Example #1
0
// getBuildVariantHistory returns a slice of builds that surround a given build.
// As many as 'before' builds (less recent builds) plus as many as 'after' builds
// (more recent builds) are returned.
func getBuildVariantHistory(buildId string, before int, after int) ([]build.Build, error) {
	b, err := build.FindOne(build.ById(buildId))
	if err != nil {
		return nil, err
	}
	if b == nil {
		return nil, fmt.Errorf("no build with id %v", buildId)
	}

	lessRecentBuilds, err := build.Find(
		build.ByBeforeRevision(b.Project, b.BuildVariant, b.RevisionOrderNumber).
			WithFields(build.IdKey, build.TasksKey, build.StatusKey, build.VersionKey, build.ActivatedKey).
			Limit(before))
	if err != nil {
		return nil, err
	}

	moreRecentBuilds, err := build.Find(
		build.ByAfterRevision(b.Project, b.BuildVariant, b.RevisionOrderNumber).
			WithFields(build.IdKey, build.TasksKey, build.StatusKey, build.VersionKey, build.ActivatedKey).
			Limit(after))
	if err != nil {
		return nil, err
	}

	builds := make([]build.Build, 0, len(lessRecentBuilds)+len(moreRecentBuilds))
	for i := len(moreRecentBuilds); i > 0; i-- {
		builds = append(builds, moreRecentBuilds[i-1])
	}
	builds = append(builds, lessRecentBuilds...)
	return builds, nil
}
Example #2
0
func TestBuildMarkStarted(t *testing.T) {

	Convey("With a build", t, func() {

		testutil.HandleTestingErr(db.Clear(build.Collection), t, "Error clearing"+
			" '%v' collection", build.Collection)

		b := &build.Build{
			Id:     "build",
			Status: evergreen.BuildCreated,
		}
		So(b.Insert(), ShouldBeNil)

		Convey("marking it as started should update the status and"+
			" start time, both in memory and in the database", func() {

			startTime := time.Now()
			So(build.TryMarkStarted(b.Id, startTime), ShouldBeNil)

			// refresh from db and check again
			b, err := build.FindOne(build.ById(b.Id))
			So(err, ShouldBeNil)
			So(b.Status, ShouldEqual, evergreen.BuildStarted)
			So(b.StartTime.Round(time.Second).Equal(
				startTime.Round(time.Second)), ShouldBeTrue)
		})
	})
}
Example #3
0
func TestBuildMarkFinished(t *testing.T) {

	Convey("With a build", t, func() {

		testutil.HandleTestingErr(db.Clear(build.Collection), t, "Error clearing"+
			" '%v' collection", build.Collection)

		startTime := time.Now()
		b := &build.Build{
			Id:        "build",
			StartTime: startTime,
		}
		So(b.Insert(), ShouldBeNil)

		Convey("marking it as finished should update the status,"+
			" finish time, and duration, both in memory and in the"+
			" database", func() {

			finishTime := time.Now()
			So(b.MarkFinished(evergreen.BuildSucceeded, finishTime), ShouldBeNil)
			So(b.Status, ShouldEqual, evergreen.BuildSucceeded)
			So(b.FinishTime.Equal(finishTime), ShouldBeTrue)
			So(b.TimeTaken, ShouldEqual, finishTime.Sub(startTime))

			// refresh from db and check again

			b, err := build.FindOne(build.ById(b.Id))
			So(err, ShouldBeNil)
			So(b.Status, ShouldEqual, evergreen.BuildSucceeded)
			So(b.FinishTime.Round(time.Second).Equal(
				finishTime.Round(time.Second)), ShouldBeTrue)
			So(b.TimeTaken, ShouldEqual, finishTime.Sub(startTime))
		})
	})
}
func TestUpdateBuildStatusForTask(t *testing.T) {
	Convey("With two tasks and a build", t, func() {
		testutil.HandleTestingErr(db.ClearCollections(task.Collection, build.Collection, version.Collection), t,
			"Error clearing task and build collections")
		displayName := "testName"
		b := &build.Build{
			Id:      "buildtest",
			Status:  evergreen.BuildStarted,
			Version: "abc",
		}
		v := &version.Version{
			Id:     b.Version,
			Status: evergreen.VersionStarted,
		}
		testTask := task.Task{
			Id:          "testone",
			DisplayName: displayName,
			Activated:   false,
			BuildId:     b.Id,
			Project:     "sample",
			Status:      evergreen.TaskFailed,
		}
		anotherTask := task.Task{
			Id:          "two",
			DisplayName: displayName,
			Activated:   true,
			BuildId:     b.Id,
			Project:     "sample",
			Status:      evergreen.TaskFailed,
		}

		b.Tasks = []build.TaskCache{
			{
				Id:     testTask.Id,
				Status: evergreen.TaskSucceeded,
			},
			{
				Id:     anotherTask.Id,
				Status: evergreen.TaskFailed,
			},
		}
		So(b.Insert(), ShouldBeNil)
		So(testTask.Insert(), ShouldBeNil)
		So(anotherTask.Insert(), ShouldBeNil)
		So(v.Insert(), ShouldBeNil)
		Convey("updating the build for a task should update the build's status and the version's status", func() {
			So(UpdateBuildAndVersionStatusForTask(testTask.Id), ShouldBeNil)
			b, err := build.FindOne(build.ById(b.Id))
			So(err, ShouldBeNil)
			So(b.Status, ShouldEqual, evergreen.BuildFailed)
			v, err := version.FindOne(version.ById(v.Id))
			So(v.Status, ShouldEqual, evergreen.VersionFailed)

		})

	})
}
Example #5
0
// Given build id, get last successful build before this one
func getBuildVariantHistoryLastSuccess(buildId string) (*build.Build, error) {
	b, err := build.FindOne(build.ById(buildId))
	if err != nil {
		return nil, err
	}
	if b.Status == evergreen.BuildSucceeded {
		return b, nil
	}
	return b.PreviousSuccessful()
}
Example #6
0
func TestDeletingBuild(t *testing.T) {

	Convey("With a build", t, func() {

		testutil.HandleTestingErr(db.Clear(build.Collection), t, "Error clearing"+
			" '%v' collection", build.Collection)

		b := &build.Build{
			Id: "build",
		}
		So(b.Insert(), ShouldBeNil)

		Convey("deleting it should remove it and all its associated"+
			" tasks from the database", func() {

			testutil.HandleTestingErr(db.ClearCollections(task.Collection), t, "Error"+
				" clearing '%v' collection", task.Collection)

