A Future tracing utility for embedded systems.
This crate aims to provide tools to measure the execution time and debug
async tasks and Futures for #![no_std] projects.
Two main traits are defined: TraceFuture and Instrument.
TraceFuture extends the standard library's Future trait by adding
the trace_task, trace_poll and trace_task_and_poll methods.
These methods each take one or more types implementing Instrument. The
three provided methods call on_enter and on_exit when entering the
specified spans, respectively. Consult the TraceFuture trait
documentation for more information.
Instrument represents the mechanism by which TraceFuture's methods will signal when a span is entered or exited. You can implement this trait on your own types. Some implementation for commonly used types are also provided in the instruments module.
For instance, a simple mechanism may be to set a GPIO pin HIGH when entering the span, and setting it LOW when exiting. This instrumentation is provided in the instruments::gpio module.
- Types implementing
embedded-halversion 1.0OutputPin - Types implementing
embedded-halversion 0.2OutputPin(by enabling theembedded-hal_0_2Cargo feature)
use core::future::Future;
// `TraceFuture` must be in scope in order to use its methods.
use embedded_trace::{TraceFuture, Gpio, GpioRef};
use embedded_hal::digital::OutputPin;
async fn trace_my_future<F, P1, P2>(future: F, task_pin: P1, poll_pin: &mut P2)
where
F: Future,
P1: OutputPin,
P2: OutputPin
{
// `Gpio` can be used where we can take the pin...
let mut task_instrument = Gpio::new(task_pin);
// ...or `GpioRef` when all we have is a mutable reference to a pin.
let mut poll_instrument = GpioRef::new(poll_pin);
// Poll our future while tracing its execution.
future.trace_task_and_poll(&mut task_instrument, &mut poll_instrument).await;
// We can reclaim the pin taken by `Gpio`
let task_pin = task_instrument.free();
}