// 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 crate::metrics::DistributionData; use crate::metrics::TimerId; use crate::ErrorType; /// A description for the [`TimingDistributionMetric`](crate::metrics::TimingDistributionMetric) type. /// /// When changing this trait, make sure all the operations are /// implemented in the related type in `../metrics/`. pub trait TimingDistribution { /// Start tracking time for the provided metric. /// Multiple timers can run simultaneously. /// /// # Returns /// /// A unique [`TimerId`] for the new timer. fn start(&self) -> TimerId; /// Stops tracking time for the provided metric and associated timer id. /// /// Adds a count to the corresponding bucket in the timing distribution. /// This will record an error if no [`start`](TimingDistribution::start) was /// called. /// /// # Arguments /// /// * `id` - The [`TimerId`] to associate with this timing. This allows /// for concurrent timing of events associated with different ids to the /// same timespan metric. fn stop_and_accumulate(&self, id: TimerId); /// Aborts a previous [`start`](TimingDistribution::start) call. No /// error is recorded if no [`start`](TimingDistribution::start) was /// called. /// /// # Arguments /// /// * `id` - The [`TimerId`] to associate with this timing. This allows /// for concurrent timing of events associated with different ids to the /// same timing distribution metric. fn cancel(&self, id: TimerId); /// Accumulates the provided signed samples in the metric. /// /// This is required so that the platform-specific code can provide us with /// 64 bit signed integers if no `u64` comparable type is available. This /// will take care of filtering and reporting errors for any provided negative /// sample. /// /// Please note that this assumes that the provided samples are already in /// the "unit" declared by the instance of the metric type (e.g. if the /// instance this method was called on is using [`crate::TimeUnit::Second`], then /// `samples` are assumed to be in that unit). /// /// # Arguments /// /// * `samples` - The vector holding the samples to be recorded by the metric. /// /// ## Notes /// /// Discards any negative value in `samples` and report an [`ErrorType::InvalidValue`] /// for each of them. Reports an [`ErrorType::InvalidOverflow`] error for samples that /// are longer than `MAX_SAMPLE_TIME`. fn accumulate_samples(&self, samples: Vec); /// Accumulates the provided samples in the metric. /// /// # Arguments /// /// * `samples` - A list of samples recorded by the metric. /// Samples must be in nanoseconds. /// ## Notes /// /// Reports an [`ErrorType::InvalidOverflow`] error for samples that /// are longer than `MAX_SAMPLE_TIME`. fn accumulate_raw_samples_nanos(&self, samples: Vec); /// **Exported for test purposes.** /// /// Gets the currently stored value of the metric. /// /// This doesn't clear the stored value. /// /// # Arguments /// /// * `ping_name` - represents the optional name of the ping to retrieve the /// metric for. Defaults to the first value in `send_in_pings`. fn test_get_value<'a, S: Into>>( &self, ping_name: S, ) -> Option; /// **Exported for test purposes.** /// /// Gets the number of recorded errors for the given error type. /// /// # Arguments /// /// * `error` - The type of error /// /// # Returns /// /// The number of errors recorded. fn test_get_num_recorded_errors(&self, error: ErrorType) -> i32; }