use satrs::event_man::{ EventManagerWithMpsc, EventSendProvider, EventU32SenderMpsc, MpscEventU32Receiver, }; use satrs::events::{EventU32, EventU32TypedSev, Severity, SeverityInfo}; use satrs::params::U32Pair; use satrs::params::{Params, ParamsHeapless, WritableToBeBytes}; use satrs::pus::event_man::{DefaultPusEventMgmtBackend, EventReporter, PusEventDispatcher}; use satrs::pus::TmAsVecSenderWithMpsc; use spacepackets::ecss::tm::PusTmReader; use spacepackets::ecss::{PusError, PusPacket}; use std::sync::mpsc::{self, SendError, TryRecvError}; use std::thread; const INFO_EVENT: EventU32TypedSev = EventU32TypedSev::::const_new(1, 0); const LOW_SEV_EVENT: EventU32 = EventU32::const_new(Severity::LOW, 1, 5); const EMPTY_STAMP: [u8; 7] = [0; 7]; #[derive(Debug, Clone)] pub enum CustomTmSenderError { SendError(SendError>), PusError(PusError), } #[test] fn test_threaded_usage() { let (event_sender, event_man_receiver) = mpsc::channel(); let event_receiver = MpscEventU32Receiver::new(event_man_receiver); let mut event_man = EventManagerWithMpsc::new(event_receiver); let (pus_event_man_tx, pus_event_man_rx) = mpsc::channel(); let pus_event_man_send_provider = EventU32SenderMpsc::new(1, pus_event_man_tx); event_man.subscribe_all(pus_event_man_send_provider.channel_id()); event_man.add_sender(pus_event_man_send_provider); let (event_tx, event_rx) = mpsc::channel(); let reporter = EventReporter::new(0x02, 128).expect("Creating event reporter failed"); let mut pus_event_man = PusEventDispatcher::new(reporter, DefaultPusEventMgmtBackend::default()); // PUS + Generic event manager thread let jh0 = thread::spawn(move || { let mut sender = TmAsVecSenderWithMpsc::new(0, "event_sender", event_tx); let mut event_cnt = 0; let mut params_array: [u8; 128] = [0; 128]; loop { let res = event_man.try_event_handling(); assert!(res.is_ok()); match pus_event_man_rx.try_recv() { Ok((event, aux_data)) => { let mut gen_event = |aux_data| { pus_event_man.generate_pus_event_tm_generic( &mut sender, &EMPTY_STAMP, event, aux_data, ) }; let res = if let Some(aux_data) = aux_data { match aux_data { Params::Heapless(heapless) => match heapless { ParamsHeapless::Raw(raw) => { raw.write_to_be_bytes(&mut params_array) .expect("Writing raw parameter failed"); gen_event(Some(¶ms_array[0..raw.written_len()])) } ParamsHeapless::EcssEnum(e) => { e.write_to_be_bytes(&mut params_array) .expect("Writing ECSS enum failed"); gen_event(Some(¶ms_array[0..e.written_len()])) } }, Params::Vec(vec) => gen_event(Some(vec.as_slice())), Params::String(str) => gen_event(Some(str.as_bytes())), Params::Store(_) => gen_event(None), _ => panic!("unsupported parameter type"), } } else { gen_event(None) }; event_cnt += 1; assert!(res.is_ok()); assert!(res.unwrap()); if event_cnt == 2 { break; } } Err(e) => { if let TryRecvError::Disconnected = e { panic!("Event receiver disconnected!") } } } } }); // Event sender and TM checker thread let jh1 = thread::spawn(move || { event_sender .send((INFO_EVENT.into(), None)) .expect("Sending info event failed"); loop { match event_rx.try_recv() { // Event TM received successfully Ok(event_tm) => { let tm = PusTmReader::new(event_tm.as_slice(), 7).expect("Deserializing TM failed"); assert_eq!(tm.0.service(), 5); assert_eq!(tm.0.subservice(), 1); let src_data = tm.0.source_data(); assert!(!src_data.is_empty()); assert_eq!(src_data.len(), 4); let event = EventU32::from(u32::from_be_bytes(src_data[0..4].try_into().unwrap())); assert_eq!(event, INFO_EVENT); break; } Err(e) => { if let TryRecvError::Disconnected = e { panic!("Event sender disconnected!") } } } } event_sender .send((LOW_SEV_EVENT, Some(Params::Heapless((2_u32, 3_u32).into())))) .expect("Sending low severity event failed"); loop { match event_rx.try_recv() { // Event TM received successfully Ok(event_tm) => { let tm = PusTmReader::new(event_tm.as_slice(), 7).expect("Deserializing TM failed"); assert_eq!(tm.0.service(), 5); assert_eq!(tm.0.subservice(), 2); let src_data = tm.0.source_data(); assert!(!src_data.is_empty()); assert_eq!(src_data.len(), 12); let event = EventU32::from(u32::from_be_bytes(src_data[0..4].try_into().unwrap())); assert_eq!(event, LOW_SEV_EVENT); let u32_pair: U32Pair = src_data[4..].try_into().expect("Creating U32Pair failed"); assert_eq!(u32_pair.0, 2); assert_eq!(u32_pair.1, 3); break; } Err(e) => { if let TryRecvError::Disconnected = e { panic!("Event sender disconnected!") } } } } }); jh0.join().expect("Joining manager thread failed"); jh1.join().expect("Joining creator thread failed"); }