use crate::pus::mode::ModeServiceWrapper; use derive_new::new; use satrs::{ pus::{EcssTcInMemConverter, EcssTmSender}, spacepackets::time::{cds, TimeWriter}, }; use super::{ action::ActionServiceWrapper, event::EventServiceWrapper, hk::HkServiceWrapper, scheduler::SchedulingServiceWrapper, test::TestCustomServiceWrapper, HandlingStatus, TargetedPusService, }; #[derive(new)] pub struct PusStack { test_srv: TestCustomServiceWrapper, hk_srv_wrapper: HkServiceWrapper, event_srv: EventServiceWrapper, action_srv_wrapper: ActionServiceWrapper, schedule_srv: SchedulingServiceWrapper, mode_srv: ModeServiceWrapper, } impl PusStack { pub fn periodic_operation(&mut self) { // Release all telecommands which reached their release time before calling the service // handlers. self.schedule_srv.release_tcs(); let time_stamp = cds::CdsTime::now_with_u16_days() .expect("time stamp generation error") .to_vec() .unwrap(); loop { let mut nothing_to_do = true; let mut is_srv_finished = |_srv_id: u8, tc_handling_status: HandlingStatus, reply_handling_status: Option| { if tc_handling_status == HandlingStatus::HandledOne || (reply_handling_status.is_some() && reply_handling_status.unwrap() == HandlingStatus::HandledOne) { nothing_to_do = false; } }; is_srv_finished( 17, self.test_srv.poll_and_handle_next_packet(&time_stamp), None, ); is_srv_finished( 11, self.schedule_srv.poll_and_handle_next_tc(&time_stamp), None, ); is_srv_finished(5, self.event_srv.poll_and_handle_next_tc(&time_stamp), None); is_srv_finished( 8, self.action_srv_wrapper.poll_and_handle_next_tc(&time_stamp), Some( self.action_srv_wrapper .poll_and_handle_next_reply(&time_stamp), ), ); is_srv_finished( 3, self.hk_srv_wrapper.poll_and_handle_next_tc(&time_stamp), Some(self.hk_srv_wrapper.poll_and_handle_next_reply(&time_stamp)), ); is_srv_finished( 200, self.mode_srv.poll_and_handle_next_tc(&time_stamp), Some(self.mode_srv.poll_and_handle_next_reply(&time_stamp)), ); if nothing_to_do { // Timeout checking is only done once. self.action_srv_wrapper.check_for_request_timeouts(); self.hk_srv_wrapper.check_for_request_timeouts(); self.mode_srv.check_for_request_timeouts(); break; } } } }