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|
//
// Copyright 2010-2011 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 "../../transport/vrt_packet_handler.hpp"
#include "usrp2_impl.hpp"
#include "usrp2_regs.hpp"
#include <uhd/utils/byteswap.hpp>
#include <uhd/utils/thread_priority.hpp>
#include <uhd/transport/bounded_buffer.hpp>
#include <boost/format.hpp>
#include <boost/bind.hpp>
#include <boost/thread.hpp>
#include <boost/date_time/posix_time/posix_time_types.hpp>
#include <iostream>
#include <list>
using namespace uhd;
using namespace uhd::usrp;
using namespace uhd::transport;
namespace asio = boost::asio;
/***********************************************************************
* constants
**********************************************************************/
static const int underflow_flags = 0
| async_metadata_t::EVENT_CODE_UNDERFLOW
| async_metadata_t::EVENT_CODE_UNDERFLOW_IN_PACKET
;
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 boost::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){
_last_seq_out = 0;
_last_seq_ack = 0;
_max_seqs_out = max_seqs_out;
}
/*!
* Check the flow control condition.
* \param seq the sequence to go out
* \param timeout the timeout in seconds
* \return false on timeout
*/
UHD_INLINE bool check_fc_condition(seq_type seq, double timeout){
boost::this_thread::disable_interruption di; //disable because the wait can throw
boost::unique_lock<boost::mutex> lock(_fc_mutex);
_last_seq_out = seq;
return _fc_cond.timed_wait(
lock,
boost::posix_time::microseconds(long(timeout*1e6)),
boost::bind(&flow_control_monitor::ready, this)
);
}
/*!
* 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::unique_lock<boost::mutex> 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, _max_seqs_out;
};
/***********************************************************************
* io impl details (internal to this file)
* - pirate crew
* - alignment buffer
* - thread loop
* - vrt packet handler states
**********************************************************************/
struct usrp2_impl::io_impl{
io_impl(size_t send_frame_size, size_t width):
packet_handler_recv_state(width),
async_msg_fifo(bounded_buffer<async_metadata_t>::make(100/*messages deep*/))
{
for (size_t i = 0; i < width; i++){
fc_mons.push_back(flow_control_monitor::sptr(
new flow_control_monitor(usrp2_impl::sram_bytes/send_frame_size)
));
//init empty packet infos
vrt::if_packet_info_t packet_info;
packet_info.packet_count = 0xf;
packet_info.has_tsi = true;
packet_info.tsi = 0;
packet_info.has_tsf = true;
packet_info.tsf = 0;
prev_infos.push_back(packet_info);
}
}
~io_impl(void){
recv_pirate_crew_raiding = false;
recv_pirate_crew.interrupt_all();
recv_pirate_crew.join_all();
}
bool get_send_buffs(
const std::vector<zero_copy_if::sptr> &trans,
vrt_packet_handler::managed_send_buffs_t &buffs,
double timeout
){
UHD_ASSERT_THROW(trans.size() == buffs.size());
//calculate the flow control word
const boost::uint32_t fc_word32 = packet_handler_send_state.next_packet_seq;
//grab a managed buffer for each index
for (size_t i = 0; i < buffs.size(); i++){
if (not fc_mons[i]->check_fc_condition(fc_word32, timeout)) return false;
buffs[i] = trans[i]->get_send_buff(timeout);
if (not buffs[i].get()) return false;
buffs[i]->cast<boost::uint32_t *>()[0] = uhd::htonx(fc_word32);
}
return true;
}
bool get_recv_buffs(
const std::vector<zero_copy_if::sptr> &xports,
vrt_packet_handler::managed_recv_buffs_t &buffs,
double timeout
);
//previous state for each buffer
std::vector<vrt::if_packet_info_t> prev_infos;
//flow control monitors
std::vector<flow_control_monitor::sptr> fc_mons;
//state management for the vrt packet handler code
vrt_packet_handler::recv_state packet_handler_recv_state;
vrt_packet_handler::send_state packet_handler_send_state;
//methods and variables for the pirate crew
void recv_pirate_loop(zero_copy_if::sptr, usrp2_mboard_impl::sptr, size_t);
boost::thread_group recv_pirate_crew;
bool recv_pirate_crew_raiding;
bounded_buffer<async_metadata_t>::sptr async_msg_fifo;
boost::mutex spawn_mutex;
};
/***********************************************************************
* 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 zc_if_err0,
usrp2_mboard_impl::sptr mboard,
size_t index
){
set_thread_priority_safe();
recv_pirate_crew_raiding = true;
spawn_mutex.unlock();
while(recv_pirate_crew_raiding){
managed_recv_buffer::sptr buff = zc_if_err0->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(boost::uint32_t);
const boost::uint32_t *vrt_hdr = buff->cast<const boost::uint32_t *>();
vrt::if_hdr_unpack_be(vrt_hdr, if_packet_info);
//handle a tx async report message
if (if_packet_info.sid == usrp2_impl::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;
metadata.channel = index;
metadata.has_time_spec = if_packet_info.has_tsi and if_packet_info.has_tsf;
metadata.time_spec = time_spec_t(
time_t(if_packet_info.tsi), size_t(if_packet_info.tsf), mboard->get_master_clock_freq()
);
metadata.event_code = vrt_packet_handler::get_context_code<async_metadata_t::event_code_t>(vrt_hdr, if_packet_info);
//catch the flow control packets and react
if (metadata.event_code == 0){
boost::uint32_t fc_word32 = (vrt_hdr + if_packet_info.num_header_words32)[1];
this->fc_mons[index]->update_fc_condition(uhd::ntohx(fc_word32));
continue;
}
//print the famous U, and push the metadata into the message queue
if (metadata.event_code & underflow_flags) std::cerr << "U" << std::flush;
//else std::cout << "metadata.event_code " << metadata.event_code << std::endl;
async_msg_fifo->push_with_pop_on_full(metadata);
}
else{
//TODO unknown received packet, may want to print error...
