Struct ExponentialBackoffBuilder

Source

pub struct ExponentialBackoffBuilder { /* private fields */ }

Expand description

Builds an exponential backoff policy.

§Example

use retry_policies::{RetryDecision, RetryPolicy, Jitter};
use retry_policies::policies::ExponentialBackoff;
use std::time::Duration;

let backoff = ExponentialBackoff::builder()
    .retry_bounds(Duration::from_secs(1), Duration::from_secs(60))
    .jitter(Jitter::Bounded)
    .base(2)
    .build_with_total_retry_duration(Duration::from_secs(24 * 60 * 60));

Implementations§

Source §

impl ExponentialBackoffBuilder

Source

pub fn retry_bounds( self, min_retry_interval: Duration, max_retry_interval: Duration, ) -> ExponentialBackoffBuilder

Add min & max retry interval bounds. Default [1s, 30m].

See ExponentialBackoff::min_retry_interval, ExponentialBackoff::max_retry_interval.

Panics if min_retry_interval > max_retry_interval.

Source

pub fn jitter(self, jitter: Jitter) -> ExponentialBackoffBuilder

Set what type of jitter to apply.

Source

pub fn base(self, base: u32) -> ExponentialBackoffBuilder

Set what base to use for the exponential.

Source

pub fn build_with_max_retries(self, n: u32) -> ExponentialBackoff

Builds an ExponentialBackoff with the given maximum retries.

See ExponentialBackoff::max_n_retries.

Source

pub fn build_with_total_retry_duration( self, total_duration: Duration, ) -> ExponentialBackoffTimed

Builds an ExponentialBackoff with the given maximum total duration for which retries will continue to be performed.

§Example

use retry_policies::{RetryDecision, RetryPolicy};
use retry_policies::policies::ExponentialBackoff;
use std::time::{Duration, SystemTime};

let backoff = ExponentialBackoff::builder()
    .build_with_total_retry_duration(Duration::from_secs(24 * 60 * 60));

let started_at = SystemTime::now()
    .checked_sub(Duration::from_secs(25 * 60 * 60))
    .unwrap();

let should_retry = backoff.should_retry(started_at, 0);
assert!(matches!(RetryDecision::DoNotRetry, should_retry));

Source

pub fn build_with_total_retry_duration_and_max_retries( self, total_duration: Duration, ) -> ExponentialBackoffTimed

Builds an ExponentialBackoff with the given maximum total duration and calculates max retries that should happen applying no jitter.

For example if we set total duration 24 hours, with retry bounds [1s, 24h] and 2 as base of the exponential, we would calculate 17 max retries, as 1s * pow(2, 16) = 65536s = ~18 hours and 18th attempt would be way after the 24 hours total duration.

If the 17th retry ends up being scheduled after 10 hours due to jitter, ExponentialBackoff::should_retry will return false anyway: no retry will be allowed after total duration.

If one of the 17 allowed retries for some reason (e.g. previous attempts taking a long time) ends up being scheduled after total duration, ExponentialBackoff::should_retry will return false.

Basically we will enforce whatever comes first, max retries or total duration.

§Example

use retry_policies::{RetryDecision, RetryPolicy};
use retry_policies::policies::ExponentialBackoff;
use std::time::{Duration, SystemTime};

let exponential_backoff_timed = ExponentialBackoff::builder()
    .retry_bounds(Duration::from_secs(1), Duration::from_secs(6 * 60 * 60))
    .build_with_total_retry_duration_and_max_retries(Duration::from_secs(24 * 60 * 60));

assert_eq!(exponential_backoff_timed.max_retries(), Some(17));

let started_at = SystemTime::now()
    .checked_sub(Duration::from_secs(25 * 60 * 60))
    .unwrap();

let should_retry = exponential_backoff_timed.should_retry(started_at, 0);
assert!(matches!(RetryDecision::DoNotRetry, should_retry));

let started_at = SystemTime::now()
    .checked_sub(Duration::from_secs(1 * 60 * 60))
    .unwrap();

let should_retry = exponential_backoff_timed.should_retry(started_at, 18);
assert!(matches!(RetryDecision::DoNotRetry, should_retry));