Add tests for the async controller

ros-controls · Sep 26, 2024 · ebb69c5 · ebb69c5
1 parent 3bd19bf
commit ebb69c5
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diff --git a/controller_manager/test/test_controller/test_controller.cpp b/controller_manager/test/test_controller/test_controller.cpp
@@ -61,6 +61,10 @@ controller_interface::InterfaceConfiguration TestController::state_interface_con
 controller_interface::return_type TestController::update(
  const rclcpp::Time & /*time*/, const rclcpp::Duration & period)
 {
+ if (is_async())
+ {
+ std::this_thread::sleep_for(std::chrono::milliseconds(1000 / (2 * get_update_rate())));
+ }
  update_period_ = period;
  ++internal_counter;
 

diff --git a/controller_manager/test/test_controller_manager.cpp b/controller_manager/test/test_controller_manager.cpp
@@ -232,6 +232,191 @@ TEST_P(TestControllerManagerWithStrictness, controller_lifecycle)
  EXPECT_EQ(1, test_controller.use_count());
 }
 
+TEST_P(TestControllerManagerWithStrictness, async_controller_lifecycle)
+{
+ const auto test_param = GetParam();
+ auto test_controller = std::make_shared<test_controller::TestController>();
+ auto test_controller2 = std::make_shared<test_controller::TestController>();
+ constexpr char TEST_CONTROLLER2_NAME[] = "test_controller2_name";
+ cm_->add_controller(
+ test_controller, test_controller::TEST_CONTROLLER_NAME,
+ test_controller::TEST_CONTROLLER_CLASS_NAME);
+ cm_->add_controller(
+ test_controller2, TEST_CONTROLLER2_NAME, test_controller::TEST_CONTROLLER_CLASS_NAME);
+ EXPECT_EQ(2u, cm_->get_loaded_controllers().size());
+ EXPECT_EQ(2, test_controller.use_count());
+
+ // setup interface to claim from controllers
+ controller_interface::InterfaceConfiguration cmd_itfs_cfg;
+ cmd_itfs_cfg.type = controller_interface::interface_configuration_type::INDIVIDUAL;
+ for (const auto & interface : ros2_control_test_assets::TEST_ACTUATOR_HARDWARE_COMMAND_INTERFACES)
+ {
+ cmd_itfs_cfg.names.push_back(interface);
+ }
+ test_controller->set_command_interface_configuration(cmd_itfs_cfg);
+
+ controller_interface::InterfaceConfiguration state_itfs_cfg;
+ state_itfs_cfg.type = controller_interface::interface_configuration_type::INDIVIDUAL;
+ for (const auto & interface : ros2_control_test_assets::TEST_ACTUATOR_HARDWARE_STATE_INTERFACES)
+ {
+ state_itfs_cfg.names.push_back(interface);
+ }
+ for (const auto & interface : ros2_control_test_assets::TEST_SENSOR_HARDWARE_STATE_INTERFACES)
+ {
+ state_itfs_cfg.names.push_back(interface);
+ }
+ test_controller->set_state_interface_configuration(state_itfs_cfg);
+
+ controller_interface::InterfaceConfiguration cmd_itfs_cfg2;
+ cmd_itfs_cfg2.type = controller_interface::interface_configuration_type::INDIVIDUAL;
+ for (const auto & interface : ros2_control_test_assets::TEST_SYSTEM_HARDWARE_COMMAND_INTERFACES)
+ {
+ cmd_itfs_cfg2.names.push_back(interface);
+ }
+ test_controller2->set_command_interface_configuration(cmd_itfs_cfg2);
+
+ controller_interface::InterfaceConfiguration state_itfs_cfg2;
+ state_itfs_cfg2.type = controller_interface::interface_configuration_type::ALL;
+ test_controller2->set_state_interface_configuration(state_itfs_cfg2);
+
+ // Check if namespace is set correctly
+ RCLCPP_INFO(
+ rclcpp::get_logger("test_controller_manager"), "Controller Manager namespace is '%s'",
+ cm_->get_namespace());
+ EXPECT_STREQ(cm_->get_namespace(), "/");
+ RCLCPP_INFO(
+ rclcpp::get_logger("test_controller_manager"), "Controller 1 namespace is '%s'",
+ test_controller->get_node()->get_namespace());
+ EXPECT_STREQ(test_controller->get_node()->get_namespace(), "/");
+ RCLCPP_INFO(
+ rclcpp::get_logger("test_controller_manager"), "Controller 2 namespace is '%s'",
+ test_controller2->get_node()->get_namespace());
+ EXPECT_STREQ(test_controller2->get_node()->get_namespace(), "/");
+
+ EXPECT_EQ(
+ controller_interface::return_type::OK,
+ cm_->update(time_, rclcpp::Duration::from_seconds(0.01)));
+ EXPECT_EQ(0u, test_controller->internal_counter)
+ << "Update should not reach an unconfigured controller";
+
+ EXPECT_EQ(
+ lifecycle_msgs::msg::State::PRIMARY_STATE_UNCONFIGURED,
+ test_controller->get_lifecycle_state().id());
+
+ // configure controller
+ rclcpp::Parameter update_rate_parameter("update_rate", static_cast<int>(20));
+ rclcpp::Parameter is_async_parameter("is_async", rclcpp::ParameterValue(true));
+ test_controller->get_node()->set_parameter(update_rate_parameter);
+ test_controller->get_node()->set_parameter(is_async_parameter);
+ {
+ ControllerManagerRunner cm_runner(this);
+ cm_->configure_controller(test_controller::TEST_CONTROLLER_NAME);
+ cm_->configure_controller(TEST_CONTROLLER2_NAME);
+ }
+ EXPECT_EQ(
+ controller_interface::return_type::OK,
+ cm_->update(time_, rclcpp::Duration::from_seconds(0.01)));