}
}catch(const std::exception &e){
std::cerr << "Error (usrp2 recv pirate loop): " << e.what() << std::endl;
}
}
}
/***********************************************************************
* Helper Functions
**********************************************************************/
void usrp2_impl::io_init(void){
//the assumption is that all data transports should be identical
const size_t send_frame_size = _data_transports.front()->get_send_frame_size();
//create new io impl
_io_impl = UHD_PIMPL_MAKE(io_impl, (send_frame_size, _data_transports.size()));
//create a new pirate thread for each zc if (yarr!!)
for (size_t i = 0; i < _data_transports.size(); i++){
//lock the unlocked mutex (non-blocking)
_io_impl->spawn_mutex.lock();
//spawn a new pirate to plunder the recv booty
_io_impl->recv_pirate_crew.create_thread(boost::bind(
&usrp2_impl::io_impl::recv_pirate_loop,
_io_impl.get(), _err0_transports.at(i),
_mboards.at(i), i
));
//block here until the spawned thread unlocks
_io_impl->spawn_mutex.lock();
//exit loop iteration in an unlocked condition
_io_impl->spawn_mutex.unlock();
}
}
/***********************************************************************
* 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);
}
/***********************************************************************
* Send Data
**********************************************************************/
size_t usrp2_impl::get_max_send_samps_per_packet(void) const{
static const size_t hdr_size = 0
+ vrt::max_if_hdr_words32*sizeof(boost::uint32_t)
+ vrt_send_header_offset_words32*sizeof(boost::uint32_t)
- sizeof(vrt::if_packet_info_t().cid) //no class id ever used
;
const size_t bpp = _data_transports.front()->get_send_frame_size() - hdr_size;
return bpp/_tx_otw_type.get_sample_size();
}
size_t usrp2_impl::send(
const std::vector<const void *> &buffs, size_t num_samps,
const tx_metadata_t &metadata, const io_type_t &io_type,
send_mode_t send_mode, double timeout
){
return vrt_packet_handler::send(
_io_impl->packet_handler_send_state, //last state of the send handler
buffs, num_samps, //buffer to fill
metadata, send_mode, //samples metadata
io_type, _tx_otw_type, //input and output types to convert
_mboards.front()->get_master_clock_freq(), //master clock tick rate
uhd::transport::vrt::if_hdr_pack_be,
boost::bind(&usrp2_impl::io_impl::get_send_buffs, _io_impl.get(), _data_transports, _1, timeout),
get_max_send_samps_per_packet(),
vrt_send_header_offset_words32
);
}
/***********************************************************************
* Alignment logic on receive
**********************************************************************/
static UHD_INLINE boost::posix_time::time_duration to_time_dur(double timeout){
return boost::posix_time::microseconds(long(timeout*1e6));
}
static UHD_INLINE double from_time_dur(const boost::posix_time::time_duration &time_dur){
return 1e-6*time_dur.total_microseconds();
}
static UHD_INLINE time_spec_t extract_time_spec(
const vrt::if_packet_info_t &packet_info
){
return time_spec_t( //assumes has_tsi and has_tsf are true
time_t(packet_info.tsi), size_t(packet_info.tsf),
100e6 //tick rate does not have to be correct for comparison purposes
);
}
static UHD_INLINE void extract_packet_info(
managed_recv_buffer::sptr &buff,
vrt::if_packet_info_t &prev_info,
time_spec_t &time, bool &clear, bool &msg
){
//extract packet info
vrt::if_packet_info_t next_info;
next_info.num_packet_words32 = buff->size()/sizeof(boost::uint32_t);
vrt::if_hdr_unpack_be(buff->cast<const boost::uint32_t *>(), next_info);
//handle the packet count / sequence number
if ((prev_info.packet_count+1)%16 != next_info.packet_count){
std::cerr << "O" << std::flush; //report overflow (drops in the kernel)
}
time = extract_time_spec(next_info);
clear = extract_time_spec(prev_info) > time;
msg = next_info.packet_type != vrt::if_packet_info_t::PACKET_TYPE_DATA;
prev_info = next_info;
