all working

This commit is contained in:
Robin Müller 2022-11-02 00:36:49 +01:00
parent e5a912c636
commit 0fd9d9c9b6
No known key found for this signature in database
GPG Key ID: BE6480244DFE612C
6 changed files with 225 additions and 93 deletions

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@ -411,7 +411,7 @@ impl EcssEnumeration for EventU32 {
32 32
} }
fn write_to_bytes(&self, buf: &mut [u8]) -> Result<(), ByteConversionError> { fn write_to_be_bytes(&self, buf: &mut [u8]) -> Result<(), ByteConversionError> {
self.base.write_to_bytes(self.raw(), buf, self.byte_width()) self.base.write_to_bytes(self.raw(), buf, self.byte_width())
} }
} }
@ -420,7 +420,7 @@ impl EcssEnumeration for EventU32 {
impl<SEVERITY: HasSeverity> EcssEnumeration for EventU32TypedSev<SEVERITY> { impl<SEVERITY: HasSeverity> EcssEnumeration for EventU32TypedSev<SEVERITY> {
delegate!(to self.event { delegate!(to self.event {
fn pfc(&self) -> u8; fn pfc(&self) -> u8;
fn write_to_bytes(&self, buf: &mut [u8]) -> Result<(), ByteConversionError>; fn write_to_be_bytes(&self, buf: &mut [u8]) -> Result<(), ByteConversionError>;
}); });
} }
@ -542,11 +542,12 @@ impl<SEVERITY: HasSeverity> EventU16TypedSev<SEVERITY> {
impl_event_provider!(EventU16, EventU16TypedSev, u16, u8, u8); impl_event_provider!(EventU16, EventU16TypedSev, u16, u8, u8);
impl EcssEnumeration for EventU16 { impl EcssEnumeration for EventU16 {
#[inline]
fn pfc(&self) -> u8 { fn pfc(&self) -> u8 {
16 16
} }
fn write_to_bytes(&self, buf: &mut [u8]) -> Result<(), ByteConversionError> { fn write_to_be_bytes(&self, buf: &mut [u8]) -> Result<(), ByteConversionError> {
self.base.write_to_bytes(self.raw(), buf, self.byte_width()) self.base.write_to_bytes(self.raw(), buf, self.byte_width())
} }
} }
@ -555,7 +556,7 @@ impl EcssEnumeration for EventU16 {
impl<SEVERITY: HasSeverity> EcssEnumeration for EventU16TypedSev<SEVERITY> { impl<SEVERITY: HasSeverity> EcssEnumeration for EventU16TypedSev<SEVERITY> {
delegate!(to self.event { delegate!(to self.event {
fn pfc(&self) -> u8; fn pfc(&self) -> u8;
fn write_to_bytes(&self, buf: &mut [u8]) -> Result<(), ByteConversionError>; fn write_to_be_bytes(&self, buf: &mut [u8]) -> Result<(), ByteConversionError>;
}); });
} }
@ -574,6 +575,34 @@ try_from_impls!(SeverityLow, Severity::LOW, u16, EventU16TypedSev);
try_from_impls!(SeverityMedium, Severity::MEDIUM, u16, EventU16TypedSev); try_from_impls!(SeverityMedium, Severity::MEDIUM, u16, EventU16TypedSev);
try_from_impls!(SeverityHigh, Severity::HIGH, u16, EventU16TypedSev); try_from_impls!(SeverityHigh, Severity::HIGH, u16, EventU16TypedSev);
impl<Severity: HasSeverity> PartialEq<EventU32> for EventU32TypedSev<Severity> {
#[inline]
fn eq(&self, other: &EventU32) -> bool {
self.raw() == other.raw()
}
}
impl<Severity: HasSeverity> PartialEq<EventU32TypedSev<Severity>> for EventU32 {
#[inline]
fn eq(&self, other: &EventU32TypedSev<Severity>) -> bool {
self.raw() == other.raw()
}
}
impl<Severity: HasSeverity> PartialEq<EventU16> for EventU16TypedSev<Severity> {
#[inline]
fn eq(&self, other: &EventU16) -> bool {
self.raw() == other.raw()
}
}
impl<Severity: HasSeverity> PartialEq<EventU16TypedSev<Severity>> for EventU16 {
#[inline]
