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//
// Copyright 2010 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 <uhd/transport/udp_zero_copy.hpp>
#include <uhd/transport/udp_simple.hpp> //mtu
#include <uhd/transport/bounded_buffer.hpp>
#include <uhd/utils/thread_priority.hpp>
#include <uhd/utils/assert.hpp>
#include <uhd/utils/warning.hpp>
#include <boost/shared_array.hpp>
#include <boost/asio.hpp>
#include <boost/format.hpp>
#include <boost/thread.hpp>
#include <boost/enable_shared_from_this.hpp>
#include <iostream>
using namespace uhd;
using namespace uhd::transport;
namespace asio = boost::asio;
/***********************************************************************
* Constants
**********************************************************************/
//Define this to the the boost async io calls to perform receive.
//Otherwise, get_recv_buff uses a blocking receive with timeout.
//#define USE_ASIO_ASYNC_RECV
//Define this to the the boost async io calls to perform send.
//Otherwise, the commit callback uses a blocking send.
//#define USE_ASIO_ASYNC_SEND
//enough buffering for half a second of samples at full rate on usrp2
static const size_t MIN_RECV_SOCK_BUFF_SIZE = size_t(4 * 25e6 * 0.5);
//Large buffers cause more underflow at high rates.
//Perhaps this is due to the kernel scheduling,
//but may change with host-based flow control.
static const size_t MIN_SEND_SOCK_BUFF_SIZE = size_t(10e3);
//The number of async frames to allocate for each send and recv:
//The non-async recv can have a very large number of recv frames
//because the CPU overhead is independent of the number of frames.
#ifdef USE_ASIO_ASYNC_RECV
static const size_t DEFAULT_NUM_RECV_FRAMES = 32;
#else
static const size_t DEFAULT_NUM_RECV_FRAMES = MIN_RECV_SOCK_BUFF_SIZE/udp_simple::mtu;
#endif
//The non-async send only ever requires a single frame
//because the buffer will be committed before a new get.
#ifdef USE_ASIO_ASYNC_SEND
static const size_t DEFAULT_NUM_SEND_FRAMES = 32;
#else
static const size_t DEFAULT_NUM_SEND_FRAMES = MIN_SEND_SOCK_BUFF_SIZE/udp_simple::mtu;;
#endif
//a single concurrent thread for io_service seems to be the fastest
static const size_t CONCURRENCY_HINT = 1;
/***********************************************************************
* Zero Copy UDP implementation with ASIO:
* This is the portable zero copy implementation for systems
* where a faster, platform specific solution is not available.
* However, it is not a true zero copy implementation as each
* send and recv requires a copy operation to/from userspace.
**********************************************************************/
class udp_zero_copy_asio_impl : public udp_zero_copy, public boost::enable_shared_from_this<udp_zero_copy_asio_impl> {
public:
typedef boost::shared_ptr<udp_zero_copy_asio_impl> sptr;
udp_zero_copy_asio_impl(
const std::string &addr,
const std::string &port,
const device_addr_t &hints
):
_io_service(hints.cast<size_t>("concurrency_hint", CONCURRENCY_HINT)),
_recv_frame_size(size_t(hints.cast<double>("recv_frame_size", udp_simple::mtu))),
_num_recv_frames(size_t(hints.cast<double>("num_recv_frames", DEFAULT_NUM_RECV_FRAMES))),
_send_frame_size(size_t(hints.cast<double>("send_frame_size", udp_simple::mtu))),
_num_send_frames(size_t(hints.cast<double>("num_send_frames", DEFAULT_NUM_SEND_FRAMES)))
{
//std::cout << boost::format("Creating udp transport for %s %s") % addr % port << std::endl;
//resolve the address
asio::ip::udp::resolver resolver(_io_service);
asio::ip::udp::resolver::query query(asio::ip::udp::v4(), addr, port);
asio::ip::udp::endpoint receiver_endpoint = *resolver.resolve(query);
//create, open, and connect the socket
_socket = new asio::ip::udp::socket(_io_service);
_socket->open(asio::ip::udp::v4());
_socket->connect(receiver_endpoint);
_sock_fd = _socket->native();
}
~udp_zero_copy_asio_impl(void){
delete _work; //allow io_service run to complete
_thread_group.join_all(); //wait for service threads to exit
delete _socket;
}
void init(void){
//allocate all recv frames and release them to begin xfers
_pending_recv_buffs = pending_buffs_type::make(_num_recv_frames);
_recv_buffer = boost::shared_array<char>(new char[_num_recv_frames*_recv_frame_size]);
for (size_t i = 0; i < _num_recv_frames; i++){
release(_recv_buffer.get() + i*_recv_frame_size);
