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srsRAN_4G/lib/test/srslog/text_formatter_test.cpp

272 lines
8.9 KiB
C++

/**
*
* \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 "src/srslog/formatters/text_formatter.h"
#include "srslte/srslog/detail/log_entry_metadata.h"
#include "testing_helpers.h"
#include <numeric>
using namespace srslog;
/// Helper to build a log entry.
static detail::log_entry_metadata build_log_entry_metadata()
{
// Create a time point 50000us from epoch.
using tp_ty = std::chrono::time_point<std::chrono::high_resolution_clock>;
tp_ty tp(std::chrono::microseconds(50000));
fmt::dynamic_format_arg_store<fmt::printf_context> store;
store.push_back(88);
return {tp, {10, true}, "Text %d", std::move(store), "ABC", 'Z', small_str_buffer()};
}
static bool when_fully_filled_log_entry_then_everything_is_formatted()
{
fmt::memory_buffer buffer;
text_formatter{}.format(build_log_entry_metadata(), buffer);
std::string result = fmt::to_string(buffer);
std::string expected = "00:00:00.050000 [ABC ] [Z] [ 10] Text 88\n";
ASSERT_EQ(result, expected);
return true;
}
static bool when_log_entry_without_name_is_passed_then_name_is_not_formatted()
{
auto entry = build_log_entry_metadata();
entry.log_name = "";
fmt::memory_buffer buffer;
text_formatter{}.format(std::move(entry), buffer);
std::string result = fmt::to_string(buffer);
std::string expected = "00:00:00.050000 [Z] [ 10] Text 88\n";
ASSERT_EQ(result, expected);
return true;
}
static bool when_log_entry_without_tag_is_passed_then_tag_is_not_formatted()
{
auto entry = build_log_entry_metadata();
entry.log_tag = '\0';
fmt::memory_buffer buffer;
text_formatter{}.format(std::move(entry), buffer);
std::string result = fmt::to_string(buffer);
std::string expected = "00:00:00.050000 [ABC ] [ 10] Text 88\n";
ASSERT_EQ(result, expected);
return true;
}
static bool
when_log_entry_without_context_is_passed_then_context_is_not_formatted()
{
auto entry = build_log_entry_metadata();
entry.context.enabled = false;
fmt::memory_buffer buffer;
text_formatter{}.format(std::move(entry), buffer);
std::string result = fmt::to_string(buffer);
std::string expected = "00:00:00.050000 [ABC ] [Z] Text 88\n";
ASSERT_EQ(result, expected);
return true;
}
static bool when_log_entry_with_hex_dump_is_passed_then_hex_dump_is_formatted()
{
auto entry = build_log_entry_metadata();
entry.hex_dump.resize(20);
std::iota(entry.hex_dump.begin(), entry.hex_dump.end(), 0);
fmt::memory_buffer buffer;
text_formatter{}.format(std::move(entry), buffer);
std::string result = fmt::to_string(buffer);
std::string expected =
"00:00:00.050000 [ABC ] [Z] [ 10] Text 88\n"
" 0000: 00 01 02 03 04 05 06 07 08 09 0a 0b 0c 0d 0e 0f\n"
" 0010: 10 11 12 13\n";
ASSERT_EQ(result, expected);
return true;
}
namespace {
DECLARE_METRIC("SNR", snr_t, float, "dB");
DECLARE_METRIC("PWR", pwr_t, int, "dBm");
DECLARE_METRIC_SET("RF", rf_set, snr_t, pwr_t);
DECLARE_METRIC("Throughput", thr_t, float, "MB/s");
DECLARE_METRIC("Address", ip_addr_t, std::string, "");
DECLARE_METRIC_LIST("Antennas", antenna_list_t, std::vector<rf_set>);
DECLARE_METRIC_SET("ue_container", ue_set, thr_t, ip_addr_t, antenna_list_t);
DECLARE_METRIC("type", entry_type_t, std::string, "");
DECLARE_METRIC("sector_id", sector_id_t, unsigned, "");
DECLARE_METRIC_LIST("ue_list", ue_list_t, std::vector<ue_set>);
DECLARE_METRIC_SET("sector_metrics",
sector_set,
entry_type_t,
sector_id_t,
ue_list_t);
DECLARE_METRIC_LIST("sector_list", sector_list_t, std::vector<sector_set>);
using complex_ctx_t = srslog::build_context_type<sector_list_t>;
} // namespace
/// Builds an instance of a complex context object filled in with some random
/// data.
