app_dart/lib/src/service/build_status_provider.dart - mirrors/cocoon - Git at Google

 // Copyright 2019 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 import 'dart:async';

 import 'package:github/github.dart';
 import 'package:meta/meta.dart';

 import '../model/appengine/commit.dart';
 import '../model/appengine/github_build_status_update.dart';
 import '../model/appengine/stage.dart';
 import '../model/appengine/task.dart';
 import 'datastore.dart';

 /// Function signature for a [BuildStatusService] provider.
 typedef BuildStatusServiceProvider = BuildStatusService Function(DatastoreService datastoreService);

 /// Branches that are used to calculate the tree status.
 const Set<String> defaultBranches = <String>{'refs/heads/main', 'refs/heads/master'};

 /// Class that calculates the current build status.
 class BuildStatusService {
   const BuildStatusService(this.datastoreService);

   final DatastoreService datastoreService;

   /// Creates and returns a [DatastoreService] using [db] and [maxEntityGroups].
   static BuildStatusService defaultProvider(DatastoreService datastoreService) {
     return BuildStatusService(datastoreService);
   }

   @visibleForTesting
   static const int numberOfCommitsToReferenceForTreeStatus = 20;

   /// Calculates and returns the "overall" status of the Flutter build.
   ///
   /// This calculation operates by looking for the most recent success or
   /// failure for every (non-flaky) task in the manifest.
   ///
   /// Take the example build dashboard below:
   /// ✔ = passed, ✖ = failed, ☐ = new, ░ = in progress, s = skipped
   /// +---+---+---+---+
   /// | A | B | C | D |
   /// +---+---+---+---+
   /// | ✔ | ☐ | ░ | s |
   /// +---+---+---+---+
   /// | ✔ | ░ | ✔ | ✖ |
   /// +---+---+---+---+
   /// | ✔ | ✖ | ✔ | ✔ |
   /// +---+---+---+---+
   /// This build will fail because of Task B only. Task D is not included in
   /// the latest commit status, so it does not impact the build status.
   /// Task B fails because its last known status was to be failing, even though
   /// there is currently a newer version that is in progress.
   ///
   /// Tree status is only for [defaultBranches].
   Future<BuildStatus?> calculateCumulativeStatus(RepositorySlug slug) async {
     final List<CommitStatus> statuses = await retrieveCommitStatus(
       limit: numberOfCommitsToReferenceForTreeStatus,
       slug: slug,
     ).toList();
     if (statuses.isEmpty) {
       return BuildStatus.failure();
     }

     final Map<String, bool> tasksInProgress = _findTasksRelevantToLatestStatus(statuses);
     if (tasksInProgress.isEmpty) {
       return BuildStatus.failure();
     }

     final List<String> failedTasks = <String>[];
     for (CommitStatus status in statuses) {
       for (Stage stage in status.stages) {
         for (Task task in stage.tasks) {
           /// If a task [isRelevantToLatestStatus] but has not run yet, we look
           /// for a previous run of the task from the previous commit.
           final bool isRelevantToLatestStatus = tasksInProgress.containsKey(task.name);

           /// Tasks that are not relevant to the latest status will have a
           /// null value in the map.
           final bool taskInProgress = tasksInProgress[task.name] ?? true;

           if (isRelevantToLatestStatus && taskInProgress) {
             if (task.isFlaky! || _isSuccessful(task)) {
               /// This task no longer needs to be checked to see if it causing
               /// the build status to fail.
               tasksInProgress[task.name!] = false;
             } else if (_isFailed(task) || _isRerunning(task)) {
               failedTasks.add(task.name!);

               /// This task no longer needs to be checked to see if its causing
               /// the build status to fail since its been
               /// added to the failedTasks list.
               tasksInProgress[task.name!] = false;
             }
           }
         }
       }
     }
     return failedTasks.isNotEmpty ? BuildStatus.failure(failedTasks) : BuildStatus.success();
   }

   /// Creates a map of the tasks that need to be checked for the build status.
   ///
   /// This is based on the most recent [CommitStatus] and all of its tasks.
   Map<String, bool> _findTasksRelevantToLatestStatus(List<CommitStatus> statuses) {
     final Map<String, bool> tasks = <String, bool>{};

     for (Stage stage in statuses.first.stages) {
       for (Task task in stage.tasks) {
         tasks[task.name!] = true;
       }
     }

     return tasks;
   }

   /// Retrieves the comprehensive status of every task that runs per commit.
   ///
   /// The returned stream will be ordered by most recent commit first, then
   /// the next newest, and so on.
   Stream<CommitStatus> retrieveCommitStatus({
     required int limit,
     int? timestamp,
     String? branch,
     required RepositorySlug slug,
   }) async* {
     await for (Commit commit in datastoreService.queryRecentCommits(
       limit: limit,
       timestamp: timestamp,
       branch: branch,
       slug: slug,
     )) {
       final List<Stage> stages = await datastoreService.queryTasksGroupedByStage(commit);
       yield CommitStatus(commit, stages);
     }
   }

   bool _isFailed(Task task) {
     return task.status == Task.statusFailed || task.status == Task.statusInfraFailure;
   }

   bool _isSuccessful(Task task) {
     return task.status == Task.statusSucceeded;
   }

   bool _isRerunning(Task task) {
     return task.attempts! > 1 && (task.status == Task.statusInProgress || task.status == Task.statusNew);
   }
 }