fn eq(&self, other: &EventU16TypedSev<Severity>) -> bool {
self.raw() == other.raw()
}
}
#[cfg(test)] #[cfg(test)]
mod tests { mod tests {
use super::EventU32TypedSev; use super::EventU32TypedSev;
@ -713,7 +742,7 @@ mod tests {
#[test] #[test]
fn write_to_buf() { fn write_to_buf() {
let mut buf: [u8; 4] = [0; 4]; let mut buf: [u8; 4] = [0; 4];
assert!(HIGH_SEV_EVENT.write_to_bytes(&mut buf).is_ok()); assert!(HIGH_SEV_EVENT.write_to_be_bytes(&mut buf).is_ok());
let val_from_raw = u32::from_be_bytes(buf); let val_from_raw = u32::from_be_bytes(buf);
assert_eq!(val_from_raw, 0xFFFFFFFF); assert_eq!(val_from_raw, 0xFFFFFFFF);
} }
@ -721,7 +750,7 @@ mod tests {
#[test] #[test]
fn write_to_buf_small() { fn write_to_buf_small() {
let mut buf: [u8; 2] = [0; 2]; let mut buf: [u8; 2] = [0; 2];
assert!(HIGH_SEV_EVENT_SMALL.write_to_bytes(&mut buf).is_ok()); assert!(HIGH_SEV_EVENT_SMALL.write_to_be_bytes(&mut buf).is_ok());
let val_from_raw = u16::from_be_bytes(buf); let val_from_raw = u16::from_be_bytes(buf);
assert_eq!(val_from_raw, 0xFFFF); assert_eq!(val_from_raw, 0xFFFF);
} }
@ -729,7 +758,7 @@ mod tests {
#[test] #[test]
fn write_to_buf_insufficient_buf() { fn write_to_buf_insufficient_buf() {
let mut buf: [u8; 3] = [0; 3]; let mut buf: [u8; 3] = [0; 3];
let err = HIGH_SEV_EVENT.write_to_bytes(&mut buf); let err = HIGH_SEV_EVENT.write_to_be_bytes(&mut buf);
assert!(err.is_err()); assert!(err.is_err());
let err = err.unwrap_err(); let err = err.unwrap_err();
if let ByteConversionError::ToSliceTooSmall(missmatch) = err { if let ByteConversionError::ToSliceTooSmall(missmatch) = err {
@ -741,7 +770,7 @@ mod tests {
#[test] #[test]
fn write_to_buf_small_insufficient_buf() { fn write_to_buf_small_insufficient_buf() {
let mut buf: [u8; 1] = [0; 1]; let mut buf: [u8; 1] = [0; 1];
let err = HIGH_SEV_EVENT_SMALL.write_to_bytes(&mut buf); let err = HIGH_SEV_EVENT_SMALL.write_to_be_bytes(&mut buf);
assert!(err.is_err()); assert!(err.is_err());
let err = err.unwrap_err(); let err = err.unwrap_err();
if let ByteConversionError::ToSliceTooSmall(missmatch) = err { if let ByteConversionError::ToSliceTooSmall(missmatch) = err {

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@ -152,7 +152,7 @@ impl EventReporterBase {
time_stamp, time_stamp,
); );
let mut current_idx = 0; let mut current_idx = 0;
event_id.write_to_bytes(&mut buf[0..event_id.byte_width()])?; event_id.write_to_be_bytes(&mut buf[0..event_id.byte_width()])?;
current_idx += event_id.byte_width(); current_idx += event_id.byte_width();
if let Some(aux_data) = aux_data { if let Some(aux_data) = aux_data {
buf[current_idx..current_idx + aux_data.len()].copy_from_slice(aux_data); buf[current_idx..current_idx + aux_data.len()].copy_from_slice(aux_data);

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@ -536,7 +536,7 @@ impl VerificationReporterBasic {
idx += RequestId::SIZE_AS_BYTES; idx += RequestId::SIZE_AS_BYTES;
if let Some(step) = step { if let Some(step) = step {
// Size check was done beforehand // Size check was done beforehand
step.write_to_bytes(&mut buf[idx..idx + step.byte_width() as usize]) step.write_to_be_bytes(&mut buf[idx..idx + step.byte_width() as usize])
.unwrap(); .unwrap();
} }
