/* * Copyright 2013-2020 Software Radio Systems Limited * * This file is part of srsLTE. * * srsLTE is free software: you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as * published by the Free Software Foundation, either version 3 of * the License, or (at your option) any later version. * * srsLTE 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 Affero General Public License for more details. * * A copy of the GNU Affero General Public License can be found in * the LICENSE file in the top-level directory of this distribution * and at http://www.gnu.org/licenses/. * */ #include "srslte/srslog/log_channel.h" #include "srslte/srslog/sink.h" #include "testing_helpers.h" using namespace srslog; namespace { /// A Dummy implementation of a sink. class sink_dummy : public sink { public: detail::error_string write(detail::memory_buffer buffer) override { return {}; } detail::error_string flush() override { return {}; } }; /// A Dummy implementation of the log backend. class backend_dummy : public detail::log_backend { public: void start() override {} void push(detail::log_entry&& entry) override {} bool is_running() const override { return true; } }; } // namespace static bool when_log_channel_is_created_then_id_matches_expected_value() { backend_dummy backend; sink_dummy s; log_channel log("id", s, backend); ASSERT_EQ(log.id(), "id"); return true; } static bool when_log_channel_is_disabled_then_enabled_returns_false() { backend_dummy backend; sink_dummy s; log_channel log("id", s, backend); log.set_enabled(false); ASSERT_EQ(log.enabled(), false); return true; } static bool when_log_channel_is_enabled_then_enabled_returns_true() { backend_dummy backend; sink_dummy s; log_channel log("id", s, backend); log.set_enabled(true); ASSERT_EQ(log.enabled(), true); return true; } namespace { /// A Spy implementation of a log backend. Tests can query if the push method /// has been invoked and the last received log entry. class backend_spy : public detail::log_backend { public: void start() override {} void push(detail::log_entry&& entry) override { e = std::move(entry); ++count; } bool is_running() const override { return true; } unsigned push_invocation_count() const { return count; } const detail::log_entry& last_entry() const { return e; } private: unsigned count = 0; detail::log_entry e; }; } // namespace static bool when_logging_in_log_channel_then_log_entry_is_pushed_into_the_backend() { backend_spy backend; sink_dummy s; log_channel log("id", s, backend); std::string fmtstring = "test"; log(fmtstring, 42, "Hello"); ASSERT_EQ(backend.push_invocation_count(), 1); return true; } static bool when_logging_in_disabled_log_channel_then_log_entry_is_ignored() { backend_spy backend; sink_dummy s; log_channel log("id", s, backend); log.set_enabled(false); std::string fmtstring = "test"; log(fmtstring, 42, "Hello"); ASSERT_EQ(backend.push_invocation_count(), 0); return true; } static bool when_logging_then_filled_in_log_entry_is_pushed_into_the_backend() { backend_spy backend; sink_dummy s; std::string name = "name"; char tag = 'A'; log_channel log("id", s, backend, {name, tag, true}); std::string fmtstring = "test"; uint32_t ctx = 10; log.set_context(ctx); log(fmtstring, 42, "Hello"); ASSERT_EQ(backend.push_invocation_count(), 1); const detail::log_entry& entry = backend.last_entry(); ASSERT_NE(entry.tp.time_since_epoch().count(), 0); ASSERT_EQ(entry.context.value, ctx); ASSERT_EQ(entry.context.enabled, true); ASSERT_EQ(entry.fmtstring, fmtstring); ASSERT_EQ(entry.log_name, name); ASSERT_EQ(entry.log_tag, tag); return true; } static bool when_logging_with_hex_dump_then_filled_in_log_entry_is_pushed_into_the_backend() { backend_spy backend; sink_dummy s; std::string name = "name"; char tag = 'A'; log_channel log("id", s, backend, {name, tag, true}); std::string fmtstring = "test"; uint32_t ctx = 4; log.set_context(ctx); log.set_hex_dump_max_size(4); uint8_t hex[] = {0, 1, 2, 3, 4, 5, 6, 7, 8}; log(hex, sizeof(hex), fmtstring, 42, "Hello"); ASSERT_EQ(backend.push_invocation_count(), 1); const detail::log_entry& entry = backend.last_entry(); ASSERT_NE(entry.tp.time_since_epoch().count(), 0); ASSERT_EQ(entry.context.value, ctx); ASSERT_EQ(entry.context.enabled, true); ASSERT_EQ(entry.fmtstring, fmtstring); ASSERT_EQ(entry.log_name, name); ASSERT_EQ(entry.log_tag, tag); ASSERT_EQ(entry.hex_dump.size(), 4); ASSERT_EQ( std::equal(entry.hex_dump.begin(), entry.hex_dump.end(), std::begin(hex)), true); return true; } static bool when_hex_array_length_is_less_than_hex_log_max_size_then_array_length_is_used() { backend_spy backend; sink_dummy s; std::string name = "name"; char tag = 'A'; log_channel log("id", s, backend); std::string fmtstring = "test"; log.set_hex_dump_max_size(10); uint8_t hex[] = {0, 1, 2}; log(hex, sizeof(hex), fmtstring, 42, "Hello"); ASSERT_EQ(backend.push_invocation_count(), 1); const detail::log_entry& entry = backend.last_entry(); ASSERT_EQ(entry.hex_dump.size(), 3); ASSERT_EQ( std::equal(entry.hex_dump.begin(), entry.hex_dump.end(), std::begin(hex)), true); return true; } int main() { TEST_FUNCTION(when_log_channel_is_created_then_id_matches_expected_value); TEST_FUNCTION(when_log_channel_is_disabled_then_enabled_returns_false); TEST_FUNCTION(when_log_channel_is_enabled_then_enabled_returns_true); TEST_FUNCTION( when_logging_in_log_channel_then_log_entry_is_pushed_into_the_backend); TEST_FUNCTION(when_logging_in_disabled_log_channel_then_log_entry_is_ignored); TEST_FUNCTION( when_logging_then_filled_in_log_entry_is_pushed_into_the_backend); TEST_FUNCTION( when_logging_with_hex_dump_then_filled_in_log_entry_is_pushed_into_the_backend); TEST_FUNCTION( when_hex_array_length_is_less_than_hex_log_max_size_then_array_length_is_used); return 0; }