| /* |
| * Copyright (C) 2020 CESNET, https://photonics.cesnet.cz/ |
| * |
| * Written by Tomáš Pecka <tomas.pecka@fit.cvut.cz> |
| * |
| */ |
| |
| #include "trompeloeil_doctest.h" |
| #include <chrono> |
| #include <functional> |
| #include <future> |
| #include "dbus-helpers/dbus_semaphore_server.h" |
| #include "health/inputs/DbusSemaphoreInput.h" |
| #include "mock/health.h" |
| #include "test_log_setup.h" |
| |
| TEST_CASE("Test semaphore input") |
| { |
| using namespace std::literals::chrono_literals; |
| |
| TEST_INIT_LOGS; |
| trompeloeil::sequence seq1; |
| |
| const std::string dbusObj = "/cz/cesnet/led"; |
| const std::string dbusProp = "Semaphore"; |
| const std::string dbusPropIface = "cz.cesnet.Led"; |
| |
| std::vector<std::pair<std::string, std::chrono::milliseconds>> stateSequence; |
| SECTION("Sequence with pauses") |
| { |
| stateSequence = { |
| {"OK", 505ms}, |
| {"OK", 311ms}, |
| {"WARNING", 143ms}, |
| {"ERROR", 87ms}, |
| {"WARNING", 333ms}, |
| {"OK", 1ms}, |
| }; |
| } |
| SECTION("Sequence without pauses") |
| { |
| stateSequence = { |
| {"OK", 0ms}, |
| {"OK", 0ms}, |
| {"WARNING", 0ms}, |
| {"ERROR", 0ms}, |
| {"WARNING", 0ms}, |
| {"OK", 0ms}, |
| }; |
| } |
| |
| // setup separate connections for both client and server. Can be done using one connection only but this way it is more generic |
| auto clientConnection = sdbus::createSessionBusConnection(); |
| auto serverConnection = sdbus::createSessionBusConnection(); |
| |
| // enter client and servers event loops |
| clientConnection->enterEventLoopAsync(); |
| serverConnection->enterEventLoopAsync(); |
| |
| auto mx = std::make_shared<FakeManager>(); |
| auto server = DbusSemaphoreServer(*serverConnection, dbusObj, dbusProp, dbusPropIface, "ERROR"); // let the first state be ERROR, because why not |
| |
| // i1 gets constructed which means: |
| // - a registration is performed, along with an updateState call (State::OK) |
| // - i1's constructor queries the current state and performs updateState |
| REQUIRE_CALL(*mx, registerInput(ANY(void*), velia::health::State::OK)).LR_SIDE_EFFECT(mx->updateState(_1, _2)).IN_SEQUENCE(seq1); |
| REQUIRE_CALL(*mx, updateState(ANY(void*), velia::health::State::OK)).IN_SEQUENCE(seq1); |
| REQUIRE_CALL(*mx, updateState(ANY(void*), velia::health::State::ERROR)).IN_SEQUENCE(seq1); |
| auto i1 = std::make_shared<velia::health::DbusSemaphoreInput>(mx, *clientConnection, serverConnection->getUniqueName(), dbusObj, dbusProp, dbusPropIface); |
| // i1 now listens for dbus events, we can start the semaphore server |
| |
| // mux should get notified for every semaphore state change |
| REQUIRE_CALL(*mx, updateState(i1.get(), velia::health::State::OK)).IN_SEQUENCE(seq1); |
| REQUIRE_CALL(*mx, updateState(i1.get(), velia::health::State::OK)).IN_SEQUENCE(seq1); |
| REQUIRE_CALL(*mx, updateState(i1.get(), velia::health::State::WARNING)).IN_SEQUENCE(seq1); |
| REQUIRE_CALL(*mx, updateState(i1.get(), velia::health::State::ERROR)).IN_SEQUENCE(seq1); |
| REQUIRE_CALL(*mx, updateState(i1.get(), velia::health::State::WARNING)).IN_SEQUENCE(seq1); |
| REQUIRE_CALL(*mx, updateState(i1.get(), velia::health::State::OK)).IN_SEQUENCE(seq1); |
| |
| |
| auto a1 = std::async(std::launch::async, [&]() { server.runStateChanges(stateSequence); }); |
| |
| waitForCompletionAndBitMore(seq1); // do not leave event loops until all dbus messages are received |
| serverConnection->leaveEventLoop(); |
| clientConnection->leaveEventLoop(); |
| |
| REQUIRE_CALL(*mx, unregisterInput(i1.get())).IN_SEQUENCE(seq1); |
| i1.reset(); |
| } |