340 lines
13 KiB
Rust
340 lines
13 KiB
Rust
use crate::events::EventU32;
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use crate::pus::event_man::{EventRequest, EventRequestWithToken};
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use crate::pus::verification::TcStateToken;
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use crate::pus::{PartialPusHandlingError, PusPacketHandlerResult, PusPacketHandlingError};
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use crate::queue::GenericSendError;
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use spacepackets::ecss::event::Subservice;
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use spacepackets::ecss::PusPacket;
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use std::sync::mpsc::Sender;
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use super::verification::VerificationReportingProvider;
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use super::{
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EcssTcInMemConverter, EcssTcReceiverCore, EcssTmSenderCore, GenericConversionError,
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GenericRoutingError, PusServiceHelper,
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};
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pub struct PusEventServiceHandler<
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TcReceiver: EcssTcReceiverCore,
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TmSender: EcssTmSenderCore,
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TcInMemConverter: EcssTcInMemConverter,
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VerificationReporter: VerificationReportingProvider,
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> {
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pub service_helper:
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PusServiceHelper<TcReceiver, TmSender, TcInMemConverter, VerificationReporter>,
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event_request_tx: Sender<EventRequestWithToken>,
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}
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impl<
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TcReceiver: EcssTcReceiverCore,
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TmSender: EcssTmSenderCore,
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TcInMemConverter: EcssTcInMemConverter,
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VerificationReporter: VerificationReportingProvider,
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> PusEventServiceHandler<TcReceiver, TmSender, TcInMemConverter, VerificationReporter>
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{
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pub fn new(
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service_helper: PusServiceHelper<
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TcReceiver,
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TmSender,
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TcInMemConverter,
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VerificationReporter,
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>,
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event_request_tx: Sender<EventRequestWithToken>,
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) -> Self {
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Self {
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service_helper,
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event_request_tx,
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}
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}
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pub fn poll_and_handle_next_tc(
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&mut self,
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time_stamp: &[u8],
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) -> Result<PusPacketHandlerResult, PusPacketHandlingError> {
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let possible_packet = self.service_helper.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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self.service_helper
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.tc_in_mem_converter_mut()
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.cache(&ecss_tc_and_token.tc_in_memory)?;
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let tc = self.service_helper.tc_in_mem_converter().convert()?;
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let subservice = tc.subservice();
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let srv = Subservice::try_from(subservice);
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if srv.is_err() {
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return Ok(PusPacketHandlerResult::CustomSubservice(
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tc.subservice(),
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ecss_tc_and_token.token,
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));
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}
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let handle_enable_disable_request =
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|enable: bool| -> Result<PusPacketHandlerResult, PusPacketHandlingError> {
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if tc.user_data().len() < 4 {
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return Err(GenericConversionError::NotEnoughAppData {
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expected: 4,
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found: tc.user_data().len(),
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}
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.into());
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}
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let user_data = tc.user_data();
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let event_u32 =
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EventU32::from(u32::from_be_bytes(user_data[0..4].try_into().unwrap()));
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let start_token = self
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.service_helper
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.common
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.verif_reporter
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.start_success(
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&self.service_helper.common.tm_sender,
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ecss_tc_and_token.token,
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time_stamp,
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)
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.map_err(|_| PartialPusHandlingError::Verification);
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let partial_error = start_token.clone().err();
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let mut token: TcStateToken = ecss_tc_and_token.token.into();
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if let Ok(start_token) = start_token {
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token = start_token.into();
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}
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let event_req_with_token = if enable {
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EventRequestWithToken {
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request: EventRequest::Enable(event_u32),
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token,
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}
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} else {
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EventRequestWithToken {
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request: EventRequest::Disable(event_u32),
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token,
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}
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};
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self.event_request_tx
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.send(event_req_with_token)
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.map_err(|_| {
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PusPacketHandlingError::RequestRouting(GenericRoutingError::Send(
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GenericSendError::RxDisconnected,
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))
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})?;
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if let Some(partial_error) = partial_error {
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return Ok(PusPacketHandlerResult::RequestHandledPartialSuccess(
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partial_error,
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));
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}
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Ok(PusPacketHandlerResult::RequestHandled)
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};
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match srv.unwrap() {
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Subservice::TmInfoReport
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| Subservice::TmLowSeverityReport
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| Subservice::TmMediumSeverityReport
