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use super::*;
impl Timestamp {
/// Normalizes the timestamp to a canonical format.
///
/// Based on [`google::protobuf::util::CreateNormalized`][1].
///
/// [1]: https://github.com/google/protobuf/blob/v3.3.2/src/google/protobuf/util/time_util.cc#L59-L77
pub fn normalize(&mut self) {
// Make sure nanos is in the range.
if self.nanos <= -NANOS_PER_SECOND || self.nanos >= NANOS_PER_SECOND {
if let Some(seconds) = self
.seconds
.checked_add((self.nanos / NANOS_PER_SECOND) as i64)
{
self.seconds = seconds;
self.nanos %= NANOS_PER_SECOND;
} else if self.nanos < 0 {
// Negative overflow! Set to the earliest normal value.
self.seconds = i64::MIN;
self.nanos = 0;
} else {
// Positive overflow! Set to the latest normal value.
self.seconds = i64::MAX;
self.nanos = 999_999_999;
}
}
// For Timestamp nanos should be in the range [0, 999999999].
if self.nanos < 0 {
if let Some(seconds) = self.seconds.checked_sub(1) {
self.seconds = seconds;
self.nanos += NANOS_PER_SECOND;
} else {
// Negative overflow! Set to the earliest normal value.
debug_assert_eq!(self.seconds, i64::MIN);
self.nanos = 0;
}
}
// TODO: should this be checked?
// debug_assert!(self.seconds >= -62_135_596_800 && self.seconds <= 253_402_300_799,
// "invalid timestamp: {:?}", self);
}
/// Normalizes the timestamp to a canonical format, returning the original value if it cannot be
/// normalized.
///
/// Normalization is based on [`google::protobuf::util::CreateNormalized`][1].
///
/// [1]: https://github.com/google/protobuf/blob/v3.3.2/src/google/protobuf/util/time_util.cc#L59-L77
pub fn try_normalize(mut self) -> Result<Timestamp, Timestamp> {
let before = self.clone();
self.normalize();
// If the seconds value has changed, and is either i64::MIN or i64::MAX, then the timestamp
// normalization overflowed.
if (self.seconds == i64::MAX || self.seconds == i64::MIN) && self.seconds != before.seconds
{
Err(before)
} else {
Ok(self)
}
}
/// Creates a new `Timestamp` at the start of the provided UTC date.
pub fn date(year: i64, month: u8, day: u8) -> Result<Timestamp, TimestampError> {
Timestamp::date_time_nanos(year, month, day, 0, 0, 0, 0)
}
/// Creates a new `Timestamp` instance with the provided UTC date and time.
pub fn date_time(
year: i64,
month: u8,
day: u8,
hour: u8,
minute: u8,
second: u8,
) -> Result<Timestamp, TimestampError> {
Timestamp::date_time_nanos(year, month, day, hour, minute, second, 0)
}
/// Creates a new `Timestamp` instance with the provided UTC date and time.
pub fn date_time_nanos(
year: i64,
month: u8,
day: u8,
hour: u8,
minute: u8,
second: u8,
nanos: u32,
) -> Result<Timestamp, TimestampError> {
let date_time = datetime::DateTime {
year,
month,
day,
hour,
minute,
second,
nanos,
};
if date_time.is_valid() {
Ok(Timestamp::from(date_time))
} else {
Err(TimestampError::InvalidDateTime)
}
}
}
impl Name for Timestamp {
const PACKAGE: &'static str = PACKAGE;
const NAME: &'static str = "Timestamp";
fn type_url() -> String {
type_url_for::<Self>()
}
}
/// Implements the unstable/naive version of `Eq`: a basic equality check on the internal fields of the `Timestamp`.
/// This implies that `normalized_ts != non_normalized_ts` even if `normalized_ts == non_normalized_ts.normalized()`.
#[cfg(feature = "std")]
impl Eq for Timestamp {}
#[cfg(feature = "std")]
#[allow(clippy::derive_hash_xor_eq)] // Derived logic is correct: comparing the 2 fields for equality
impl std::hash::Hash for Timestamp {
fn hash<H: std::hash::Hasher>(&self, state: &mut H) {
self.seconds.hash(state);
self.nanos.hash(state);
}
}
#[cfg(feature = "std")]
impl From<std::time::SystemTime> for Timestamp {
fn from(system_time: std::time::SystemTime) -> Timestamp {
let (seconds, nanos) = match system_time.duration_since(std::time::UNIX_EPOCH) {
Ok(duration) => {
let seconds = i64::try_from(duration.as_secs()).unwrap();
(seconds, duration.subsec_nanos() as i32)
}
Err(error) => {
let duration = error.duration();
let seconds = i64::try_from(duration.as_secs()).unwrap();
let nanos = duration.subsec_nanos() as i32;
if nanos == 0 {
(-seconds, 0)
} else {
(-seconds - 1, 1_000_000_000 - nanos)
}
}
};
Timestamp { seconds, nanos }
}
}
/// A timestamp handling error.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Debug, PartialEq)]
#[non_exhaustive]
pub enum TimestampError {
/// Indicates that a [`Timestamp`] could not be converted to
/// [`SystemTime`][std::time::SystemTime] because it is out of range.
