streaming destination.");
}
else{
//send the partial stream control without destination
managed_send_buffer::sptr send_buff = xport->get_send_buff();
std::memcpy(send_buff->cast<void *>(), &stream_ctrl, sizeof(stream_ctrl));
send_buff->commit(sizeof(stream_ctrl)/2);
}
}
/***********************************************************************
* Receive streamer
**********************************************************************/
rx_streamer::sptr usrp2_impl::get_rx_stream(const uhd::stream_args_t &args_){
stream_args_t args = args_;
//setup defaults for unspecified values
args.otw_format = args.otw_format.empty()? "sc16" : args.otw_format;
args.channels = args.channels.empty()? std::vector<size_t>(1, 0) : args.channels;
//calculate packet size
static const size_t hdr_size = 0
+ 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 = _mbc[_mbc.keys().front()].rx_dsp_xports[0]->get_recv_frame_size() - hdr_size;
const size_t bpi = convert::get_bytes_per_item(args.otw_format);
const size_t spp = args.args.cast<size_t>("spp", bpp/bpi);
//make the new streamer given the samples per packet
boost::shared_ptr<sph::recv_packet_streamer> my_streamer = boost::make_shared<sph::recv_packet_streamer>(spp);
//init some streamer stuff
my_streamer->resize(args.channels.size());
my_streamer->set_vrt_unpacker(&vrt::if_hdr_unpack_be);
//set the converter
uhd::convert::id_type id;
id.input_format = args.otw_format + "_item32_be";
id.num_inputs = 1;
id.output_format = args.cpu_format;
id.num_outputs = 1;
my_streamer->set_converter(id);
//bind callbacks for the handler
for (size_t chan_i = 0; chan_i < args.channels.size(); chan_i++){
const size_t chan = args.channels[chan_i];
size_t num_chan_so_far = 0;
for(const std::string &mb: _mbc.keys()){
num_chan_so_far += _mbc[mb].rx_chan_occ;
if (chan < num_chan_so_far){
const size_t dsp = chan + _mbc[mb].rx_chan_occ - num_chan_so_far;
_mbc[mb].rx_dsps[dsp]->set_nsamps_per_packet(spp); //seems to be a good place to set this
_mbc[mb].rx_dsps[dsp]->setup(args);
this->program_stream_dest(_mbc[mb].rx_dsp_xports[dsp], args);
my_streamer->set_xport_chan_get_buff(chan_i, boost::bind(
&zero_copy_if::get_recv_buff, _mbc[mb].rx_dsp_xports[dsp], _1
), true /*flush*/);
my_streamer->set_issue_stream_cmd(chan_i, boost::bind(
&rx_dsp_core_200::issue_stream_command, _mbc[mb].rx_dsps[dsp], _1));
_mbc[mb].rx_streamers[dsp] = my_streamer; //store weak pointer
break;
}
}
}
//set the packet threshold to be an entire socket buffer's worth
const size_t packets_per_sock_buff = size_t(50e6/_mbc[_mbc.keys().front()].rx_dsp_xports[0]->get_recv_frame_size());
my_streamer->set_alignment_failure_threshold(packets_per_sock_buff);
//sets all tick and samp rates on this streamer
this->update_rates();
return my_streamer;
}
/***********************************************************************
* Transmit streamer
**********************************************************************/
tx_streamer::sptr usrp2_impl::get_tx_stream(const uhd::stream_args_t &args_){
stream_args_t args = args_;
//setup defaults for unspecified values
args.otw_format = args.otw_format.empty()? "sc16" : args.otw_format;
args.channels = args.channels.empty()? std::vector<size_t>(1, 0) : args.channels;
//calculate packet size
static const size_t hdr_size = 0
+ vrt_send_header_offset_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().sid) //no stream id ever used
- sizeof(vrt::if_packet_info_t().tsi) //no int time ever used
;
const size_t bpp = _mbc[_mbc.keys().front()].tx_dsp_xport->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
boost::shared_ptr<sph::send_packet_streamer> my_streamer = boost::make_shared<sph::send_packet_streamer>(spp);
//init some streamer stuff
my_streamer->resize(args.channels.size());
my_streamer->set_vrt_packer(&vrt::if_hdr_pack_be, vrt_send_header_offset_words32);
//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_be";
id.num_outputs = 1;
my_streamer->set_converter(id);
//bind callbacks for the handler
for (size_t chan_i = 0; chan_i < args.channels.size(); chan_i++){
const size_t chan = args.channels[chan_i];
size_t num_chan_so_far = 0;
size_t abs = 0;
for(const std::string &mb: _mbc.keys()){
num_chan_so_far += _mbc[mb].tx_chan_occ;
if (chan < num_chan_so_far){
const size_t dsp = chan + _mbc[mb].tx_chan_occ - num_chan_so_far;
if (not args.args.has_key("noclear")){
_io_impl->fc_mons[abs]->clear();
}
_mbc[mb].tx_dsp->setup(args);
my_streamer->set_xport_chan_get_buff(chan_i, boost::bind(
&usrp2_impl::io_impl::get_send_buff, _io_impl.get(), abs, _1
));
my_streamer->set_async_receiver(boost::bind(&bounded_buffer<async_metadata_t>::pop_with_timed_wait, &(_io_impl->async_msg_fifo), _1, _2));
_mbc[mb].tx_streamers[dsp] = my_streamer; //store weak pointer
break;
}
abs += 1; //assume 1 tx dsp
}
}
//sets all tick and samp rates on this streamer
this->update_rates();
return my_streamer;
}
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