 /// Class that holds the status for all tasks corresponding to a particular
 /// commit.
 ///
 /// Tasks may still be running, and thus their status is subject to change.
 /// Put another way, this class holds information that is a snapshot in time.
 @immutable
 class CommitStatus {
   /// Creates a new [CommitStatus].
   const CommitStatus(this.commit, this.stages);

   /// The commit against which all the tasks in [stages] are run.
   final Commit commit;

   /// The partitioned stages, each of which holds a bucket of tasks that
   /// belong in the stage.
   final List<Stage> stages;
 }

 @immutable
 class BuildStatus {
   const BuildStatus._(this.value, [this.failedTasks = const <String>[]])
       : assert(value == GithubBuildStatusUpdate.statusSuccess || value == GithubBuildStatusUpdate.statusFailure);
   factory BuildStatus.success() => const BuildStatus._(GithubBuildStatusUpdate.statusSuccess);
   factory BuildStatus.failure([List<String> failedTasks = const <String>[]]) =>
       BuildStatus._(GithubBuildStatusUpdate.statusFailure, failedTasks);

   final String value;
   final List<String> failedTasks;

   bool get succeeded {
     return value == GithubBuildStatusUpdate.statusSuccess;
   }

   String get githubStatus => value;

   @override
   int get hashCode {
     int hash = 17;
     hash = hash * 31 + value.hashCode;
     hash = hash * 31 + failedTasks.hashCode;
     return hash;
   }

   @override
   bool operator ==(Object other) {
     if (identical(this, other)) {
       return true;
     }
     if (other is BuildStatus) {
       if (value != other.value) {
         return false;
       }
       if (other.failedTasks.length != failedTasks.length) {
         return false;
       }
       for (int i = 0; i < failedTasks.length; ++i) {
         if (failedTasks[i] != other.failedTasks[i]) {
           return false;
         }
       }
       return true;
     }
     return false;
   }

   @override
   String toString() => '$value $failedTasks';
 }
	// Copyright 2019 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	import 'dart:async';

	import 'package:github/github.dart';
	import 'package:meta/meta.dart';

	import '../model/appengine/commit.dart';
	import '../model/appengine/github_build_status_update.dart';
	import '../model/appengine/stage.dart';
	import '../model/appengine/task.dart';
	import 'datastore.dart';

	/// Function signature for a [BuildStatusService] provider.
	typedef BuildStatusServiceProvider = BuildStatusService Function(DatastoreService datastoreService);

	/// Branches that are used to calculate the tree status.
	const Set<String> defaultBranches = <String>{'refs/heads/main', 'refs/heads/master'};

	/// Class that calculates the current build status.
	class BuildStatusService {
	const BuildStatusService(this.datastoreService);

	final DatastoreService datastoreService;

	/// Creates and returns a [DatastoreService] using [db] and [maxEntityGroups].
	static BuildStatusService defaultProvider(DatastoreService datastoreService) {
	return BuildStatusService(datastoreService);
	}

	@visibleForTesting
	static const int numberOfCommitsToReferenceForTreeStatus = 20;

	/// Calculates and returns the "overall" status of the Flutter build.
	///
	/// This calculation operates by looking for the most recent success or
	/// failure for every (non-flaky) task in the manifest.
	///
	/// Take the example build dashboard below:
	/// ✔ = passed, ✖ = failed, ☐ = new, ░ = in progress, s = skipped
	/// +---+---+---+---+
	/// \| A \| B \| C \| D \|
	/// +---+---+---+---+
	/// \| ✔ \| ☐ \| ░ \| s \|
	/// +---+---+---+---+
	/// \| ✔ \| ░ \| ✔ \| ✖ \|
	/// +---+---+---+---+
	/// \| ✔ \| ✖ \| ✔ \| ✔ \|
	/// +---+---+---+---+
	/// This build will fail because of Task B only. Task D is not included in
	/// the latest commit status, so it does not impact the build status.
	/// Task B fails because its last known status was to be failing, even though
	/// there is currently a newer version that is in progress.
	///
	/// Tree status is only for [defaultBranches].
	Future<BuildStatus?> calculateCumulativeStatus(RepositorySlug slug) async {
	final List<CommitStatus> statuses = await retrieveCommitStatus(
	limit: numberOfCommitsToReferenceForTreeStatus,
	slug: slug,
	).toList();
	if (statuses.isEmpty) {
	return BuildStatus.failure();
	}

	final Map<String, bool> tasksInProgress = _findTasksRelevantToLatestStatus(statuses);
	if (tasksInProgress.isEmpty) {
	return BuildStatus.failure();
	}

	final List<String> failedTasks = <String>[];
	for (CommitStatus status in statuses) {
	for (Stage stage in status.stages) {
	for (Task task in stage.tasks) {
	/// If a task [isRelevantToLatestStatus] but has not run yet, we look
	/// for a previous run of the task from the previous commit.
	final bool isRelevantToLatestStatus = tasksInProgress.containsKey(task.name);