static complex_ctx_t build_complex_context()
{
complex_ctx_t ctx("Complex Context");
ctx.get<sector_list_t>().emplace_back();
ctx.at<sector_list_t>(0).write<entry_type_t>("event");
ctx.at<sector_list_t>(0).write<sector_id_t>(1);
ctx.at<sector_list_t>(0).get<ue_list_t>().emplace_back();
ctx.at<sector_list_t>(0).at<ue_list_t>(0).write<thr_t>(1.2);
ctx.at<sector_list_t>(0).at<ue_list_t>(0).write<ip_addr_t>("10.20.30.40");
ctx.at<sector_list_t>(0).get<ue_list_t>().emplace_back();
ctx.at<sector_list_t>(0).at<ue_list_t>(1).write<thr_t>(10.2);
ctx.at<sector_list_t>(0).at<ue_list_t>(1).write<ip_addr_t>("10.20.30.41");
ctx.at<sector_list_t>(0)
.at<ue_list_t>(0)
.get<antenna_list_t>()
.emplace_back();
ctx.at<sector_list_t>(0).at<ue_list_t>(0).at<antenna_list_t>(0).write<snr_t>(
5.1);
ctx.at<sector_list_t>(0).at<ue_list_t>(0).at<antenna_list_t>(0).write<pwr_t>(
-11.5);
ctx.at<sector_list_t>(0)
.at<ue_list_t>(0)
.get<antenna_list_t>()
.emplace_back();
ctx.at<sector_list_t>(0).at<ue_list_t>(0).at<antenna_list_t>(1).write<snr_t>(
10.1);
ctx.at<sector_list_t>(0).at<ue_list_t>(0).at<antenna_list_t>(1).write<pwr_t>(
-20.5);
ctx.at<sector_list_t>(0)
.at<ue_list_t>(1)
.get<antenna_list_t>()
.emplace_back();
ctx.at<sector_list_t>(0).at<ue_list_t>(1).at<antenna_list_t>(0).write<snr_t>(
20.1);
ctx.at<sector_list_t>(0).at<ue_list_t>(1).at<antenna_list_t>(0).write<pwr_t>(
-30.5);
ctx.at<sector_list_t>(0)
.at<ue_list_t>(1)
.get<antenna_list_t>()
.emplace_back();
ctx.at<sector_list_t>(0).at<ue_list_t>(1).at<antenna_list_t>(1).write<snr_t>(
30.1);
ctx.at<sector_list_t>(0).at<ue_list_t>(1).at<antenna_list_t>(1).write<pwr_t>(
-40.5);
return ctx;
}
static bool
when_log_entry_with_only_context_is_passed_then_context_is_formatted()
{
auto ctx = build_complex_context();
auto entry = build_log_entry_metadata();
entry.fmtstring = nullptr;
fmt::memory_buffer buffer;
text_formatter{}.format_ctx(ctx, std::move(entry), buffer);
std::string result = fmt::to_string(buffer);
std::string expected = "00:00:00.050000 [ABC ] [Z] [ 10] Context dump for "
"\"Complex Context\"\n"
" > List: sector_list\n"
" > Set: sector_metrics\n"
" type: event\n"
" sector_id: 1\n"
" > List: ue_list\n"
" > Set: ue_container\n"
" Throughput: 1.2 MB/s\n"
" Address: 10.20.30.40\n"
" > List: Antennas\n"
" > Set: RF\n"
" SNR: 5.1 dB\n"
" PWR: -11 dBm\n"
" > Set: RF\n"
" SNR: 10.1 dB\n"
" PWR: -20 dBm\n"
" > Set: ue_container\n"
" Throughput: 10.2 MB/s\n"
" Address: 10.20.30.41\n"
" > List: Antennas\n"
" > Set: RF\n"
" SNR: 20.1 dB\n"
" PWR: -30 dBm\n"
" > Set: RF\n"
" SNR: 30.1 dB\n"
" PWR: -40 dBm\n";
ASSERT_EQ(result, expected);
return true;
}
static bool
when_log_entry_with_context_and_message_is_passed_then_context_is_formatted()
{
auto entry = build_log_entry_metadata();
auto ctx = build_complex_context();
fmt::memory_buffer buffer;
text_formatter{}.format_ctx(ctx, std::move(entry), buffer);
std::string result = fmt::to_string(buffer);
std::string expected =
"00:00:00.050000 [ABC ] [Z] [ 10] [[sector_metrics_type: event, "
"sector_metrics_sector_id: 1, [ue_container_Throughput: 1.2 MB/s, "
"ue_container_Address: 10.20.30.40, [RF_SNR: 5.1 dB, RF_PWR: -11 "
"dBm][RF_SNR: 10.1 dB, RF_PWR: -20 dBm]][ue_container_Throughput: 10.2 "
"MB/s, ue_container_Address: 10.20.30.41, [RF_SNR: 20.1 dB, RF_PWR: -30 "
"dBm][RF_SNR: 30.1 dB, RF_PWR: -40 dBm]]]]: Text 88\n";
ASSERT_EQ(result, expected);
return true;
}
int main()
{
TEST_FUNCTION(when_fully_filled_log_entry_then_everything_is_formatted);
TEST_FUNCTION(
when_log_entry_without_name_is_passed_then_name_is_not_formatted);
TEST_FUNCTION(when_log_entry_without_tag_is_passed_then_tag_is_not_formatted);
TEST_FUNCTION(
when_log_entry_without_context_is_passed_then_context_is_not_formatted);
TEST_FUNCTION(
when_log_entry_with_hex_dump_is_passed_then_hex_dump_is_formatted);
TEST_FUNCTION(
when_log_entry_with_only_context_is_passed_then_context_is_formatted);
TEST_FUNCTION(
when_log_entry_with_context_and_message_is_passed_then_context_is_formatted);
return 0;
}