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//
// Copyright 2017 Ettus Research, a National Instruments Company
//
// SPDX-License-Identifier: GPL-3.0-or-later
//
#include "mpmd_impl.hpp"
#include "rpc_block_ctrl.hpp"
#include <../device3/device3_impl.hpp>
#include <uhd/exception.hpp>
#include <uhd/utils/static.hpp>
#include <uhd/utils/tasks.hpp>
#include <boost/make_shared.hpp>
#include <boost/thread.hpp>
#include <memory>
#include <mutex>
#include <random>
#include <string>
#include <vector>
#include <future>
#include <thread>
using namespace uhd;
using namespace uhd::mpmd;
namespace {
/*************************************************************************
* Local constants
************************************************************************/
const size_t MPMD_CROSSBAR_MAX_LADDR = 255;
//! Most pessimistic time for a CHDR query to go to device and back
const double MPMD_CHDR_MAX_RTT = 0.02;
//! MPM Compatibility number
const std::vector<size_t> MPM_COMPAT_NUM = {1, 1};
/*************************************************************************
* Helper functions
************************************************************************/
void reset_time_synchronized(uhd::property_tree::sptr tree)
{
const size_t n_mboards = tree->list("/mboards").size();
UHD_LOGGER_DEBUG("MPMD")
<< "Synchronizing " << n_mboards <<" timekeepers...";
auto get_time_last_pps = [tree](){
return tree->access<time_spec_t>(
fs_path("/mboards/0/time/pps")
).get();
};
auto end_time = std::chrono::steady_clock::now()
+ std::chrono::milliseconds(1100);
auto time_last_pps = get_time_last_pps();
UHD_LOG_DEBUG("MPMD", "Waiting for PPS clock edge...");
while (time_last_pps == get_time_last_pps())
{
if (std::chrono::steady_clock::now() > end_time) {
throw uhd::runtime_error(
"Board 0 may not be getting a PPS signal!\n"
"No PPS detected within the time interval.\n"
"See the application notes for your device.\n"
);
}
std::this_thread::sleep_for(std::chrono::milliseconds(10));
}
UHD_LOG_DEBUG("MPMD", "Setting all timekeepers to 0...");
for (size_t mboard_idx = 0; mboard_idx < n_mboards; mboard_idx++) {
tree->access<time_spec_t>(
fs_path("/mboards") / mboard_idx / "time" / "pps"
).set(time_spec_t(0.0));
}
UHD_LOG_DEBUG("MPMD", "Waiting for next PPS edge...");
std::this_thread::sleep_for(std::chrono::seconds(1));
UHD_LOG_DEBUG("MPMD", "Verifying all timekeepers are aligned...");
auto get_time_now = [tree](const size_t mb_index){
return tree->access<time_spec_t>(
fs_path("/mboards") / mb_index / "time/now"
).get();
};
for (size_t m = 1; m < n_mboards; m++){
time_spec_t time_0 = get_time_now(0);
time_spec_t time_i = get_time_now(m);
if (time_i < time_0
or (time_i - time_0) > time_spec_t(MPMD_CHDR_MAX_RTT)) {
UHD_LOGGER_WARNING("MULTI_USRP") << boost::format(
"Detected time deviation between board %d and board 0.\n"
"Board 0 time is %f seconds.\n"
"Board %d time is %f seconds.\n"
) % m % time_0.get_real_secs() % m % time_i.get_real_secs();
}
}
}
/*! Throw an exception if compat numbers don't match.
*
* \param component Name of the component for which we're checking the
* compat number (for logging and exceptions strings).
* \param expected Tuple of 2 integers representing MAJOR.MINOR compat
* number.
* \param actual Tuple of 2 integers representing MAJOR.MINOR compat
* number.