			// insert two tasks that are part of the build, and one that isn't
			matchingTaskOne := &task.Task{
				Id:      "matchingOne",
				BuildId: b.Id,
			}
			So(matchingTaskOne.Insert(), ShouldBeNil)

			matchingTaskTwo := &task.Task{
				Id:      "matchingTwo",
				BuildId: b.Id,
			}
			So(matchingTaskTwo.Insert(), ShouldBeNil)

			nonMatchingTask := &task.Task{
				Id:      "nonMatching",
				BuildId: "blech",
			}
			So(nonMatchingTask.Insert(), ShouldBeNil)

			// delete the build, make sure only it and its tasks are deleted

			So(DeleteBuild(b.Id), ShouldBeNil)

			b, err := build.FindOne(build.ById(b.Id))
			So(err, ShouldBeNil)
			So(b, ShouldBeNil)

			matchingTasks, err := task.Find(task.ByBuildId("build"))
			So(err, ShouldBeNil)
			So(len(matchingTasks), ShouldEqual, 0)

			nonMatchingTask, err = task.FindOne(task.ById(nonMatchingTask.Id))
			So(err, ShouldBeNil)
			So(nonMatchingTask, ShouldNotBeNil)
		})
	})
}
func TestMarkStart(t *testing.T) {
	Convey("With a task, build and version", t, func() {
		testutil.HandleTestingErr(db.ClearCollections(task.Collection, build.Collection, version.Collection), t,
			"Error clearing task and build collections")
		displayName := "testName"
		b := &build.Build{
			Id:      "buildtest",
			Status:  evergreen.BuildCreated,
			Version: "abc",
		}
		v := &version.Version{
			Id:     b.Version,
			Status: evergreen.VersionCreated,
		}
		testTask := task.Task{
			Id:          "testTask",
			DisplayName: displayName,
			Activated:   true,
			BuildId:     b.Id,
			Project:     "sample",
			Status:      evergreen.TaskUndispatched,
			Version:     b.Version,
		}

		b.Tasks = []build.TaskCache{
			{
				Id:     testTask.Id,
				Status: evergreen.TaskUndispatched,
			},
		}
		So(b.Insert(), ShouldBeNil)
		So(testTask.Insert(), ShouldBeNil)
		So(v.Insert(), ShouldBeNil)
		Convey("when calling MarkStart, the task, version and build should be updated", func() {
			So(MarkStart(testTask.Id), ShouldBeNil)
			testTask, err := task.FindOne(task.ById(testTask.Id))
			So(err, ShouldBeNil)
			So(testTask.Status, ShouldEqual, evergreen.TaskStarted)
			b, err := build.FindOne(build.ById(b.Id))
			So(err, ShouldBeNil)
			So(b.Status, ShouldEqual, evergreen.BuildStarted)
			So(b.Tasks, ShouldNotBeNil)
			So(len(b.Tasks), ShouldEqual, 1)
			So(b.Tasks[0].Status, ShouldEqual, evergreen.TaskStarted)
			v, err := version.FindOne(version.ById(v.Id))
			So(err, ShouldBeNil)
			So(v.Status, ShouldEqual, evergreen.VersionStarted)
		})
	})
}
Example #8
0
// Returns a JSON response with the marshalled output of the build
// specified in the request.
func (restapi *restAPI) getBuildInfo(w http.ResponseWriter, r *http.Request) {
	buildId := mux.Vars(r)["build_id"]

	srcBuild, err := build.FindOne(build.ById(buildId))
	if err != nil || srcBuild == nil {
		msg := fmt.Sprintf("Error finding build '%v'", buildId)
		statusCode := http.StatusNotFound

		if err != nil {
			evergreen.Logger.Logf(slogger.ERROR, "%v: %v", msg, err)
			statusCode = http.StatusInternalServerError
		}

		restapi.WriteJSON(w, statusCode, responseError{Message: msg})
		return

	}

	destBuild := &restBuild{}
	// Copy the contents from the database into our local build type
	err = angier.TransferByFieldNames(srcBuild, destBuild)
	if err != nil {
		msg := fmt.Sprintf("Error finding build '%v'", buildId)
		evergreen.Logger.Logf(slogger.ERROR, "%v: %v", msg, err)
		restapi.WriteJSON(w, http.StatusInternalServerError, responseError{Message: msg})
		return

	}

	destBuild.Tasks = make(buildStatusByTask, len(srcBuild.Tasks))
	for _, task := range srcBuild.Tasks {
		status := buildStatus{
			Id:        task.Id,
			Status:    task.Status,
			TimeTaken: task.TimeTaken,
		}
		destBuild.Tasks[task.DisplayName] = status
	}

	restapi.WriteJSON(w, http.StatusOK, destBuild)
	return

}
Example #9
0
// populateTaskBuildVersion takes a task, build, and version ID and populates a projectContext
// with as many of the task, build, and version documents as possible.
// If any of the provided IDs is blank, they will be inferred from the more selective ones.
// Returns the project ID of the data found, which may be blank if the IDs are empty.
func (pc *projectContext) populateTaskBuildVersion(taskId, buildId, versionId string) (string, error) {
	projectId := ""
	var err error
	// Fetch task if there's a task ID present; if we find one, populate build/version IDs from it
	if len(taskId) > 0 {
		pc.Task, err = task.FindOne(task.ById(taskId))
		if err != nil {
			return "", err
		}

		if pc.Task != nil {
			// override build and version ID with the ones this task belongs to
			buildId = pc.Task.BuildId
			versionId = pc.Task.Version
			projectId = pc.Task.Project
		}
	}

	// Fetch build if there's a build ID present; if we find one, populate version ID from it
	if len(buildId) > 0 {
		pc.Build, err = build.FindOne(build.ById(buildId))
		if err != nil {
			return "", err
		}
		if pc.Build != nil {
			versionId = pc.Build.Version
			projectId = pc.Build.Project
		}
	}
	if len(versionId) > 0 {
		pc.Version, err = version.FindOne(version.ById(versionId))
		if err != nil {
			return "", err
		}
		if pc.Version != nil {
			projectId = pc.Version.Identifier
		}
	}
	return projectId, nil

