sat-rs/satrs/tests/hk_helpers.rs

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#![allow(dead_code)]
use core::mem::size_of;
use serde::{Deserialize, Serialize};
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use spacepackets::ecss::{PfcReal, PfcUnsigned, Ptc};
use spacepackets::time::cds::CdsTime;
use spacepackets::time::{CcsdsTimeProvider, TimeWriter};
enum NumOfParamsInfo {
/// The parameter entry is a scalar field
Scalar = 0b00,
/// The parameter entry is a vector, and its length field is one byte wide (max. 255 entries)
VecLenFieldOneByte = 0b01,
/// The parameter entry is a vecotr, and its length field is two bytes wide (max. 65565 entries)
VecLenFieldTwoBytes = 0b10,
/// The parameter entry is a matrix, and its length field contains a one byte row number
/// and a one byte column number.
MatrixRowsAndColumns = 0b11,
}
const HAS_VALIDITY_MASK: u8 = 1 << 7;
struct ParamWithValidity<T> {
valid: bool,
val: T,
}
struct TestMgmHk {
temp: f32,
mgm_vals: [u16; 3],
}
struct TestMgmHkWithIndividualValidity {
temp: ParamWithValidity<f32>,
mgm_vals: ParamWithValidity<[u16; 3]>,
}
#[derive(Serialize, Deserialize)]
struct TestMgmHkWithGroupValidity {
last_valid_stamp: CdsTime,
valid: bool,
temp: f32,
mgm_vals: [u16; 3],
}
impl TestMgmHk {
pub fn write_to_be_bytes(&self, buf: &mut [u8]) -> Result<usize, ()> {
let mut curr_idx = 0;
buf[curr_idx..curr_idx + size_of::<f32>()].copy_from_slice(&self.temp.to_be_bytes());
curr_idx += size_of::<f32>();
for val in self.mgm_vals {
buf[curr_idx..curr_idx + size_of::<u16>()].copy_from_slice(&val.to_be_bytes());
curr_idx += size_of::<u16>();
}
Ok(curr_idx)
}
}
/// This could in principle be auto-generated.
impl TestMgmHkWithIndividualValidity {
pub fn write_to_be_bytes_self_describing(&self, buf: &mut [u8]) -> Result<usize, ()> {
let mut curr_idx = 0;
buf[curr_idx] = 0;
buf[curr_idx] |= HAS_VALIDITY_MASK | (self.temp.valid as u8) << 6;
curr_idx += 1;
buf[curr_idx] = Ptc::Real as u8;
curr_idx += 1;
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buf[curr_idx] = PfcReal::Float as u8;
curr_idx += 1;
buf[curr_idx..curr_idx + size_of::<f32>()].copy_from_slice(&self.temp.val.to_be_bytes());
curr_idx += size_of::<f32>();
buf[curr_idx] = 0;
buf[curr_idx] |= HAS_VALIDITY_MASK
| (self.mgm_vals.valid as u8) << 6
| (NumOfParamsInfo::VecLenFieldOneByte as u8) << 4;
curr_idx += 1;
buf[curr_idx] = Ptc::UnsignedInt as u8;
curr_idx += 1;
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buf[curr_idx] = PfcUnsigned::TwoBytes as u8;
curr_idx += 1;
buf[curr_idx] = 3;
curr_idx += 1;
for val in self.mgm_vals.val {
buf[curr_idx..curr_idx + size_of::<u16>()].copy_from_slice(&val.to_be_bytes());
curr_idx += size_of::<u16>();
}
Ok(curr_idx)
}
}
impl TestMgmHkWithGroupValidity {
pub fn write_to_be_bytes_self_describing(&self, buf: &mut [u8]) -> Result<usize, ()> {
let mut curr_idx = 0;
buf[curr_idx] = self.valid as u8;
curr_idx += 1;
self.last_valid_stamp
.write_to_bytes(&mut buf[curr_idx..curr_idx + self.last_valid_stamp.len_as_bytes()])
.unwrap();
curr_idx += self.last_valid_stamp.len_as_bytes();
buf[curr_idx] = 0;
curr_idx += 1;
buf[curr_idx] = Ptc::Real as u8;
curr_idx += 1;
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buf[curr_idx] = PfcReal::Float as u8;
curr_idx += 1;
buf[curr_idx..curr_idx + size_of::<f32>()].copy_from_slice(&self.temp.to_be_bytes());
curr_idx += size_of::<f32>();
buf[curr_idx] = 0;
buf[curr_idx] |= (NumOfParamsInfo::VecLenFieldOneByte as u8) << 4;
curr_idx += 1;
buf[curr_idx] = Ptc::UnsignedInt as u8;
curr_idx += 1;
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buf[curr_idx] = PfcUnsigned::TwoBytes as u8;
curr_idx += 1;
buf[curr_idx] = 3;
for val in self.mgm_vals {
buf[curr_idx..curr_idx + size_of::<u16>()].copy_from_slice(&val.to_be_bytes());
curr_idx += size_of::<u16>();
}
Ok(curr_idx)
}
}
#[test]
pub fn main() {
let mut raw_buf: [u8; 32] = [0; 32];
let mgm_hk = TestMgmHk {
temp: 20.0,
mgm_vals: [0x1f1f, 0x2f2f, 0x3f3f],
};
// 4 byte float + 3 * 2 bytes MGM values
let written = mgm_hk.write_to_be_bytes(&mut raw_buf).unwrap();
assert_eq!(written, 10);
let mgm_hk_individual_validity = TestMgmHkWithIndividualValidity {
temp: ParamWithValidity {
valid: true,
val: 20.0,
},
mgm_vals: ParamWithValidity {
valid: true,
val: [0x1f1f, 0x2f2f, 0x3f3f],
},
};
let written = mgm_hk_individual_validity
.write_to_be_bytes_self_describing(&mut raw_buf)
.unwrap();
// 3 byte float description, 4 byte float, 4 byte MGM val description, 3 * 2 bytes MGM values
assert_eq!(written, 17);
// The easiest and probably best approach, trading off big advantages for TM downlink capacity:
// Use a JSON format
let mgm_hk_group_validity = TestMgmHkWithGroupValidity {
last_valid_stamp: CdsTime::now_with_u16_days().unwrap(),
valid: false,
temp: 20.0,
mgm_vals: [0x1f1f, 0x2f2f, 0x3f3f],
};
let mgm_as_json_str = serde_json::to_string(&mgm_hk_group_validity).unwrap();
println!(
"JSON string with length {}: {}",
mgm_as_json_str.len(),
mgm_as_json_str
);
}