// Copyright (c) ppy Pty Ltd . Licensed under the MIT Licence. // See the LICENCE file in the repository root for full licence text. using System; using System.Collections.Generic; using System.Linq; using System.Threading; using System.Threading.Tasks; using Newtonsoft.Json; using osu.Framework.Allocation; using osu.Framework.Bindables; using osu.Framework.Graphics; using osu.Framework.Logging; using osu.Game.Beatmaps; using osu.Game.Database; using osu.Game.Extensions; using osu.Game.Online.API; using osu.Game.Overlays; using osu.Game.Overlays.Notifications; using osu.Game.Rulesets; using osu.Game.Scoring; using osu.Game.Scoring.Legacy; using osu.Game.Screens.Play; namespace osu.Game { ///

/// Performs background updating of data stores at startup. ///

public partial class BackgroundDataStoreProcessor : Component { protected Task ProcessingTask { get; private set; } = null!; [Resolved] private RulesetStore rulesetStore { get; set; } = null!; [Resolved] private BeatmapManager beatmapManager { get; set; } = null!; [Resolved] private ScoreManager scoreManager { get; set; } = null!; [Resolved] private RealmAccess realmAccess { get; set; } = null!; [Resolved] private BeatmapUpdater beatmapUpdater { get; set; } = null!; [Resolved] private IBindable gameBeatmap { get; set; } = null!; [Resolved] private ILocalUserPlayInfo? localUserPlayInfo { get; set; } [Resolved] private INotificationOverlay? notificationOverlay { get; set; } [Resolved] private IAPIProvider api { get; set; } = null!; protected virtual int TimeToSleepDuringGameplay => 30000; protected override void LoadComplete() { base.LoadComplete(); ProcessingTask = Task.Factory.StartNew(() => { Logger.Log("Beginning background data store processing.."); checkForOutdatedStarRatings(); processBeatmapSetsWithMissingMetrics(); // Note that the previous method will also update these on a fresh run. processBeatmapsWithMissingObjectCounts(); processScoresWithMissingStatistics(); convertLegacyTotalScoreToStandardised(); }, TaskCreationOptions.LongRunning).ContinueWith(t => { if (t.Exception?.InnerException is ObjectDisposedException) { Logger.Log("Finished background aborted during shutdown"); return; } Logger.Log("Finished background data store processing!"); }); } ///

/// Check whether the databased difficulty calculation version matches the latest ruleset provided version. /// If it doesn't, clear out any existing difficulties so they can be incrementally recalculated. ///

private void checkForOutdatedStarRatings() { foreach (var ruleset in rulesetStore.AvailableRulesets) { // beatmap being passed in is arbitrary here. just needs to be non-null. int currentVersion = ruleset.CreateInstance().CreateDifficultyCalculator(gameBeatmap.Value).Version; if (ruleset.LastAppliedDifficultyVersion < currentVersion) { Logger.Log($"Resetting star ratings for {ruleset.Name} (difficulty calculation version updated from {ruleset.LastAppliedDifficultyVersion} to {currentVersion})"); int countReset = 0; realmAccess.Write(r => { foreach (var b in r.All()) { if (b.Ruleset.ShortName == ruleset.ShortName) { b.StarRating = -1; countReset++; } } r.Find(ruleset.ShortName)!.LastAppliedDifficultyVersion = currentVersion; }); Logger.Log($"Finished resetting {countReset} beatmap sets for {ruleset.Name}"); } } } private void processBeatmapSetsWithMissingMetrics() { HashSet beatmapSetIds = new HashSet(); Logger.Log("Querying for beatmap sets to reprocess..."); realmAccess.Run(r => { // BeatmapProcessor is responsible for both online and local processing. // In the case a user isn't logged in, it won't update LastOnlineUpdate and therefore re-queue, // causing overhead from the non-online processing to redundantly run every startup. // // We may eventually consider making the Process call