use crate::hk::{CollectionIntervalFactor, HkRequest}; use crate::requests::{Request, RequestWithToken}; use crate::tmtc::{PusTcSource, TmStore}; use satrs_core::events::EventU32; use satrs_core::pool::{StoreAddr, StoreError}; use satrs_core::pus::event::Subservices; use satrs_core::pus::event_man::{EventRequest, EventRequestWithToken}; use satrs_core::pus::hk; use satrs_core::pus::scheduling::{PusScheduler, ScheduleSubservice}; use satrs_core::pus::verification::{ FailParams, StdVerifReporterWithSender, TcStateAccepted, VerificationToken, }; use satrs_core::res_code::ResultU16; use satrs_core::spacepackets::time::{CcsdsTimeProvider, UnixTimestamp}; use satrs_core::tmtc::tm_helper::PusTmWithCdsShortHelper; use satrs_core::tmtc::{AddressableId, PusServiceProvider}; use satrs_core::{ spacepackets, spacepackets::ecss::PusPacket, spacepackets::tc::PusTc, spacepackets::time::cds::TimeProvider, spacepackets::time::TimeWriter, spacepackets::SpHeader, }; use satrs_example::{hk_err, tmtc_err}; use std::cell::RefCell; use std::collections::HashMap; use std::rc::Rc; use std::sync::mpsc::Sender; use std::sync::{Arc, LockResult, Mutex}; use std::time::Duration; pub struct PusReceiver { pub tm_helper: PusTmWithCdsShortHelper, pub tm_tx: Sender, pub tm_store: TmStore, pub verif_reporter: StdVerifReporterWithSender, #[allow(dead_code)] tc_source: PusTcSource, event_request_tx: Sender, request_map: HashMap>, stamper: TimeProvider, time_stamp: [u8; 7], scheduler: Rc>, } impl PusReceiver { pub fn new( apid: u16, tm_tx: Sender, tm_store: TmStore, verif_reporter: StdVerifReporterWithSender, tc_source: PusTcSource, event_request_tx: Sender, request_map: HashMap>, scheduler: Rc>, ) -> Self { Self { tm_helper: PusTmWithCdsShortHelper::new(apid), tm_tx, tm_store, verif_reporter, tc_source, event_request_tx, request_map, stamper: TimeProvider::new_with_u16_days(0, 0), time_stamp: [0; 7], scheduler, } } } impl PusServiceProvider for PusReceiver { type Error = (); fn handle_pus_tc_packet( &mut self, service: u8, _header: &SpHeader, pus_tc: &PusTc, ) -> Result<(), Self::Error> { let init_token = self.verif_reporter.add_tc(pus_tc); self.update_time_stamp(); let accepted_token = self .verif_reporter .acceptance_success(init_token, Some(&self.time_stamp)) .expect("Acceptance success failure"); if service == 17 { self.handle_test_service(pus_tc, accepted_token); } else if service == 5 { self.handle_event_request(pus_tc, accepted_token); } else if service == 3 { self.handle_hk_request(pus_tc, accepted_token); } else if service == 11 { self.handle_scheduled_tc(pus_tc, accepted_token); } else { self.update_time_stamp(); self.verif_reporter .start_failure( accepted_token, FailParams::new(Some(&self.time_stamp), &tmtc_err::INVALID_PUS_SERVICE, None), ) .expect("Start failure verification failed") } Ok(()) } } impl PusReceiver { fn handle_test_service(&mut self, pus_tc: &PusTc, token: VerificationToken) { if PusPacket::subservice(pus_tc) == 1 { println!("Received PUS ping command TC[17,1]"); println!("Sending ping reply PUS TM[17,2]"); let ping_reply = self.tm_helper.create_pus_tm_timestamp_now(17, 2, None); let addr = self.tm_store.add_pus_tm(&ping_reply); let start_token = self .verif_reporter .start_success(token, Some(&self.time_stamp)) .expect("Error sending start success"); self.tm_tx .send(addr) .expect("Sending TM to TM funnel failed"); self.verif_reporter .completion_success(start_token, Some(&self.time_stamp)) .expect("Error sending completion success"); } else { self.update_time_stamp(); self.verif_reporter .start_failure( token, FailParams::new( Some(&self.time_stamp), &tmtc_err::INVALID_PUS_SUBSERVICE, None, ), ) .expect("Sending start failure TM failed"); } } fn update_time_stamp(&mut self) { self.stamper .update_from_now() .expect("Updating timestamp failed"); self.stamper .write_to_bytes(&mut self.time_stamp) .expect("Writing timestamp failed"); } fn handle_hk_request(&mut self, pus_tc: &PusTc, token: VerificationToken) { if pus_tc.user_data().is_none() { self.update_time_stamp(); self.verif_reporter .start_failure( token, FailParams::new(Some(&self.time_stamp), &tmtc_err::NOT_ENOUGH_APP_DATA, None), ) .expect("Sending start failure TM failed"); return; } let user_data = pus_tc.user_data().unwrap(); if user_data.len() < 8 { let err = if user_data.len() < 4 { &hk_err::TARGET_ID_MISSING } else { &hk_err::UNIQUE_ID_MISSING }; self.update_time_stamp(); self.verif_reporter .start_failure(token, FailParams::new(Some(&self.time_stamp), err, None)) .expect("Sending start failure TM failed"); return; } let addressable_id = AddressableId::from_raw_be(user_data).unwrap(); if !self.request_map.contains_key(&addressable_id.target_id) { self.update_time_stamp(); self.verif_reporter .start_failure( token, FailParams::new(Some(&self.time_stamp), &hk_err::UNKNOWN_TARGET_ID, None), ) .expect("Sending start failure TM failed"); return; } let send_request = |request: HkRequest| { let sender = self.request_map.get(&addressable_id.target_id).unwrap(); sender .send(RequestWithToken(Request::HkRequest(request), token)) .unwrap_or_else(|_| panic!