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//
// Copyright 2017 Ettus Research, a National Instruments Company
//
// SPDX-License-Identifier: GPL-3.0
//
#include "mpmd_impl.hpp"
#include <uhd/utils/safe_call.hpp>
#include <uhd/utils/log.hpp>
#include <chrono>
#include <thread>
namespace {
/*************************************************************************
* Local constants
************************************************************************/
//! Time between reclaims (ms)
const size_t MPMD_RECLAIM_INTERVAL_MS = 1000;
//! Default timeout value for the init() RPC call (ms)
const size_t MPMD_DEFAULT_INIT_TIMEOUT = 120000;
//! Default timeout value for RPC calls (ms)
const size_t MPMD_DEFAULT_RPC_TIMEOUT = 2000;
//! Default session ID (MPM will recognize a session by this name)
const std::string MPMD_DEFAULT_SESSION_ID = "UHD";
//! Key to initialize a ping/measurement latency test
const std::string MPMD_MEAS_LATENCY_KEY = "measure_rpc_latency";
//! Duration of a latency measurement test
constexpr size_t MPMD_MEAS_LATENCY_DURATION = 1000;
/*************************************************************************
* Helper functions
************************************************************************/
void init_device(
uhd::rpc_client::sptr rpc,
const uhd::device_addr_t mb_args
) {
// TODO maybe put this somewhere else?
const std::set<std::string> key_blacklist{
"serial", "claimed", "type", "rev", "addr"
};
std::map<std::string, std::string> mpm_device_args;
for (const auto &key : mb_args.keys()) {
if (not key_blacklist.count(key)) {
mpm_device_args[key] = mb_args[key];
}
}
rpc->set_timeout(mb_args.cast<size_t>(
"init_timeout", MPMD_DEFAULT_INIT_TIMEOUT
));
if (not rpc->request_with_token<bool>("init", mpm_device_args)) {
throw uhd::runtime_error("Failed to initialize device.");
}
rpc->set_timeout(mb_args.cast<size_t>(
"rpc_timeout", MPMD_DEFAULT_RPC_TIMEOUT
));
}
void measure_rpc_latency(
uhd::rpc_client::sptr rpc,
const size_t duration_ms=MPMD_MEAS_LATENCY_DURATION
) {
const double alpha = 0.99;
const std::string payload = "1234567890";
auto measure_once = [payload, rpc](){
const auto start = std::chrono::steady_clock::now();
rpc->request<std::string>("ping", payload);
return (double) std::chrono::duration_cast<std::chrono::microseconds>(
std::chrono::steady_clock::now() - start
).count();
};
double max_latency = measure_once();
double avg_latency = max_latency;
auto end_time = std::chrono::steady_clock::now()
+ std::chrono::milliseconds(duration_ms);
size_t ctr = 1;
while (std::chrono::steady_clock::now() < end_time) {
const auto duration = measure_once();
max_latency = std::max(max_latency, duration);
avg_latency = avg_latency * alpha + (1-alpha) * duration;
ctr++;
// Light throttle:
std::this_thread::sleep_for(std::chrono::milliseconds(1));
}
UHD_LOG_INFO("MPMD",
"RPC latency (coarse estimate): Avg = " << avg_latency << " us, "
"Max = " << max_latency
<< ", n = " << ctr);
}
}
using namespace uhd;
using namespace uhd::mpmd;
/*****************************************************************************
* Structors
****************************************************************************/
mpmd_mboard_impl::mpmd_mboard_impl(
const device_addr_t &mb_args_,
const std::string& rpc_server_addr
) : mb_args(mb_args_)
, rpc(uhd::rpc_client::make(
rpc_server_addr,
mb_args_.cast<size_t>(
mpmd_impl::MPM_RPC_PORT_KEY,
mpmd_impl::MPM_RPC_PORT
),
mpmd_impl::MPM_RPC_GET_LAST_ERROR_CMD))
, _xport_mgr(xport::mpmd_xport_mgr::make(mb_args))
{
UHD_LOGGER_TRACE("MPMD")
<< "Initializing mboard, connecting to RPC server address: "
<< rpc_server_addr
<< " mboard args: " << mb_args.to_string()
;
_claimer_task = claim_device_and_make_task(rpc, mb_args);
if (mb_args_.has_key(MPMD_MEAS_LATENCY_KEY)) {
measure_rpc_latency(rpc, MPMD_MEAS_LATENCY_DURATION);
}
// No one else can now claim the device.
if (mb_args_.has_key("skip_init")) {
UHD_LOG_DEBUG("MPMD", "Claimed device, but skipped init.");
return;
}
init_device(rpc, mb_args);
// RFNoC block clocks are now on. Noc-IDs can be read back.
auto device_info_dict = rpc->request<dev_info>("get_device_info");
for (const auto &info_pair : device_info_dict) {
device_info[info_pair.first] = info_pair.second;
}
UHD_LOGGER_TRACE("MPMD")
<< "MPM reports device info: " << device_info.to_string();
auto dboards_info = rpc->request<std::vector<dev_info>>("get_dboard_info");
UHD_ASSERT_THROW(this->dboard_info.size() == 0);
for (const auto &dboard_info_dict : dboards_info) {
uhd::device_addr_t this_db_info;
for (const auto &info_pair : dboard_info_dict) {
this_db_info[info_pair.first] = info_pair.second;
}
UHD_LOGGER_TRACE("MPMD")
<< "MPM reports dboard info for slot " << this->dboard_info.size()
<< ": " << this_db_info.to_string();
this->dboard_info.push_back(this_db_info);
}
// Initialize properties
this->num_xbars = rpc->request<size_t>("get_num_xbars");
// xbar_local_addrs is not yet valid after this!