*/
void assert_compat_number_throw(
const std::string &component,
const std::vector<size_t> &expected,
const std::vector<size_t> &actual
) {
UHD_ASSERT_THROW(expected.size() == 2);
UHD_ASSERT_THROW(actual.size() == 2);
UHD_LOGGER_TRACE("MPMD")
<< "Checking " << component << " compat number. Expected: "
<< expected[0] << "." << expected[1]
<< " Actual: "
<< actual[0] << "." << actual[1]
;
if (actual[0] != expected[0]) {
const std::string err_msg =
str(boost::format("%s major compat number mismatch. "
"Expected: %i.%i Actual: %i.%i")
% component
% expected[0] % expected[1]
% actual[0] % actual[1]);
UHD_LOG_ERROR("MPMD", err_msg);
throw uhd::runtime_error(err_msg);
}
if (actual[1] < expected[1]) {
const std::string err_msg =
str(boost::format("%s minor compat number mismatch. "
"Expected: %i.%i Actual: %i.%i")
% component
% expected[0] % expected[1]
% actual[0] % actual[1]);
UHD_LOG_ERROR("MPMD", err_msg);
throw uhd::runtime_error(err_msg);
}
if (actual[1] > expected[1]) {
const std::string err_msg =
str(boost::format("%s minor compat number mismatch. "
"Expected: %i.%i Actual: %i.%i")
% component
% expected[0] % expected[1]
% actual[0] % actual[1]);
UHD_LOG_WARNING("MPMD", err_msg);
}
}
}
/*****************************************************************************
* Static class attributes
****************************************************************************/
const std::string mpmd_impl::MPM_FINDALL_KEY = "find_all";
const size_t mpmd_impl::MPM_DISCOVERY_PORT = 49600;
const std::string mpmd_impl::MPM_DISCOVERY_PORT_KEY = "discovery_port";
const size_t mpmd_impl::MPM_RPC_PORT = 49601;
const std::string mpmd_impl::MPM_RPC_PORT_KEY = "rpc_port";
const std::string mpmd_impl::MPM_RPC_GET_LAST_ERROR_CMD = "get_last_error";
const std::string mpmd_impl::MPM_DISCOVERY_CMD = "MPM-DISC";
const std::string mpmd_impl::MPM_ECHO_CMD = "MPM-ECHO";
/*****************************************************************************
* Structors
****************************************************************************/
mpmd_impl::mpmd_impl(const device_addr_t& device_args)
: usrp::device3_impl()
, _device_args(device_args)
{
const device_addrs_t mb_args = separate_device_addr(device_args);
const size_t num_mboards = mb_args.size();
_mb.reserve(num_mboards);
const bool serialize_init = device_args.has_key("serialize_init");
const bool skip_init = device_args.has_key("skip_init");
UHD_LOGGER_INFO("MPMD")
<< "Initializing " << num_mboards << " device(s) "
<< (serialize_init ? "serially " : "in parallel ")
<< "with args: " << device_args.to_string();
// First, claim all the devices (so we own them and no one else can claim
// them).
// This can be parallelized as long as uptrs are stored in the right spot;
// they need to be correctly indexed.
for (size_t mb_i = 0; mb_i < num_mboards; ++mb_i) {
UHD_LOG_DEBUG("MPMD", "Claiming mboard " << mb_i);
_mb.push_back(claim_and_make(mb_args[mb_i]));
}
// Next figure out the number of base xport addresses. This way, we
// can run _mb[*]->init() in parallel on all the _mb.
// This can *not* be parallelized.
std::vector<size_t> base_xport_addr(num_mboards, 2); // Starts at 2 [sic]
for (size_t mb_i = 0; mb_i < num_mboards-1; ++mb_i) {
base_xport_addr[mb_i+1] = base_xport_addr[mb_i] + _mb[mb_i]->num_xbars;
}
if (not skip_init) {
// Run the actual device initialization. This can run in parallel.
for (size_t mb_i = 0; mb_i < num_mboards; ++mb_i) {
// Note: This is the only place we do compat number checks. They're
// effectively disabled for skip_init=1
setup_mb(_mb[mb_i].get(), mb_i, base_xport_addr[mb_i]);
}
} else {
UHD_LOG_DEBUG("MPMD", "Claimed device, but skipped init.");
}
// Init the prop tree before the blocks get set up -- they might need access
// to some of the properties. This also means that the prop tree is pristine
// at this point in time.
// This might be parallelized, need to verify the prop tree can handle the
// concurrent accesses. Would shave of milliseconds per device -- probably
// not worth it.
for (size_t mb_i = 0; mb_i < mb_args.size(); ++mb_i) {
init_property_tree(_tree, fs_path("/mboards") / mb_i, _mb[mb_i].get());
}
if (not skip_init) {
// This can be parallelized, because the blocks of individual mboards
// live on different subtrees.
for (size_t mb_i = 0; mb_i < mb_args.size(); ++mb_i) {
setup_rfnoc_blocks(_mb[mb_i].get(), mb_i, mb_args[mb_i]);
}
// FIXME this section only makes sense for when the time source is external.
// So, check for that, or something similar.
// This section of code assumes that the prop tree is set and we have access
// to the timekeepers. So don't move it anywhere else.
if (device_args.has_key("sync_time")) {
reset_time_synchronized(_tree);
}
auto filtered_block_args = device_args; // TODO actually filter
// Blocks will finalize their own setup in this function. They have
// (and might need) full access to the prop tree, the timekeepers, etc.