let mut sp_header = SpHeader::tm(self.apid(), 0, 0).unwrap(); let mut sp_header = SpHeader::tm(self.apid(), 0, 0).unwrap();
@ -571,13 +571,13 @@ impl VerificationReporterBasic {
idx += RequestId::SIZE_AS_BYTES; idx += RequestId::SIZE_AS_BYTES;
if let Some(step) = step { if let Some(step) = step {
// Size check done beforehand // Size check done beforehand
step.write_to_bytes(&mut buf[idx..idx + step.byte_width() as usize]) step.write_to_be_bytes(&mut buf[idx..idx + step.byte_width() as usize])
.unwrap(); .unwrap();
idx += step.byte_width() as usize; idx += step.byte_width() as usize;
} }
params params
.failure_code .failure_code
.write_to_bytes(&mut buf[idx..idx + params.failure_code.byte_width() as usize])?; .write_to_be_bytes(&mut buf[idx..idx + params.failure_code.byte_width() as usize])?;
idx += params.failure_code.byte_width() as usize; idx += params.failure_code.byte_width() as usize;
if let Some(failure_data) = params.failure_data { if let Some(failure_data) = params.failure_data {
buf[idx..idx + failure_data.len()].copy_from_slice(failure_data); buf[idx..idx + failure_data.len()].copy_from_slice(failure_data);
@ -1344,7 +1344,7 @@ mod tests {
let fail_code = EcssEnumU8::new(10); let fail_code = EcssEnumU8::new(10);
let fail_data = EcssEnumU32::new(12); let fail_data = EcssEnumU32::new(12);
let mut fail_data_raw = [0; 4]; let mut fail_data_raw = [0; 4];
fail_data.write_to_bytes(&mut fail_data_raw).unwrap(); fail_data.write_to_be_bytes(&mut fail_data_raw).unwrap();
let fail_params = FailParams::new(&EMPTY_STAMP, &fail_code, Some(fail_data_raw.as_slice())); let fail_params = FailParams::new(&EMPTY_STAMP, &fail_code, Some(fail_data_raw.as_slice()));
b.vr.acceptance_failure(tok, &mut sender, fail_params) b.vr.acceptance_failure(tok, &mut sender, fail_params)
.expect("Sending acceptance success failed"); .expect("Sending acceptance success failed");

View File

@ -32,13 +32,16 @@ use core::fmt::Debug;
use core::mem::size_of; use core::mem::size_of;
use paste::paste; use paste::paste;
pub use spacepackets::ecss::ToBeBytes; pub use spacepackets::ecss::ToBeBytes;
use spacepackets::ecss::{EcssEnumU16, EcssEnumU32, EcssEnumU64, EcssEnumU8}; use spacepackets::ecss::{EcssEnumU16, EcssEnumU32, EcssEnumU64, EcssEnumU8, EcssEnumeration};
use spacepackets::ByteConversionError; use spacepackets::ByteConversionError;
use spacepackets::SizeMissmatch; use spacepackets::SizeMissmatch;
/// Generic trait which is used for objects which can be converted into a raw network (big) endian
/// byte format.
pub trait WritableAsBeBytes { pub trait WritableAsBeBytes {
fn raw_len(&self) -> usize; fn raw_len(&self) -> usize;
fn write_be(&self, buf: &mut [u8]) -> Result<usize, ByteConversionError>; /// Writes the object to a raw buffer in network endianness (big)
fn write_to_be_bytes(&self, buf: &mut [u8]) -> Result<usize, ByteConversionError>;
} }
macro_rules! param_to_be_bytes_impl { macro_rules! param_to_be_bytes_impl {
@ -49,7 +52,7 @@ macro_rules! param_to_be_bytes_impl {
size_of::<<Self as ToBeBytes>::ByteArray>() size_of::<<Self as ToBeBytes>::ByteArray>()
} }
fn write_be(&self, buf: &mut [u8]) -> Result<usize, ByteConversionError> { fn write_to_be_bytes(&self, buf: &mut [u8]) -> Result<usize, ByteConversionError> {
