using System; using System.Threading; using Serilog; namespace Myriad.Rest.Ratelimit { public class Bucket { private static readonly TimeSpan Epsilon = TimeSpan.FromMilliseconds(10); private static readonly TimeSpan FallbackDelay = TimeSpan.FromMilliseconds(200); private static readonly TimeSpan StaleTimeout = TimeSpan.FromSeconds(5); private readonly ILogger _logger; private readonly SemaphoreSlim _semaphore = new(1, 1); private DateTimeOffset _nextReset; private bool _resetTimeValid; private bool _hasReceivedRemaining; public Bucket(ILogger logger, string key, ulong major, int limit) { _logger = logger.ForContext(); Key = key; Major = major; Limit = limit; Remaining = limit; _resetTimeValid = false; } public string Key { get; } public ulong Major { get; } public int Remaining { get; private set; } public int Limit { get; private set; } public DateTimeOffset LastUsed { get; private set; } = DateTimeOffset.UtcNow; public bool TryAcquire() { LastUsed = DateTimeOffset.Now; try { _semaphore.Wait(); if (Remaining > 0) { _logger.Debug( "{BucketKey}/{BucketMajor}: Bucket has [{BucketRemaining}/{BucketLimit} left], allowing through", Key, Major, Remaining, Limit); Remaining--; return true; } _logger.Debug("{BucketKey}/{BucketMajor}: Bucket has [{BucketRemaining}/{BucketLimit}] left, denying", Key, Major, Remaining, Limit); return false; } finally { _semaphore.Release(); } } public void HandleResponse(RatelimitHeaders headers) { try { _semaphore.Wait(); if (headers.ResetAfter != null) { var headerNextReset = DateTimeOffset.UtcNow + headers.ResetAfter.Value; // todo: server time if (headerNextReset > _nextReset) { _logger.Debug("{BucketKey}/{BucketMajor}: Received reset time {NextReset} from server (after: {NextResetAfter}, new remaining: {Remaining})", Key, Major, headerNextReset, headers.ResetAfter.Value, headers.Remaining); _nextReset = headerNextReset; _resetTimeValid = true; } } if (headers.Limit != null) Limit = headers.Limit.Value; if (headers.Remaining != null && !_hasReceivedRemaining) { _hasReceivedRemaining = true; Remaining = headers.Remaining.Value; } } finally { _semaphore.Release(); } } public void Tick(DateTimeOffset now) { try { _semaphore.Wait(); // If we're past the reset time *and* we haven't reset already, do that var timeSinceReset = now - _nextReset; var shouldReset = _resetTimeValid && timeSinceReset > TimeSpan.Zero; if (shouldReset) { _logger.Debug("{BucketKey}/{BucketMajor}: Bucket timed out, refreshing with {BucketLimit} requests", Key, Major, Limit); Remaining = Limit; _resetTimeValid = false; return; } // We've run out of requests without having any new reset time, // *and* it's been longer than a set amount - add one request back to the pool and hope that one returns var isBucketStale = !_resetTimeValid && Remaining <= 0 && timeSinceReset > StaleTimeout; if (isBucketStale) { _logger.Warning( "{BucketKey}/{BucketMajor}: Bucket is stale ({StaleTimeout} passed with no rate limit info), allowing one request through", Key, Major, StaleTimeout); Remaining = 1; // Reset the (still-invalid) reset time to now, so we don't keep hitting this conditional over and over... _nextReset = now; } } finally { _semaphore.Release(); } } public TimeSpan GetResetDelay(DateTimeOffset now) { // If we don't have a valid reset time, return the fallback delay always // (so it'll keep spinning until we hopefully have one...) if (!_resetTimeValid) return FallbackDelay; var delay = _nextReset - now; // If we have a really small (or negative) value, return a fallback delay too if (delay < Epsilon) return FallbackDelay; return delay; } } }