237 lines
9.3 KiB
Rust
237 lines
9.3 KiB
Rust
use crate::requests::{Request, RequestWithToken};
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use log::{error, warn};
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use satrs_core::hk::{CollectionIntervalFactor, HkRequest};
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use satrs_core::pool::{SharedStaticMemoryPool, StoreAddr};
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use satrs_core::pus::verification::{
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FailParams, StdVerifReporterWithSender, VerificationReporterWithSender,
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};
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use satrs_core::pus::{
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EcssTcAndToken, EcssTcInMemConverter, EcssTcInSharedStoreConverter, EcssTcInVecConverter,
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EcssTcReceiver, EcssTmSender, MpscTcReceiver, MpscTmAsVecSender, MpscTmInStoreSender,
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PusPacketHandlerResult, PusPacketHandlingError, PusServiceBase, PusServiceHelper,
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};
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use satrs_core::spacepackets::ecss::{hk, PusPacket};
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use satrs_core::tmtc::tm_helper::SharedTmStore;
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use satrs_core::ChannelId;
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use satrs_example::config::{hk_err, tmtc_err, TcReceiverId, TmSenderId, PUS_APID};
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use satrs_example::TargetIdWithApid;
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use std::collections::HashMap;
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use std::sync::mpsc::{self, Sender};
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pub fn create_hk_service_static(
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shared_tm_store: SharedTmStore,
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tm_funnel_tx: mpsc::Sender<StoreAddr>,
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verif_reporter: VerificationReporterWithSender,
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tc_pool: SharedStaticMemoryPool,
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pus_hk_rx: mpsc::Receiver<EcssTcAndToken>,
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request_map: HashMap<TargetIdWithApid, mpsc::Sender<RequestWithToken>>,
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) -> Pus3Wrapper<EcssTcInSharedStoreConverter> {
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let hk_srv_tm_sender = MpscTmInStoreSender::new(
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TmSenderId::PusHk as ChannelId,
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"PUS_3_TM_SENDER",
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shared_tm_store.clone(),
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tm_funnel_tx.clone(),
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);
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let hk_srv_receiver =
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MpscTcReceiver::new(TcReceiverId::PusHk as ChannelId, "PUS_8_TC_RECV", pus_hk_rx);
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let pus_3_handler = PusService3HkHandler::new(
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Box::new(hk_srv_receiver),
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Box::new(hk_srv_tm_sender),
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PUS_APID,
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verif_reporter.clone(),
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EcssTcInSharedStoreConverter::new(tc_pool, 2048),
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request_map,
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);
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Pus3Wrapper { pus_3_handler }
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}
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pub fn create_hk_service_dynamic(
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tm_funnel_tx: mpsc::Sender<Vec<u8>>,
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verif_reporter: VerificationReporterWithSender,
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pus_hk_rx: mpsc::Receiver<EcssTcAndToken>,
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request_map: HashMap<TargetIdWithApid, mpsc::Sender<RequestWithToken>>,
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) -> Pus3Wrapper<EcssTcInVecConverter> {
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let hk_srv_tm_sender = MpscTmAsVecSender::new(
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TmSenderId::PusHk as ChannelId,
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"PUS_3_TM_SENDER",
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tm_funnel_tx.clone(),
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);
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let hk_srv_receiver =
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MpscTcReceiver::new(TcReceiverId::PusHk as ChannelId, "PUS_8_TC_RECV", pus_hk_rx);
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let pus_3_handler = PusService3HkHandler::new(
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Box::new(hk_srv_receiver),
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Box::new(hk_srv_tm_sender),
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PUS_APID,
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verif_reporter.clone(),
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EcssTcInVecConverter::default(),
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request_map,
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);
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Pus3Wrapper { pus_3_handler }
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}
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pub struct PusService3HkHandler<TcInMemConverter: EcssTcInMemConverter> {
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psb: PusServiceHelper<TcInMemConverter>,
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request_handlers: HashMap<TargetIdWithApid, Sender<RequestWithToken>>,
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}
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impl<TcInMemConverter: EcssTcInMemConverter> PusService3HkHandler<TcInMemConverter> {
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pub fn new(
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tc_receiver: Box<dyn EcssTcReceiver>,
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tm_sender: Box<dyn EcssTmSender>,
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tm_apid: u16,
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verification_handler: StdVerifReporterWithSender,
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tc_in_mem_converter: TcInMemConverter,
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request_handlers: HashMap<TargetIdWithApid, Sender<RequestWithToken>>,
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) -> Self {
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Self {
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psb: PusServiceHelper::new(
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tc_receiver,
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tm_sender,
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tm_apid,
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verification_handler,
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tc_in_mem_converter,
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),
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request_handlers,
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}
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}
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fn handle_one_tc(&mut self) -> Result<PusPacketHandlerResult, PusPacketHandlingError> {
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let possible_packet = self.psb.retrieve_and_accept_next_packet()?;
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if possible_packet.is_none() {
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return Ok(PusPacketHandlerResult::Empty);
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}
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let ecss_tc_and_token = possible_packet.unwrap();
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let tc = self
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.psb
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.tc_in_mem_converter
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.convert_ecss_tc_in_memory_to_reader(&ecss_tc_and_token.tc_in_memory)?;
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let subservice = tc.subservice();
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let mut partial_error = None;
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let time_stamp = PusServiceBase::get_current_timestamp(&mut partial_error);
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let user_data = tc.user_data();
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if user_data.is_empty() {
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self.psb
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.common
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.verification_handler
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.borrow_mut()