let raw_len = self.raw_len(); let raw_len = self.raw_len();
if buf.len() < raw_len { if buf.len() < raw_len {
return Err(ByteConversionError::ToSliceTooSmall(SizeMissmatch { return Err(ByteConversionError::ToSliceTooSmall(SizeMissmatch {
@ -137,7 +140,7 @@ macro_rules! primitive_newtypes {
primitive_newtypes_with_eq!(u8, u16, u32, u64, i8, i16, i32, i64,); primitive_newtypes_with_eq!(u8, u16, u32, u64, i8, i16, i32, i64,);
primitive_newtypes!(f32, f64,); primitive_newtypes!(f32, f64,);
macro_rules! scalar_to_be_bytes_impl { macro_rules! scalar_byte_conversions_impl {
($($ty: ty,)+) => { ($($ty: ty,)+) => {
$( $(
paste! { paste! {
@ -147,12 +150,26 @@ macro_rules! scalar_to_be_bytes_impl {
self.0.to_be_bytes() self.0.to_be_bytes()
} }
} }
impl TryFrom<&[u8]> for [<$ty:upper>] {
type Error = ByteConversionError;
fn try_from(v: &[u8]) -> Result<Self, Self::Error> {
if v.len() < size_of::<$ty>() {
return Err(ByteConversionError::FromSliceTooSmall(SizeMissmatch {
expected: size_of::<$ty>(),
found: v.len()
}));
}
Ok([<$ty:upper>]($ty::from_be_bytes(v[0..size_of::<$ty>()].try_into().unwrap())))
}
}
} }
)+ )+
} }
} }
macro_rules! pair_to_be_bytes_impl { macro_rules! pair_byte_conversions_impl {
($($ty: ty,)+) => { ($($ty: ty,)+) => {
$( $(
paste! { paste! {
@ -167,6 +184,23 @@ macro_rules! pair_to_be_bytes_impl {
array array
} }
} }
impl TryFrom<&[u8]> for [<$ty:upper Pair>] {
type Error = ByteConversionError;
fn try_from(v: &[u8]) -> Result<Self, Self::Error> {
if v.len() < 2 * size_of::<$ty>() {
return Err(ByteConversionError::FromSliceTooSmall(SizeMissmatch {
expected: 2 * size_of::<$ty>(),
found: v.len()
}));
}
Ok([<$ty:upper Pair>](
$ty::from_be_bytes(v[0..size_of::<$ty>()].try_into().unwrap()),
$ty::from_be_bytes(v[size_of::<$ty>()..2 * size_of::<$ty>()].try_into().unwrap())
))
}
}
} }
)+ )+
} }
@ -190,12 +224,29 @@ macro_rules! triplet_to_be_bytes_impl {
array array
} }
} }
impl TryFrom<&[u8]> for [<$ty:upper Triplet>] {
type Error = ByteConversionError;
fn try_from(v: &[u8]) -> Result<Self, Self::Error> {
if v.len() < 3 * size_of::<$ty>() {
return Err(ByteConversionError::FromSliceTooSmall(SizeMissmatch {
expected: 3 * size_of::<$ty>(),
found: v.len()
}));
}
Ok([<$ty:upper Triplet>](
$ty::from_be_bytes(v[0..size_of::<$ty>()].try_into().unwrap()),
$ty::from_be_bytes(v[size_of::<$ty>()..2 * size_of::<$ty>()].try_into().unwrap()),
$ty::from_be_bytes(v[2 * size_of::<$ty>()..3 * size_of::<$ty>()].try_into().unwrap())
))
}
}
} }
)+ )+
} }
} }
scalar_to_be_bytes_impl!(u8, u16, u32, u64, i8, i16, i32, i64, f32, f64,); scalar_byte_conversions_impl!(u8, u16, u32, u64, i8, i16, i32, i64, f32, f64,);
impl ToBeBytes for U8Pair { impl ToBeBytes for U8Pair {
type ByteArray = [u8; 2]; type ByteArray = [u8; 2];
@ -243,7 +294,7 @@ impl ToBeBytes for I8Triplet {
} }
} }
pair_to_be_bytes_impl!(u16, u32, u64, i16, i32, i64, f32, f64,); pair_byte_conversions_impl!(u16, u32, u64, i16, i32, i64, f32, f64,);
triplet_to_be_bytes_impl!(u16, u32, u64, i16, i32, i64, f32, f64,); triplet_to_be_bytes_impl!(u16, u32, u64, i16, i32, i64, f32, f64,);
/// Generic enumeration for additonal parameters only consisting of primitive data types. /// Generic enumeration for additonal parameters only consisting of primitive data types.
