2022-07-31 13:31:14 +02:00
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//! Common definitions and helpers required to create PUS TMTC packets according to
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//! [ECSS-E-ST-70-41C](https://ecss.nl/standard/ecss-e-st-70-41c-space-engineering-telemetry-and-telecommand-packet-utilization-15-april-2016/)
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2022-09-03 18:47:59 +02:00
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use crate::{ByteConversionError, CcsdsPacket, SizeMissmatch};
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2022-06-18 22:48:51 +02:00
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use core::mem::size_of;
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use crc::{Crc, CRC_16_IBM_3740};
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use serde::{Deserialize, Serialize};
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2022-07-31 02:27:27 +02:00
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pub type CrcType = u16;
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2022-07-31 13:32:11 +02:00
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/// CRC algorithm used by the PUS standard.
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2022-06-18 22:48:51 +02:00
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pub const CRC_CCITT_FALSE: Crc<u16> = Crc::<u16>::new(&CRC_16_IBM_3740);
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pub const CCSDS_HEADER_LEN: usize = size_of::<crate::zc::SpHeader>();
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2022-07-31 13:32:11 +02:00
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/// All PUS versions. Only PUS C is supported by this library.
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2022-08-16 11:12:47 +02:00
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#[derive(PartialEq, Eq, Copy, Clone, Serialize, Deserialize, Debug)]
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2022-06-18 22:48:51 +02:00
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pub enum PusVersion {
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EsaPus = 0,
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PusA = 1,
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PusC = 2,
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2022-07-31 02:27:27 +02:00
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Invalid = 0b1111,
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}
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impl TryFrom<u8> for PusVersion {
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type Error = ();
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fn try_from(value: u8) -> Result<Self, Self::Error> {
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match value {
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x if x == PusVersion::EsaPus as u8 => Ok(PusVersion::EsaPus),
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x if x == PusVersion::PusA as u8 => Ok(PusVersion::PusA),
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x if x == PusVersion::PusC as u8 => Ok(PusVersion::PusC),
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_ => Err(()),
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}
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}
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2022-06-18 22:48:51 +02:00
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}
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2022-08-16 11:12:47 +02:00
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#[derive(Debug, Copy, Clone, PartialEq, Eq)]
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2022-06-18 22:48:51 +02:00
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pub enum PusError {
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VersionNotSupported(PusVersion),
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IncorrectCrc(u16),
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RawDataTooShort(usize),
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NoRawData,
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/// CRC16 needs to be calculated first
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CrcCalculationMissing,
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2022-09-03 18:47:59 +02:00
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PacketError(ByteConversionError),
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2022-06-18 22:48:51 +02:00
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}
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pub trait PusPacket: CcsdsPacket {
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const PUS_VERSION: PusVersion = PusVersion::PusC;
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2022-07-31 02:27:27 +02:00
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fn pus_version(&self) -> PusVersion;
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2022-06-18 22:48:51 +02:00
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fn service(&self) -> u8;
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fn subservice(&self) -> u8;
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fn user_data(&self) -> Option<&[u8]>;
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fn crc16(&self) -> Option<u16>;
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}
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2022-07-31 02:27:27 +02:00
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2022-07-31 13:31:14 +02:00
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pub(crate) fn crc_from_raw_data(raw_data: &[u8]) -> Result<u16, PusError> {
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if raw_data.len() < 2 {
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return Err(PusError::RawDataTooShort(raw_data.len()));
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2022-07-31 02:27:27 +02:00
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}
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2022-07-31 13:31:14 +02:00
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Ok(u16::from_be_bytes(
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raw_data[raw_data.len() - 2..raw_data.len()]
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.try_into()
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.unwrap(),
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))
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2022-07-31 02:27:27 +02:00
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}
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pub(crate) fn calc_pus_crc16(bytes: &[u8]) -> u16 {
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let mut digest = CRC_CCITT_FALSE.digest();
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digest.update(bytes);
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digest.finalize()
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}
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pub(crate) fn crc_procedure(
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calc_on_serialization: bool,
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cached_crc16: &Option<u16>,
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2022-08-01 01:08:06 +02:00
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start_idx: usize,
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2022-07-31 02:27:27 +02:00
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curr_idx: usize,
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slice: &[u8],
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) -> Result<u16, PusError> {
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let crc16;
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if calc_on_serialization {
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2022-08-01 01:08:06 +02:00
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crc16 = calc_pus_crc16(&slice[start_idx..curr_idx])
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2022-07-31 02:27:27 +02:00
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} else if cached_crc16.is_none() {
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return Err(PusError::CrcCalculationMissing);
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} else {
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crc16 = cached_crc16.unwrap();
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}
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Ok(crc16)
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}
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2022-07-31 13:31:14 +02:00
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pub(crate) fn user_data_from_raw(
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current_idx: usize,
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total_len: usize,
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raw_data_len: usize,
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slice: &[u8],
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) -> Result<Option<&[u8]>, PusError> {
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match current_idx {
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_ if current_idx == total_len - 2 => Ok(None),
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_ if current_idx > total_len - 2 => Err(PusError::RawDataTooShort(raw_data_len)),
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_ => Ok(Some(&slice[current_idx..total_len - 2])),
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}
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}
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pub(crate) fn verify_crc16_from_raw(raw_data: &[u8], crc16: u16) -> Result<(), PusError> {
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let mut digest = CRC_CCITT_FALSE.digest();
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digest.update(raw_data);
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if digest.finalize() == 0 {
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return Ok(());
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}
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Err(PusError::IncorrectCrc(crc16))
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}
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macro_rules! ccsds_impl {
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() => {
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delegate!(to self.sp_header {
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fn ccsds_version(&self) -> u8;
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fn packet_id(&self) -> crate::PacketId;
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fn psc(&self) -> crate::PacketSequenceCtrl;
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fn data_len(&self) -> u16;
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});
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}
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}
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2022-07-31 14:24:16 +02:00
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macro_rules! sp_header_impls {