///
/// The range of times that can be represented by `SystemTime` depends on the platform. All
/// `Timestamp`s are likely representable on 64-bit Unix-like platforms, but other platforms,
/// such as Windows and 32-bit Linux, may not be able to represent the full range of
/// `Timestamp`s.
OutOfSystemRange(Timestamp),
/// An error indicating failure to parse a timestamp in RFC-3339 format.
ParseFailure,
/// Indicates an error when constructing a timestamp due to invalid date or time data.
InvalidDateTime,
}
impl fmt::Display for TimestampError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
TimestampError::OutOfSystemRange(timestamp) => {
write!(
f,
"{} is not representable as a `SystemTime` because it is out of range",
timestamp
)
}
TimestampError::ParseFailure => {
write!(f, "failed to parse RFC-3339 formatted timestamp")
}
TimestampError::InvalidDateTime => {
write!(f, "invalid date or time")
}
}
}
}
#[cfg(feature = "std")]
impl std::error::Error for TimestampError {}
#[cfg(feature = "std")]
impl TryFrom<Timestamp> for std::time::SystemTime {
type Error = TimestampError;
fn try_from(mut timestamp: Timestamp) -> Result<std::time::SystemTime, Self::Error> {
let orig_timestamp = timestamp.clone();
timestamp.normalize();
let system_time = if timestamp.seconds >= 0 {
std::time::UNIX_EPOCH.checked_add(time::Duration::from_secs(timestamp.seconds as u64))
} else {
std::time::UNIX_EPOCH.checked_sub(time::Duration::from_secs(
timestamp
.seconds
.checked_neg()
.ok_or_else(|| TimestampError::OutOfSystemRange(timestamp.clone()))?
as u64,
))
};
let system_time = system_time.and_then(|system_time| {
system_time.checked_add(time::Duration::from_nanos(timestamp.nanos as u64))
});
system_time.ok_or(TimestampError::OutOfSystemRange(orig_timestamp))
}
}
impl FromStr for Timestamp {
type Err = TimestampError;
fn from_str(s: &str) -> Result<Timestamp, TimestampError> {
datetime::parse_timestamp(s).ok_or(TimestampError::ParseFailure)
}
}
impl fmt::Display for Timestamp {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
datetime::DateTime::from(self.clone()).fmt(f)
}
}
#[cfg(test)]
mod tests {
use super::*;
#[cfg(feature = "std")]
use proptest::prelude::*;
#[cfg(feature = "std")]
use std::time::{self, SystemTime, UNIX_EPOCH};
#[cfg(feature = "std")]
proptest! {
#[test]
fn check_system_time_roundtrip(
system_time in SystemTime::arbitrary(),
) {
prop_assert_eq!(SystemTime::try_from(Timestamp::from(system_time)).unwrap(), system_time);
}
#[test]
fn check_timestamp_roundtrip_via_system_time(
seconds in i64::arbitrary(),
nanos in i32::arbitrary(),
) {
let mut timestamp = Timestamp { seconds, nanos };
timestamp.normalize();
if let Ok(system_time) = SystemTime::try_from(timestamp.clone()) {
prop_assert_eq!(Timestamp::from(system_time), timestamp);
}
}
}
#[cfg(feature = "std")]
#[test]
fn check_timestamp_negative_seconds() {
// Representative tests for the case of timestamps before the UTC Epoch time:
// validate the expected behaviour that "negative second values with fractions
// must still have non-negative nanos values that count forward in time"
// https://developers.google.com/protocol-buffers/docs/reference/google.protobuf#google.protobuf.Timestamp
//
// To ensure cross-platform compatibility, all nanosecond values in these
// tests are in minimum 100 ns increments. This does not affect the general
// character of the behaviour being tested, but ensures that the tests are
// valid for both POSIX (1 ns precision) and Windows (100 ns precision).
assert_eq!(
Timestamp::from(UNIX_EPOCH - time::Duration::new(1_001, 0)),
Timestamp {
seconds: -1_001,
nanos: 0
}
);
assert_eq!(
Timestamp::from(UNIX_EPOCH - time::Duration::new(0, 999_999_900)),
Timestamp {
seconds: -1,
nanos: 100
}
);
assert_eq!(
Timestamp::from(UNIX_EPOCH - time::Duration::new(2_001_234, 12_300)),
Timestamp {
seconds: -2_001_235,
nanos: 999_987_700
}
);
assert_eq!(
Timestamp::from(UNIX_EPOCH - time::Duration::new(768, 65_432_100)),
Timestamp {
seconds: -769,
nanos: 934_567_900
}
);
}
#[cfg(all(unix, feature = "std"))]
#[test]
fn check_timestamp_negative_seconds_1ns() {
// UNIX-only test cases with 1 ns precision
assert_eq!(
Timestamp::from(UNIX_EPOCH - time::Duration::new(0, 999_999_999)),
Timestamp {
seconds: -1,
nanos: 1
}
);
assert_eq!(
Timestamp::from(UNIX_EPOCH - time::Duration::new(1_234_567, 123)),
Timestamp {
seconds: -1_234_568,
nanos: 999_999_877
}
);
assert_eq!(
Timestamp::from(UNIX_EPOCH - time::Duration::new(890, 987_654_321)),
Timestamp {
seconds: -891,
nanos: 12_345_679
}
);
}
#[cfg(feature = "std")]
#[test]
fn check_timestamp_normalize() {
// Make sure that `Timestamp::normalize` behaves correctly on and near overflow.
