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/**
*
* \section COPYRIGHT
*
* Copyright 2013-2020 Software Radio Systems Limited
*
* By using this file, you agree to the terms and conditions set
* forth in the LICENSE file which can be found at the top level of
* the distribution.
*
*/
#include "srsenb/hdr/metrics_json.h"
#include "srslte/srslog/context.h"
using namespace srsenb;
void metrics_json::set_handle(enb_metrics_interface* enb_)
{
enb = enb_;
}
namespace {
/// Bearer container metrics.
DECLARE_METRIC("bearer_id", metric_bearer_id, uint32_t, "");
DECLARE_METRIC("qci", metric_qci, uint32_t, "");
DECLARE_METRIC("dl_total_bytes", metric_dl_total_bytes, uint64_t, "");
DECLARE_METRIC("ul_total_bytes", metric_ul_total_bytes, uint64_t, "");
DECLARE_METRIC("dl_latency", metric_dl_latency, float, "");
DECLARE_METRIC("ul_latency", metric_ul_latency, float, "");
DECLARE_METRIC("dl_buffered_bytes", metric_dl_buffered_bytes, uint32_t, "");
DECLARE_METRIC("ul_buffered_bytes", metric_ul_buffered_bytes, uint32_t, "");
DECLARE_METRIC_SET("bearer_container",
mset_bearer_container,
metric_bearer_id,
metric_qci,
metric_dl_total_bytes,
metric_ul_total_bytes,
metric_dl_latency,
metric_ul_latency,
metric_dl_buffered_bytes,
metric_ul_buffered_bytes);
/// UE container metrics.
DECLARE_METRIC("ue_rnti", metric_ue_rnti, uint32_t, "");
DECLARE_METRIC("dl_cqi", metric_dl_cqi, float, "");
DECLARE_METRIC("dl_mcs", metric_dl_mcs, float, "");
DECLARE_METRIC("dl_bitrate", metric_dl_bitrate, float, "");
DECLARE_METRIC("dl_bler", metric_dl_bler, float, "");
DECLARE_METRIC("ul_snr", metric_ul_snr, float, "");
DECLARE_METRIC("ul_mcs", metric_ul_mcs, float, "");
DECLARE_METRIC("ul_bitrate", metric_ul_bitrate, float, "");
DECLARE_METRIC("ul_bler", metric_ul_bler, float, "");
DECLARE_METRIC("ul_phr", metric_ul_phr, float, "");
DECLARE_METRIC("bsr", metric_bsr, int, "");
DECLARE_METRIC_LIST("bearer_list", mlist_bearers, std::vector<mset_bearer_container>);
DECLARE_METRIC_SET("ue_container",
mset_ue_container,
metric_ue_rnti,
metric_dl_cqi,
metric_dl_mcs,
metric_dl_bitrate,
metric_dl_bler,
metric_ul_snr,
metric_ul_mcs,
metric_ul_bitrate,
metric_ul_bler,
metric_ul_phr,
metric_bsr,
mlist_bearers);
/// Sector container metrics.
DECLARE_METRIC("sector_id", metric_sector_id, uint32_t, "");
DECLARE_METRIC("sector_rach", metric_sector_rach, uint32_t, "");
DECLARE_METRIC_LIST("ue_list", mlist_ues, std::vector<mset_ue_container>);
DECLARE_METRIC_SET("sector_container", mset_sector_container, metric_sector_id, metric_sector_rach, mlist_ues);
/// Metrics root object.
DECLARE_METRIC("type", metric_type_tag, std::string, "");
DECLARE_METRIC_LIST("sector_list", mlist_sector, std::vector<mset_sector_container>);
/// Metrics context.
using metric_context_t = srslog::build_context_type<metric_type_tag, mlist_sector>;
} // namespace
/// Fill the metrics for the i'th UE in the enb metrics struct.
