//! This module contains all components required to create a ECSS PUS C telemetry packets according //! to [ECSS-E-ST-70-41C](https://ecss.nl/standard/ecss-e-st-70-41c-space-engineering-telemetry-and-telecommand-packet-utilization-15-april-2016/). use crate::ecss::{ ccsds_impl, crc_from_raw_data, crc_procedure, user_data_from_raw, verify_crc16_from_raw, CrcType, PusError, PusPacket, PusVersion, CRC_CCITT_FALSE, }; use crate::{CcsdsPacket, PacketError, PacketType, SizeMissmatch, SpHeader, CCSDS_HEADER_LEN}; use core::mem::size_of; use serde::{Deserialize, Serialize}; use zerocopy::AsBytes; #[cfg(feature = "alloc")] use alloc::vec::Vec; use delegate::delegate; /// Length without timestamp pub const PUC_TM_MIN_SEC_HEADER_LEN: usize = 7; pub const PUS_TM_MIN_LEN_WITHOUT_SOURCE_DATA: usize = CCSDS_HEADER_LEN + PUC_TM_MIN_SEC_HEADER_LEN + size_of::(); pub trait PusTmSecondaryHeaderT { fn pus_version(&self) -> PusVersion; fn sc_time_ref_status(&self) -> u8; fn service(&self) -> u8; fn subservice(&self) -> u8; fn msg_counter(&self) -> u16; fn dest_id(&self) -> u16; } pub mod zc { use crate::ecss::{PusError, PusVersion}; use zerocopy::{AsBytes, FromBytes, NetworkEndian, Unaligned, U16}; #[derive(FromBytes, AsBytes, Unaligned)] #[repr(C)] pub struct PusTmSecHeaderWithoutTimestamp { pus_version_and_sc_time_ref_status: u8, service: u8, subservice: u8, msg_counter: U16, dest_id: U16, } pub struct PusTmSecHeader<'slice> { pub(crate) zc_header: PusTmSecHeaderWithoutTimestamp, pub(crate) timestamp: &'slice [u8], } impl TryFrom> for PusTmSecHeaderWithoutTimestamp { type Error = PusError; fn try_from(header: crate::tm::PusTmSecondaryHeader) -> Result { if header.pus_version != PusVersion::PusC { return Err(PusError::VersionNotSupported(header.pus_version)); } Ok(PusTmSecHeaderWithoutTimestamp { pus_version_and_sc_time_ref_status: ((header.pus_version as u8) << 4) | header.sc_time_ref_status, service: header.service, subservice: header.subservice, msg_counter: U16::from(header.msg_counter), dest_id: U16::from(header.dest_id), }) } } impl PusTmSecHeaderWithoutTimestamp { pub fn to_bytes(&self, slice: &mut [u8]) -> Option<()> { self.write_to(slice) } pub fn from_bytes(slice: &[u8]) -> Option { Self::read_from(slice) } } impl super::PusTmSecondaryHeaderT for PusTmSecHeaderWithoutTimestamp { fn pus_version(&self) -> PusVersion { PusVersion::try_from(self.pus_version_and_sc_time_ref_status >> 4 & 0b1111) .unwrap_or(PusVersion::Invalid) } fn sc_time_ref_status(&self) -> u8 { self.pus_version_and_sc_time_ref_status & 0b1111 } fn service(&self) -> u8 { self.service } fn subservice(&self) -> u8 { self.subservice } fn msg_counter(&self) -> u16 { self.msg_counter.get() } fn dest_id(&self) -> u16 { self.dest_id.get() } } } #[derive(PartialEq, Serialize, Deserialize, Copy, Clone, Debug)] pub struct PusTmSecondaryHeader<'slice> { pus_version: PusVersion, pub sc_time_ref_status: u8, pub service: u8, pub subservice: u8, pub msg_counter: u16, pub dest_id: u16, pub time_stamp: &'slice [u8], } impl<'slice> PusTmSecondaryHeader<'slice> { pub fn new_simple(service: u8, subservice: u8, time_stamp: &'slice [u8]) -> Self { PusTmSecondaryHeader { pus_version: PusVersion::PusC, sc_time_ref_status: 0, service, subservice, msg_counter: 0, dest_id: 0, time_stamp, } } pub fn new( service: u8, subservice: u8, msg_counter: u16, dest_id: u16, time_stamp: &'slice [u8], ) -> Self { PusTmSecondaryHeader { pus_version: PusVersion::PusC, sc_time_ref_status: 0, service, subservice, msg_counter, dest_id, time_stamp, } } } impl PusTmSecondaryHeaderT for PusTmSecondaryHeader<'_> { fn pus_version(&self) -> PusVersion { self.pus_version } fn sc_time_ref_status(&self) -> u8 { self.sc_time_ref_status } fn service(&self) -> u8 { self.service } fn subservice(&self) -> u8 { self.subservice } fn msg_counter(&self) -> u16 { self.msg_counter } fn dest_id(&self) -> u16 { self.dest_id } } impl<'slice> TryFrom> for PusTmSecondaryHeader<'slice> { type Error = (); fn try_from(sec_header: zc::PusTmSecHeader<'slice>) -> Result { Ok(PusTmSecondaryHeader { pus_version: sec_header.zc_header.pus_version(), sc_time_ref_status: sec_header.zc_header.sc_time_ref_status(), service: sec_header.zc_header.service(), subservice: sec_header.zc_header.subservice(), msg_counter: sec_header.zc_header.msg_counter(), dest_id: sec_header.zc_header.dest_id(), time_stamp: sec_header.timestamp, }) } } /// This class models a PUS telemetry and which can also be used. It is the primary data /// structure to generate the raw byte representation of PUS telemetry or to /// deserialize from one from raw bytes. /// /// This class also derives the [serde::Serialize] and [serde::Deserialize] trait which allows /// to send around TM packets in a raw byte format using a serde provider like /// [postcard](https://docs.rs/postcard/latest/postcard/). /// /// There is no spare bytes support yet. #[derive(PartialEq, Serialize, Deserialize, Debug, Copy, Clone)] pub struct PusTm<'slice> { pub sp_header: SpHeader, pub sec_header: PusTmSecondaryHeader<'slice>, /// If this is set to false, a manual call to [PusTm::calc_own_crc16] or /// [PusTm::update_packet_fields] is necessary for the serialized or cached CRC16 to be valid. pub calc_crc_on_serialization: bool, #[serde(skip)] raw_data: Option<&'slice [u8]>, source_data: Option<&'slice [u8]>, crc16: Option, } impl<'slice> PusTm<'slice> { /// Generates a new struct instance. /// /// # Arguments /// /// * `sp_header` - Space packet header information. The correct packet type will be set /// automatically /// * `sec_header` - Information contained in the secondary header, including the service /// and subservice type /// * `app_data` - Custom application data /// * `set_ccsds_len` - Can be used to automatically update the CCSDS space packet data length /// field. If this is not set to true, [PusTm::update_ccsds_data_len] can be called to set /// the correct value to this field manually pub fn new( sp_header: &mut SpHeader, sec_header: PusTmSecondaryHeader<'slice>, source_data: Option<&'slice [u8]>, set_ccsds_len: bool, ) -> Self { sp_header.set_packet_type(PacketType::Tm); sp_header.set_sec_header_flag(); let mut pus_tm = PusTm { sp_header: *sp_header, raw_data: None, source_data, sec_header, calc_crc_on_serialization: true, crc16: None, }; if set_ccsds_len { pus_tm.update_ccsds_data_len(); } pus_tm } pub fn len_packed(&self) -> usize { let mut length = PUS_TM_MIN_LEN_WITHOUT_SOURCE_DATA; length += self.sec_header.time_stamp.len(); if let Some(src_data) = self.source_data { length += src_data.len(); } length } /// This is called automatically if the `set_ccsds_len` argument in the [PusTm::new] call was /// used. /// If this was not done or the time stamp or source data is set or changed after construction, /// this function needs to be called to ensure that the data length field of the CCSDS header /// is set correctly pub fn update_ccsds_data_len(&mut self) { self.sp_header.data_len = self.len_packed() as u16 - size_of::() as u16 - 1; } /// This function should be called before the TM packet is serialized if /// [PusTm.calc_crc_on_serialization] is set to False. It will calculate and cache the CRC16. pub fn calc_own_crc16(&mut self) { let mut digest = CRC_CCITT_FALSE.digest(); let sph_zc = crate::zc::SpHeader::from(self.sp_header); digest.update(sph_zc.as_bytes()); let pus_tc_header = zc::PusTmSecHeaderWithoutTimestamp::try_from(self.sec_header).unwrap(); digest.update(pus_tc_header.as_bytes()); digest.update(self.sec_header.time_stamp); if let Some(src_data) = self.source_data { digest.update(src_data); } self.crc16 = Some(digest.finalize()) } /// This helper function calls both [PusTm.update_ccsds_data_len] and [PusTm.calc_own_crc16] pub fn update_packet_fields(&mut self) { self.update_ccsds_data_len(); self.calc_own_crc16(); } /// Write the raw PUS byte representation to a provided buffer. pub fn write_to(&self, slice: &mut [u8]) -> Result { let mut curr_idx = 0; let sph_zc = crate::zc::SpHeader::from(self.sp_header); let total_size = self.len_packed(); if total_size > slice.len() { return Err(PusError::OtherPacketError( PacketError::ToBytesSliceTooSmall(SizeMissmatch { found: slice.len(), expected: total_size, }), )); } sph_zc .to_bytes(&mut