// This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at https://mozilla.org/MPL/2.0/.
use std::sync::{Arc, RwLock}; use std::time::Duration;
/// A timespan metric. /// /// Timespans are used to make a measurement of how much time is spent in a particular task. /// // Implementation note: // Because we dispatch this, we handle this with interior mutability. // The whole struct is clonable, but that's comparable cheap, as it does not clone the data. // Cloning `CommonMetricData` is not free, as it contains strings, so we also wrap that in an Arc. #[derive(Clone, Debug)] pubstruct TimespanMetric {
meta: Arc<CommonMetricDataInternal>,
time_unit: TimeUnit,
start_time: Arc<RwLock<Option<u64>>>,
}
// IMPORTANT: // // When changing this implementation, make sure all the operations are // also declared in the related trait in `../traits/`. impl TimespanMetric { /// Creates a new timespan metric. pubfn new(meta: CommonMetricData, time_unit: TimeUnit) -> Self { Self {
meta: Arc::new(meta.into()),
time_unit,
start_time: Arc::new(RwLock::new(None)),
}
}
/// Starts tracking time for the provided metric. /// /// This records an error if it's already tracking time (i.e. start was /// already called with no corresponding /// [`set_stop`](TimespanMetric::set_stop)): in that case the original start /// time will be preserved. pubfn start(&self) { let start_time = time::precise_time_ns();
let metric = self.clone(); crate::launch_with_glean(move |glean| metric.set_start(glean, start_time));
}
/// Set start time synchronously. #[doc(hidden)] pubfn set_start(&self, glean: &Glean, start_time: u64) { letmut lock = self
.start_time
.write()
.expect("Lock poisoned for timespan metric on start.");
/// Stops tracking time for the provided metric. Sets the metric to the elapsed time. /// /// This will record an error if no [`set_start`](TimespanMetric::set_start) was called. pubfn stop(&self) { let stop_time = time::precise_time_ns();
let metric = self.clone(); crate::launch_with_glean(move |glean| metric.set_stop(glean, stop_time));
}
/// Set stop time synchronously. #[doc(hidden)] pubfn set_stop(&self, glean: &Glean, stop_time: u64) { // Need to write in either case, so get the lock first. letmut lock = self
.start_time
.write()
.expect("Lock poisoned for timespan metric on stop.");
if !self.should_record(glean) { // Reset timer when disabled, so that we don't record timespans across // disabled/enabled toggling.
*lock = None; return;
}
if lock.is_none() {
record_error(
glean,
&self.meta,
ErrorType::InvalidState, "Timespan not running",
None,
); return;
}
let start_time = lock.take().unwrap(); let duration = match stop_time.checked_sub(start_time) {
Some(duration) => duration,
None => {
record_error(
glean,
&self.meta,
ErrorType::InvalidValue, "Timespan was negative",
None,
); return;
}
}; let duration = Duration::from_nanos(duration); self.set_raw_inner(glean, duration);
}
/// Aborts a previous [`set_start`](TimespanMetric::set_start) call. No /// error is recorded if no [`set_start`](TimespanMetric::set_start) was /// called. pubfn cancel(&self) { let metric = self.clone(); crate::dispatcher::launch(move || { letmut lock = metric
.start_time
.write()
.expect("Lock poisoned for timespan metric on cancel.");
*lock = None;
});
}
/// Explicitly sets the timespan value. /// /// This API should only be used if your library or application requires /// recording times in a way that can not make use of /// [`set_start`](TimespanMetric::set_start)/[`set_stop`](TimespanMetric::set_stop)/[`cancel`](TimespanMetric::cancel). /// /// Care should be taken using this if the ping lifetime might contain more /// than one timespan measurement. To be safe, /// [`set_raw`](TimespanMetric::set_raw) should generally be followed by /// sending a custom ping containing the timespan. /// /// # Arguments /// /// * `elapsed` - The elapsed time to record. pubfn set_raw(&self, elapsed: Duration) { let metric = self.clone(); crate::launch_with_glean(move |glean| metric.set_raw_sync(glean, elapsed));
}
/// Explicitly sets the timespan value in nanoseconds. /// /// This API should only be used if your library or application requires /// recording times in a way that can not make use of /// [`set_start`](TimespanMetric::set_start)/[`set_stop`](TimespanMetric::set_stop)/[`cancel`](TimespanMetric::cancel). /// /// Care should be taken using this if the ping lifetime might contain more /// than one timespan measurement. To be safe, /// [`set_raw`](TimespanMetric::set_raw) should generally be followed by /// sending a custom ping containing the timespan. /// /// # Arguments /// /// * `elapsed_nanos` - The elapsed time to record, in nanoseconds. pubfn set_raw_nanos(&self, elapsed_nanos: i64) { let elapsed = Duration::from_nanos(elapsed_nanos.try_into().unwrap_or(0)); self.set_raw(elapsed)
}
/// Explicitly sets the timespan value synchronously. #[doc(hidden)] pubfn set_raw_sync(&self, glean: &Glean, elapsed: Duration) { if !self.should_record(glean) { return;
}
let lock = self
.start_time
.read()
.expect("Lock poisoned for timespan metric on set_raw.");
if lock.is_some() {
record_error(
glean,
&self.meta,
ErrorType::InvalidState, "Timespan already running. Raw value not recorded.",
None,
); return;
}
self.set_raw_inner(glean, elapsed);
}
fn set_raw_inner(&self, glean: &Glean, elapsed: Duration) { letmut report_value_exists: bool = false;
glean.storage().record_with(glean, &self.meta, |old_value| { match old_value {
Some(old @ Metric::Timespan(..)) => { // If some value already exists, report an error. // We do this out of the storage since recording an // error accesses the storage as well.
report_value_exists = true;
old
}
_ => Metric::Timespan(elapsed, self.time_unit),
}
});
if report_value_exists {
record_error(
glean,
&self.meta,
ErrorType::InvalidState, "Timespan value already recorded. New value discarded.",
None,
);
};
}
/// **Test-only API (exported for FFI purposes).** /// /// Gets the currently stored value as an integer. /// /// This doesn't clear the stored value. /// /// # Arguments /// /// * `ping_name` - the optional name of the ping to retrieve the metric /// for. Defaults to the first value in `send_in_pings`. /// /// # Returns /// /// The stored value or `None` if nothing stored. pubfn test_get_value(&self, ping_name: Option<String>) -> Option<i64> { crate::block_on_dispatcher(); crate::core::with_glean(|glean| { self.get_value(glean, ping_name.as_deref()).map(|val| {
val.try_into()
.expect("Timespan can't be represented as i64")
})
})
}
/// Get the current value #[doc(hidden)] pubfn get_value<'a, S: Into<Option<&'a str>>>(
&self,
glean: &Glean,
ping_name: S,
) -> Option<u64> { let queried_ping_name = ping_name
.into()
.unwrap_or_else(|| &self.meta().inner.send_in_pings[0]);
/// **Exported for test purposes.** /// /// Gets the number of recorded errors for the given metric and error type. /// /// # Arguments /// /// * `error` - The type of error /// /// # Returns /// /// The number of errors reported. pubfn test_get_num_recorded_errors(&self, error: ErrorType) -> i32 { crate::block_on_dispatcher();
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