}
Example #10
0
// Activates any builds if their BatchTimes have elapsed.
func (repoTracker *RepoTracker) activateElapsedBuilds(v *version.Version) (err error) {
	projectId := repoTracker.ProjectRef.Identifier
	hasActivated := false
	now := time.Now()
	for i, status := range v.BuildVariants {
		// last comparison is to check that ActivateAt is actually set
		if !status.Activated && now.After(status.ActivateAt) && !status.ActivateAt.IsZero() {
			evergreen.Logger.Logf(slogger.INFO, "activating variant %v for project %v, revision %v",
				status.BuildVariant, projectId, v.Revision)

			// Go copies the slice value, we want to modify the actual value
			status.Activated = true
			status.ActivateAt = now
			v.BuildVariants[i] = status

			b, err := build.FindOne(build.ById(status.BuildId))
			if err != nil {
				evergreen.Logger.Logf(slogger.ERROR,
					"error retrieving build for project %v, variant %v, build %v: %v",
					projectId, status.BuildVariant, status.BuildId, err)
				continue
			}
			evergreen.Logger.Logf(slogger.INFO, "activating build %v for project %v, variant %v",
				status.BuildId, projectId, status.BuildVariant)
			// Don't need to set the version in here since we do it ourselves in a single update
			if err = model.SetBuildActivation(b.Id, true); err != nil {
				evergreen.Logger.Logf(slogger.ERROR, "error activating build %v for project %v, variant %v: %v",
					b.Id, projectId, status.BuildVariant, err)
				continue
			}
			hasActivated = true
		}
	}

	// If any variants were activated, update the stored version so that we don't
	// attempt to activate them again
	if hasActivated {
		return v.UpdateBuildVariants()
	}
	return nil
}
Example #11
0
// Returns a JSON response with the status of the specified build.
// The keys of the object are the task names.
func (restapi restAPI) getBuildStatus(w http.ResponseWriter, r *http.Request) {
	buildId := mux.Vars(r)["build_id"]

	b, err := build.FindOne(build.ById(buildId))
	if err != nil || b == nil {
		msg := fmt.Sprintf("Error finding build '%v'", buildId)
		statusCode := http.StatusNotFound

		if err != nil {
			evergreen.Logger.Logf(slogger.ERROR, "%v: %v", msg, err)
			statusCode = http.StatusInternalServerError
		}

		restapi.WriteJSON(w, statusCode, responseError{Message: msg})
		return

	}

	result := buildStatusContent{
		Id:           buildId,
		BuildVariant: b.BuildVariant,
		Tasks:        make(buildStatusByTask, len(b.Tasks)),
	}

	for _, task := range b.Tasks {
		status := buildStatus{
			Id:        task.Id,
			Status:    task.Status,
			TimeTaken: task.TimeTaken,
		}
		result.Tasks[task.DisplayName] = status
	}

	restapi.WriteJSON(w, http.StatusOK, result)
	return

}
Example #12
0
func TestMarkAsDispatched(t *testing.T) {

	var (
		taskId  string
		hostId  string
		buildId string
		task    *Task
		myHost  *host.Host
		b       *build.Build
	)

	Convey("With a task", t, func() {

		taskId = "t1"
		hostId = "h1"
		buildId = "b1"

		task = &Task{
			Id:      taskId,
			BuildId: buildId,
		}

		myHost = &host.Host{
			Id: hostId,
		}

		b = &build.Build{
			Id: buildId,
			Tasks: []build.TaskCache{
				{Id: taskId},
			},
		}

		testutil.HandleTestingErr(
			db.ClearCollections(TasksCollection, build.Collection, host.Collection),
			t, "Error clearing test collections")

		So(task.Insert(), ShouldBeNil)
		So(myHost.Insert(), ShouldBeNil)
		So(b.Insert(), ShouldBeNil)

		Convey("when marking the task as dispatched, the fields for"+
			" the task, the host it is on, and the build it is a part of"+
			" should be set to reflect this", func() {

			// mark the task as dispatched
			So(task.MarkAsDispatched(myHost, time.Now()), ShouldBeNil)

			// make sure the task's fields were updated, both in memory and
			// in the db
			So(task.DispatchTime, ShouldNotResemble, time.Unix(0, 0))
			So(task.Status, ShouldEqual, evergreen.TaskDispatched)
			So(task.HostId, ShouldEqual, myHost.Id)
			So(task.LastHeartbeat, ShouldResemble, task.DispatchTime)
			task, err := FindTask(taskId)
			So(err, ShouldBeNil)
			So(task.DispatchTime, ShouldNotResemble, time.Unix(0, 0))
			So(task.Status, ShouldEqual, evergreen.TaskDispatched)
			So(task.HostId, ShouldEqual, myHost.Id)
			So(task.LastHeartbeat, ShouldResemble, task.DispatchTime)

			// make sure the build's fields were updated in the db
			b, err = build.FindOne(build.ById(buildId))
			So(err, ShouldBeNil)
			So(b.Tasks[0].Status, ShouldEqual, evergreen.TaskDispatched)

		})

	})

}
Example #13
0
func (uis *UIServer) modifyBuild(w http.ResponseWriter, r *http.Request) {
	projCtx := MustHaveProjectContext(r)
	user := MustHaveUser(r)

	if projCtx.Build == nil {
		http.Error(w, "Not found", http.StatusNotFound)
		return
	}

	reqBody, err := ioutil.ReadAll(r.Body)
	if err != nil {
		http.Error(w, err.Error(), http.StatusInternalServerError)
		return
	}
	defer r.Body.Close()

	putParams := struct {
		Action   string   `json:"action"`
		Active   bool     `json:"active"`
		Abort    bool     `json:"abort"`
		Priority string   `json:"priority"`
		TaskIds  []string `json:"taskIds"`
	}{}
	err = json.Unmarshal(reqBody, &putParams)
	if err != nil {
		http.Error(w, err.Error(), http.StatusBadRequest)
		return
	}