@ -305,35 +356,36 @@ impl WritableAsBeBytes for ParamsRaw {
} }
} }
fn write_be(&self, buf: &mut [u8]) -> Result<usize, ByteConversionError> { fn write_to_be_bytes(&self, buf: &mut [u8]) -> Result<usize, ByteConversionError> {
match self { match self {
ParamsRaw::U8(v) => v.write_be(buf), ParamsRaw::U8(v) => v.write_to_be_bytes(buf),
ParamsRaw::U8Pair(v) => v.write_be(buf), ParamsRaw::U8Pair(v) => v.write_to_be_bytes(buf),
ParamsRaw::U8Triplet(v) => v.write_be(buf), ParamsRaw::U8Triplet(v) => v.write_to_be_bytes(buf),
ParamsRaw::I8(v) => v.write_be(buf), ParamsRaw::I8(v) => v.write_to_be_bytes(buf),
ParamsRaw::I8Pair(v) => v.write_be(buf), ParamsRaw::I8Pair(v) => v.write_to_be_bytes(buf),
ParamsRaw::I8Triplet(v) => v.write_be(buf), ParamsRaw::I8Triplet(v) => v.write_to_be_bytes(buf),
ParamsRaw::U16(v) => v.write_be(buf), ParamsRaw::U16(v) => v.write_to_be_bytes(buf),
ParamsRaw::U16Pair(v) => v.write_be(buf), ParamsRaw::U16Pair(v) => v.write_to_be_bytes(buf),
ParamsRaw::U16Triplet(v) => v.write_be(buf), ParamsRaw::U16Triplet(v) => v.write_to_be_bytes(buf),
ParamsRaw::I16(v) => v.write_be(buf), ParamsRaw::I16(v) => v.write_to_be_bytes(buf),
ParamsRaw::I16Pair(v) => v.write_be(buf), ParamsRaw::I16Pair(v) => v.write_to_be_bytes(buf),
ParamsRaw::I16Triplet(v) => v.write_be(buf), ParamsRaw::I16Triplet(v) => v.write_to_be_bytes(buf),
ParamsRaw::U32(v) => v.write_be(buf), ParamsRaw::U32(v) => v.write_to_be_bytes(buf),
ParamsRaw::U32Pair(v) => v.write_be(buf), ParamsRaw::U32Pair(v) => v.write_to_be_bytes(buf),
ParamsRaw::U32Triplet(v) => v.write_be(buf), ParamsRaw::U32Triplet(v) => v.write_to_be_bytes(buf),
ParamsRaw::I32(v) => v.write_be(buf), ParamsRaw::I32(v) => v.write_to_be_bytes(buf),
ParamsRaw::I32Pair(v) => v.write_be(buf), ParamsRaw::I32Pair(v) => v.write_to_be_bytes(buf),
ParamsRaw::I32Triplet(v) => v.write_be(buf), ParamsRaw::I32Triplet(v) => v.write_to_be_bytes(buf),
ParamsRaw::F32(v) => v.write_be(buf), ParamsRaw::F32(v) => v.write_to_be_bytes(buf),
ParamsRaw::F32Pair(v) => v.write_be(buf), ParamsRaw::F32Pair(v) => v.write_to_be_bytes(buf),
ParamsRaw::F32Triplet(v) => v.write_be(buf), ParamsRaw::F32Triplet(v) => v.write_to_be_bytes(buf),
ParamsRaw::U64(v) => v.write_be(buf), ParamsRaw::U64(v) => v.write_to_be_bytes(buf),
ParamsRaw::I64(v) => v.write_be(buf), ParamsRaw::I64(v) => v.write_to_be_bytes(buf),
ParamsRaw::F64(v) => v.write_be(buf), ParamsRaw::F64(v) => v.write_to_be_bytes(buf),
} }
} }
} }
macro_rules! params_raw_from_newtype { macro_rules! params_raw_from_newtype {
($($newtype: ident,)+) => { ($($newtype: ident,)+) => {
$( $(
@ -360,6 +412,45 @@ pub enum EcssEnumParams {
U64(EcssEnumU64), U64(EcssEnumU64),
} }
macro_rules! writable_as_be_bytes_ecss_enum_impl {
($EnumIdent: ident) => {
impl WritableAsBeBytes for $EnumIdent {
fn raw_len(&self) -> usize {
self.byte_width()
}
fn write_to_be_bytes(&self, buf: &mut [u8]) -> Result<usize, ByteConversionError> {
EcssEnumeration::write_to_be_bytes(self, buf).map(|_| self.byte_width())
}
}
};
}
writable_as_be_bytes_ecss_enum_impl!(EcssEnumU8);
writable_as_be_bytes_ecss_enum_impl!(EcssEnumU16);
