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//
// Copyright 2013-2015 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/nirio_zero_copy.hpp>
#include <stdio.h>
#include <uhd/transport/nirio/nirio_fifo.h>
#include <uhd/transport/buffer_pool.hpp>
#include <uhd/utils/log.hpp>
#include <uhd/utils/atomic.hpp>
#include <boost/format.hpp>
#include <boost/make_shared.hpp>
#include <boost/date_time/posix_time/posix_time.hpp>
#include <boost/thread/thread.hpp> //sleep
#include <vector>
#include <algorithm> // std::max
//@TODO: Move the register defs required by the class to a common location
#include "../usrp/x300/x300_regs.hpp"
using namespace uhd;
using namespace uhd::transport;
using namespace uhd::niusrprio;
typedef uint64_t fifo_data_t;
class nirio_zero_copy_mrb : public managed_recv_buffer
{
public:
nirio_zero_copy_mrb(nirio_fifo<fifo_data_t>& fifo, const size_t frame_size):
_fifo(fifo), _frame_size(frame_size) { }
void release(void)
{
_fifo.release(_frame_size / sizeof(fifo_data_t));
}
UHD_INLINE sptr get_new(const double timeout, size_t &index)
{
nirio_status status = 0;
size_t elems_acquired = 0;
size_t elems_remaining = 0;
nirio_status_chain(_fifo.acquire(
_typed_buffer, _frame_size / sizeof(fifo_data_t),
static_cast<uint32_t>(timeout*1000),
elems_acquired, elems_remaining), status);
_length = elems_acquired * sizeof(fifo_data_t);
_buffer = static_cast<void*>(_typed_buffer);
if (nirio_status_not_fatal(status)) {
index++; //Advances the caller's buffer
return make(this, _buffer, _length);
} else if (status == NiRio_Status_CommunicationTimeout) {
nirio_status_to_exception(status, "NI-RIO PCIe data transfer failed.");
return sptr();
} else {
return sptr(); //NULL for timeout or error.
}
}
private:
nirio_fifo<fifo_data_t>& _fifo;
fifo_data_t* _typed_buffer;
const size_t _frame_size;
};
class nirio_zero_copy_msb : public managed_send_buffer
{
public:
nirio_zero_copy_msb(nirio_fifo<fifo_data_t>& fifo, const size_t frame_size):
_fifo(fifo), _frame_size(frame_size) { }
void release(void)
{
_fifo.release(_frame_size / sizeof(fifo_data_t));
}
UHD_INLINE sptr get_new(const double timeout, size_t &index)
{
nirio_status status = 0;
size_t elems_acquired = 0;
size_t elems_remaining = 0;
nirio_status_chain(_fifo.acquire(
_typed_buffer, _frame_size / sizeof(fifo_data_t),
static_cast<uint32_t>(timeout*1000),
elems_acquired, elems_remaining), status);
_length = elems_acquired * sizeof(fifo_data_t);
_buffer = static_cast<void*>(_typed_buffer);
if (nirio_status_not_fatal(status)) {
index++; //Advances the caller's buffer
return make(this, _buffer, _length);
} else if (status == NiRio_Status_CommunicationTimeout) {
nirio_status_to_exception(status, "NI-RIO PCIe data transfer failed.");
return sptr();
} else {
return sptr(); //NULL for timeout or error.
