Merge remote-tracking branch 'origin/main' into ecss_tm_timestamp_updates
This commit is contained in:
commit
50edd8b3b4
53
CHANGELOG.md
53
CHANGELOG.md
@ -8,14 +8,55 @@ and this project adheres to [Semantic Versioning](http://semver.org/).
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# [unreleased]
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# [unreleased]
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## Changed
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- `PusTm` and `PusTmSecondaryHeader`: Timestamp is optional now, which translates to a timestamp of size 0.
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- (breaking): `PusTmSecondaryHeader`: Renamed `time_stamp` field to `timestamp` for consistency.
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## Added
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## Added
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- `PusTmSecondaryHeader`: New `new_simple_no_timestamp` API to create secondary header without timestamp.
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- `PusTmSecondaryHeader`: New `new_simple_no_timestamp` API to create secondary header without
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timestamp.
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- New `UnixTimestamp` abstraction which contains the unix seconds as an `i64`
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and an optional subsecond millisecond counter (`u16`)
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- `MS_PER_DAY` constant.
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### CDS time module
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- Implement `Add<Duration>` and `AddAssign<Duration>` for time providers, which allows
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easily adding offsets to the providers.
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- Implement `TryFrom<DateTime<Utc>>` for time providers.
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- `get_dyn_time_provider_from_bytes`: Requires `alloc` support and returns
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the correct `TimeProvider` instance wrapped as a boxed trait object
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`Box<DynCdsTimeProvider>` by checking the length of days field.
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- Added constructor function to create the time provider
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from `chrono::DateTime<Utc>` and a generic UNIX timestamp (`i64` seconds
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and subsecond milliseconds).
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- `MAX_DAYS_24_BITS` which contains maximum value which can be supplied
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to the days field of a CDS time provider with 24 bits days field width.
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- New `CdsTimestamp` trait which encapsulates common fields for all CDS time providers.
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- `from_unix_secs_with_u24_days` and `from_unix_secs_with_u16_days` which create
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the time provider from a `UnixTimestamp` reference.
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- `from_dt_with_u16_days`, `from_dt_with_u24_days` and their `..._us_precision` and
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`..._ps_precision` variants which allow to create time providers from
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a `chrono::DateTime<Utc>`.
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- Add `from_bytes_with_u24_days` and `from_bytes_with_u16_days` associated methods
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## Changed
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- (breaking) `PusTmSecondaryHeader`: Timestamp is optional now, which translates to a
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timestamp of size 0.
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- (breaking): `PusTm`: Renamed `time_stamp` method to `timestamp`, also returns
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`Optional<&'src_data [u8]>` now.
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- (breaking): `PusTmSecondaryHeader`: Renamed `time_stamp` field to `timestamp` for consistency.
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- (breaking): Renamed `from_now_with_u24_days_and_us_prec` to `from_now_with_u24_days_us_precision`.
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Also did the same for the `u16` variant.
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- (breaking): Renamed `from_now_with_u24_days_and_ps_prec` to `from_now_with_u24_days_ps_precision`.
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Also did the same for the `u16` variant.
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- `CcsdsTimeProvider` trait (breaking):
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- Add new `unix_stamp` method returning the new `UnixTimeStamp` struct.
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- Add new `subsecond_millis` method returning counter `Option<u16>`.
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- Default impl for `unix_stamp` which re-uses `subsecond_millis` and
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existing `unix_seconds` method.
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- `TimestampError` (breaking): Add `DateBeforeCcsdsEpoch` error type
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because new CDS API allow supplying invalid date times before CCSDS epoch.
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Make `TimestampError` with `#[non_exhaustive]` attribute to prevent
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future breakages if new error variants are added.
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# [v0.4.2] 14.01.2023
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# [v0.4.2] 14.01.2023
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1261
src/time/cds.rs
1261
src/time/cds.rs
File diff suppressed because it is too large
Load Diff
@ -42,12 +42,14 @@ impl TryFrom<u8> for FractionalResolution {
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/// Please note that this function will panic if the fractional value is not smaller than
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/// Please note that this function will panic if the fractional value is not smaller than
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/// the maximum number of fractions allowed for the particular resolution.
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/// the maximum number of fractions allowed for the particular resolution.
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/// (e.g. passing 270 when the resolution only allows 255 values).
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/// (e.g. passing 270 when the resolution only allows 255 values).