}
static UHD_INLINE bool handle_msg_packet(
vrt_packet_handler::managed_recv_buffs_t &buffs, size_t index
){
for (size_t i = 0; i < buffs.size(); i++){
if (i == index) continue;
buffs[i].reset(); //set NULL
}
return true;
}
UHD_INLINE bool usrp2_impl::io_impl::get_recv_buffs(
const std::vector<zero_copy_if::sptr> &xports,
vrt_packet_handler::managed_recv_buffs_t &buffs,
double timeout
){
if (buffs.size() == 1){
buffs[0] = xports[0]->get_recv_buff(timeout);
if (buffs[0].get() == NULL) return false;
bool clear, msg; time_spec_t time; //unused variables
//call extract_packet_info to handle printing the overflows
extract_packet_info(buffs[0], this->prev_infos[0], time, clear, msg);
return true;
}
//-------------------- begin alignment logic ---------------------//
boost::system_time exit_time = boost::get_system_time() + to_time_dur(timeout);
managed_recv_buffer::sptr buff_tmp;
std::list<size_t> _all_indexes, indexes_to_do;
for (size_t i = 0; i < buffs.size(); i++) _all_indexes.push_back(i);
bool clear, msg;
time_spec_t expected_time;
//respond to a clear by starting from scratch
got_clear:
indexes_to_do = _all_indexes;
clear = false;
//do an initial pop to load an initial sequence id
size_t index = indexes_to_do.front();
buff_tmp = xports[index]->get_recv_buff(from_time_dur(exit_time - boost::get_system_time()));
if (buff_tmp.get() == NULL) return false;
extract_packet_info(buff_tmp, this->prev_infos[index], expected_time, clear, msg);
if (clear) goto got_clear;
buffs[index] = buff_tmp;
if (msg) return handle_msg_packet(buffs, index);
indexes_to_do.pop_front();
//get an aligned set of elements from the buffers:
while(indexes_to_do.size() != 0){
//pop an element off for this index
index = indexes_to_do.front();
buff_tmp = xports[index]->get_recv_buff(from_time_dur(exit_time - boost::get_system_time()));
if (buff_tmp.get() == NULL) return false;
time_spec_t this_time;
extract_packet_info(buff_tmp, this->prev_infos[index], this_time, clear, msg);
if (clear) goto got_clear;
buffs[index] = buff_tmp;
if (msg) return handle_msg_packet(buffs, index);
//if the sequence id matches:
// remove this index from the list and continue
if (this_time == expected_time){
indexes_to_do.pop_front();
continue;
}
//if the sequence id is older:
// continue with the same index to try again
else if (this_time < expected_time){
continue;
}
//if the sequence id is newer:
// use the new expected time for comparison
// add all other indexes back into the list
else{
expected_time = this_time;
indexes_to_do = _all_indexes;
indexes_to_do.remove(index);
continue;
}
}
return true;
//-------------------- end alignment logic -----------------------//
}
/***********************************************************************
* Receive Data
**********************************************************************/
size_t usrp2_impl::get_max_recv_samps_per_packet(void) const{
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
;
const size_t bpp = _data_transports.front()->get_recv_frame_size() - hdr_size;
return bpp/_rx_otw_type.get_sample_size();
}
static void handle_overflow(std::vector<usrp2_mboard_impl::sptr> &mboards, size_t chan){
std::cerr << "O" << std::flush;
mboards.at(chan/mboards.size())->handle_overflow();
}
size_t usrp2_impl::recv(
const std::vector<void *> &buffs, size_t num_samps,
rx_metadata_t &metadata, const io_type_t &io_type,
recv_mode_t recv_mode, double timeout
){
return vrt_packet_handler::recv(
_io_impl->packet_handler_recv_state, //last state of the recv handler
buffs, num_samps, //buffer to fill
metadata, recv_mode, //samples metadata
io_type, _rx_otw_type, //input and output types to convert
_mboards.front()->get_master_clock_freq(), //master clock tick rate
uhd::transport::vrt::if_hdr_unpack_be,
boost::bind(&usrp2_impl::io_impl::get_recv_buffs, _io_impl.get(), _data_transports, _1, timeout),
boost::bind(&handle_overflow, _mboards, _1)
);
}
|