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() => {
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delegate!(to self.sp_header {
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pub fn set_apid(&mut self, apid: u16) -> bool;
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pub fn set_seq_count(&mut self, seq_count: u16) -> bool;
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pub fn set_seq_flags(&mut self, seq_flag: SequenceFlags);
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});
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}
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}
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2022-07-31 13:31:14 +02:00
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pub(crate) use ccsds_impl;
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2022-07-31 14:24:16 +02:00
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pub(crate) use sp_header_impls;
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2022-09-03 18:47:59 +02:00
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pub trait EcssEnumeration {
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fn pfc(&self) -> u8;
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fn byte_width(&self) -> u8 {
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self.pfc() / 8
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}
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fn to_bytes(&self, buf: &mut [u8]) -> Result<(), ByteConversionError>;
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}
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trait ToBeBytes {
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type ByteArray: AsRef<[u8]>;
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fn to_be_bytes(&self) -> Self::ByteArray;
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}
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impl ToBeBytes for u8 {
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type ByteArray = [u8; 1];
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fn to_be_bytes(&self) -> Self::ByteArray {
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u8::to_be_bytes(*self)
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}
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}
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impl ToBeBytes for u16 {
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type ByteArray = [u8; 2];
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fn to_be_bytes(&self) -> Self::ByteArray {
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u16::to_be_bytes(*self)
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}
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}
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impl ToBeBytes for u32 {
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type ByteArray = [u8; 4];
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fn to_be_bytes(&self) -> Self::ByteArray {
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u32::to_be_bytes(*self)
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}
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}
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impl ToBeBytes for u64 {
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type ByteArray = [u8; 8];
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fn to_be_bytes(&self) -> Self::ByteArray {
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u64::to_be_bytes(*self)
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}
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}
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pub struct GenericEcssEnumWrapper<TYPE> {
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val: TYPE,
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}
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impl<TYPE> GenericEcssEnumWrapper<TYPE> {
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pub fn new(val: TYPE) -> Self {
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Self { val }
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}
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}
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impl<TYPE: ToBeBytes> EcssEnumeration for GenericEcssEnumWrapper<TYPE> {
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fn pfc(&self) -> u8 {
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size_of::<TYPE>() as u8 * 8_u8
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}
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fn to_bytes(&self, buf: &mut [u8]) -> Result<(), ByteConversionError> {
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if buf.len() < self.byte_width() as usize {
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return Err(ByteConversionError::ToSliceTooSmall(SizeMissmatch {
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found: buf.len(),
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expected: self.byte_width() as usize,
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}));
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}
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buf[0..self.byte_width() as usize].copy_from_slice(self.val.to_be_bytes().as_ref());
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Ok(())
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}
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}
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pub type EcssEnumU8 = GenericEcssEnumWrapper<u8>;
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pub type EcssEnumU16 = GenericEcssEnumWrapper<u16>;
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pub type EcssEnumU32 = GenericEcssEnumWrapper<u32>;
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pub type EcssEnumU64 = GenericEcssEnumWrapper<u64>;
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#[cfg(test)]
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mod tests {
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use crate::ecss::{EcssEnumU16, EcssEnumU32, EcssEnumU8, EcssEnumeration};
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use crate::ByteConversionError;
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#[test]
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fn test_enum_u8() {
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let mut buf = [0, 0, 0];
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let my_enum = EcssEnumU8::new(1);
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my_enum
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.to_bytes(&mut buf[1..2])
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.expect("To byte conversion of u8 failed");
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assert_eq!(buf[1], 1);
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}
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#[test]
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fn test_enum_u16() {
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let mut buf = [0, 0, 0];
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let my_enum = EcssEnumU16::new(0x1f2f);
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my_enum
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.to_bytes(&mut buf[1..3])
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.expect("To byte conversion of u8 failed");
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assert_eq!(buf[1], 0x1f);
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assert_eq!(buf[2], 0x2f);
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}
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#[test]
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fn test_slice_u16_too_small() {
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let mut buf = [0];
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let my_enum = EcssEnumU16::new(0x1f2f);
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let res = my_enum.to_bytes(&mut buf[0..1]);
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assert!(res.is_err());
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let error = res.unwrap_err();
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match error {
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ByteConversionError::ToSliceTooSmall(missmatch) => {
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assert_eq!(missmatch.expected, 2);
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assert_eq!(missmatch.found, 1);
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}
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_ => {
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panic!("Unexpected error {:?}", error);
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}
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}
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}
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#[test]
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fn test_enum_u32() {
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let mut buf = [0, 0, 0, 0, 0];
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let my_enum = EcssEnumU32::new(0x1f2f3f4f);
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my_enum
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.to_bytes(&mut buf[1..5])
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.expect("To byte conversion of u8 failed");
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assert_eq!(buf[1], 0x1f);
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assert_eq!(buf[2], 0x2f);
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assert_eq!(buf[3], 0x3f);
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assert_eq!(buf[4], 0x4f);
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}
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#[test]
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fn test_slice_u32_too_small() {
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let mut buf = [0, 0, 0, 0, 0];
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let my_enum = EcssEnumU32::new(0x1f2f3f4f);
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let res = my_enum.to_bytes(&mut buf[0..3]);
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assert!(res.is_err());
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let error = res.unwrap_err();
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match error {
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ByteConversionError::ToSliceTooSmall(missmatch) => {
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assert_eq!(missmatch.expected, 4);
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assert_eq!(missmatch.found, 3);
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}
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_ => {
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panic!("Unexpected error {:?}", error);
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}
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}
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}
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}
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