static void fill_ue_metrics(mset_ue_container& ue, const enb_metrics_t& m, unsigned i)
{
ue.write<metric_ue_rnti>(m.stack.mac.ues[i].rnti);
ue.write<metric_dl_cqi>(std::max(0.1f, m.stack.mac.ues[i].dl_cqi));
if (!std::isnan(m.phy[i].dl.mcs)) {
ue.write<metric_dl_mcs>(std::max(0.1f, m.phy[i].dl.mcs));
}
if (m.stack.mac.ues[i].tx_brate > 0) {
ue.write<metric_dl_bitrate>(
std::max(0.1f, (float)m.stack.mac.ues[i].tx_brate / (m.stack.mac.ues[i].nof_tti * 0.001f)));
}
if (m.stack.mac.ues[i].tx_pkts > 0 && m.stack.mac.ues[i].tx_errors > 0) {
ue.write<metric_dl_bler>(std::max(0.1f, (float)100 * m.stack.mac.ues[i].tx_errors / m.stack.mac.ues[i].tx_pkts));
}
if (!std::isnan(m.phy[i].ul.sinr)) {
ue.write<metric_ul_snr>(std::max(0.1f, m.phy[i].ul.sinr));
}
if (!std::isnan(m.phy[i].ul.mcs)) {
ue.write<metric_ul_mcs>(std::max(0.1f, m.phy[i].ul.mcs));
}
if (m.stack.mac.ues[i].rx_brate > 0) {
ue.write<metric_ul_bitrate>(
std::max(0.1f, (float)m.stack.mac.ues[i].rx_brate / (m.stack.mac.ues[i].nof_tti * 0.001f)));
}
if (m.stack.mac.ues[i].rx_pkts > 0 && m.stack.mac.ues[i].rx_errors > 0) {
ue.write<metric_ul_bler>(std::max(0.1f, (float)100 * m.stack.mac.ues[i].rx_errors / m.stack.mac.ues[i].rx_pkts));
}
ue.write<metric_ul_phr>(m.stack.mac.ues[i].phr);
ue.write<metric_bsr>(m.stack.mac.ues[i].ul_buffer);
// For each data bearer of this UE...
auto& bearer_list = ue.get<mlist_bearers>();
for (const auto& drb : m.stack.rrc.ues[i].drb_qci_map) {
bearer_list.emplace_back();
auto& bearer_container = bearer_list.back();
bearer_container.write<metric_bearer_id>(drb.first);
bearer_container.write<metric_qci>(drb.second);
// RLC bearer metrics.
if (drb.first >= SRSLTE_N_RADIO_BEARERS) {
continue;
}
const auto& rlc_bearer = m.stack.rlc.ues[i].bearer;
bearer_container.write<metric_dl_total_bytes>(rlc_bearer[drb.first].num_tx_sdu_bytes);
bearer_container.write<metric_ul_total_bytes>(rlc_bearer[drb.first].num_rx_sdu_bytes);
bearer_container.write<metric_ul_latency>(rlc_bearer[drb.first].rx_latency_ms / 1e3);
bearer_container.write<metric_ul_buffered_bytes>(rlc_bearer[drb.first].rx_buffered_bytes);
}
}
/// Returns false if the input index is out of bounds in the metrics struct.
static bool has_valid_metric_ranges(const enb_metrics_t& m, unsigned index)
{
if (index >= m.phy.size()) {
return false;
}
if (index >= m.stack.mac.ues.size()) {
return false;
}
if (index >= m.stack.rlc.ues.size()) {
return false;
}
return true;
}
void metrics_json::set_metrics(const enb_metrics_t& m, const uint32_t period_usec)
{
if (!enb) {
return;
}
if (m.stack.mac.cc_rach_counter.empty()) {
return;
}
metric_context_t ctx("JSON Metrics");
// Fill root object.
ctx.write<metric_type_tag>("metrics");
auto& sector_list = ctx.get<mlist_sector>();
sector_list.resize(m.stack.mac.cc_rach_counter.size());
// For each sector...
for (unsigned cc_idx = 0, e = sector_list.size(); cc_idx != e; ++cc_idx) {
auto& sector = sector_list[cc_idx];
sector.write<metric_sector_id>(cc_idx);
sector.write<metric_sector_rach>(m.stack.mac.cc_rach_counter[cc_idx]);
// For each UE in this sector...
for (unsigned i = 0; i != m.stack.rrc.ues.size(); ++i) {
if (!has_valid_metric_ranges(m, i)) {
continue;
}
// Only record UEs that belong to this sector.
if (m.stack.mac.ues[i].cc_idx != cc_idx) {
continue;
}
sector.get<mlist_ues>().emplace_back();
fill_ue_metrics(sector.get<mlist_ues>().back(), m, i);
}
}
// Log the context.
log_c(ctx);
}