	// determine what action needs to be taken
	switch putParams.Action {
	case "abort":
		if err := model.AbortBuild(projCtx.Build.Id, user.Id); err != nil {
			http.Error(w, fmt.Sprintf("Error aborting build %v", projCtx.Build.Id), http.StatusInternalServerError)
			return
		}
		model.RefreshTasksCache(projCtx.Build.Id)
	case "set_priority":
		priority, err := strconv.ParseInt(putParams.Priority, 10, 64)
		if err != nil {
			http.Error(w, "Bad priority value; must be int", http.StatusBadRequest)
			return
		}
		if priority > evergreen.MaxTaskPriority {
			if !uis.isSuperUser(user) {
				http.Error(w, fmt.Sprintf("Insufficient access to set priority %v, can only set prior less than or equal to %v", priority, evergreen.MaxTaskPriority),
					http.StatusBadRequest)
				return
			}
		}
		err = model.SetBuildPriority(projCtx.Build.Id, priority)
		if err != nil {
			http.Error(w, fmt.Sprintf("Error setting priority on build %v", projCtx.Build.Id),
				http.StatusInternalServerError)
			return
		}
	case "set_active":
		err := model.SetBuildActivation(projCtx.Build.Id, putParams.Active, user.Id)
		if err != nil {
			http.Error(w, fmt.Sprintf("Error marking build %v as activated=%v", projCtx.Build.Id, putParams.Active),
				http.StatusInternalServerError)
			return
		}
	case "restart":
		if err := model.RestartBuild(projCtx.Build.Id, putParams.TaskIds, putParams.Abort, user.Id); err != nil {
			http.Error(w, fmt.Sprintf("Error restarting build %v", projCtx.Build.Id), http.StatusInternalServerError)
			return
		}
	default:
		uis.WriteJSON(w, http.StatusBadRequest, "Unrecognized action")
		return
	}

	// After updating the build, fetch updated version to serve back to client
	projCtx.Build, err = build.FindOne(build.ById(projCtx.Build.Id))
	if err != nil {
		uis.LoggedError(w, r, http.StatusInternalServerError, err)
		return
	}
	updatedBuild := uiBuild{
		Build:       *projCtx.Build,
		CurrentTime: time.Now().UnixNano(),
		Elapsed:     time.Now().Sub(projCtx.Build.StartTime),
		RepoOwner:   projCtx.ProjectRef.Owner,
		Repo:        projCtx.ProjectRef.Repo,
		Version:     *projCtx.Version,
	}

	uiTasks, err := getUiTaskCache(projCtx.Build)
	if err != nil {
		uis.LoggedError(w, r, http.StatusInternalServerError, err)
		return
	}
	updatedBuild.Tasks = uiTasks
	uis.WriteJSON(w, http.StatusOK, updatedBuild)
}
Example #14
0
// loadAlertContext fetches details from the database for all documents that are associated with the
// AlertRequest. For example, it populates the task/build/version/project using the
// task/build/version/project ids in the alert request document.
func (qp *QueueProcessor) loadAlertContext(a *alert.AlertRequest) (*AlertContext, error) {
	aCtx := &AlertContext{AlertRequest: a}
	aCtx.Settings = qp.config
	taskId, projectId, buildId, versionId := a.TaskId, a.ProjectId, a.BuildId, a.VersionId
	patchId := a.PatchId
	var err error
	if len(a.HostId) > 0 {
		aCtx.Host, err = host.FindOne(host.ById(a.HostId))
		if err != nil {
			return nil, err
		}
	}
	// Fetch task if there's a task ID present; if we find one, populate build/version IDs from it
	if len(taskId) > 0 {
		aCtx.Task, err = model.FindTask(taskId)
		if err != nil {
			return nil, err
		}
		if aCtx.Task != nil && aCtx.Task.Execution != a.Execution {
			oldTaskId := fmt.Sprintf("%s_%v", taskId, a.Execution)
			aCtx.Task, err = model.FindOneOldTask(bson.M{"_id": oldTaskId}, db.NoProjection, db.NoSort)
			if err != nil {
				return nil, err
			}
		}

		if aCtx.Task != nil {
			// override build and version ID with the ones this task belongs to
			buildId = aCtx.Task.BuildId
			versionId = aCtx.Task.Version
			projectId = aCtx.Task.Project
			aCtx.FailedTests = []model.TestResult{}
			for _, test := range aCtx.Task.TestResults {
				if test.Status == "fail" {
					aCtx.FailedTests = append(aCtx.FailedTests, test)
				}
			}
		}
	}

	// Fetch build if there's a build ID present; if we find one, populate version ID from it
	if len(buildId) > 0 {
		aCtx.Build, err = build.FindOne(build.ById(buildId))
		if err != nil {
			return nil, err
		}
		if aCtx.Build != nil {
			versionId = aCtx.Build.Version
			projectId = aCtx.Build.Project
		}
	}
	if len(versionId) > 0 {
		aCtx.Version, err = version.FindOne(version.ById(versionId))
		if err != nil {
			return nil, err
		}
		if aCtx.Version != nil {
			projectId = aCtx.Version.Identifier
		}
	}

	if len(patchId) > 0 {
		if !patch.IsValidId(patchId) {
			return nil, fmt.Errorf("patch id '%v' is not an object id", patchId)
		}
		aCtx.Patch, err = patch.FindOne(patch.ById(patch.NewId(patchId)).Project(patch.ExcludePatchDiff))
	} else if aCtx.Version != nil {
		// patch isn't in URL but the version in context has one, get it
		aCtx.Patch, err = patch.FindOne(patch.ByVersion(aCtx.Version.Id).Project(patch.ExcludePatchDiff))
	}

	// If there's a finalized patch loaded into context but not a version, load the version
	// associated with the patch as the context's version.
	if aCtx.Version == nil && aCtx.Patch != nil && aCtx.Patch.Version != "" {
		aCtx.Version, err = version.FindOne(version.ById(aCtx.Patch.Version).WithoutFields(version.ConfigKey))
		if err != nil {
			return nil, err
		}
	}

	if len(projectId) > 0 {
		aCtx.ProjectRef, err = qp.findProject(projectId)
		if err != nil {
			return nil, err
		}
	}
	return aCtx, nil
}
Example #15
0
// UpdateBuildStatusForTask finds all the builds for a task and updates the
// status of the build based on the task's status.
func UpdateBuildAndVersionStatusForTask(taskId string) error {
	// retrieve the task by the task id
	t, err := task.FindOne(task.ById(taskId))
	if err != nil {
		return err
	}

	finishTime := time.Now()
	// get all of the tasks in the same build
	b, err := build.FindOne(build.ById(t.BuildId))
	if err != nil {
		return err
	}

	buildTasks, err := task.Find(task.ByBuildId(b.Id))
	if err != nil {
		return err
	}

	pushTaskExists := false
	for _, t := range buildTasks {
		if t.DisplayName == evergreen.PushStage {
			pushTaskExists = true
		}
	}

	failedTask := false
	pushSuccess := true
	pushCompleted := false
	finishedTasks := 0