	/// Tasks that are not relevant to the latest status will have a
	/// null value in the map.
	final bool taskInProgress = tasksInProgress[task.name] ?? true;

	if (isRelevantToLatestStatus && taskInProgress) {
	if (task.isFlaky! \|\| _isSuccessful(task)) {
	/// This task no longer needs to be checked to see if it causing
	/// the build status to fail.
	tasksInProgress[task.name!] = false;
	} else if (_isFailed(task) \|\| _isRerunning(task)) {
	failedTasks.add(task.name!);

	/// This task no longer needs to be checked to see if its causing
	/// the build status to fail since its been
	/// added to the failedTasks list.
	tasksInProgress[task.name!] = false;
	}
	}
	}
	}
	}
	return failedTasks.isNotEmpty ? BuildStatus.failure(failedTasks) : BuildStatus.success();
	}

	/// Creates a map of the tasks that need to be checked for the build status.
	///
	/// This is based on the most recent [CommitStatus] and all of its tasks.
	Map<String, bool> _findTasksRelevantToLatestStatus(List<CommitStatus> statuses) {
	final Map<String, bool> tasks = <String, bool>{};

	for (Stage stage in statuses.first.stages) {
	for (Task task in stage.tasks) {
	tasks[task.name!] = true;
	}
	}

	return tasks;
	}

	/// Retrieves the comprehensive status of every task that runs per commit.
	///
	/// The returned stream will be ordered by most recent commit first, then
	/// the next newest, and so on.
	Stream<CommitStatus> retrieveCommitStatus({
	required int limit,
	int? timestamp,
	String? branch,
	required RepositorySlug slug,
	}) async* {
	await for (Commit commit in datastoreService.queryRecentCommits(
	limit: limit,
	timestamp: timestamp,
	branch: branch,
	slug: slug,
	)) {
	final List<Stage> stages = await datastoreService.queryTasksGroupedByStage(commit);
	yield CommitStatus(commit, stages);
	}
	}

	bool _isFailed(Task task) {
	return task.status == Task.statusFailed \|\| task.status == Task.statusInfraFailure;
	}

	bool _isSuccessful(Task task) {
	return task.status == Task.statusSucceeded;
	}

	bool _isRerunning(Task task) {
	return task.attempts! > 1 && (task.status == Task.statusInProgress \|\| task.status == Task.statusNew);
	}
	}

	/// Class that holds the status for all tasks corresponding to a particular
	/// commit.
	///
	/// Tasks may still be running, and thus their status is subject to change.
	/// Put another way, this class holds information that is a snapshot in time.
	@immutable
	class CommitStatus {
	/// Creates a new [CommitStatus].
	const CommitStatus(this.commit, this.stages);

	/// The commit against which all the tasks in [stages] are run.
	final Commit commit;

	/// The partitioned stages, each of which holds a bucket of tasks that
	/// belong in the stage.
	final List<Stage> stages;
	}

	@immutable
	class BuildStatus {
	const BuildStatus._(this.value, [this.failedTasks = const <String>[]])
	: assert(value == GithubBuildStatusUpdate.statusSuccess \|\| value == GithubBuildStatusUpdate.statusFailure);
	factory BuildStatus.success() => const BuildStatus._(GithubBuildStatusUpdate.statusSuccess);
	factory BuildStatus.failure([List<String> failedTasks = const <String>[]]) =>
	BuildStatus._(GithubBuildStatusUpdate.statusFailure, failedTasks);

	final String value;
	final List<String> failedTasks;

	bool get succeeded {
	return value == GithubBuildStatusUpdate.statusSuccess;
	}

	String get githubStatus => value;

	@override
	int get hashCode {
	int hash = 17;
	hash = hash * 31 + value.hashCode;
	hash = hash * 31 + failedTasks.hashCode;
	return hash;
	}

	@override
	bool operator ==(Object other) {
	if (identical(this, other)) {
	return true;
	}
	if (other is BuildStatus) {
	if (value != other.value) {
	return false;
	}
	if (other.failedTasks.length != failedTasks.length) {
	return false;
	}
	for (int i = 0; i < failedTasks.length; ++i) {
	if (failedTasks[i] != other.failedTasks[i]) {
	return false;
	}
	}
	return true;
	}
	return false;
	}

	@override
	String toString() => '$value $failedTasks';
	}