#[rustfmt::skip] // Don't mangle the table formatting.
let cases = [
// --- Table of test cases ---
// test seconds test nanos expected seconds expected nanos
(line!(), 0, 0, 0, 0),
(line!(), 1, 1, 1, 1),
(line!(), -1, -1, -2, 999_999_999),
(line!(), 0, 999_999_999, 0, 999_999_999),
(line!(), 0, -999_999_999, -1, 1),
(line!(), 0, 1_000_000_000, 1, 0),
(line!(), 0, -1_000_000_000, -1, 0),
(line!(), 0, 1_000_000_001, 1, 1),
(line!(), 0, -1_000_000_001, -2, 999_999_999),
(line!(), -1, 1, -1, 1),
(line!(), 1, -1, 0, 999_999_999),
(line!(), -1, 1_000_000_000, 0, 0),
(line!(), 1, -1_000_000_000, 0, 0),
(line!(), i64::MIN , 0, i64::MIN , 0),
(line!(), i64::MIN + 1, 0, i64::MIN + 1, 0),
(line!(), i64::MIN , 1, i64::MIN , 1),
(line!(), i64::MIN , 1_000_000_000, i64::MIN + 1, 0),
(line!(), i64::MIN , -1_000_000_000, i64::MIN , 0),
(line!(), i64::MIN + 1, -1_000_000_000, i64::MIN , 0),
(line!(), i64::MIN + 2, -1_000_000_000, i64::MIN + 1, 0),
(line!(), i64::MIN , -1_999_999_998, i64::MIN , 0),
(line!(), i64::MIN + 1, -1_999_999_998, i64::MIN , 0),
(line!(), i64::MIN + 2, -1_999_999_998, i64::MIN , 2),
(line!(), i64::MIN , -1_999_999_999, i64::MIN , 0),
(line!(), i64::MIN + 1, -1_999_999_999, i64::MIN , 0),
(line!(), i64::MIN + 2, -1_999_999_999, i64::MIN , 1),
(line!(), i64::MIN , -2_000_000_000, i64::MIN , 0),
(line!(), i64::MIN + 1, -2_000_000_000, i64::MIN , 0),
(line!(), i64::MIN + 2, -2_000_000_000, i64::MIN , 0),
(line!(), i64::MIN , -999_999_998, i64::MIN , 0),
(line!(), i64::MIN + 1, -999_999_998, i64::MIN , 2),
(line!(), i64::MAX , 0, i64::MAX , 0),
(line!(), i64::MAX - 1, 0, i64::MAX - 1, 0),
(line!(), i64::MAX , -1, i64::MAX - 1, 999_999_999),
(line!(), i64::MAX , 1_000_000_000, i64::MAX , 999_999_999),
(line!(), i64::MAX - 1, 1_000_000_000, i64::MAX , 0),
(line!(), i64::MAX - 2, 1_000_000_000, i64::MAX - 1, 0),
(line!(), i64::MAX , 1_999_999_998, i64::MAX , 999_999_999),
(line!(), i64::MAX - 1, 1_999_999_998, i64::MAX , 999_999_998),
(line!(), i64::MAX - 2, 1_999_999_998, i64::MAX - 1, 999_999_998),
(line!(), i64::MAX , 1_999_999_999, i64::MAX , 999_999_999),
(line!(), i64::MAX - 1, 1_999_999_999, i64::MAX , 999_999_999),
(line!(), i64::MAX - 2, 1_999_999_999, i64::MAX - 1, 999_999_999),
(line!(), i64::MAX , 2_000_000_000, i64::MAX , 999_999_999),
(line!(), i64::MAX - 1, 2_000_000_000, i64::MAX , 999_999_999),
(line!(), i64::MAX - 2, 2_000_000_000, i64::MAX , 0),
(line!(), i64::MAX , 999_999_998, i64::MAX , 999_999_998),
(line!(), i64::MAX - 1, 999_999_998, i64::MAX - 1, 999_999_998),
];
for case in cases.iter() {
let mut test_timestamp = crate::Timestamp {
seconds: case.1,
nanos: case.2,
};
test_timestamp.normalize();
assert_eq!(
test_timestamp,
crate::Timestamp {
seconds: case.3,
nanos: case.4,
},
"test case on line {} doesn't match",
case.0,
);
}
}
}