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| Subservice::TmHighSeverityReport => {
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return Err(PusPacketHandlingError::RequestConversion(
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GenericConversionError::WrongService(tc.subservice()),
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))
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}
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Subservice::TcEnableEventGeneration => {
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handle_enable_disable_request(true)?;
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}
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Subservice::TcDisableEventGeneration => {
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handle_enable_disable_request(false)?;
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}
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Subservice::TcReportDisabledList | Subservice::TmDisabledEventsReport => {
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return Ok(PusPacketHandlerResult::SubserviceNotImplemented(
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subservice,
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ecss_tc_and_token.token,
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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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#[cfg(test)]
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mod tests {
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use delegate::delegate;
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use spacepackets::ecss::event::Subservice;
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use spacepackets::time::{cds, TimeWriter};
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use spacepackets::util::UnsignedEnum;
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use spacepackets::{
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ecss::{
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tc::{PusTcCreator, PusTcSecondaryHeader},
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tm::PusTmReader,
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},
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SpHeader,
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};
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use std::sync::mpsc::{self, Sender};
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use crate::pus::event_man::EventRequest;
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use crate::pus::test_util::{PusTestHarness, SimplePusPacketHandler, TEST_APID};
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use crate::pus::verification::{
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RequestId, VerificationReporter, VerificationReportingProvider,
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};
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use crate::pus::{GenericConversionError, MpscTcReceiver, MpscTmInSharedPoolSenderBounded};
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use crate::{
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events::EventU32,
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pus::{
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event_man::EventRequestWithToken,
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tests::PusServiceHandlerWithSharedStoreCommon,
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verification::{TcStateAccepted, VerificationToken},
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EcssTcInSharedStoreConverter, PusPacketHandlerResult, PusPacketHandlingError,
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},
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};
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use super::PusEventServiceHandler;
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const TEST_EVENT_0: EventU32 = EventU32::const_new(crate::events::Severity::INFO, 5, 25);
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struct Pus5HandlerWithStoreTester {
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common: PusServiceHandlerWithSharedStoreCommon,
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handler: PusEventServiceHandler<
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MpscTcReceiver,
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MpscTmInSharedPoolSenderBounded,
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EcssTcInSharedStoreConverter,
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VerificationReporter,
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>,
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}
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impl Pus5HandlerWithStoreTester {
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pub fn new(event_request_tx: Sender<EventRequestWithToken>) -> Self {
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let (common, srv_handler) = PusServiceHandlerWithSharedStoreCommon::new(0);
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Self {
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common,
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handler: PusEventServiceHandler::new(srv_handler, event_request_tx),
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}
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}
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}
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impl PusTestHarness for Pus5HandlerWithStoreTester {
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fn init_verification(&mut self, tc: &PusTcCreator) -> VerificationToken<TcStateAccepted> {
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let init_token = self.handler.service_helper.verif_reporter_mut().add_tc(tc);
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self.handler
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.service_helper
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.verif_reporter()
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.acceptance_success(self.handler.service_helper.tm_sender(), init_token, &[0; 7])
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.expect("acceptance success failure")
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}
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delegate! {
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to self.common {
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fn send_tc(&self, token: &VerificationToken<TcStateAccepted>, tc: &PusTcCreator);
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fn read_next_tm(&mut self) -> PusTmReader<'_>;
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fn check_no_tm_available(&self) -> bool;
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fn check_next_verification_tm(&self, subservice: u8, expected_request_id: RequestId);
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}
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}
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}
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impl SimplePusPacketHandler for Pus5HandlerWithStoreTester {
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fn handle_one_tc(&mut self) -> Result<PusPacketHandlerResult, PusPacketHandlingError> {
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let time_stamp = cds::CdsTime::new_with_u16_days(0, 0).to_vec().unwrap();
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self.handler.poll_and_handle_next_tc(&time_stamp)
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}
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}
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fn event_test(
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test_harness: &mut (impl PusTestHarness + SimplePusPacketHandler),
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subservice: Subservice,
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expected_event_req: EventRequest,
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event_req_receiver: mpsc::Receiver<EventRequestWithToken>,
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) {
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let sp_header = SpHeader::new_for_unseg_tc(TEST_APID, 0, 0);
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let sec_header = PusTcSecondaryHeader::new_simple(5, subservice as u8);
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let mut app_data = [0; 4];
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TEST_EVENT_0
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.write_to_be_bytes(&mut app_data)
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.expect("writing test event failed");
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let ping_tc = PusTcCreator::new(sp_header, sec_header, &app_data, true);
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let token = test_harness.init_verification(&ping_tc);
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test_harness.send_tc(&token, &ping_tc);
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let request_id = token.request_id();
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test_harness.handle_one_tc().unwrap();
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test_harness.check_next_verification_tm(1, request_id);
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test_harness.check_next_verification_tm(3, request_id);
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// Completion TM is not generated for us.
