remove re-export
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This commit is contained in:
Robin Müller 2024-04-03 11:53:16 +02:00
parent f9ee3998fd
commit dab02a1cc5
Signed by: muellerr
GPG Key ID: A649FB78196E3849
4 changed files with 14 additions and 123 deletions

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@ -52,7 +52,5 @@ pub mod params;
pub use spacepackets;
pub use queue::ChannelId;
/// Generic component ID type.
pub type ComponentId = u64;

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@ -305,7 +305,7 @@ pub trait ActiveRequestProvider {
}
/// This trait is an abstraction for the routing of PUS request to a dedicated
/// recipient using the generic [TargetId].
/// recipient using the generic [ComponentId].
pub trait PusRequestRouter<Request> {
type Error;
@ -439,8 +439,9 @@ pub mod alloc_mod {
/// type.
///
/// Having a dedicated trait for this allows maximum flexiblity and tailoring of the standard.
/// The only requirement is that a valid [TargetId] and a request instance are returned by the
/// core conversion function.
/// The only requirement is that a valid active request information instance and a request
/// are returned by the core conversion function. The active request type needs to fulfill
/// the [ActiveRequestProvider] trait bound.
///
/// The user should take care of performing the error handling as well. Some of the following
/// aspects might be relevant:
@ -877,117 +878,6 @@ pub mod std_mod {
pub type CrossbeamTcReceiver = cb::Receiver<EcssTcAndToken>;
}
/// This is a high-level handler for the generic PUS services which need to convert PUS
/// commands into a request/reply pattern.
///
/// It performs the following handling steps:
///
/// 1. Retrieve the next TC packet from the [PusServiceHelper]. The [EcssTcInMemConverter]
/// allows to configure the used telecommand memory backend.
/// 2. Convert the TC to a targeted action request using the provided
/// [PusTcToRequestConverter]. The generic error type is constrained to the
/// [PusPacketHandlingError] for the concrete implementation which offers a packet handler.
/// 3. Route the action request using the provided [PusRequestRouter].
/*
pub struct PusTargetedRequestHandler<
TcReceiver: EcssTcReceiverCore,
TmSender: EcssTmSenderCore,
TcInMemConverter: EcssTcInMemConverter,
VerificationReporter: VerificationReportingProvider,
RequestConverter: PusTcToRequestConverter<Request>,
RequestRouter: PusRequestRouter<Request, Error = RoutingError>,
Request,
RoutingError = GenericRoutingError,
> {
service_helper:
PusServiceHelper<TcReceiver, TmSender, TcInMemConverter, VerificationReporter>,
pub request_converter: RequestConverter,
pub request_router: RequestRouter,
phantom: PhantomData<Request>,
}
// pub trait PusReplyHandlerProvider {
// fn add_routed_request(&mut self, request_id: RequestId, active_request: ActiveRequest);
// }
impl<
TcReceiver: EcssTcReceiverCore,
TmSender: EcssTmSenderCore,
TcInMemConverter: EcssTcInMemConverter,
VerificationReporter: VerificationReportingProvider,
RequestConverter: PusTcToRequestConverter<Request, Error = PusPacketHandlingError>,
RequestRouter: PusRequestRouter<Request, Error = RoutingError>,
Request,
RoutingError: Clone,
>
PusTargetedRequestHandler<
TcReceiver,
TmSender,
TcInMemConverter,
VerificationReporter,
RequestConverter,
RequestRouter,
Request,
RoutingError,
>
where
PusPacketHandlingError: From<RoutingError>,
{
pub fn new(
service_helper: PusServiceHelper<
TcReceiver,
TmSender,
TcInMemConverter,
VerificationReporter,
>,
request_converter: RequestConverter,
request_router: RequestRouter,
) -> Self {
Self {
service_helper,
request_converter,
request_router,
phantom: PhantomData,
}
}
/// Core function to poll the next TC packet and try to handle it.
pub fn handle_one_tc(&mut self) -> Result<PusPacketHandlerResult, PusPacketHandlingError> {
let possible_packet = self.service_helper.retrieve_and_accept_next_packet()?;
if possible_packet.is_none() {
return Ok(PusPacketHandlerResult::Empty);
}
let ecss_tc_and_token = possible_packet.unwrap();
let tc = self
.service_helper
.tc_in_mem_converter
.convert_ecss_tc_in_memory_to_reader(&ecss_tc_and_token.tc_in_memory)?;
let mut partial_error = None;
let time_stamp = get_current_cds_short_timestamp(&mut partial_error);
let (target_id, action_request) = self.request_converter.convert(
ecss_tc_and_token.token,
&tc,
&time_stamp,
&self.service_helper.common.verification_handler,
)?;
if let Err(e) =
self.request_router
.route(target_id, action_request, ecss_tc_and_token.token)
{
self.request_router.handle_error(
target_id,
ecss_tc_and_token.token,
&tc,
e.clone(),
&time_stamp,
&self.service_helper.common.verification_handler,
);
return Err(e.into());
}
Ok(PusPacketHandlerResult::RequestHandled)
}
}
*/
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct ActivePusRequestStd {
target_id: ComponentId,

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@ -381,7 +381,7 @@ pub mod alloc_mod {
/// a [crate::pool::PoolProvider] API. This data structure just tracks the store
/// addresses and their release times and offers a convenient API to insert and release
/// telecommands and perform other functionality specified by the ECSS standard in section 6.11.
/// The time is tracked as a [spacepackets::time::UnixTimestamp] but the only requirement to
/// The time is tracked as a [spacepackets::time::UnixTime] but the only requirement to
/// the timekeeping of the user is that it is convertible to that timestamp.
///
/// The standard also specifies that the PUS scheduler can be enabled and disabled.

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@ -89,6 +89,10 @@ impl fmt::Display for UniqueApidTargetId {
}
}
/// This contains metadata information which might be useful when used together with a
/// generic message tpye.
///
/// This could for example be used to build request/reply patterns or state tracking for request.
#[derive(Debug, Copy, PartialEq, Eq, Clone)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct MessageMetadata {
@ -113,17 +117,16 @@ impl MessageMetadata {
}
}
/// Generic message type which is associated with a sender using a [ChannelId] and associated
/// with a request using a [RequestId].
/// Generic message type which adds [metadata][MessageMetadata] to a generic message typ.
#[derive(Debug, Clone, PartialEq, Eq)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct GenericMessage<MSG> {
pub struct GenericMessage<Message> {
pub requestor_info: MessageMetadata,
pub message: MSG,
pub message: Message,
}
impl<MSG> GenericMessage<MSG> {
pub fn new(requestor_info: MessageMetadata, message: MSG) -> Self {
impl<Message> GenericMessage<Message> {
pub fn new(requestor_info: MessageMetadata, message: Message) -> Self {
Self {
requestor_info,
message,