	// update the build's status based on tasks for this build
	for _, t := range buildTasks {
		if task.IsFinished(t) {
			finishedTasks += 1
			// if it was a compile task, mark the build status accordingly
			if t.DisplayName == evergreen.CompileStage {
				if t.Status != evergreen.TaskSucceeded {
					failedTask = true
					finishedTasks = -1
					err = b.MarkFinished(evergreen.BuildFailed, finishTime)
					if err != nil {
						evergreen.Logger.Errorf(slogger.ERROR, "Error marking build as finished: %v", err)
						return err
					}
					break
				}
			} else if t.DisplayName == evergreen.PushStage {
				pushCompleted = true
				// if it's a finished push, check if it was successful
				if t.Status != evergreen.TaskSucceeded {
					err = b.UpdateStatus(evergreen.BuildFailed)
					if err != nil {
						evergreen.Logger.Errorf(slogger.ERROR, "Error updating build status: %v", err)
						return err
					}
					pushSuccess = false
				}
			} else {
				// update the build's status when a test task isn't successful
				if t.Status != evergreen.TaskSucceeded {
					err = b.UpdateStatus(evergreen.BuildFailed)
					if err != nil {
						evergreen.Logger.Errorf(slogger.ERROR, "Error updating build status: %v", err)
						return err
					}
					failedTask = true
				}
			}
		}
	}

	// if there are no failed tasks, mark the build as started
	if !failedTask {
		err = b.UpdateStatus(evergreen.BuildStarted)
		if err != nil {
			evergreen.Logger.Errorf(slogger.ERROR, "Error updating build status: %v", err)
			return err
		}
	}
	// if a compile task didn't fail, then the
	// build is only finished when both the compile
	// and test tasks are completed or when those are
	// both completed in addition to a push (a push
	// does not occur if there's a failed task)
	if finishedTasks >= len(buildTasks)-1 {
		if !failedTask {
			if pushTaskExists { // this build has a push task associated with it.
				if pushCompleted && pushSuccess { // the push succeeded, so mark the build as succeeded.
					err = b.MarkFinished(evergreen.BuildSucceeded, finishTime)
					if err != nil {
						evergreen.Logger.Errorf(slogger.ERROR, "Error marking build as finished: %v", err)
						return err
					}
				} else if pushCompleted && !pushSuccess { // the push failed, mark build failed.
					err = b.MarkFinished(evergreen.BuildFailed, finishTime)
					if err != nil {
						evergreen.Logger.Errorf(slogger.ERROR, "Error marking build as finished: %v", err)
						return err
					}
				} else {
					//This build does have a "push" task, but it hasn't finished yet
					//So do nothing, since we don't know the status yet.
				}
				if err = MarkVersionCompleted(b.Version, finishTime); err != nil {
					evergreen.Logger.Errorf(slogger.ERROR, "Error marking version as finished: %v", err)
					return err
				}
			} else { // this build has no push task. so go ahead and mark it success/failure.
				if err = b.MarkFinished(evergreen.BuildSucceeded, finishTime); err != nil {
					evergreen.Logger.Errorf(slogger.ERROR, "Error marking build as finished: %v", err)
					return err
				}
				if b.Requester == evergreen.PatchVersionRequester {
					if err = TryMarkPatchBuildFinished(b, finishTime); err != nil {
						evergreen.Logger.Errorf(slogger.ERROR, "Error marking patch as finished: %v", err)
						return err
					}
				}
				if err = MarkVersionCompleted(b.Version, finishTime); err != nil {
					evergreen.Logger.Errorf(slogger.ERROR, "Error marking version as finished: %v", err)
					return err
				}
			}
		} else {
			// some task failed
			if err = b.MarkFinished(evergreen.BuildFailed, finishTime); err != nil {
				evergreen.Logger.Errorf(slogger.ERROR, "Error marking build as finished: %v", err)
				return err
			}
			if b.Requester == evergreen.PatchVersionRequester {
				if err = TryMarkPatchBuildFinished(b, finishTime); err != nil {
					evergreen.Logger.Errorf(slogger.ERROR, "Error marking patch as finished: %v", err)
					return err
				}
			}
			if err = MarkVersionCompleted(b.Version, finishTime); err != nil {
				evergreen.Logger.Errorf(slogger.ERROR, "Error marking version as finished: %v", err)
				return err
			}
		}

		// update the build's makespan information if the task has finished
		err = updateMakespans(b)
		if err != nil {
			evergreen.Logger.Errorf(slogger.ERROR, "Error updating makespan information: %v", err)
			return err
		}
	}

	// this is helpful for when we restart a compile task
	if finishedTasks == 0 {
		err = b.UpdateStatus(evergreen.BuildCreated)
		if err != nil {
			evergreen.Logger.Errorf(slogger.ERROR, "Error updating build status: %v", err)
			return err
		}
	}

	return nil
}
Example #16
0
func TestBuildRestart(t *testing.T) {
	Convey("Restarting a build", t, func() {

		testutil.HandleTestingErr(db.ClearCollections(build.Collection, task.Collection), t,
			"Error clearing test collection")
		b := &build.Build{
			Id: "build",
			Tasks: []build.TaskCache{
				{
					Id:        "task1",
					Status:    evergreen.TaskSucceeded,
					Activated: true,
				},
				{
					Id:        "task2",
					Status:    evergreen.TaskDispatched,
					Activated: true,
				},
				{
					Id:        "task3",
					Status:    evergreen.TaskDispatched,
					Activated: true,
				},
				{
					Id:        "task4",
					Status:    evergreen.TaskDispatched,
					Activated: true,
				},
			},
		}
		So(b.Insert(), ShouldBeNil)

		Convey("with task abort should update the status of"+
			" non in-progress tasks and abort in-progress ones", func() {

			taskOne := &task.Task{
				Id:          "task1",
				DisplayName: "task1",
				BuildId:     b.Id,
				Status:      evergreen.TaskSucceeded,
			}
			So(taskOne.Insert(), ShouldBeNil)

			taskTwo := &task.Task{
				Id:          "task2",
				DisplayName: "task2",
				BuildId:     b.Id,
				Status:      evergreen.TaskDispatched,
			}
			So(taskTwo.Insert(), ShouldBeNil)