slice[curr_idx..curr_idx + 6]) .ok_or(PusError::OtherPacketError( PacketError::ToBytesZeroCopyError, ))?; curr_idx += CCSDS_HEADER_LEN; let sec_header_len = size_of::(); let sec_header = zc::PusTmSecHeaderWithoutTimestamp::try_from(self.sec_header).unwrap(); sec_header .to_bytes(&mut slice[curr_idx..curr_idx + sec_header_len]) .ok_or(PusError::OtherPacketError( PacketError::ToBytesZeroCopyError, ))?; curr_idx += sec_header_len; slice[curr_idx..].copy_from_slice(self.sec_header.time_stamp); curr_idx += self.sec_header.time_stamp.len(); if let Some(src_data) = self.source_data { slice[curr_idx..curr_idx + src_data.len()].copy_from_slice(src_data); curr_idx += src_data.len(); } let crc16 = crc_procedure(self.calc_crc_on_serialization, &self.crc16, curr_idx, slice)?; slice[curr_idx..curr_idx + 2].copy_from_slice(crc16.to_be_bytes().as_slice()); curr_idx += 2; Ok(curr_idx) } /// Append the raw PUS byte representation to a provided [alloc::vec::Vec] #[cfg(feature = "alloc")] pub fn append_to_vec(&self, vec: &mut Vec) -> Result { let sph_zc = crate::zc::SpHeader::from(self.sp_header); let mut appended_len = PUS_TM_MIN_LEN_WITHOUT_SOURCE_DATA + self.sec_header.time_stamp.len(); if let Some(src_data) = self.source_data { appended_len += src_data.len(); }; let start_idx = vec.len(); let mut curr_idx = vec.len(); vec.extend_from_slice(sph_zc.as_bytes()); curr_idx += sph_zc.as_bytes().len(); // The PUS version is hardcoded to PUS C let sec_header = zc::PusTmSecHeaderWithoutTimestamp::try_from(self.sec_header).unwrap(); vec.extend_from_slice(sec_header.as_bytes()); curr_idx += sec_header.as_bytes().len(); vec.extend_from_slice(self.sec_header.time_stamp); curr_idx += self.sec_header.time_stamp.len(); if let Some(src_data) = self.source_data { vec.extend_from_slice(src_data); curr_idx += src_data.len(); } let crc16 = crc_procedure( self.calc_crc_on_serialization, &self.crc16, curr_idx, &vec[start_idx..curr_idx], )?; vec.extend_from_slice(crc16.to_be_bytes().as_slice()); Ok(appended_len) } /// Create a [PusTm] instance from a raw slice. On success, it returns a tuple containing /// the instance and the found byte length of the packet. The timestamp length needs to be /// known beforehand. pub fn new_from_raw_slice( slice: &'slice [u8], timestamp_len: usize, ) -> Result<(Self, usize), PusError> { let raw_data_len = slice.len(); if raw_data_len < PUS_TM_MIN_LEN_WITHOUT_SOURCE_DATA { return Err(PusError::RawDataTooShort(raw_data_len)); } let mut current_idx = 0; let sph = crate::zc::SpHeader::from_bytes(&slice[current_idx..current_idx + 6]).ok_or( PusError::OtherPacketError(PacketError::FromBytesZeroCopyError), )?; current_idx += 6; let total_len = sph.total_len(); if raw_data_len < total_len || total_len < PUS_TM_MIN_LEN_WITHOUT_SOURCE_DATA { return Err(PusError::RawDataTooShort(raw_data_len)); } let sec_header_zc = zc::PusTmSecHeaderWithoutTimestamp::from_bytes( &slice[current_idx..current_idx + PUC_TM_MIN_SEC_HEADER_LEN], ) .ok_or(PusError::OtherPacketError( PacketError::FromBytesZeroCopyError, ))?; current_idx += PUC_TM_MIN_SEC_HEADER_LEN; let zc_sec_header_wrapper = zc::PusTmSecHeader { zc_header: sec_header_zc, timestamp: &slice[current_idx..current_idx + timestamp_len], }; current_idx += timestamp_len; let raw_data = &slice[0..total_len]; let pus_tm = PusTm { sp_header: SpHeader::from(sph), sec_header: PusTmSecondaryHeader::try_from(zc_sec_header_wrapper).unwrap(), raw_data: Some(&slice[0..total_len]), source_data: user_data_from_raw(current_idx, total_len, raw_data_len, slice)?, calc_crc_on_serialization: false, crc16: Some(crc_from_raw_data(raw_data)?), }; verify_crc16_from_raw(raw_data, pus_tm.crc16.expect("CRC16 invalid"))?; Ok((pus_tm, total_len)) } } //noinspection RsTraitImplementation impl CcsdsPacket for PusTm<'_> { ccsds_impl!(); } //noinspection RsTraitImplementation impl PusPacket for PusTm<'_> { delegate!(to self.sec_header { fn pus_version(&self) -> PusVersion; fn service(&self) -> u8; fn subservice(&self) -> u8; }); fn user_data(&self) -> Option<&[u8]> { self.source_data } fn crc16(&self) -> Option { self.crc16 } } #[cfg(test)] mod tests {}