}
//allocate all send frames and push them into the fifo
_pending_send_buffs = pending_buffs_type::make(_num_send_frames);
_send_buffer = boost::shared_array<char>(new char[_num_send_frames*_send_frame_size]);
for (size_t i = 0; i < _num_send_frames; i++){
handle_send(_send_buffer.get() + i*_send_frame_size);
}
//spawn the service threads that will run the io service
_work = new asio::io_service::work(_io_service); //new work to delete later
for (size_t i = 0; i < CONCURRENCY_HINT; i++) _thread_group.create_thread(
boost::bind(&udp_zero_copy_asio_impl::service, this)
);
}
void service(void){
set_thread_priority_safe();
_io_service.run();
}
//get size for internal socket buffer
template <typename Opt> size_t get_buff_size(void) const{
Opt option;
_socket->get_option(option);
return option.value();
}
//set size for internal socket buffer
template <typename Opt> size_t resize_buff(size_t num_bytes){
Opt option(num_bytes);
_socket->set_option(option);
return get_buff_size<Opt>();
}
//! handle a recv callback -> push the filled memory into the fifo
UHD_INLINE void handle_recv(void *mem, size_t len){
boost::this_thread::disable_interruption di; //disable because the wait can throw
_pending_recv_buffs->push_with_wait(boost::asio::buffer(mem, len));
}
////////////////////////////////////////////////////////////////////
#ifdef USE_ASIO_ASYNC_RECV
////////////////////////////////////////////////////////////////////
//! pop a filled recv buffer off of the fifo and bind with the release callback
managed_recv_buffer::sptr get_recv_buff(double timeout){
boost::this_thread::disable_interruption di; //disable because the wait can throw
asio::mutable_buffer buff;
if (_pending_recv_buffs->pop_with_timed_wait(buff, timeout)){
return managed_recv_buffer::make_safe(
buff, boost::bind(
&udp_zero_copy_asio_impl::release,
shared_from_this(),
asio::buffer_cast<void*>(buff)
)
);
}
return managed_recv_buffer::sptr();
}
//! release a recv buffer -> start an async recv on the buffer
void release(void *mem){
_socket->async_receive(
boost::asio::buffer(mem, this->get_recv_frame_size()),
boost::bind(
&udp_zero_copy_asio_impl::handle_recv,
shared_from_this(), mem,
asio::placeholders::bytes_transferred
)
);
}
////////////////////////////////////////////////////////////////////
#else /*USE_ASIO_ASYNC_RECV*/
////////////////////////////////////////////////////////////////////
managed_recv_buffer::sptr get_recv_buff(double timeout){
boost::this_thread::disable_interruption di; //disable because the wait can throw
asio::mutable_buffer buff;
//setup timeval for timeout
timeval tv;
tv.tv_sec = 0;
tv.tv_usec = long(timeout*1e6);
//setup rset for timeout
fd_set rset;
FD_ZERO(&rset);
FD_SET(_sock_fd, &rset);
//call select to perform timed wait and grab an available buffer with wait
//if the condition is true, call receive and return the managed buffer
if (
::select(_sock_fd+1, &rset, NULL, NULL, &tv) > 0 and
_pending_recv_buffs->pop_with_timed_wait(buff, timeout)
){
return managed_recv_buffer::make_safe(
asio::buffer(
boost::asio::buffer_cast<void *>(buff),
_socket->receive(asio::buffer(buff))
),
boost::bind(
&udp_zero_copy_asio_impl::release,
shared_from_this(),
asio::buffer_cast<void*>(buff)
)
);
}
return managed_recv_buffer::sptr();
}
void release(void *mem){
boost::this_thread::disable_interruption di; //disable because the wait can throw
handle_recv(mem, this->get_recv_frame_size());
}
////////////////////////////////////////////////////////////////////
#endif /*USE_ASIO_ASYNC_RECV*/
////////////////////////////////////////////////////////////////////
size_t get_num_recv_frames(void) const {return _num_recv_frames;}
size_t get_recv_frame_size(void) const {return _recv_frame_size;}
//! handle a send callback -> push the emptied memory into the fifo
UHD_INLINE void handle_send(void *mem){
boost::this_thread::disable_interruption di; //disable because the wait can throw
_pending_send_buffs->push_with_wait(boost::asio::buffer(mem, this->get_send_frame_size()));
}
//! pop an empty send buffer off of the fifo and bind with the commit callback
managed_send_buffer::sptr get_send_buff(double timeout){
boost::this_thread::disable_interruption di; //disable because the wait can throw
asio::mutable_buffer buff;
if (_pending_send_buffs->pop_with_timed_wait(buff, timeout)){