			So(RestartBuild(b.Id, []string{"task1", "task2"}, true, evergreen.DefaultTaskActivator), ShouldBeNil)
			b, err := build.FindOne(build.ById(b.Id))
			So(err, ShouldBeNil)
			So(b.Status, ShouldEqual, evergreen.BuildCreated)
			So(b.Activated, ShouldEqual, true)
			So(b.Tasks[0].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(b.Tasks[1].Status, ShouldEqual, evergreen.TaskDispatched)
			So(b.Tasks[0].Activated, ShouldEqual, true)
			So(b.Tasks[1].Activated, ShouldEqual, true)
			taskOne, err = task.FindOne(task.ById("task1"))
			So(err, ShouldBeNil)
			So(taskOne.Status, ShouldEqual, evergreen.TaskUndispatched)
			taskTwo, err = task.FindOne(task.ById("task2"))
			So(err, ShouldBeNil)
			So(taskTwo.Aborted, ShouldEqual, true)
		})

		Convey("without task abort should update the status"+
			" of only those build tasks not in-progress", func() {

			taskThree := &task.Task{
				Id:          "task3",
				DisplayName: "task3",
				BuildId:     b.Id,
				Status:      evergreen.TaskSucceeded,
			}
			So(taskThree.Insert(), ShouldBeNil)

			taskFour := &task.Task{
				Id:          "task4",
				DisplayName: "task4",
				BuildId:     b.Id,
				Status:      evergreen.TaskDispatched,
			}
			So(taskFour.Insert(), ShouldBeNil)

			So(RestartBuild(b.Id, []string{"task3", "task4"}, false, evergreen.DefaultTaskActivator), ShouldBeNil)
			b, err := build.FindOne(build.ById(b.Id))
			So(err, ShouldBeNil)
			So(err, ShouldBeNil)
			So(b.Status, ShouldEqual, evergreen.BuildCreated)
			So(b.Activated, ShouldEqual, true)
			So(b.Tasks[2].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(b.Tasks[3].Status, ShouldEqual, evergreen.TaskDispatched)
			So(b.Tasks[2].Activated, ShouldEqual, true)
			So(b.Tasks[3].Activated, ShouldEqual, true)
			taskThree, err = task.FindOne(task.ById("task3"))
			So(err, ShouldBeNil)
			So(taskThree.Status, ShouldEqual, evergreen.TaskUndispatched)
			taskFour, err = task.FindOne(task.ById("task4"))
			So(err, ShouldBeNil)
			So(taskFour.Aborted, ShouldEqual, false)
			So(taskFour.Status, ShouldEqual, evergreen.TaskDispatched)
		})

	})
}
Example #17
0
func TestBuildSetActivated(t *testing.T) {
	Convey("With a build", t, func() {

		testutil.HandleTestingErr(db.ClearCollections(build.Collection, TasksCollection), t,
			"Error clearing test collection")

		Convey("when changing the activated status of the build", func() {

			Convey("the activated status of the build and all undispatched"+
				" tasks that are part of it should be set", func() {

				b := &build.Build{
					Id:           "build",
					Activated:    true,
					BuildVariant: "bv",
				}
				So(b.Insert(), ShouldBeNil)

				// insert three tasks, with only one of them undispatched and
				// belonging to the correct build

				wrongBuildId := &Task{
					Id:        "wrongBuildId",
					BuildId:   "blech",
					Status:    evergreen.TaskUndispatched,
					Activated: true,
				}
				So(wrongBuildId.Insert(), ShouldBeNil)

				wrongStatus := &Task{
					Id:        "wrongStatus",
					BuildId:   b.Id,
					Status:    evergreen.TaskDispatched,
					Activated: true,
				}
				So(wrongStatus.Insert(), ShouldBeNil)

				matching := &Task{
					Id:        "matching",
					BuildId:   b.Id,
					Status:    evergreen.TaskUndispatched,
					Activated: true,
				}
				So(matching.Insert(), ShouldBeNil)

				So(SetBuildActivation(b.Id, false), ShouldBeNil)
				// the build should have been updated in the db
				b, err := build.FindOne(build.ById(b.Id))
				So(err, ShouldBeNil)
				So(b.Activated, ShouldBeFalse)

				// only the matching task should have been updated

				deactivatedTasks, err := FindAllTasks(
					bson.M{TaskActivatedKey: false},
					db.NoProjection,
					db.NoSort,
					db.NoSkip,
					db.NoLimit,
				)
				So(err, ShouldBeNil)
				So(len(deactivatedTasks), ShouldEqual, 1)
				So(deactivatedTasks[0].Id, ShouldEqual, matching.Id)
			})

			Convey("all of the undispatched task caches within the build"+
				" should be updated, both in memory and in the"+
				" database", func() {

				b := &build.Build{
					Id:           "build",
					Activated:    true,
					BuildVariant: "foo",
					Tasks: []build.TaskCache{
						{
							Id:        "tc1",
							Status:    evergreen.TaskUndispatched,
							Activated: true,
						},
						{
							Id:        "tc2",
							Status:    evergreen.TaskDispatched,
							Activated: true,
						},
						{
							Id:        "tc3",
							Status:    evergreen.TaskUndispatched,
							Activated: true,
						},
					},
				}
				So(b.Insert(), ShouldBeNil)

				t1 := &Task{Id: "tc1", BuildId: b.Id, Status: evergreen.TaskUndispatched, Activated: true}
				t2 := &Task{Id: "tc2", BuildId: b.Id, Status: evergreen.TaskDispatched, Activated: true}
				t3 := &Task{Id: "tc3", BuildId: b.Id, Status: evergreen.TaskUndispatched, Activated: true}
				So(t1.Insert(), ShouldBeNil)
				So(t2.Insert(), ShouldBeNil)
				So(t3.Insert(), ShouldBeNil)

				So(SetBuildActivation(b.Id, false), ShouldBeNil)
				// refresh from the database and check again
				b, err := build.FindOne(build.ById(b.Id))
				So(err, ShouldBeNil)
				So(b.Activated, ShouldBeFalse)
				So(b.Tasks[0].Activated, ShouldBeFalse)
				So(b.Tasks[1].Activated, ShouldBeTrue)
				So(b.Tasks[2].Activated, ShouldBeFalse)
			})
		})
	})
}
Example #18
0
func TestBuildSetActivated(t *testing.T) {
	Convey("With a build", t, func() {

		testutil.HandleTestingErr(db.ClearCollections(build.Collection, task.Collection), t,
			"Error clearing test collection")