writable_as_be_bytes_ecss_enum_impl!(EcssEnumU32);
writable_as_be_bytes_ecss_enum_impl!(EcssEnumU64);
impl WritableAsBeBytes for EcssEnumParams {
fn raw_len(&self) -> usize {
match self {
EcssEnumParams::U8(e) => e.byte_width(),
EcssEnumParams::U16(e) => e.byte_width(),
EcssEnumParams::U32(e) => e.byte_width(),
EcssEnumParams::U64(e) => e.byte_width(),
}
}
fn write_to_be_bytes(&self, buf: &mut [u8]) -> Result<usize, ByteConversionError> {
match self {
EcssEnumParams::U8(e) => WritableAsBeBytes::write_to_be_bytes(e, buf),
EcssEnumParams::U16(e) => WritableAsBeBytes::write_to_be_bytes(e, buf),
EcssEnumParams::U32(e) => WritableAsBeBytes::write_to_be_bytes(e, buf),
EcssEnumParams::U64(e) => WritableAsBeBytes::write_to_be_bytes(e, buf),
}
}
}
/// Generic enumeration for parameters which do not rely on heap allocations. /// Generic enumeration for parameters which do not rely on heap allocations.
#[derive(Debug, Copy, Clone, PartialEq)] #[derive(Debug, Copy, Clone, PartialEq)]
pub enum ParamsHeapless { pub enum ParamsHeapless {

View File

@ -2,7 +2,9 @@ use fsrc_core::event_man::{EventManager, MpscEventReceiver, MpscEventU32SendProv
use fsrc_core::events::{EventU32, EventU32TypedSev, Severity, SeverityInfo}; use fsrc_core::events::{EventU32, EventU32TypedSev, Severity, SeverityInfo};
use fsrc_core::pus::event_man::{DefaultPusMgmtBackendProvider, EventReporter, PusEventTmManager}; use fsrc_core::pus::event_man::{DefaultPusMgmtBackendProvider, EventReporter, PusEventTmManager};
use fsrc_core::pus::{EcssTmError, EcssTmSender}; use fsrc_core::pus::{EcssTmError, EcssTmSender};
use fsrc_core::util::{Params, ParamsHeapless, ParamsRaw}; use fsrc_core::util::U32Pair;
use fsrc_core::util::{Params, ParamsHeapless, WritableAsBeBytes};
use spacepackets::ecss::PusPacket;
use spacepackets::tm::PusTm; use spacepackets::tm::PusTm;
use std::sync::mpsc::{channel, SendError, TryRecvError}; use std::sync::mpsc::{channel, SendError, TryRecvError};
use std::thread; use std::thread;
@ -43,55 +45,41 @@ fn test_threaded_usage() {
let jh0 = thread::spawn(move || { let jh0 = thread::spawn(move || {
let mut sender = EventTmSender { sender: event_tx }; let mut sender = EventTmSender { sender: event_tx };
let mut event_cnt = 0; let mut event_cnt = 0;
let _params_array: [u8; 256] = [0; 256]; let mut params_array: [u8; 128] = [0; 128];
loop { loop {
let res = event_man.try_event_handling(); let res = event_man.try_event_handling();
assert!(res.is_ok()); assert!(res.is_ok());
match pus_event_man_rx.try_recv() { match pus_event_man_rx.try_recv() {
Ok((event, aux_data)) => { Ok((event, aux_data)) => {
// TODO: Convert auxiliary data into raw byte format let mut gen_event = |aux_data| {
if let Some(aux_data) = aux_data { pus_event_man.generate_pus_event_tm_generic(
match aux_data {
Params::Heapless(heapless) => match heapless {
ParamsHeapless::Raw(raw) => match raw {
ParamsRaw::U8(_) => {}
ParamsRaw::U8Pair(_) => {}
ParamsRaw::U8Triplet(_) => {}
ParamsRaw::I8(_) => {}
ParamsRaw::I8Pair(_) => {}
ParamsRaw::I8Triplet(_) => {}
ParamsRaw::U16(_) => {}