return managed_send_buffer::make_safe(
buff, boost::bind(
&udp_zero_copy_asio_impl::commit,
shared_from_this(),
asio::buffer_cast<void*>(buff), _1
)
);
}
return managed_send_buffer::sptr();
}
////////////////////////////////////////////////////////////////////
#ifdef USE_ASIO_ASYNC_SEND
////////////////////////////////////////////////////////////////////
//! commit a send buffer -> start an async send on the buffer
void commit(void *mem, size_t len){
_socket->async_send(
boost::asio::buffer(mem, len),
boost::bind(
&udp_zero_copy_asio_impl::handle_send,
shared_from_this(), mem
)
);
}
////////////////////////////////////////////////////////////////////
#else /*USE_ASIO_ASYNC_SEND*/
////////////////////////////////////////////////////////////////////
void commit(void *mem, size_t len){
_socket->send(asio::buffer(mem, len));
handle_send(mem);
}
////////////////////////////////////////////////////////////////////
#endif /*USE_ASIO_ASYNC_SEND*/
////////////////////////////////////////////////////////////////////
size_t get_num_send_frames(void) const {return _num_send_frames;}
size_t get_send_frame_size(void) const {return _send_frame_size;}
private:
//asio guts -> socket and service
asio::ip::udp::socket *_socket;
asio::io_service _io_service;
asio::io_service::work *_work;
int _sock_fd;
//memory management -> buffers and fifos
boost::thread_group _thread_group;
boost::shared_array<char> _send_buffer, _recv_buffer;
typedef bounded_buffer<asio::mutable_buffer> pending_buffs_type;
pending_buffs_type::sptr _pending_recv_buffs, _pending_send_buffs;
const size_t _recv_frame_size, _num_recv_frames;
const size_t _send_frame_size, _num_send_frames;
};
/***********************************************************************
* UDP zero copy make function
**********************************************************************/
template<typename Opt> static void resize_buff_helper(
udp_zero_copy_asio_impl::sptr udp_trans,
size_t target_size,
const std::string &name
){
size_t min_sock_buff_size = 0;
if (name == "recv") min_sock_buff_size = MIN_RECV_SOCK_BUFF_SIZE;
if (name == "send") min_sock_buff_size = MIN_SEND_SOCK_BUFF_SIZE;
std::string help_message;
#if defined(UHD_PLATFORM_LINUX)
help_message = str(boost::format(
"Please run: sudo sysctl -w net.core.%smem_max=%d\n"
) % ((name == "recv")?"r":"w") % min_sock_buff_size);
#endif /*defined(UHD_PLATFORM_LINUX)*/
//resize the buffer if size was provided
if (target_size > 0){
size_t actual_size = udp_trans->resize_buff<Opt>(target_size);
if (target_size != actual_size) std::cout << boost::format(
"Target %s sock buff size: %d bytes\n"
"Actual %s sock buff size: %d bytes"
) % name % target_size % name % actual_size << std::endl;
else std::cout << boost::format(
"Current %s sock buff size: %d bytes"
) % name % actual_size << std::endl;
if (actual_size < target_size) uhd::warning::post(str(boost::format(
"The %s buffer is smaller than the requested size.\n"
"The minimum recommended buffer size is %d bytes.\n"
"See the transport application notes on buffer resizing.\n%s"
) % name % min_sock_buff_size % help_message));
}
//only enable on platforms that are happy with the large buffer resize
#if defined(UHD_PLATFORM_LINUX) || defined(UHD_PLATFORM_WIN32)
//otherwise, ensure that the buffer is at least the minimum size
else if (udp_trans->get_buff_size<Opt>() < min_sock_buff_size){
resize_buff_helper<Opt>(udp_trans, min_sock_buff_size, name);
}
#endif /*defined(UHD_PLATFORM_LINUX) || defined(UHD_PLATFORM_WIN32)*/
}
udp_zero_copy::sptr udp_zero_copy::make(
const std::string &addr,
const std::string &port,
const device_addr_t &hints
){
udp_zero_copy_asio_impl::sptr udp_trans(
new udp_zero_copy_asio_impl(addr, port, hints)
);
//extract buffer size hints from the device addr
size_t recv_buff_size = size_t(hints.cast<double>("recv_buff_size", 0.0));
size_t send_buff_size = size_t(hints.cast<double>("send_buff_size", 0.0));
//call the helper to resize send and recv buffers
resize_buff_helper<asio::socket_base::receive_buffer_size>(udp_trans, recv_buff_size, "recv");
resize_buff_helper<asio::socket_base::send_buffer_size> (udp_trans, send_buff_size, "send");
udp_trans->init(); //buffers resized -> call init() to use
return udp_trans;
}
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