		Convey("when changing the activated status of the build to true", func() {
			Convey("the activated status of the build and all undispatched"+
				" tasks that are part of it should be set", func() {

				user := "******"

				b := &build.Build{
					Id:           "build",
					Activated:    true,
					BuildVariant: "bv",
				}
				So(b.Insert(), ShouldBeNil)

				// insert three tasks, with only one of them undispatched and
				// belonging to the correct build

				wrongBuildId := &task.Task{
					Id:        "wrongBuildId",
					BuildId:   "blech",
					Status:    evergreen.TaskUndispatched,
					Activated: true,
				}
				So(wrongBuildId.Insert(), ShouldBeNil)

				wrongStatus := &task.Task{
					Id:        "wrongStatus",
					BuildId:   b.Id,
					Status:    evergreen.TaskDispatched,
					Activated: true,
				}
				So(wrongStatus.Insert(), ShouldBeNil)

				matching := &task.Task{
					Id:        "matching",
					BuildId:   b.Id,
					Status:    evergreen.TaskUndispatched,
					Activated: true,
				}

				So(matching.Insert(), ShouldBeNil)

				differentUser := &task.Task{
					Id:          "differentUser",
					BuildId:     b.Id,
					Status:      evergreen.TaskUndispatched,
					Activated:   true,
					ActivatedBy: user,
				}

				So(differentUser.Insert(), ShouldBeNil)

				So(SetBuildActivation(b.Id, false, evergreen.DefaultTaskActivator), ShouldBeNil)
				// the build should have been updated in the db
				b, err := build.FindOne(build.ById(b.Id))
				So(err, ShouldBeNil)
				So(b.Activated, ShouldBeFalse)
				So(b.ActivatedBy, ShouldEqual, evergreen.DefaultTaskActivator)

				// only the matching task should have been updated that has not been set by a user
				deactivatedTasks, err := task.Find(task.ByActivation(false))
				So(err, ShouldBeNil)
				So(len(deactivatedTasks), ShouldEqual, 1)
				So(deactivatedTasks[0].Id, ShouldEqual, matching.Id)

				// task with the different user activating should be activated with that user
				differentUserTask, err := task.FindOne(task.ById(differentUser.Id))
				So(err, ShouldBeNil)
				So(differentUserTask.Activated, ShouldBeTrue)
				So(differentUserTask.ActivatedBy, ShouldEqual, user)

			})

			Convey("all of the undispatched task caches within the build"+
				" should be updated, both in memory and in the"+
				" database", func() {

				b := &build.Build{
					Id:           "build",
					Activated:    true,
					BuildVariant: "foo",
					Tasks: []build.TaskCache{
						{
							Id:        "tc1",
							Status:    evergreen.TaskUndispatched,
							Activated: true,
						},
						{
							Id:        "tc2",
							Status:    evergreen.TaskDispatched,
							Activated: true,
						},
						{
							Id:        "tc3",
							Status:    evergreen.TaskUndispatched,
							Activated: true,
						},
						{
							Id:        "tc4",
							Status:    evergreen.TaskUndispatched,
							Activated: true,
						},
					},
				}
				So(b.Insert(), ShouldBeNil)

				t1 := &task.Task{Id: "tc1", DisplayName: "tc1", BuildId: b.Id, Status: evergreen.TaskUndispatched, Activated: true}
				t2 := &task.Task{Id: "tc2", DisplayName: "tc2", BuildId: b.Id, Status: evergreen.TaskDispatched, Activated: true}
				t3 := &task.Task{Id: "tc3", DisplayName: "tc3", BuildId: b.Id, Status: evergreen.TaskUndispatched, Activated: true}
				t4 := &task.Task{Id: "tc4", DisplayName: "tc4", BuildId: b.Id, Status: evergreen.TaskUndispatched, Activated: true, ActivatedBy: "anotherUser"}
				So(t1.Insert(), ShouldBeNil)
				So(t2.Insert(), ShouldBeNil)
				So(t3.Insert(), ShouldBeNil)
				So(t4.Insert(), ShouldBeNil)

				So(SetBuildActivation(b.Id, false, evergreen.DefaultTaskActivator), ShouldBeNil)
				// refresh from the database and check again
				b, err := build.FindOne(build.ById(b.Id))
				So(err, ShouldBeNil)
				So(b.Activated, ShouldBeFalse)
				So(b.Tasks[0].Activated, ShouldBeFalse)
				So(b.Tasks[1].Activated, ShouldBeTrue)
				So(b.Tasks[2].Activated, ShouldBeFalse)
				So(b.Tasks[3].Activated, ShouldBeTrue)
			})

			Convey("if a build is activated by a user it should not be able to be deactivated by evergreen", func() {
				user := "******"

				b := &build.Build{
					Id:           "anotherBuild",
					Activated:    true,
					BuildVariant: "bv",
				}

				So(b.Insert(), ShouldBeNil)

				matching := &task.Task{
					Id:        "matching",
					BuildId:   b.Id,
					Status:    evergreen.TaskUndispatched,
					Activated: false,
				}
				So(matching.Insert(), ShouldBeNil)

				matching2 := &task.Task{
					Id:        "matching2",
					BuildId:   b.Id,
					Status:    evergreen.TaskUndispatched,
					Activated: false,
				}
				So(matching2.Insert(), ShouldBeNil)

				// have a user set the build activation to true
				So(SetBuildActivation(b.Id, true, user), ShouldBeNil)

				// task with the different user activating should be activated with that user
				task1, err := task.FindOne(task.ById(matching.Id))
				So(err, ShouldBeNil)
				So(task1.Activated, ShouldBeTrue)
				So(task1.ActivatedBy, ShouldEqual, user)

				// task with the different user activating should be activated with that user
				task2, err := task.FindOne(task.ById(matching2.Id))
				So(err, ShouldBeNil)
				So(task2.Activated, ShouldBeTrue)
				So(task2.ActivatedBy, ShouldEqual, user)

				// refresh from the database and check again
				b, err = build.FindOne(build.ById(b.Id))
				So(b.Activated, ShouldBeTrue)
				So(b.ActivatedBy, ShouldEqual, user)

				// deactivate the task from evergreen and nothing should be deactivated.
				So(SetBuildActivation(b.Id, false, evergreen.DefaultTaskActivator), ShouldBeNil)

				// refresh from the database and check again
				b, err = build.FindOne(build.ById(b.Id))
				So(b.Activated, ShouldBeTrue)
				So(b.ActivatedBy, ShouldEqual, user)