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.start_failure(
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ecss_tc_and_token.token,
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FailParams::new(Some(&time_stamp), &tmtc_err::NOT_ENOUGH_APP_DATA, None),
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)
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.expect("Sending start failure TM failed");
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return Err(PusPacketHandlingError::NotEnoughAppData(
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"Expected at least 8 bytes of app data".into(),
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));
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}
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if user_data.len() < 8 {
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let err = if user_data.len() < 4 {
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&hk_err::TARGET_ID_MISSING
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} else {
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&hk_err::UNIQUE_ID_MISSING
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};
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self.psb
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.common
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.verification_handler
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.borrow_mut()
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.start_failure(
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ecss_tc_and_token.token,
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FailParams::new(Some(&time_stamp), err, None),
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)
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.expect("Sending start failure TM failed");
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return Err(PusPacketHandlingError::NotEnoughAppData(
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"Expected at least 8 bytes of app data".into(),
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));
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}
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let target_id = TargetIdWithApid::from_tc(&tc).expect("invalid tc format");
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let unique_id = u32::from_be_bytes(tc.user_data()[0..4].try_into().unwrap());
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if !self.request_handlers.contains_key(&target_id) {
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self.psb
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.common
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.verification_handler
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.borrow_mut()
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.start_failure(
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ecss_tc_and_token.token,
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FailParams::new(Some(&time_stamp), &hk_err::UNKNOWN_TARGET_ID, None),
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)
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.expect("Sending start failure TM failed");
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return Err(PusPacketHandlingError::NotEnoughAppData(format!(
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"Unknown target ID {target_id}"
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)));
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}
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let send_request = |target: TargetIdWithApid, request: HkRequest| {
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let sender = self.request_handlers.get(&target).unwrap();
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sender
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.send(RequestWithToken::new(
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target,
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Request::Hk(request),
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ecss_tc_and_token.token,
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))
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.unwrap_or_else(|_| panic!("Sending HK request {request:?} failed"));
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};
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if subservice == hk::Subservice::TcEnableHkGeneration as u8 {
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send_request(target_id, HkRequest::Enable(unique_id));
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} else if subservice == hk::Subservice::TcDisableHkGeneration as u8 {
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send_request(target_id, HkRequest::Disable(unique_id));
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} else if subservice == hk::Subservice::TcGenerateOneShotHk as u8 {
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send_request(target_id, HkRequest::OneShot(unique_id));
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} else if subservice == hk::Subservice::TcModifyHkCollectionInterval as u8 {
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if user_data.len() < 12 {
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self.psb
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.common
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.verification_handler
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.borrow_mut()
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.start_failure(
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ecss_tc_and_token.token,
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FailParams::new(
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Some(&time_stamp),
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&hk_err::COLLECTION_INTERVAL_MISSING,
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None,
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),
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)
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.expect("Sending start failure TM failed");
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return Err(PusPacketHandlingError::NotEnoughAppData(
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"Collection interval missing".into(),
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));
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}
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send_request(
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target_id,
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HkRequest::ModifyCollectionInterval(
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unique_id,
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CollectionIntervalFactor::from_be_bytes(user_data[8..12].try_into().unwrap()),
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),
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);
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}
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Ok(PusPacketHandlerResult::RequestHandled)
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}
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}
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pub struct Pus3Wrapper<TcInMemConverter: EcssTcInMemConverter> {
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pub(crate) pus_3_handler: PusService3HkHandler<TcInMemConverter>,
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}
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impl<TcInMemConverter: EcssTcInMemConverter> Pus3Wrapper<TcInMemConverter> {
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pub fn handle_next_packet(&mut self) -> bool {
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match self.pus_3_handler.handle_one_tc() {
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Ok(result) => match result {
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PusPacketHandlerResult::RequestHandled => {}
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PusPacketHandlerResult::RequestHandledPartialSuccess(e) => {
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warn!("PUS 3 partial packet handling success: {e:?}")
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}
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PusPacketHandlerResult::CustomSubservice(invalid, _) => {
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warn!("PUS 3 invalid subservice {invalid}");
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}
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PusPacketHandlerResult::SubserviceNotImplemented(subservice, _) => {
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warn!("PUS 3 subservice {subservice} not implemented");
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}
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PusPacketHandlerResult::Empty => {
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return true;
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}
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},
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Err(error) => {
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error!("PUS packet handling error: {error:?}")
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}
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}
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false
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}
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}
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