}
}
private:
nirio_fifo<fifo_data_t>& _fifo;
fifo_data_t* _typed_buffer;
const size_t _frame_size;
};
class nirio_zero_copy_impl : public nirio_zero_copy {
public:
typedef boost::shared_ptr<nirio_zero_copy_impl> sptr;
nirio_zero_copy_impl(
uhd::niusrprio::niusrprio_session::sptr fpga_session,
uint32_t instance,
const zero_copy_xport_params& xport_params
):
_fpga_session(fpga_session),
_fifo_instance(instance),
_xport_params(xport_params),
_next_recv_buff_index(0), _next_send_buff_index(0)
{
UHD_LOGGER_TRACE("NIRIO") << boost::format("Creating PCIe transport for channel %d") % instance ;
UHD_LOGGER_TRACE("NIRIO") << boost::format("nirio zero-copy RX transport configured with frame size = %u, #frames = %u, buffer size = %u\n")
% _xport_params.recv_frame_size % _xport_params.num_recv_frames %
(_xport_params.recv_frame_size * _xport_params.num_recv_frames);
UHD_LOGGER_TRACE("NIRIO") << boost::format("nirio zero-copy TX transport configured with frame size = %u, #frames = %u, buffer size = %u\n")
% _xport_params.send_frame_size % _xport_params.num_send_frames % (_xport_params.send_frame_size * _xport_params.num_send_frames);
_recv_buffer_pool = buffer_pool::make(_xport_params.num_recv_frames, _xport_params.recv_frame_size);
_send_buffer_pool = buffer_pool::make(_xport_params.num_send_frames, _xport_params.send_frame_size);
nirio_status status = 0;
size_t actual_depth = 0, actual_size = 0;
//Disable DMA streams in case last shutdown was unclean (cleanup, so don't status chain)
_proxy()->poke(PCIE_TX_DMA_REG(DMA_CTRL_STATUS_REG, _fifo_instance), DMA_CTRL_DISABLED);
_proxy()->poke(PCIE_RX_DMA_REG(DMA_CTRL_STATUS_REG, _fifo_instance), DMA_CTRL_DISABLED);
_wait_until_stream_ready();
//Configure frame width
nirio_status_chain(
_proxy()->poke(PCIE_TX_DMA_REG(DMA_FRAME_SIZE_REG, _fifo_instance),
static_cast<uint32_t>(_xport_params.send_frame_size/sizeof(fifo_data_t))),
status);
nirio_status_chain(
_proxy()->poke(PCIE_RX_DMA_REG(DMA_FRAME_SIZE_REG, _fifo_instance),
static_cast<uint32_t>(_xport_params.recv_frame_size/sizeof(fifo_data_t))),
status);
//Config 32-bit word flipping and enable DMA streams
nirio_status_chain(
_proxy()->poke(PCIE_TX_DMA_REG(DMA_CTRL_STATUS_REG, _fifo_instance),
DMA_CTRL_SW_BUF_U32 | DMA_CTRL_ENABLED),
status);
nirio_status_chain(
_proxy()->poke(PCIE_RX_DMA_REG(DMA_CTRL_STATUS_REG, _fifo_instance),
DMA_CTRL_SW_BUF_U32 | DMA_CTRL_ENABLED),
status);
//Create FIFOs
nirio_status_chain(
_fpga_session->create_rx_fifo(_fifo_instance, _recv_fifo),
status);
nirio_status_chain(
_fpga_session->create_tx_fifo(_fifo_instance, _send_fifo),
status);
if ((_recv_fifo.get() != NULL) && (_send_fifo.get() != NULL)) {
//Initialize FIFOs
nirio_status_chain(
_recv_fifo->initialize(
(_xport_params.recv_frame_size*_xport_params.num_recv_frames)/sizeof(fifo_data_t),
_xport_params.recv_frame_size / sizeof(fifo_data_t),
actual_depth, actual_size),
status);
nirio_status_chain(
_send_fifo->initialize(
(_xport_params.send_frame_size*_xport_params.num_send_frames)/sizeof(fifo_data_t),
_xport_params.send_frame_size / sizeof(fifo_data_t),
actual_depth, actual_size),
status);
_proxy()->get_rio_quirks().add_tx_fifo(_fifo_instance);
nirio_status_chain(_recv_fifo->start(), status);
nirio_status_chain(_send_fifo->start(), status);
if (nirio_status_not_fatal(status)) {
//allocate re-usable managed receive buffers
for (size_t i = 0; i < get_num_recv_frames(); i++){
_mrb_pool.push_back(boost::shared_ptr<nirio_zero_copy_mrb>(new nirio_zero_copy_mrb(
*_recv_fifo, get_recv_frame_size())));
}
//allocate re-usable managed send buffers
for (size_t i = 0; i < get_num_send_frames(); i++){
_msb_pool.push_back(boost::shared_ptr<nirio_zero_copy_msb>(new nirio_zero_copy_msb(
*_send_fifo, get_send_frame_size())));
}
}
} else {
nirio_status_chain(NiRio_Status_ResourceNotInitialized, status);
}
nirio_status_to_exception(status, "Could not create nirio_zero_copy transport.");
}
virtual ~nirio_zero_copy_impl()
{
_proxy()->get_rio_quirks().remove_tx_fifo(_fifo_instance);
//Disable DMA streams (cleanup, so don't status chain)
_proxy()->poke(PCIE_TX_DMA_REG(DMA_CTRL_STATUS_REG, _fifo_instance), DMA_CTRL_DISABLED);
_proxy()->poke(PCIE_RX_DMA_REG(DMA_CTRL_STATUS_REG, _fifo_instance), DMA_CTRL_DISABLED);
_flush_rx_buff();
//Stop DMA channels. Stop is called in the fifo dtor but
//it doesn't hurt to do it here.