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#[inline]
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pub fn convert_fractional_part_to_ns(fractional_part: FractionalPart) -> u64 {
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pub fn convert_fractional_part_to_ns(fractional_part: FractionalPart) -> u64 {
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let div = fractional_res_to_div(fractional_part.0);
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let div = fractional_res_to_div(fractional_part.0);
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assert!(fractional_part.1 < div);
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assert!(fractional_part.1 < div);
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10_u64.pow(9) * fractional_part.1 as u64 / div as u64
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10_u64.pow(9) * fractional_part.1 as u64 / div as u64
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}
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}
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#[inline(always)]
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pub const fn fractional_res_to_div(res: FractionalResolution) -> u32 {
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pub const fn fractional_res_to_div(res: FractionalResolution) -> u32 {
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2_u32.pow(8 * res as u32) - 1
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2_u32.pow(8 * res as u32) - 1
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}
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}
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@ -351,6 +353,11 @@ impl TimeProviderCcsdsEpoch {
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pfield & 0b11
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pfield & 0b11
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}
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}
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#[inline]
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fn unix_seconds(&self) -> i64 {
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ccsds_epoch_to_unix_epoch(self.counter.1 as u64) as i64
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}
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/// This returns the length of the individual components of the CUC timestamp in addition
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/// This returns the length of the individual components of the CUC timestamp in addition
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/// to the total size.
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/// to the total size.
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///
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///
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@ -543,10 +550,19 @@ impl CcsdsTimeProvider for TimeProviderCcsdsEpoch {
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CcsdsTimeCodes::CucCcsdsEpoch
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CcsdsTimeCodes::CucCcsdsEpoch
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}
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}
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/// Please note that this function only works as intended if the time counter resolution
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/// is one second.
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fn unix_seconds(&self) -> i64 {
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fn unix_seconds(&self) -> i64 {
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ccsds_epoch_to_unix_epoch(self.counter.1 as u64) as i64
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self.unix_seconds()
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}
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fn subsecond_millis(&self) -> Option<u16> {
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if let Some(fractions) = self.fractions {
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if fractions.0 == FractionalResolution::Seconds {
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return None;
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}
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// Rounding down here is the correct approach.
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return Some((convert_fractional_part_to_ns(fractions) / 10_u32.pow(6) as u64) as u16);
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}
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None
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}
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}
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fn date_time(&self) -> Option<DateTime<Utc>> {
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fn date_time(&self) -> Option<DateTime<Utc>> {
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118
src/time/mod.rs
118
src/time/mod.rs
@ -20,6 +20,7 @@ pub mod cuc;
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pub const DAYS_CCSDS_TO_UNIX: i32 = -4383;
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pub const DAYS_CCSDS_TO_UNIX: i32 = -4383;
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pub const SECONDS_PER_DAY: u32 = 86400;
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pub const SECONDS_PER_DAY: u32 = 86400;
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pub const MS_PER_DAY: u32 = SECONDS_PER_DAY * 1000;
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#[derive(Debug, PartialEq, Eq, Copy, Clone)]
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#[derive(Debug, PartialEq, Eq, Copy, Clone)]
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#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
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#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
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@ -55,6 +56,7 @@ pub fn ccsds_time_code_from_p_field(pfield: u8) -> Result<CcsdsTimeCodes, u8> {
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#[derive(Debug, PartialEq, Eq, Copy, Clone)]
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#[derive(Debug, PartialEq, Eq, Copy, Clone)]
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#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
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#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
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#[non_exhaustive]
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pub enum TimestampError {
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pub enum TimestampError {
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/// Contains tuple where first value is the expected time code and the second
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/// Contains tuple where first value is the expected time code and the second
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/// value is the found raw value
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/// value is the found raw value
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@ -62,6 +64,7 @@ pub enum TimestampError {
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ByteConversionError(ByteConversionError),
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ByteConversionError(ByteConversionError),
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CdsError(cds::CdsError),
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CdsError(cds::CdsError),
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CucError(cuc::CucError),
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CucError(cuc::CucError),
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DateBeforeCcsdsEpoch(DateTime<Utc>),
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CustomEpochNotSupported,
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CustomEpochNotSupported,
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}
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}
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@ -118,6 +121,9 @@ impl Display for TimestampError {
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TimestampError::ByteConversionError(e) => {
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TimestampError::ByteConversionError(e) => {
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write!(f, "byte conversion error {}", e)
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write!(f, "byte conversion error {}", e)
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}
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}
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TimestampError::DateBeforeCcsdsEpoch(e) => {
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write!(f, "datetime with date before ccsds epoch: {}", e)
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}
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TimestampError::CustomEpochNotSupported => {
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TimestampError::CustomEpochNotSupported => {
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write!(f, "custom epochs are not supported")
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write!(f, "custom epochs are not supported")
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}
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}
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@ -199,6 +205,9 @@ pub trait TimeReader {
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}
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}
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/// Trait for generic CCSDS time providers.
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/// Trait for generic CCSDS time providers.
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///
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/// The UNIX helper methods and the [date_time] method are not strictly necessary but extremely
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/// practical because they are a very common and simple exchange format for time information.
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pub trait CcsdsTimeProvider {
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pub trait CcsdsTimeProvider {
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fn len_as_bytes(&self) -> usize;
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fn len_as_bytes(&self) -> usize;
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@ -208,10 +217,99 @@ pub trait CcsdsTimeProvider {
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/// in big endian format.
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/// in big endian format.