+ EXPECT_EQ(0u, test_controller->internal_counter) << "Controller is not started";
+ EXPECT_EQ(0u, test_controller2->internal_counter) << "Controller is not started";
+
+ EXPECT_EQ(
+ lifecycle_msgs::msg::State::PRIMARY_STATE_INACTIVE,
+ test_controller->get_lifecycle_state().id());
+
+ // Start controller, will take effect at the end of the update function
+ std::vector<std::string> start_controllers = {"fake_controller", TEST_CONTROLLER2_NAME};
+ std::vector<std::string> stop_controllers = {};
+ auto switch_future = std::async(
+ std::launch::async, &controller_manager::ControllerManager::switch_controller, cm_,
+ start_controllers, stop_controllers, test_param.strictness, true, rclcpp::Duration(0, 0));
+
+ EXPECT_EQ(
+ controller_interface::return_type::OK,
+ cm_->update(time_, rclcpp::Duration::from_seconds(0.01)));
+ EXPECT_EQ(0u, test_controller2->internal_counter) << "Controller is started at the end of update";
+ {
+ ControllerManagerRunner cm_runner(this);
+ EXPECT_EQ(test_param.expected_return, switch_future.get());
+ }
+
+ EXPECT_EQ(
+ controller_interface::return_type::OK,
+ cm_->update(time_, rclcpp::Duration::from_seconds(0.01)));
+ EXPECT_GE(test_controller2->internal_counter, test_param.expected_counter);
+
+ // Start the real test controller, will take effect at the end of the update function
+ start_controllers = {test_controller::TEST_CONTROLLER_NAME};
+ stop_controllers = {};
+ switch_future = std::async(
+ std::launch::async, &controller_manager::ControllerManager::switch_controller, cm_,
+ start_controllers, stop_controllers, test_param.strictness, true, rclcpp::Duration(0, 0));
+
+ ASSERT_EQ(std::future_status::timeout, switch_future.wait_for(std::chrono::milliseconds(100)))
+ << "switch_controller should be blocking until next update cycle";
+
+ EXPECT_EQ(
+ controller_interface::return_type::OK,
+ cm_->update(time_, rclcpp::Duration::from_seconds(0.01)));
+ EXPECT_EQ(0u, test_controller->internal_counter) << "Controller is started at the end of update";
+ {
+ ControllerManagerRunner cm_runner(this);
+ EXPECT_EQ(controller_interface::return_type::OK, switch_future.get());
+ }
+ EXPECT_EQ(
+ lifecycle_msgs::msg::State::PRIMARY_STATE_ACTIVE, test_controller->get_lifecycle_state().id());
+
+ EXPECT_EQ(
+ controller_interface::return_type::OK,
+ cm_->update(time_, rclcpp::Duration::from_seconds(0.01)));
+ EXPECT_EQ(test_controller->internal_counter, 0u);
+ std::this_thread::sleep_for(
+ std::chrono::milliseconds(1000 / (test_controller->get_update_rate())));
+ EXPECT_EQ(test_controller->internal_counter, 1u);
+ size_t last_internal_counter = test_controller->internal_counter;
+
+ // Stop controller, will take effect at the end of the update function
+ start_controllers = {};
+ stop_controllers = {test_controller::TEST_CONTROLLER_NAME};
+ switch_future = std::async(
+ std::launch::async, &controller_manager::ControllerManager::switch_controller, cm_,
+ start_controllers, stop_controllers, test_param.strictness, true, rclcpp::Duration(0, 0));
+
+ ASSERT_EQ(std::future_status::timeout, switch_future.wait_for(std::chrono::milliseconds(100)))
+ << "switch_controller should be blocking until next update cycle";
+
+ EXPECT_EQ(
+ controller_interface::return_type::OK,
+ cm_->update(time_, rclcpp::Duration::from_seconds(0.01)));
+ EXPECT_EQ(last_internal_counter, test_controller->internal_counter)
+ << "This shouldn't have updated as this is async and in the controller it is waiting before "
+ "updating the counter";
+ std::this_thread::sleep_for(
+ std::chrono::milliseconds(1000 / (test_controller->get_update_rate())));
+ EXPECT_EQ(last_internal_counter + 1u, test_controller->internal_counter)
+ << "Controller is stopped at the end of update, so it should have done one more update";
+ {
+ ControllerManagerRunner cm_runner(this);
+ EXPECT_EQ(controller_interface::return_type::OK, switch_future.get());
+ }
+
+ EXPECT_EQ(
+ lifecycle_msgs::msg::State::PRIMARY_STATE_INACTIVE,
+ test_controller->get_lifecycle_state().id());
+ auto unload_future = std::async(
+ std::launch::async, &controller_manager::ControllerManager::unload_controller, cm_,
+ test_controller::TEST_CONTROLLER_NAME);
+
+ ASSERT_EQ(std::future_status::timeout, unload_future.wait_for(std::chrono::milliseconds(100)))
+ << "unload_controller should be blocking until next update cycle";
+ ControllerManagerRunner cm_runner(this);
+ EXPECT_EQ(controller_interface::return_type::OK, unload_future.get());
+
+ EXPECT_EQ(
+ lifecycle_msgs::msg::State::PRIMARY_STATE_UNCONFIGURED,
+ test_controller->get_lifecycle_state().id());
+ EXPECT_EQ(1, test_controller.use_count());
+}
+
 TEST_P(TestControllerManagerWithStrictness, per_controller_update_rate)
 {
  auto strictness = GetParam().strictness;