lib.rs - mozsearch

//! zeitstempel is German for "timestamp".

//!

//! ---

//!

//! Time's hard. Correct time is near impossible.

//!

//! This crate has one purpose: give me a timestamp as an integer, coming from a monotonic clock

//! source, guaranteed with or without time across suspend/hibernation of the host machine,

//! and let me compare it to other timestamps.

//!

//! It becomes the developer's responsibility to only compare timestamps obtained from this clock source.

//! Timestamps are not comparable across operating system reboots.

//!

//! # Why not `std::time::Instant`?

//!

//! [`std::time::Instant`] fulfills some of our requirements:

//!

//! * It's monotonic, guaranteed ([sort of][rustsource]).

//! * It can be compared to other timespans.

//!

//! However:

//!

//! * It can't be serialized.

//! * It's not guaranteed that the clock source it uses contains (or exclude) suspend/hibernation time across all operating systems.

//!

//! [rustsource]: https://doc.rust-lang.org/1.47.0/src/std/time.rs.html#213-237

//!

//! # Example with suspend time

//!

//! ```

//! # use std::{thread, time::Duration};

//! let start = zeitstempel::now();

//! thread::sleep(Duration::from_millis(2));

//!

//! let diff = Duration::from_nanos(zeitstempel::now() - start);

//! assert!(diff >= Duration::from_millis(2));

//! ```

//!

//! # Example with only awake time

//!

//! ```

//! # use std::{thread, time::Duration};

//! let start = zeitstempel::now_awake();

//! thread::sleep(Duration::from_millis(2));

//!

//! let diff = Duration::from_nanos(zeitstempel::now_awake() - start);

//! assert!(diff >= Duration::from_millis(2));

//! ```

//!

//! # Supported operating systems

//!

//! We support the following operating systems:

//!

//! * Windows\*

//! * macOS

//! * Linux

//! * Android

//! * iOS

//!

//! For other operating systems there's a fallback to `std::time::Instant`,

//! compared against a process-global fixed reference point.

//! We don't guarantee that measured time includes time the system spends in sleep or hibernation.

//!

//! \* To use native Windows 10 functionality enable the `win10plus` feature. Otherwise it will use the fallback.

#![deny(missing_docs)]

#![deny(rustdoc::broken_intra_doc_links)]

cfg_if::cfg_if! {

    if #[cfg(any(target_os = "macos", target_os = "ios"))] {

        mod mac;

        use mac as sys;

    } else if #[cfg(any(target_os = "linux", target_os = "android"))] {

        mod linux;

        use linux as sys;

    } else if #[cfg(all(windows, feature = "win10plus"))] {

        mod win10;

        use win10 as sys;

    } else if #[cfg(windows)] {

        mod win;

        use win as sys;

    } else {

        mod fallback;

        use fallback as sys;

/// Returns a timestamp corresponding to "now", including suspend time.

///

/// It can be compared to other timestamps gathered from this API, as long as the host was not

/// rebooted inbetween.

///

///

/// ## Note

///

/// * The difference between two timestamps will include time the system was in sleep or

///   hibernation.

/// * The difference between two timestamps gathered from this is in nanoseconds.

/// * The clocks on some operating systems, e.g. on Windows, are not nanosecond-precise.

///   The value will still use nanosecond resolution.

pub fn now() -> u64 {

    sys::now_including_suspend()

/// Returns a timestamp corresponding to "now", excluding suspend time.

///

/// It can be compared to other timestamps gathered from this API, as long as the host was not

/// rebooted inbetween.

///

///

/// ## Note

///

/// * The difference between two timestamps will NOT include time the system was in sleep or

///   hibernation.

/// * The difference between two timestamps gathered from this is in nanoseconds.

/// * The clocks on some operating systems, e.g. on Windows, are not nanosecond-precise.

///   The value will still use nanosecond resolution.

pub fn now_awake() -> u64 {

    sys::now_awake()

#[cfg(test)]

mod test {

    use super::*;

    use std::thread;

    use std::time::Duration;

    #[test]

    fn order() {

        let ts1 = now();

        thread::sleep(Duration::from_millis(2));

        let ts2 = now();

        assert!(ts1 < ts2);

    #[test]

    fn awake_time_atleast_total_time() {

        let ts1 = now();

        let a_ts1 = now_awake();

        thread::sleep(Duration::from_millis(2));

        let ts2 = now();

        let a_ts2 = now_awake();

        assert!(ts1 < ts2);

        assert!(a_ts1 < a_ts2);

        let total_diff = Duration::from_nanos(ts2 - ts1);

        let awake_diff = Duration::from_nanos(a_ts2 - a_ts1);

        // `now_awake` gives us nanosecond resolution. That might be _too_ precise,

        // such that `awake` might be actually longer than `total` due to the calls taking just a

        // tiny bit longer.

        assert!(

            total_diff.as_millis() <= awake_diff.as_millis(),

            "total: {:?}, awake: {:?}",

            total_diff,

            awake_diff

);