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fn p_field(&self) -> (usize, [u8; 2]);
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fn p_field(&self) -> (usize, [u8; 2]);
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fn ccdsd_time_code(&self) -> CcsdsTimeCodes;
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fn ccdsd_time_code(&self) -> CcsdsTimeCodes;
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fn unix_seconds(&self) -> i64;
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fn unix_seconds(&self) -> i64;
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fn subsecond_millis(&self) -> Option<u16>;
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fn unix_stamp(&self) -> UnixTimestamp {
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UnixTimestamp {
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unix_seconds: self.unix_seconds(),
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subsecond_millis: self.subsecond_millis(),
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}
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}
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fn date_time(&self) -> Option<DateTime<Utc>>;
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fn date_time(&self) -> Option<DateTime<Utc>>;
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}
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}
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/// UNIX timestamp: Elapsed seconds since 01-01-1970 00:00:00.
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///
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/// Also can optionally include subsecond millisecond for greater accuracy.
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#[derive(Default, Debug, Copy, Clone, PartialEq, Eq)]
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#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
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pub struct UnixTimestamp {
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pub unix_seconds: i64,
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subsecond_millis: Option<u16>,
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}
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impl UnixTimestamp {
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/// Returns none if the subsecond millisecond value is larger than 999.
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pub fn new(unix_seconds: i64, subsec_millis: u16) -> Option<Self> {
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if subsec_millis > 999 {
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return None;
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}
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Some(Self {
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unix_seconds,
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subsecond_millis: Some(subsec_millis),
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})
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}
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pub const fn const_new(unix_seconds: i64, subsec_millis: u16) -> Self {
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if subsec_millis > 999 {
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panic!("subsec milliseconds exceeds 999");
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}
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Self {
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unix_seconds,
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subsecond_millis: Some(subsec_millis),
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}
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}
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pub fn new_only_seconds(unix_seconds: i64) -> Self {
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Self {
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unix_seconds,
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subsecond_millis: None,
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}
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}
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pub fn subsecond_millis(&self) -> Option<u16> {
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self.subsecond_millis
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}
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#[cfg(feature = "std")]
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#[cfg_attr(doc_cfg, doc(cfg(feature = "std")))]
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pub fn from_now() -> Result<Self, SystemTimeError> {
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let now = SystemTime::now().duration_since(SystemTime::UNIX_EPOCH)?;
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let epoch = now.as_secs();
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Ok(UnixTimestamp {
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unix_seconds: epoch as i64,
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subsecond_millis: Some(now.subsec_millis() as u16),
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})
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}
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#[inline]
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pub fn unix_seconds_f64(&self) -> f64 {
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let mut secs = self.unix_seconds as f64;
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if let Some(subsec_millis) = self.subsecond_millis {
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secs += subsec_millis as f64 / 1000.0;
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}
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secs
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}
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pub fn as_date_time(&self) -> LocalResult<DateTime<Utc>> {
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Utc.timestamp_opt(
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self.unix_seconds,
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self.subsecond_millis.unwrap_or(0) as u32 * 10_u32.pow(6),
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)
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}
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}
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impl From<DateTime<Utc>> for UnixTimestamp {
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fn from(value: DateTime<Utc>) -> Self {
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Self {
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unix_seconds: value.timestamp(),
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subsecond_millis: Some(value.timestamp_subsec_millis() as u16),
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}
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}
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}
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#[cfg(all(test, feature = "std"))]
|
#[cfg(all(test, feature = "std"))]
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mod tests {
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mod tests {
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use super::*;
|
use super::*;
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@ -240,4 +338,24 @@ mod tests {
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let days_diff = (ccsds_epoch - unix_epoch) / SECONDS_PER_DAY as u64;
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let days_diff = (ccsds_epoch - unix_epoch) / SECONDS_PER_DAY as u64;
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assert_eq!(days_diff, -DAYS_CCSDS_TO_UNIX as u64);
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assert_eq!(days_diff, -DAYS_CCSDS_TO_UNIX as u64);
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}
|
}
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|
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|
#[test]
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fn basic_unix_stamp_test() {
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let stamp = UnixTimestamp::new_only_seconds(-200);
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|
assert_eq!(stamp.unix_seconds, -200);
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assert!(stamp.subsecond_millis().is_none());
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|
let stamp = UnixTimestamp::new_only_seconds(250);
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|
assert_eq!(stamp.unix_seconds, 250);
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|
assert!(stamp.subsecond_millis().is_none());
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}
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|
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|
#[test]
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|
fn basic_float_unix_stamp_test() {
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|
let stamp = UnixTimestamp::new(500, 600).unwrap();
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assert!(stamp.subsecond_millis.is_some());
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|
assert_eq!(stamp.unix_seconds, 500);
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let subsec_millis = stamp.subsecond_millis().unwrap();
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|
assert_eq!(subsec_millis, 600);
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assert!((500.6 - stamp.unix_seconds_f64()).abs() < 0.0001);
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|
}
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}
|
}
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