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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 <complex>
#include <boost/format.hpp>
#include "usrp2_impl.hpp"
using namespace uhd;
using namespace uhd::usrp;
using namespace uhd::transport;
namespace asio = boost::asio;
/***********************************************************************
* Constants
**********************************************************************/
typedef std::complex<float> fc32_t;
typedef std::complex<boost::int16_t> sc16_t;
static const float shorts_per_float = float(1 << 15);
static const float floats_per_short = float(1.0/shorts_per_float);
/***********************************************************************
* Helper Functions
**********************************************************************/
void usrp2_impl::io_init(void){
//initially empty copy buffer
_rx_copy_buff = asio::buffer("", 0);
//send a small data packet so the usrp2 knows the udp source port
//and the maximum number of lines (32 bit words) per packet
boost::uint32_t data[2] = {
htonl(USRP2_INVALID_VRT_HEADER),
htonl(_max_rx_samples_per_packet)
};
_data_transport->send(asio::buffer(&data, sizeof(data)));
}
#define unrolled_loop(__inst, __len){ \
size_t __i = 0; \
for(; __i < (__len & ~0x3); __i+= 4){ \
__inst(__i+0); __inst(__i+1); \
__inst(__i+2); __inst(__i+3); \
} \
for(; __i < __len; __i++){ \
__inst(__i); \
} \
}
// set a boolean flag that indicates the endianess
#ifdef HAVE_BIG_ENDIAN
static const bool is_big_endian = true;
#else
static const bool is_big_endian = false;
#endif
static inline void host_floats_to_usrp2_items(
boost::uint32_t *usrp2_items,
const fc32_t *host_floats,
size_t num_samps
){
#define host_floats_to_usrp2_items_i(i){ \
boost::uint16_t real = boost::int16_t(host_floats[i].real()*shorts_per_float); \
boost::uint16_t imag = boost::int16_t(host_floats[i].imag()*shorts_per_float); \
usrp2_items[i] = htonl((real << 16) | (imag << 0)); \
}
unrolled_loop(host_floats_to_usrp2_items_i, num_samps);
}
static inline void usrp2_items_to_host_floats(
fc32_t *host_floats,
const boost::uint32_t *usrp2_items,
size_t num_samps
){
#define usrp2_items_to_host_floats_i(i){ \
boost::uint32_t item = ntohl(usrp2_items[i]); \
boost::int16_t real = boost::uint16_t(item >> 16); \
boost::int16_t imag = boost::uint16_t(item >> 0); \
host_floats[i] = fc32_t(float(real*floats_per_short), float(imag*floats_per_short)); \
}
unrolled_loop(usrp2_items_to_host_floats_i, num_samps);
}
static inline void host_items_to_usrp2_items(
boost::uint32_t *usrp2_items,
const boost::uint32_t *host_items,
size_t num_samps
){
#define host_items_to_usrp2_items_i(i) usrp2_items[i] = htonl(host_items[i])
if (is_big_endian){
std::memcpy(usrp2_items, host_items, num_samps*sizeof(boost::uint32_t));
}
else{
unrolled_loop(host_items_to_usrp2_items_i, num_samps);
}
}
static inline void usrp2_items_to_host_items(
boost::uint32_t *host_items,
const boost::uint32_t *usrp2_items,
size_t num_samps
){
#define usrp2_items_to_host_items_i(i) host_items[i] = ntohl(usrp2_items[i])
if (is_big_endian){
std::memcpy(host_items, usrp2_items, num_samps*sizeof(boost::uint32_t));
}
else{
unrolled_loop(usrp2_items_to_host_items_i, num_samps);
}
}
/***********************************************************************
* Receive Raw Data
**********************************************************************/
void usrp2_impl::recv_raw(rx_metadata_t &metadata){
//do a receive
_rx_smart_buff = _data_transport->recv();
//unpack the vrt header
size_t num_packet_words32 = asio::buffer_size(_rx_smart_buff->get())/sizeof(boost::uint32_t);
if (num_packet_words32 == 0){
_rx_copy_buff = boost::asio::buffer("", 0);
return; //must exit here after setting the buffer
}
const boost::uint32_t *vrt_hdr = asio::buffer_cast<const boost::uint32_t *>(_rx_smart_buff->get());