more specific (or avoid this in any number // of other possible ways), but for now avoid queueing if the user isn't logged in at startup. if (api.IsLoggedIn) { foreach (var b in r.All().Where(b => (b.StarRating < 0 || (b.OnlineID > 0 && b.LastOnlineUpdate == null)) && b.BeatmapSet != null)) beatmapSetIds.Add(b.BeatmapSet!.ID); } else { foreach (var b in r.All().Where(b => b.StarRating < 0 && b.BeatmapSet != null)) beatmapSetIds.Add(b.BeatmapSet!.ID); } }); if (beatmapSetIds.Count == 0) return; Logger.Log($"Found {beatmapSetIds.Count} beatmap sets which require reprocessing."); // Technically this is doing more than just star ratings, but easier for the end user to understand. var notification = showProgressNotification(beatmapSetIds.Count, "Reprocessing star rating for beatmaps", "beatmaps' star ratings have been updated"); int processedCount = 0; int failedCount = 0; foreach (var id in beatmapSetIds) { if (notification?.State == ProgressNotificationState.Cancelled) break; updateNotificationProgress(notification, processedCount, beatmapSetIds.Count); sleepIfRequired(); realmAccess.Run(r => { var set = r.Find(id); if (set != null) { try { beatmapUpdater.Process(set); ++processedCount; } catch (Exception e) { Logger.Log($"Background processing failed on {set}: {e}"); ++failedCount; } } }); } completeNotification(notification, processedCount, beatmapSetIds.Count, failedCount); } private void processBeatmapsWithMissingObjectCounts() { Logger.Log("Querying for beatmaps with missing hitobject counts to reprocess..."); HashSet beatmapIds = new HashSet(); realmAccess.Run(r => { foreach (var b in r.All().Where(b => b.TotalObjectCount < 0 || b.EndTimeObjectCount < 0)) beatmapIds.Add(b.ID); }); if (beatmapIds.Count == 0) return; Logger.Log($"Found {beatmapIds.Count} beatmaps which require statistics population."); var notification = showProgressNotification(beatmapIds.Count, "Populating missing statistics for beatmaps", "beatmaps have been populated with missing statistics"); int processedCount = 0; int failedCount = 0; foreach (var id in beatmapIds) { if (notification?.State == ProgressNotificationState.Cancelled) break; updateNotificationProgress(notification, processedCount, beatmapIds.Count); sleepIfRequired(); realmAccess.Run(r => { var beatmap = r.Find(id); if (beatmap != null) { try { beatmapUpdater.ProcessObjectCounts(beatmap); ++processedCount; } catch (Exception e) { Logger.Log($"Background processing failed on {beatmap}: {e}"); ++failedCount; } } }); } completeNotification(notification, processedCount, beatmapIds.Count, failedCount); } private void processScoresWithMissingStatistics() { HashSet scoreIds = new HashSet(); Logger.Log("Querying for scores to reprocess..."); realmAccess.Run(r => { foreach (var score in r.All().Where(s => !s.BackgroundReprocessingFailed)) { if (score.BeatmapInfo != null && score.Statistics.Sum(kvp => kvp.Value) > 0 && score.MaximumStatistics.Sum(kvp => kvp.Value) == 0) { scoreIds.Add(score.ID); } } }); if (scoreIds.Count == 0) return; Logger.Log($"Found {scoreIds.Count} scores which require statistics population."); var notification = showProgressNotification(scoreIds.Count, "Populating missing statistics for scores", "scores have been populated with missing statistics"); int processedCount = 0; int failedCount = 0; foreach (var id in scoreIds) { if (notification?.State == ProgressNotificationState.Cancelled) break; updateNotificationProgress(notification, processedCount, scoreIds.Count); sleepIfRequired(); try { var score = scoreManager.Query(s => s.ID == id); scoreManager.PopulateMaximumStatistics(score); // Can't use async overload because we're not on the update thread. // ReSharper disable once MethodHasAsyncOverload realmAccess.Write(r => { r.Find(id)!.MaximumStatisticsJson = JsonConvert.SerializeObject(score.MaximumStatistics); }); ++processedCount; } catch (ObjectDisposedException) { throw; } catch (Exception e) { Logger.Log(@$"Failed to populate maximum statistics for {id}: {e}"); realmAccess.Write(r => r.Find(id)!.BackgroundReprocessingFailed = true); ++failedCount; } } completeNotification(notification, processedCount, scoreIds.Count, failedCount); } private void convertLegacyTotalScoreToStandardised() { Logger.Log("Querying for scores that need total score conversion..."); HashSet scoreIds = realmAccess.Run(r => new HashSet( r.All() .Where(s => !s.BackgroundReprocessingFailed && s.BeatmapInfo != null && s.IsLegacyScore && s.TotalScoreVersion < LegacyScoreEncoder.LATEST_VERSION) .AsEnumerable() // must be done after materialisation, as realm doesn't want to support // nested property predicates .Where(s => s.Ruleset.IsLegacyRuleset()) .Select(s => s.ID))); Logger.Log($"Found {scoreIds.Count} scores which require total score conversion."); if (scoreIds.Count == 0) return; var notification = showProgressNotification(scoreIds.Count, "Upgrading scores to new scoring algorithm", "scores have been upgraded to the new scoring algorithm"); int processedCount = 0; int failedCount = 0; foreach (var id in scoreIds) { if (notification?.State == ProgressNotificationState.Cancelled) break; updateNotificationProgress(notification, processedCount, scoreIds.Count); sleepIfRequired(); try { // Can't use async overload because we're not on the update thread. // ReSharper disable once MethodHasAsyncOverload realmAccess.Write(r => { ScoreInfo s = r.Find(id)!; StandardisedScoreMigrationTools.UpdateFromLegacy(s, beatmapManager); s.TotalScoreVersion = LegacyScoreEncoder.LATEST_VERSION; }); ++processedCount; } catch (ObjectDisposedException) { throw; } catch (Exception e) { Logger.Log($"Failed to convert total score for {id}: {e}"); realmAccess.Write(r => r.Find(id)!.BackgroundReprocessingFailed = true); ++failedCount; } } completeNotification(notification, processedCount, scoreIds.Count, failedCount); } private void updateNotificationProgress(ProgressNotification? notification, int processedCount, int totalCount) { if (notification == null) return; notification.Text = notification.Text.ToString().Split('(').First().TrimEnd() + $" ({processedCount} of {totalCount})"; notification.Progress = (float)processedCount / totalCount; if (processedCount % 100 == 0) Logger.Log(notification.Text.ToString()); } private void completeNotification(ProgressNotification? notification, int processedCount, int totalCount, int? failedCount = null) { if (notification == null) return; if (processedCount == totalCount) { notification.CompletionText = $"{processedCount} {notification.CompletionText}"; notification.Progress = 1; notification.State = ProgressNotificationState.Completed; } else { notification.Text = $"{processedCount} of {totalCount} {notification.CompletionText}"; // We may have arrived here due to user cancellation or completion with failures. if (failedCount > 0) notification.Text += $" Check logs for issues with {failedCount} failed items."; notification.State = ProgressNotificationState.Cancelled; } } private ProgressNotification? showProgressNotification(int totalCount, string running, string completed) { if (notificationOverlay == null) return null; if (totalCount < 10) return null; ProgressNotification notification = new ProgressNotification { Text = running, CompletionText = completed, State = ProgressNotificationState.Active }; notificationOverlay?.Post(notification); return notification; } private void sleepIfRequired() { while (localUserPlayInfo?.IsPlaying.Value == true) { Logger.Log("Background processing sleeping due to active gameplay..."); Thread.Sleep(TimeToSleepDuringGameplay); } } } }