Crate embassy_time_driver

Expand description

§embassy-time-driver

This crate contains the driver trait necessary for adding embassy-time support for a new hardware platform.

If you want to use embassy-time with already made drivers, you should depend on the main embassy-time crate, not on this crate.

If you are writing a driver, you should depend only on this crate, not on the main embassy-time crate. This will allow your driver to continue working for newer embassy-time major versions, without needing an update, if the driver trait has not had breaking changes.

§How it works

embassy-time is backed by a global “time driver” specified at build time. Only one driver can be active in a program.

All methods and structs transparently call into the active driver. This makes it possible for libraries to use embassy-time in a driver-agnostic way without requiring generic parameters.

§Implementing a driver

Define a struct MyDriver
Implement Driver for it
Register it as the global driver with time_driver_impl.

If your driver has a single set tick rate, enable the corresponding tick-hz-* feature, which will prevent users from needing to configure it themselves (or selecting an incorrect configuration).

If your driver supports a small number of set tick rates, expose your own cargo features and have each one enable the corresponding embassy-time-driver/tick-*.

Otherwise, don’t enable any tick-hz-* feature to let the user configure the tick rate themselves by enabling a feature on embassy-time.

§Linkage details

Instead of the usual “trait + generic params” approach, calls from embassy to the driver are done via extern functions.

embassy internally defines the driver functions as extern "Rust" { fn _embassy_time_now() -> u64; } and calls them. The driver crate defines the functions as #[no_mangle] fn _embassy_time_now() -> u64. The linker will resolve the calls from the embassy crate to call into the driver crate.

If there is none or multiple drivers in the crate tree, linking will fail.

This method has a few key advantages for something as foundational as timekeeping:

The time driver is available everywhere easily, without having to thread the implementation through generic parameters. This is especially helpful for libraries.
It means comparing Instants will always make sense: if there were multiple drivers active, one could compare an Instant from driver A to an Instant from driver B, which would yield incorrect results.

§Example

use embassy_time_driver::{Driver, AlarmHandle};

struct MyDriver{} // not public!

impl Driver for MyDriver {
    fn now(&self) -> u64 {
        todo!()
    }
    unsafe fn allocate_alarm(&self) -> Option<AlarmHandle> {
        todo!()
    }
    fn set_alarm_callback(&self, alarm: AlarmHandle, callback: fn(*mut ()), ctx: *mut ()) {
        todo!()
    }
    fn set_alarm(&self, alarm: AlarmHandle, timestamp: u64) -> bool {
        todo!()
    }
}

embassy_time_driver::time_driver_impl!(static DRIVER: MyDriver = MyDriver{});

§Feature flags

§Tick Rate

At most 1 tick-* feature can be enabled. If none is enabled, a default of 1MHz is used.

If the time driver in use supports using arbitrary tick rates, you can enable one tick-* feature from your binary crate to set the tick rate. The driver will use configured tick rate. If the time driver supports a fixed tick rate, it will enable one feature itself, so you should not enable one. Check the time driver documentation for details.

When using embassy-time from libraries, you should not enable any tick-* feature, to allow the end user or the driver to pick.

Available tick rates:

tick-hz-1 — 1Hz Tick Rate
tick-hz-2 — 2Hz Tick Rate
tick-hz-4 — 4Hz Tick Rate
tick-hz-8 — 8Hz Tick Rate
tick-hz-10 — 10Hz Tick Rate
tick-hz-16 — 16Hz Tick Rate
tick-hz-32 — 32Hz Tick Rate
tick-hz-64 — 64Hz Tick Rate
tick-hz-100 — 100Hz Tick Rate
tick-hz-128 — 128Hz Tick Rate
tick-hz-256 — 256Hz Tick Rate
tick-hz-512 — 512Hz Tick Rate
tick-hz-1_000 — 1.0kHz Tick Rate
tick-hz-1_024 — 1.024kHz Tick Rate
tick-hz-2_000 — 2.0kHz Tick Rate
tick-hz-2_048 — 2.048kHz Tick Rate
tick-hz-4_000 — 4.0kHz Tick Rate
tick-hz-4_096 — 4.096kHz Tick Rate
tick-hz-8_000 — 8.0kHz Tick Rate
tick-hz-8_192 — 8.192kHz Tick Rate
tick-hz-10_000 — 10.0kHz Tick Rate
tick-hz-16_000 — 16.0kHz Tick Rate
tick-hz-16_384 — 16.384kHz Tick Rate
tick-hz-20_000 — 20.0kHz Tick Rate
tick-hz-32_000 — 32.0kHz Tick Rate
tick-hz-32_768 — 32.768kHz Tick Rate
tick-hz-40_000 — 40.0kHz Tick Rate
tick-hz-64_000 — 64.0kHz Tick Rate
tick-hz-65_536 — 65.536kHz Tick Rate
tick-hz-80_000 — 80.0kHz Tick Rate
tick-hz-100_000 — 100.0kHz Tick Rate
tick-hz-128_000 — 128.0kHz Tick Rate
tick-hz-131_072 — 131.072kHz Tick Rate
tick-hz-160_000 — 160.0kHz Tick Rate
tick-hz-256_000 — 256.0kHz Tick Rate
tick-hz-262_144 — 262.144kHz Tick Rate
tick-hz-320_000 — 320.0kHz Tick Rate
tick-hz-512_000 — 512.0kHz Tick Rate
tick-hz-524_288 — 524.288kHz Tick Rate
tick-hz-640_000 — 640.0kHz Tick Rate
tick-hz-1_000_000 — 1.0MHz Tick Rate
tick-hz-1_024_000 — 1.024MHz Tick Rate
tick-hz-1_048_576 — 1.048576MHz Tick Rate
tick-hz-1_280_000 — 1.28MHz Tick Rate
tick-hz-2_000_000 — 2.0MHz Tick Rate
tick-hz-2_048_000 — 2.048MHz Tick Rate
tick-hz-2_097_152 — 2.097152MHz Tick Rate
tick-hz-2_560_000 — 2.56MHz Tick Rate
tick-hz-3_000_000 — 3.0MHz Tick Rate
tick-hz-4_000_000 — 4.0MHz Tick Rate
tick-hz-4_096_000 — 4.096MHz Tick Rate
tick-hz-4_194_304 — 4.194304MHz Tick Rate
tick-hz-5_120_000 — 5.12MHz Tick Rate
tick-hz-6_000_000 — 6.0MHz Tick Rate
tick-hz-8_000_000 — 8.0MHz Tick Rate
tick-hz-8_192_000 — 8.192MHz Tick Rate
tick-hz-8_388_608 — 8.388608MHz Tick Rate
tick-hz-9_000_000 — 9.0MHz Tick Rate
tick-hz-10_000_000 — 10.0MHz Tick Rate
tick-hz-10_240_000 — 10.24MHz Tick Rate
tick-hz-12_000_000 — 12.0MHz Tick Rate
tick-hz-16_000_000 — 16.0MHz Tick Rate
tick-hz-16_384_000 — 16.384MHz Tick Rate
tick-hz-16_777_216 — 16.777216MHz Tick Rate
tick-hz-18_000_000 — 18.0MHz Tick Rate
tick-hz-20_000_000 — 20.0MHz Tick Rate
tick-hz-20_480_000 — 20.48MHz Tick Rate
tick-hz-24_000_000 — 24.0MHz Tick Rate
tick-hz-30_000_000 — 30.0MHz Tick Rate
tick-hz-32_000_000 — 32.0MHz Tick Rate
tick-hz-32_768_000 — 32.768MHz Tick Rate
tick-hz-36_000_000 — 36.0MHz Tick Rate
tick-hz-40_000_000 — 40.0MHz Tick Rate
tick-hz-40_960_000 — 40.96MHz Tick Rate
tick-hz-48_000_000 — 48.0MHz Tick Rate
tick-hz-50_000_000 — 50.0MHz Tick Rate
tick-hz-60_000_000 — 60.0MHz Tick Rate
tick-hz-64_000_000 — 64.0MHz Tick Rate
tick-hz-65_536_000 — 65.536MHz Tick Rate
tick-hz-70_000_000 — 70.0MHz Tick Rate
tick-hz-72_000_000 — 72.0MHz Tick Rate
tick-hz-80_000_000 — 80.0MHz Tick Rate
tick-hz-81_920_000 — 81.92MHz Tick Rate
tick-hz-90_000_000 — 90.0MHz Tick Rate
tick-hz-96_000_000 — 96.0MHz Tick Rate
tick-hz-100_000_000 — 100.0MHz Tick Rate
tick-hz-110_000_000 — 110.0MHz Tick Rate
tick-hz-120_000_000 — 120.0MHz Tick Rate
tick-hz-128_000_000 — 128.0MHz Tick Rate