ParamsRaw::U16Pair(_) => {}
ParamsRaw::U16Triplet(_) => {}
ParamsRaw::I16(_) => {}
ParamsRaw::I16Pair(_) => {}
ParamsRaw::I16Triplet(_) => {}
ParamsRaw::U32(_) => {}
ParamsRaw::U32Pair(_) => {}
ParamsRaw::U32Triplet(_) => {}
ParamsRaw::I32(_) => {}
ParamsRaw::I32Pair(_) => {}
ParamsRaw::I32Triplet(_) => {}
ParamsRaw::F32(_) => {}
ParamsRaw::F32Pair(_) => {}
ParamsRaw::F32Triplet(_) => {}
ParamsRaw::U64(_) => {}
ParamsRaw::I64(_) => {}
ParamsRaw::F64(_) => {}
},
ParamsHeapless::EcssEnum(_) => {}
ParamsHeapless::Store(_) => {}
},
Params::Vec(_) => {}
Params::String(_) => {}
}
}
let res = pus_event_man.generate_pus_event_tm_generic(
&mut sender, &mut sender,
&EMPTY_STAMP, &EMPTY_STAMP,
event, event,
None, aux_data,
); )
};
let res = if let Some(aux_data) = aux_data {
match aux_data {
Params::Heapless(heapless) => match heapless {
ParamsHeapless::Raw(raw) => {
raw.write_to_be_bytes(&mut params_array)
.expect("Writing raw parameter failed");
gen_event(Some(&params_array[0..raw.raw_len()]))
}
ParamsHeapless::EcssEnum(e) => {
e.write_to_be_bytes(&mut params_array)
.expect("Writing ECSS enum failed");
gen_event(Some(&params_array[0..e.raw_len()]))
}
ParamsHeapless::Store(_) => gen_event(None),
},
Params::Vec(vec) => gen_event(Some(vec.as_slice())),
Params::String(str) => gen_event(Some(str.as_bytes())),
}
} else {
gen_event(None)
};
event_cnt += 1; event_cnt += 1;
assert!(res.is_ok()); assert!(res.is_ok());
assert!(res.unwrap()); assert!(res.unwrap());
@ -116,8 +104,18 @@ fn test_threaded_usage() {
loop { loop {
match event_rx.try_recv() { match event_rx.try_recv() {
// Event TM received successfully // Event TM received successfully
Ok(event) => { Ok(event_tm) => {
println!("{:x?}", event); let tm =
PusTm::from_bytes(event_tm.as_slice(), 7).expect("Deserializing TM failed");
assert_eq!(tm.0.service(), 5);
assert_eq!(tm.0.subservice(), 1);
let src_data = tm.0.source_data();
assert!(src_data.is_some());
let src_data = src_data.unwrap();
assert_eq!(src_data.len(), 4);
let event =
EventU32::from(u32::from_be_bytes(src_data[0..4].try_into().unwrap()));
assert_eq!(event, INFO_EVENT);
break; break;
} }
Err(e) => { Err(e) => {
@ -136,8 +134,22 @@ fn test_threaded_usage() {
loop { loop {
match event_rx.try_recv() { match event_rx.try_recv() {
// Event TM received successfully // Event TM received successfully
Ok(event) => { Ok(event_tm) => {
println!("{:x?}", event); let tm =
PusTm::from_bytes(event_tm.as_slice(), 7).expect("Deserializing TM failed");
assert_eq!(tm.0.service(), 5);
assert_eq!(tm.0.subservice(), 2);
let src_data = tm.0.source_data();
assert!(src_data.is_some());
let src_data = src_data.unwrap();
assert_eq!(src_data.len(), 12);
let event =
EventU32::from(u32::from_be_bytes(src_data[0..4].try_into().unwrap()));
assert_eq!(event, LOW_SEV_EVENT);
let u32_pair: U32Pair =
src_data[4..].try_into().expect("Creating U32Pair failed");
assert_eq!(u32_pair.0, 2);
assert_eq!(u32_pair.1, 3);
break; break;
} }
Err(e) => { Err(e) => {

@ -1 +1 @@
Subproject commit 38b789ca6d061239e6cecc76f0843d6ba8b9bd01 Subproject commit 4c1101f65f20419606932c4ee40fb2768e8cc736