188 lines
6.4 KiB
Rust
188 lines
6.4 KiB
Rust
use std::sync::mpsc::{self, SendError};
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use satrs_core::{
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event_man::{
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EventManager, EventManagerWithMpscQueue, MpscEventReceiver, MpscEventU32SendProvider,
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SendEventProvider,
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},
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events::EventU32,
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params::Params,
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pus::{
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event_man::{
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DefaultPusMgmtBackendProvider, EventReporter, EventRequest, EventRequestWithToken,
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PusEventDispatcher,
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},
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verification::{TcStateStarted, VerificationReporterWithSender, VerificationToken},
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EcssTmSender,
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},
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spacepackets::time::cds::{self, TimeProvider},
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};
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use satrs_example::config::PUS_APID;
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use crate::update_time;
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pub type MpscEventManager = EventManager<SendError<(EventU32, Option<Params>)>>;
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pub struct PusEventHandler {
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event_request_rx: mpsc::Receiver<EventRequestWithToken>,
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pus_event_dispatcher: PusEventDispatcher<(), EventU32>,
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pus_event_man_rx: mpsc::Receiver<(EventU32, Option<Params>)>,
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tm_sender: Box<dyn EcssTmSender>,
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time_provider: TimeProvider,
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timestamp: [u8; 7],
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verif_handler: VerificationReporterWithSender,
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}
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/*
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*/
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impl PusEventHandler {
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pub fn new(
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verif_handler: VerificationReporterWithSender,
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event_manager: &mut MpscEventManager,
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event_request_rx: mpsc::Receiver<EventRequestWithToken>,
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tm_sender: impl EcssTmSender,
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) -> Self {
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let (pus_event_man_tx, pus_event_man_rx) = mpsc::channel();
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// All events sent to the manager are routed to the PUS event manager, which generates PUS event
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// telemetry for each event.
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let event_reporter = EventReporter::new(PUS_APID, 128).unwrap();
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let pus_tm_backend = DefaultPusMgmtBackendProvider::<EventU32>::default();
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let pus_event_dispatcher =
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PusEventDispatcher::new(event_reporter, Box::new(pus_tm_backend));
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let pus_event_man_send_provider = MpscEventU32SendProvider::new(1, pus_event_man_tx);
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event_manager.subscribe_all(pus_event_man_send_provider.id());
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event_manager.add_sender(pus_event_man_send_provider);
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Self {
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event_request_rx,
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pus_event_dispatcher,
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pus_event_man_rx,
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time_provider: cds::TimeProvider::new_with_u16_days(0, 0),
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timestamp: [0; 7],
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verif_handler,
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tm_sender: Box::new(tm_sender),
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}
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}
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pub fn handle_event_requests(&mut self) {
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let report_completion = |event_req: EventRequestWithToken, timestamp: &[u8]| {
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let started_token: VerificationToken<TcStateStarted> = event_req
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.token
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.try_into()
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.expect("expected start verification token");
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self.verif_handler
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.completion_success(started_token, Some(timestamp))
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.expect("Sending completion success failed");
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};
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// handle event requests
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if let Ok(event_req) = self.event_request_rx.try_recv() {
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match event_req.request {
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EventRequest::Enable(event) => {
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self.pus_event_dispatcher
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.enable_tm_for_event(&event)
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.expect("Enabling TM failed");
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update_time(&mut self.time_provider, &mut self.timestamp);
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report_completion(event_req, &self.timestamp);
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}
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EventRequest::Disable(event) => {
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self.pus_event_dispatcher
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.disable_tm_for_event(&event)
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.expect("Disabling TM failed");
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update_time(&mut self.time_provider, &mut self.timestamp);
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report_completion(event_req, &self.timestamp);
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}
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}
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}
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}
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pub fn generate_pus_event_tm(&mut self) {
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// Perform the generation of PUS event packets
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if let Ok((event, _param)) = self.pus_event_man_rx.try_recv() {
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update_time(&mut self.time_provider, &mut self.timestamp);
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self.pus_event_dispatcher
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.generate_pus_event_tm_generic(
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self.tm_sender.upcast_mut(),
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&self.timestamp,
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event,
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None,
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)
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.expect("Sending TM as event failed");
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}
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}
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}
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pub struct EventManagerWrapper {
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event_manager: MpscEventManager,
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event_sender: mpsc::Sender<(EventU32, Option<Params>)>,
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}
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impl EventManagerWrapper {
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pub fn new() -> Self {
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// The sender handle is the primary sender handle for all components which want to create events.
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// The event manager will receive the RX handle to receive all the events.
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let (event_sender, event_man_rx) = mpsc::channel();
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let event_recv = MpscEventReceiver::<EventU32>::new(event_man_rx);
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Self {
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event_manager: EventManagerWithMpscQueue::new(Box::new(event_recv)),
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event_sender,
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}
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}
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pub fn clone_event_sender(&self) -> mpsc::Sender<(EventU32, Option<Params>)> {
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self.event_sender.clone()
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}
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pub fn event_manager(&mut self) -> &mut MpscEventManager {
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&mut self.event_manager
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}
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pub fn try_event_routing(&mut self) {
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// Perform the event routing.
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self.event_manager
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.try_event_handling()
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.expect("event handling failed");
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}
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}
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pub struct EventHandler {
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pub event_man_wrapper: EventManagerWrapper,
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pub pus_event_handler: PusEventHandler,
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}
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impl EventHandler {
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pub fn new(
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tm_sender: impl EcssTmSender,
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verif_handler: VerificationReporterWithSender,
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event_request_rx: mpsc::Receiver<EventRequestWithToken>,
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) -> Self {
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let mut event_man_wrapper = EventManagerWrapper::new();
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let pus_event_handler = PusEventHandler::new(
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verif_handler,
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event_man_wrapper.event_manager(),
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event_request_rx,
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tm_sender,
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);
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Self {
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event_man_wrapper,
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pus_event_handler,
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}
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}
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pub fn clone_event_sender(&self) -> mpsc::Sender<(EventU32, Option<Params>)> {
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self.event_man_wrapper.clone_event_sender()
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}
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#[allow(dead_code)]
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pub fn event_manager(&mut self) -> &mut MpscEventManager {
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self.event_man_wrapper.event_manager()
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}
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pub fn periodic_operation(&mut self) {
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self.pus_event_handler.handle_event_requests();
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self.event_man_wrapper.try_event_routing();
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self.pus_event_handler.generate_pus_event_tm();
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}
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}
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