_send_fifo->stop();
_recv_fifo->stop();
}
/*******************************************************************
* Receive implementation:
* Block on the managed buffer's get call and advance the index.
******************************************************************/
managed_recv_buffer::sptr get_recv_buff(double timeout)
{
if (_next_recv_buff_index == _xport_params.num_recv_frames) _next_recv_buff_index = 0;
return _mrb_pool[_next_recv_buff_index]->get_new(timeout, _next_recv_buff_index);
}
size_t get_num_recv_frames(void) const {return _xport_params.num_recv_frames;}
size_t get_recv_frame_size(void) const {return _xport_params.recv_frame_size;}
/*******************************************************************
* Send implementation:
* Block on the managed buffer's get call and advance the index.
******************************************************************/
managed_send_buffer::sptr get_send_buff(double timeout)
{
if (_next_send_buff_index == _xport_params.num_send_frames) _next_send_buff_index = 0;
return _msb_pool[_next_send_buff_index]->get_new(timeout, _next_send_buff_index);
}
size_t get_num_send_frames(void) const {return _xport_params.num_send_frames;}
size_t get_send_frame_size(void) const {return _xport_params.send_frame_size;}
private:
UHD_INLINE niriok_proxy::sptr _proxy() { return _fpga_session->get_kernel_proxy(); }
UHD_INLINE void _flush_rx_buff()
{
// acquire is called with 0 elements requested first to
// get the number of elements in the buffer and then
// repeatedly with the number of remaining elements
// until the buffer is empty
for (size_t num_elems_requested = 0,
num_elems_acquired = 0,
num_elems_remaining = 1;
num_elems_remaining;
num_elems_requested = num_elems_remaining)
{
fifo_data_t* elems_buffer = NULL;
nirio_status status = _recv_fifo->acquire(
elems_buffer,
num_elems_requested,
0, // timeout
num_elems_acquired,
num_elems_remaining);
// throw excetption if status is fatal
nirio_status_to_exception(status,
"NI-RIO PCIe data transfer failed during flush.");
_recv_fifo->release(num_elems_acquired);
}
}
UHD_INLINE void _wait_until_stream_ready()
{
static const uint32_t TIMEOUT_IN_MS = 100;
uint32_t reg_data = 0xffffffff;
bool tx_busy = true, rx_busy = true;
boost::posix_time::ptime start_time;
boost::posix_time::time_duration elapsed;
nirio_status status = NiRio_Status_Success;
nirio_status_chain(_proxy()->peek(
PCIE_TX_DMA_REG(DMA_CTRL_STATUS_REG, _fifo_instance), reg_data), status);
tx_busy = (reg_data & DMA_STATUS_BUSY) > 0;
nirio_status_chain(_proxy()->peek(
PCIE_RX_DMA_REG(DMA_CTRL_STATUS_REG, _fifo_instance), reg_data), status);
rx_busy = (reg_data & DMA_STATUS_BUSY) > 0;
if (nirio_status_not_fatal(status) && (tx_busy || rx_busy)) {
start_time = boost::posix_time::microsec_clock::local_time();
do {
boost::this_thread::sleep(boost::posix_time::microsec(50)); //Avoid flooding the bus
elapsed = boost::posix_time::microsec_clock::local_time() - start_time;
nirio_status_chain(_proxy()->peek(
PCIE_TX_DMA_REG(DMA_CTRL_STATUS_REG, _fifo_instance), reg_data), status);
tx_busy = (reg_data & DMA_STATUS_BUSY) > 0;
nirio_status_chain(_proxy()->peek(
PCIE_RX_DMA_REG(DMA_CTRL_STATUS_REG, _fifo_instance), reg_data), status);
rx_busy = (reg_data & DMA_STATUS_BUSY) > 0;
} while (
nirio_status_not_fatal(status) &&
(tx_busy || rx_busy) &&
elapsed.total_milliseconds() < TIMEOUT_IN_MS);
if (tx_busy || rx_busy) {
nirio_status_chain(NiRio_Status_FpgaBusy, status);