tick-hz-130_000_000 — 130.0MHz Tick Rate
tick-hz-131_072_000 — 131.072MHz Tick Rate
tick-hz-140_000_000 — 140.0MHz Tick Rate
tick-hz-144_000_000 — 144.0MHz Tick Rate
tick-hz-150_000_000 — 150.0MHz Tick Rate
tick-hz-160_000_000 — 160.0MHz Tick Rate
tick-hz-163_840_000 — 163.84MHz Tick Rate
tick-hz-170_000_000 — 170.0MHz Tick Rate
tick-hz-180_000_000 — 180.0MHz Tick Rate
tick-hz-190_000_000 — 190.0MHz Tick Rate
tick-hz-192_000_000 — 192.0MHz Tick Rate
tick-hz-200_000_000 — 200.0MHz Tick Rate
tick-hz-210_000_000 — 210.0MHz Tick Rate
tick-hz-220_000_000 — 220.0MHz Tick Rate
tick-hz-230_000_000 — 230.0MHz Tick Rate
tick-hz-240_000_000 — 240.0MHz Tick Rate
tick-hz-250_000_000 — 250.0MHz Tick Rate
tick-hz-256_000_000 — 256.0MHz Tick Rate
tick-hz-260_000_000 — 260.0MHz Tick Rate
tick-hz-262_144_000 — 262.144MHz Tick Rate
tick-hz-270_000_000 — 270.0MHz Tick Rate
tick-hz-280_000_000 — 280.0MHz Tick Rate
tick-hz-288_000_000 — 288.0MHz Tick Rate
tick-hz-290_000_000 — 290.0MHz Tick Rate
tick-hz-300_000_000 — 300.0MHz Tick Rate
tick-hz-320_000_000 — 320.0MHz Tick Rate
tick-hz-327_680_000 — 327.68MHz Tick Rate
tick-hz-340_000_000 — 340.0MHz Tick Rate
tick-hz-360_000_000 — 360.0MHz Tick Rate
tick-hz-380_000_000 — 380.0MHz Tick Rate
tick-hz-384_000_000 — 384.0MHz Tick Rate
tick-hz-400_000_000 — 400.0MHz Tick Rate
tick-hz-420_000_000 — 420.0MHz Tick Rate
tick-hz-440_000_000 — 440.0MHz Tick Rate
tick-hz-460_000_000 — 460.0MHz Tick Rate
tick-hz-480_000_000 — 480.0MHz Tick Rate
tick-hz-500_000_000 — 500.0MHz Tick Rate
tick-hz-512_000_000 — 512.0MHz Tick Rate
tick-hz-520_000_000 — 520.0MHz Tick Rate
tick-hz-524_288_000 — 524.288MHz Tick Rate
tick-hz-540_000_000 — 540.0MHz Tick Rate
tick-hz-560_000_000 — 560.0MHz Tick Rate
tick-hz-576_000_000 — 576.0MHz Tick Rate
tick-hz-580_000_000 — 580.0MHz Tick Rate
tick-hz-600_000_000 — 600.0MHz Tick Rate
tick-hz-620_000_000 — 620.0MHz Tick Rate
tick-hz-640_000_000 — 640.0MHz Tick Rate
tick-hz-655_360_000 — 655.36MHz Tick Rate
tick-hz-660_000_000 — 660.0MHz Tick Rate
tick-hz-680_000_000 — 680.0MHz Tick Rate
tick-hz-700_000_000 — 700.0MHz Tick Rate
tick-hz-720_000_000 — 720.0MHz Tick Rate
tick-hz-740_000_000 — 740.0MHz Tick Rate
tick-hz-760_000_000 — 760.0MHz Tick Rate
tick-hz-768_000_000 — 768.0MHz Tick Rate
tick-hz-780_000_000 — 780.0MHz Tick Rate
tick-hz-800_000_000 — 800.0MHz Tick Rate
tick-hz-820_000_000 — 820.0MHz Tick Rate
tick-hz-840_000_000 — 840.0MHz Tick Rate
tick-hz-860_000_000 — 860.0MHz Tick Rate
tick-hz-880_000_000 — 880.0MHz Tick Rate
tick-hz-900_000_000 — 900.0MHz Tick Rate
tick-hz-920_000_000 — 920.0MHz Tick Rate
tick-hz-940_000_000 — 940.0MHz Tick Rate
tick-hz-960_000_000 — 960.0MHz Tick Rate
tick-hz-980_000_000 — 980.0MHz Tick Rate
tick-hz-1_000_000_000 — 1.0GHz Tick Rate
tick-hz-1_310_720_000 — 1.31072GHz Tick Rate
tick-hz-2_621_440_000 — 2.62144GHz Tick Rate
tick-hz-5_242_880_000 — 5.24288GHz Tick Rate

Macros§

time_driver_impl
Set the time Driver implementation.

Structs§

AlarmHandle
Alarm handle, assigned by the driver.

Constants§

TICK_HZ
Ticks per second of the global timebase.

Traits§

Driver
Time driver

Functions§

allocate_alarm^⚠
See Driver::allocate_alarm
now
See Driver::now
set_alarm
See Driver::set_alarm
set_alarm_callback
See Driver::set_alarm_callback

Crate embassy_time_driverCopy item path