this->xbar_local_addrs.resize(this->num_xbars, 0xFF);
}
mpmd_mboard_impl::~mpmd_mboard_impl()
{
UHD_SAFE_CALL(
if (not rpc->request_with_token<bool>("unclaim")) {
UHD_LOG_WARNING("MPMD", "Failure to ack unclaim!");
}
);
}
/*****************************************************************************
* API
****************************************************************************/
void mpmd_mboard_impl::set_xbar_local_addr(
const size_t xbar_index,
const size_t local_addr
) {
UHD_ASSERT_THROW(rpc->request_with_token<bool>("set_xbar_local_addr", xbar_index, local_addr));
UHD_ASSERT_THROW(xbar_index < xbar_local_addrs.size());
xbar_local_addrs.at(xbar_index) = local_addr;
}
uhd::both_xports_t mpmd_mboard_impl::make_transport(
const sid_t& sid,
usrp::device3_impl::xport_type_t xport_type,
const uhd::device_addr_t& xport_args
) {
const std::string xport_type_str = [xport_type](){
switch (xport_type) {
case mpmd_impl::CTRL:
return "CTRL";
case mpmd_impl::ASYNC_MSG:
return "ASYNC_MSG";
case mpmd_impl::RX_DATA:
return "RX_DATA";
case mpmd_impl::TX_DATA:
return "TX_DATA";
default:
UHD_THROW_INVALID_CODE_PATH();
};
}();
UHD_LOGGER_TRACE("MPMD")
<< __func__ << "(): Creating new transport of type: "
<< xport_type_str
;
using namespace uhd::mpmd::xport;
const auto xport_info_list =
rpc->request_with_token<mpmd_xport_mgr::xport_info_list_t>(
"request_xport",
sid.get_dst(),
sid.get_src(),
xport_type_str
);
UHD_LOGGER_TRACE("MPMD")
<< __func__
<< "(): request_xport() gave us " << xport_info_list.size()
<< " option(s)."
;
if (xport_info_list.empty()) {
UHD_LOG_ERROR("MPMD", "No viable transport path found!");
throw uhd::runtime_error("No viable transport path found!");
}
xport::mpmd_xport_mgr::xport_info_t xport_info_out;
auto xports = _xport_mgr->make_transport(
xport_info_list,
xport_type,
xport_args,
xport_info_out
);
if (not rpc->request_with_token<bool>(
"commit_xport",
xport_info_out)) {
UHD_LOG_ERROR("MPMD", "Failed to create UDP transport!");
throw uhd::runtime_error("commit_xport() failed!");
}
return xports;
}
size_t mpmd_mboard_impl::get_mtu(const uhd::direction_t dir) const
{
return _xport_mgr->get_mtu(dir);
}
uhd::device_addr_t mpmd_mboard_impl::get_rx_hints() const
{
// TODO: See if we need to do anything here. get_rx_stream() might care.
device_addr_t rx_hints;
return rx_hints;
}
uhd::device_addr_t mpmd_mboard_impl::get_tx_hints() const
{
// TODO: See if we need to do anything here. get_tx_stream() might care.
device_addr_t tx_hints;
return tx_hints;
}
void mpmd_mboard_impl::set_timeout_default()
{
rpc->set_timeout(mb_args.cast<size_t>(
"rpc_timeout", MPMD_DEFAULT_RPC_TIMEOUT
));
}
/*****************************************************************************
* Private methods
****************************************************************************/
bool mpmd_mboard_impl::claim()
{
try {
return rpc->request_with_token<bool>("reclaim");
} catch (...) {
UHD_LOG_WARNING("MPMD", "Reclaim failed. Exiting claimer loop.");
return false;
}
}
uhd::task::sptr mpmd_mboard_impl::claim_device_and_make_task(
uhd::rpc_client::sptr rpc,
const uhd::device_addr_t mb_args
) {
auto rpc_token = rpc->request<std::string>("claim",
mb_args.get("session_id", MPMD_DEFAULT_SESSION_ID)
);
if (rpc_token.empty()) {
throw uhd::value_error("mpmd device claiming failed!");
}
UHD_LOG_TRACE("MPMD", "Received claim token " << rpc_token);
rpc->set_token(rpc_token);
return uhd::task::make([this] {
if (not this->claim()) {
throw uhd::value_error("mpmd device reclaiming loop failed!");
};
std::this_thread::sleep_for(
std::chrono::milliseconds(MPMD_RECLAIM_INTERVAL_MS)
);
});
}
/*****************************************************************************
* Factory
****************************************************************************/
mpmd_mboard_impl::uptr mpmd_mboard_impl::make(
const uhd::device_addr_t &mb_args,
const std::string& addr
) {
mpmd_mboard_impl::uptr mb =
mpmd_mboard_impl::uptr(new mpmd_mboard_impl(mb_args, addr));
// implicit move
return mb;
}
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