}
nirio_status_to_exception(status, "Could not create nirio_zero_copy transport.");
}
}
//memory management -> buffers and fifos
niusrprio::niusrprio_session::sptr _fpga_session;
uint32_t _fifo_instance;
nirio_fifo<fifo_data_t>::sptr _recv_fifo, _send_fifo;
const zero_copy_xport_params _xport_params;
buffer_pool::sptr _recv_buffer_pool, _send_buffer_pool;
std::vector<boost::shared_ptr<nirio_zero_copy_msb> > _msb_pool;
std::vector<boost::shared_ptr<nirio_zero_copy_mrb> > _mrb_pool;
size_t _next_recv_buff_index, _next_send_buff_index;
};
nirio_zero_copy::sptr nirio_zero_copy::make(
uhd::niusrprio::niusrprio_session::sptr fpga_session,
const uint32_t instance,
const zero_copy_xport_params& default_buff_args,
const device_addr_t &hints
){
//Initialize xport_params
zero_copy_xport_params xport_params = default_buff_args;
//The kernel buffer for this transport must be (num_frames * frame_size) big. Unlike ethernet,
//where the kernel buffer size is independent of the circular buffer size for the transport,
//it is possible for users to over constrain the system when they set the num_frames and the buff_size
//So we give buff_size priority over num_frames and throw an error if they conflict.
//RX
xport_params.recv_frame_size = size_t(hints.cast<double>("recv_frame_size", default_buff_args.recv_frame_size));
size_t usr_num_recv_frames = static_cast<size_t>(
hints.cast<double>("num_recv_frames", default_buff_args.num_recv_frames));
size_t usr_recv_buff_size = static_cast<size_t>(
hints.cast<double>("recv_buff_size", default_buff_args.num_recv_frames));
if (hints.has_key("num_recv_frames") and hints.has_key("recv_buff_size")) {
if (usr_recv_buff_size < xport_params.recv_frame_size)
throw uhd::value_error("recv_buff_size must be equal to or greater than (num_recv_frames * recv_frame_size)");
if ((usr_recv_buff_size/xport_params.recv_frame_size) != usr_num_recv_frames)
throw uhd::value_error("Conflicting values for recv_buff_size and num_recv_frames");
}
if (hints.has_key("recv_buff_size")) {
xport_params.num_recv_frames = std::max<size_t>(1, usr_recv_buff_size/xport_params.recv_frame_size); //Round down
} else if (hints.has_key("num_recv_frames")) {
xport_params.num_recv_frames = usr_num_recv_frames;
}
//TX
xport_params.send_frame_size = size_t(hints.cast<double>("send_frame_size", default_buff_args.send_frame_size));
size_t usr_num_send_frames = static_cast<size_t>(
hints.cast<double>("num_send_frames", default_buff_args.num_send_frames));
size_t usr_send_buff_size = static_cast<size_t>(
hints.cast<double>("send_buff_size", default_buff_args.num_send_frames));
if (hints.has_key("num_send_frames") and hints.has_key("send_buff_size")) {
if (usr_send_buff_size < xport_params.send_frame_size)
throw uhd::value_error("send_buff_size must be equal to or greater than (num_send_frames * send_frame_size)");
if ((usr_send_buff_size/xport_params.send_frame_size) != usr_num_send_frames)
throw uhd::value_error("Conflicting values for send_buff_size and num_send_frames");
}
if (hints.has_key("send_buff_size")) {
xport_params.num_send_frames = std::max<size_t>(1, usr_send_buff_size/xport_params.send_frame_size); //Round down
} else if (hints.has_key("num_send_frames")) {
xport_params.num_send_frames = usr_num_send_frames;
}
return nirio_zero_copy::sptr(new nirio_zero_copy_impl(fpga_session, instance, xport_params));
}
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