("Sending HK request {request:?} failed")); }; if PusPacket::subservice(pus_tc) == hk::Subservice::TcEnableGeneration as u8 { send_request(HkRequest::Enable(addressable_id)); } else if PusPacket::subservice(pus_tc) == hk::Subservice::TcDisableGeneration as u8 { send_request(HkRequest::Disable(addressable_id)); } else if PusPacket::subservice(pus_tc) == hk::Subservice::TcGenerateOneShotHk as u8 { send_request(HkRequest::OneShot(addressable_id)); } else if PusPacket::subservice(pus_tc) == hk::Subservice::TcModifyCollectionInterval as u8 { if user_data.len() < 12 { self.update_time_stamp(); self.verif_reporter .start_failure( token, FailParams::new( Some(&self.time_stamp), &hk_err::COLLECTION_INTERVAL_MISSING, None, ), ) .expect("Sending start failure TM failed"); return; } send_request(HkRequest::ModifyCollectionInterval( addressable_id, CollectionIntervalFactor::from_be_bytes(user_data[8..12].try_into().unwrap()), )); } } fn handle_event_request(&mut self, pus_tc: &PusTc, token: VerificationToken) { let send_start_failure = |verif_reporter: &mut StdVerifReporterWithSender, timestamp: &[u8; 7], failure_code: &ResultU16, failure_data: Option<&[u8]>| { verif_reporter .start_failure( token, FailParams::new(Some(timestamp), failure_code, failure_data), ) .expect("Sending start failure TM failed"); }; let send_start_acceptance = |verif_reporter: &mut StdVerifReporterWithSender, timestamp: &[u8; 7]| { verif_reporter .start_success(token, Some(timestamp)) .expect("Sending start success TM failed") }; if pus_tc.user_data().is_none() { self.update_time_stamp(); send_start_failure( &mut self.verif_reporter, &self.time_stamp, &tmtc_err::NOT_ENOUGH_APP_DATA, None, ); return; } let app_data = pus_tc.user_data().unwrap(); if app_data.len() < 4 { self.update_time_stamp(); send_start_failure( &mut self.verif_reporter, &self.time_stamp, &tmtc_err::NOT_ENOUGH_APP_DATA, None, ); return; } let event_id = EventU32::from(u32::from_be_bytes(app_data.try_into().unwrap())); match PusPacket::subservice(pus_tc).try_into() { Ok(Subservices::TcEnableEventGeneration) => { self.update_time_stamp(); let start_token = send_start_acceptance(&mut self.verif_reporter, &self.time_stamp); self.event_request_tx .send(EventRequestWithToken { request: EventRequest::Enable(event_id), token: start_token, }) .expect("Sending event request failed"); } Ok(Subservices::TcDisableEventGeneration) => { self.update_time_stamp(); let start_token = send_start_acceptance(&mut self.verif_reporter, &self.time_stamp); self.event_request_tx .send(EventRequestWithToken { request: EventRequest::Disable(event_id), token: start_token, }) .expect("Sending event request failed"); } _ => { self.update_time_stamp(); send_start_failure( &mut self.verif_reporter, &self.time_stamp, &tmtc_err::INVALID_PUS_SUBSERVICE, None, ); } } } fn handle_scheduled_tc(&mut self, pus_tc: &PusTc, token: VerificationToken) { self.update_time_stamp(); match pus_tc.subservice() { 1 => { let start_token = self .verif_reporter .start_success(token, Some(&self.time_stamp)) .expect("Error sending start success"); let mut scheduler = self.scheduler.borrow_mut(); scheduler.enable(); if scheduler.is_enabled() { self.verif_reporter .completion_success(start_token, Some(&self.time_stamp)) .expect("Error sending completion success"); } else { panic!("Failed to enable scheduler"); } } 2 => { let start_token = self .verif_reporter .start_success(token, Some(&self.time_stamp)) .expect("Error sending start success"); let mut scheduler = self.scheduler.borrow_mut(); scheduler.disable(); if !scheduler.is_enabled() { self.verif_reporter .completion_success(start_token, Some(&self.time_stamp)) .expect("Error sending completion success"); } else { panic!("Failed to disable scheduler"); } } 3 => { let start_token = self .verif_reporter .start_success(token, Some(&self.time_stamp)) .expect("Error sending start success"); let mut scheduler = self.scheduler.borrow_mut(); let mut pool = self .tc_source .tc_store .pool .write() .expect("Locking pool failed"); scheduler .reset(pool.as_mut()) .expect("Error resetting TC Pool"); self.verif_reporter .completion_success(start_token, Some(&self.time_stamp)) .expect("Error sending completion success"); } 4 => { let start_token = self .verif_reporter .start_success(token, Some(&self.time_stamp)) .expect("Error sending start success"); let mut scheduler = self.scheduler.borrow_mut(); let mut pool = self .tc_source .tc_store .pool .write() .expect("Locking pool failed"); scheduler .insert_wrapped_tc::( pus_tc, pool.as_mut(), ) .expect("TODO: panic message"); self.verif_reporter .completion_success(start_token, Some(&self.time_stamp)) .expect("Error sending completion success"); //let addr = self.tc_source.tc_store.add_pus_tc().unwrap(); //let unix_time = UnixTimestamp::new_only_seconds(self.stamper.unix_seconds()); //let worked = self.scheduler.insert_tc(unix_time, ); } _ => { self.verif_reporter .start_failure( token, FailParams::new( Some(&self.time_stamp), &tmtc_err::NOT_ENOUGH_APP_DATA, None, ), ) .expect("Sending start failure TM failed"); return; } } } }