// This is already internally parallelized.
setup_rpc_blocks(filtered_block_args, serialize_init);
} else {
UHD_LOG_INFO("MPMD", "Claimed device without full initialization.");
}
}
mpmd_impl::~mpmd_impl()
{
/* nop */
}
/*****************************************************************************
* Private methods
****************************************************************************/
mpmd_mboard_impl::uptr mpmd_impl::claim_and_make(
const uhd::device_addr_t& device_args
) {
const std::string rpc_addr = device_args.get(xport::MGMT_ADDR_KEY);
UHD_LOGGER_DEBUG("MPMD")
<< "Device args: `" << device_args.to_string()
<< "'. RPC address: " << rpc_addr
;
if (rpc_addr.empty()) {
UHD_LOG_ERROR("MPMD",
"Could not determine RPC address from device args: "
<< device_args.to_string());
throw uhd::runtime_error("Could not determine device RPC address.");
}
return mpmd_mboard_impl::make(device_args, rpc_addr);
}
void mpmd_impl::setup_mb(
mpmd_mboard_impl *mb,
const size_t mb_index,
const size_t base_xport_addr
) {
assert_compat_number_throw(
"MPM",
MPM_COMPAT_NUM,
mb->rpc->request<std::vector<size_t>>("get_mpm_compat_num")
);
UHD_LOG_DEBUG("MPMD", "Initializing mboard " << mb_index);
mb->init();
for (size_t xbar_index = 0; xbar_index < mb->num_xbars; xbar_index++) {
mb->set_xbar_local_addr(xbar_index, base_xport_addr + xbar_index);
}
}
void mpmd_impl::setup_rfnoc_blocks(
mpmd_mboard_impl* mb,
const size_t mb_index,
const uhd::device_addr_t& ctrl_xport_args
) {
UHD_LOG_TRACE("MPMD",
"Mboard " << mb_index << " reports " << mb->num_xbars << " crossbar(s)."
);
for (size_t xbar_index = 0; xbar_index < mb->num_xbars; xbar_index++) {
const size_t num_blocks =
mb->rpc->request<size_t>("get_num_blocks", xbar_index);
const size_t base_port =
mb->rpc->request<size_t>("get_base_port", xbar_index);
const size_t local_addr = mb->get_xbar_local_addr(xbar_index);
UHD_LOGGER_TRACE("MPMD")
<< "Enumerating RFNoC blocks for xbar " << xbar_index
<< ". Total blocks: " << num_blocks
<< " Base port: " << base_port
<< " Local address: " << local_addr
;
try {
enumerate_rfnoc_blocks(
mb_index,
num_blocks,
base_port,
uhd::sid_t(0, 0, local_addr, 0),
ctrl_xport_args
);
} catch (const std::exception &ex) {
UHD_LOGGER_ERROR("MPMD")
<< "Failure during block enumeration: "
<< ex.what();
throw uhd::runtime_error("Failed to run enumerate_rfnoc_blocks()");
}
}
}
void mpmd_impl::setup_rpc_blocks(
const device_addr_t &block_args,
const bool serialize_init
) {
std::vector<std::future<void>> task_list;
// If we don't force async, most compilers, at least now, will default to
// deferred.
const auto launch_policy = serialize_init ?
std::launch::deferred :
std::launch::async;
// Preload all the tasks (they might start running on emplace_back)
for (const auto &block_ctrl: _rfnoc_block_ctrl) {
auto rpc_block_id = block_ctrl->get_block_id();
if (has_block<uhd::rfnoc::rpc_block_ctrl>(rpc_block_id)) {
const size_t mboard_idx = rpc_block_id.get_device_no();
auto rpc_block_ctrl =
get_block_ctrl<uhd::rfnoc::rpc_block_ctrl>(rpc_block_id);
auto rpc_sptr = _mb[mboard_idx]->rpc;
task_list.emplace_back(std::async(launch_policy,
[rpc_block_id, rpc_block_ctrl, &block_args, rpc_sptr](){
UHD_LOGGER_DEBUG("MPMD")
<< "Adding RPC access to block: " << rpc_block_id
<< " Block args: " << block_args.to_string()
;
rpc_block_ctrl->set_rpc_client(rpc_sptr, block_args);
}
));
}
}
// Execute all the calls to set_rpc_client(), either concurrently, or
// serially
for (auto &task : task_list) {
task.get();
}
}
/*****************************************************************************
* Factory & Registry
****************************************************************************/
static device::sptr mpmd_make(const device_addr_t& device_args)
{
return device::sptr(boost::make_shared<mpmd_impl>(device_args));
}
UHD_STATIC_BLOCK(register_mpmd_device)
{
device::register_device(&mpmd_find, &mpmd_make, device::USRP);
}
// vim: sw=4 expandtab:
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