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assert!(test_harness.check_no_tm_available());
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let event_request = event_req_receiver
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.try_recv()
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.expect("no event request received");
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assert_eq!(expected_event_req, event_request.request);
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}
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#[test]
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fn test_enabling_event_reporting() {
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let (event_request_tx, event_request_rx) = mpsc::channel();
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let mut test_harness = Pus5HandlerWithStoreTester::new(event_request_tx);
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event_test(
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&mut test_harness,
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Subservice::TcEnableEventGeneration,
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EventRequest::Enable(TEST_EVENT_0),
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event_request_rx,
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);
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}
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#[test]
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fn test_disabling_event_reporting() {
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let (event_request_tx, event_request_rx) = mpsc::channel();
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let mut test_harness = Pus5HandlerWithStoreTester::new(event_request_tx);
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event_test(
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&mut test_harness,
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Subservice::TcDisableEventGeneration,
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EventRequest::Disable(TEST_EVENT_0),
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event_request_rx,
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);
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}
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#[test]
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fn test_empty_tc_queue() {
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let (event_request_tx, _) = mpsc::channel();
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let mut test_harness = Pus5HandlerWithStoreTester::new(event_request_tx);
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let result = test_harness.handle_one_tc();
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assert!(result.is_ok());
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let result = result.unwrap();
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if let PusPacketHandlerResult::Empty = result {
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} else {
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panic!("unexpected result type {result:?}")
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}
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}
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#[test]
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fn test_sending_custom_subservice() {
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let (event_request_tx, _) = mpsc::channel();
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let mut test_harness = Pus5HandlerWithStoreTester::new(event_request_tx);
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let sp_header = SpHeader::new_for_unseg_tc(TEST_APID, 0, 0);
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let sec_header = PusTcSecondaryHeader::new_simple(5, 200);
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let ping_tc = PusTcCreator::new_no_app_data(sp_header, sec_header, true);
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let token = test_harness.init_verification(&ping_tc);
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test_harness.send_tc(&token, &ping_tc);
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let result = test_harness.handle_one_tc();
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assert!(result.is_ok());
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let result = result.unwrap();
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if let PusPacketHandlerResult::CustomSubservice(subservice, _) = result {
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assert_eq!(subservice, 200);
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} else {
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panic!("unexpected result type {result:?}")
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}
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}
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#[test]
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fn test_sending_invalid_app_data() {
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let (event_request_tx, _) = mpsc::channel();
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let mut test_harness = Pus5HandlerWithStoreTester::new(event_request_tx);
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let sp_header = SpHeader::new_for_unseg_tc(TEST_APID, 0, 0);
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let sec_header =
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PusTcSecondaryHeader::new_simple(5, Subservice::TcEnableEventGeneration as u8);
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let ping_tc = PusTcCreator::new(sp_header, sec_header, &[0, 1, 2], true);
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let token = test_harness.init_verification(&ping_tc);
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test_harness.send_tc(&token, &ping_tc);
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let result = test_harness.handle_one_tc();
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assert!(result.is_err());
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let result = result.unwrap_err();
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if let PusPacketHandlingError::RequestConversion(
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GenericConversionError::NotEnoughAppData { expected, found },
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) = result
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{
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assert_eq!(expected, 4);
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assert_eq!(found, 3);
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} else {
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panic!("unexpected result type {result:?}")
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}
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}
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}
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