size_t num_header_words32_out, num_payload_words32_out, packet_count_out;
try{
vrt::unpack(
metadata, //output
vrt_hdr, //input
num_header_words32_out, //output
num_payload_words32_out, //output
num_packet_words32, //input
packet_count_out //output
);
}catch(const std::exception &e){
std::cerr << "bad vrt header: " << e.what() << std::endl;
_rx_copy_buff = boost::asio::buffer("", 0);
return; //must exit here after setting the buffer
}
//handle the packet count / sequence number
size_t expected_packet_count = _rx_stream_id_to_packet_seq[metadata.stream_id];
if (packet_count_out != expected_packet_count){
std::cerr << "S" << (packet_count_out - expected_packet_count)%16;
}
_rx_stream_id_to_packet_seq[metadata.stream_id] = (packet_count_out+1)%16;
//setup the rx buffer to point to the data
_rx_copy_buff = asio::buffer(
vrt_hdr + num_header_words32_out,
num_payload_words32_out*sizeof(boost::uint32_t)
);
}
/***********************************************************************
* Send Data
**********************************************************************/
size_t usrp2_impl::send(
const asio::const_buffer &buff,
const tx_metadata_t &metadata,
const io_type_t &io_type
){
boost::uint32_t tx_mem[_mtu/sizeof(boost::uint32_t)];
size_t num_samps = std::min(
asio::buffer_size(buff)/io_type.size,
size_t(_max_tx_samples_per_packet)
);
size_t num_header_words32, num_packet_words32;
size_t packet_count = _tx_stream_id_to_packet_seq[metadata.stream_id]++;
//pack metadata into a vrt header
vrt::pack(
metadata, //input
tx_mem, //output
num_header_words32, //output
num_samps, //input
num_packet_words32, //output
packet_count //input
);
boost::uint32_t *items = tx_mem + num_header_words32; //offset for data
//copy the samples into the send buffer
switch(io_type.tid){
case io_type_t::COMPLEX_FLOAT32:
host_floats_to_usrp2_items(items, asio::buffer_cast<const fc32_t*>(buff), num_samps);
break;
case io_type_t::COMPLEX_INT16:
host_items_to_usrp2_items(items, asio::buffer_cast<const boost::uint32_t*>(buff), num_samps);
break;
default:
throw std::runtime_error(str(boost::format("usrp2 send: cannot handle type \"%c\"") % io_type.tid));
}
//send and return number of samples
_data_transport->send(asio::buffer(tx_mem, num_packet_words32*sizeof(boost::uint32_t)));
return num_samps;
}
/***********************************************************************
* Receive Data
**********************************************************************/
size_t usrp2_impl::recv(
const asio::mutable_buffer &buff,
rx_metadata_t &metadata,
const io_type_t &io_type
){
//perform a receive if no rx data is waiting to be copied
if (asio::buffer_size(_rx_copy_buff) == 0){
recv_raw(metadata);
}
//otherwise flag the metadata to show that is is a fragment
else{
metadata = rx_metadata_t();
metadata.is_fragment = true;
}
//extract the number of samples available to copy
//and a pointer into the usrp2 received items memory
size_t bytes_to_copy = asio::buffer_size(_rx_copy_buff);
if (bytes_to_copy == 0) return 0; //nothing to receive
size_t num_samps = std::min(
asio::buffer_size(buff)/io_type.size,
bytes_to_copy/sizeof(boost::uint32_t)
);
const boost::uint32_t *items = asio::buffer_cast<const boost::uint32_t*>(_rx_copy_buff);
//copy the samples from the recv buffer
switch(io_type.tid){
case io_type_t::COMPLEX_FLOAT32:
usrp2_items_to_host_floats(asio::buffer_cast<fc32_t*>(buff), items, num_samps);
break;
case io_type_t::COMPLEX_INT16:
usrp2_items_to_host_items(asio::buffer_cast<boost::uint32_t*>(buff), items, num_samps);
break;
default:
throw std::runtime_error(str(boost::format("usrp2 recv: cannot handle type \"%c\"") % io_type.tid));
}
//update the rx copy buffer to reflect the bytes copied
_rx_copy_buff = asio::buffer(
items + num_samps, bytes_to_copy - num_samps*sizeof(boost::uint32_t)
);
return num_samps;
}
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