				// task with the different user activating should be activated with that user
				task1, err = task.FindOne(task.ById(matching.Id))
				So(err, ShouldBeNil)
				So(task1.Activated, ShouldBeTrue)
				So(task1.ActivatedBy, ShouldEqual, user)

				// task with the different user activating should be activated with that user
				task2, err = task.FindOne(task.ById(matching2.Id))
				So(err, ShouldBeNil)
				So(task2.Activated, ShouldBeTrue)
				So(task2.ActivatedBy, ShouldEqual, user)

			})
		})

	})
}
Example #19
0
func TestBuildMarkAborted(t *testing.T) {
	Convey("With a build", t, func() {

		testutil.HandleTestingErr(db.ClearCollections(build.Collection, task.Collection, version.Collection), t,
			"Error clearing test collection")

		v := &version.Version{
			Id: "v",
			BuildVariants: []version.BuildStatus{
				{
					BuildVariant: "bv",
					Activated:    true,
				},
			},
		}

		So(v.Insert(), ShouldBeNil)

		b := &build.Build{
			Id:           "build",
			Activated:    true,
			BuildVariant: "bv",
			Version:      "v",
		}
		So(b.Insert(), ShouldBeNil)

		Convey("when marking it as aborted", func() {

			Convey("it should be deactivated", func() {
				So(AbortBuild(b.Id, evergreen.DefaultTaskActivator), ShouldBeNil)
				b, err := build.FindOne(build.ById(b.Id))
				So(err, ShouldBeNil)
				So(b.Activated, ShouldBeFalse)
			})

			Convey("all abortable tasks for it should be aborted", func() {

				// insert two abortable tasks and one non-abortable task
				// for the correct build, and one abortable task for
				// a different build

				abortableOne := &task.Task{
					Id:      "abortableOne",
					BuildId: b.Id,
					Status:  evergreen.TaskStarted,
				}
				So(abortableOne.Insert(), ShouldBeNil)

				abortableTwo := &task.Task{
					Id:      "abortableTwo",
					BuildId: b.Id,
					Status:  evergreen.TaskDispatched,
				}
				So(abortableTwo.Insert(), ShouldBeNil)

				notAbortable := &task.Task{
					Id:      "notAbortable",
					BuildId: b.Id,
					Status:  evergreen.TaskSucceeded,
				}
				So(notAbortable.Insert(), ShouldBeNil)

				wrongBuildId := &task.Task{
					Id:      "wrongBuildId",
					BuildId: "blech",
					Status:  evergreen.TaskStarted,
				}
				So(wrongBuildId.Insert(), ShouldBeNil)

				// aborting the build should mark only the two abortable tasks
				// with the correct build id as aborted

				So(AbortBuild(b.Id, evergreen.DefaultTaskActivator), ShouldBeNil)

				abortedTasks, err := task.Find(task.ByAborted(true))
				So(err, ShouldBeNil)
				So(len(abortedTasks), ShouldEqual, 2)
				So(taskIdInSlice(abortedTasks, abortableOne.Id), ShouldBeTrue)
				So(taskIdInSlice(abortedTasks, abortableTwo.Id), ShouldBeTrue)
			})
		})
	})
}
Example #20
0
func TestCreateBuildFromVersion(t *testing.T) {

	Convey("When creating a build from a version", t, func() {

		testutil.HandleTestingErr(db.ClearCollections(build.Collection, task.Collection), t,
			"Error clearing test collection")

		// the mock build variant we'll be using. runs all three tasks
		buildVar1 := BuildVariant{
			Name:        "buildVar",
			DisplayName: "Build Variant",
			Tasks: []BuildVariantTask{
				{Name: "taskA"}, {Name: "taskB"}, {Name: "taskC"}, {Name: "taskD"},
			},
		}
		buildVar2 := BuildVariant{
			Name:        "buildVar2",
			DisplayName: "Build Variant 2",
			Tasks: []BuildVariantTask{
				{Name: "taskA"}, {Name: "taskB"}, {Name: "taskC"}, {Name: "taskE"},
			},
		}
		buildVar3 := BuildVariant{
			Name:        "buildVar3",
			DisplayName: "Build Variant 3",
			Tasks: []BuildVariantTask{
				{
					// wait for the first BV's taskA to complete
					Name:      "taskA",
					DependsOn: []TaskDependency{{Name: "taskA", Variant: "buildVar"}},
				},
			},
		}

		project := &Project{
			Tasks: []ProjectTask{
				{
					Name:      "taskA",
					Priority:  5,
					Tags:      []string{"tag1", "tag2"},
					DependsOn: []TaskDependency{},
				},
				{
					Name:      "taskB",
					Tags:      []string{"tag1", "tag2"},
					DependsOn: []TaskDependency{{Name: "taskA", Variant: "buildVar"}},
				},
				{
					Name: "taskC",
					Tags: []string{"tag1", "tag2"},
					DependsOn: []TaskDependency{
						{Name: "taskA"},
						{Name: "taskB"},
					},
				},
				{
					Name:      "taskD",
					Tags:      []string{"tag1", "tag2"},
					DependsOn: []TaskDependency{{Name: AllDependencies}},
				},
				{
					Name: "taskE",
					Tags: []string{"tag1", "tag2"},
					DependsOn: []TaskDependency{
						{
							Name:    AllDependencies,
							Variant: AllVariants,
						},
					},
				},
			},
			BuildVariants: []BuildVariant{buildVar1, buildVar2, buildVar3},
		}

		// the mock version we'll be using
		v := &version.Version{
			Id:                  "versionId",
			CreateTime:          time.Now(),
			Revision:            "foobar",
			RevisionOrderNumber: 500,
			Requester:           evergreen.RepotrackerVersionRequester,
			BuildVariants: []version.BuildStatus{
				{
					BuildVariant: buildVar1.Name,
					Activated:    false,
				},
				{
					BuildVariant: buildVar2.Name,
					Activated:    false,
				},
				{
					BuildVariant: buildVar3.Name,
					Activated:    false,
				},
			},
		}

		tt := BuildTaskIdTable(project, v)

		Convey("the task id table should be well-formed", func() {
			So(tt.GetId("buildVar", "taskA"), ShouldNotEqual, "")
			So(tt.GetId("buildVar", "taskB"), ShouldNotEqual, "")
			So(tt.GetId("buildVar", "taskC"), ShouldNotEqual, "")
			So(tt.GetId("buildVar", "taskD"), ShouldNotEqual, "")
			So(tt.GetId("buildVar2", "taskA"), ShouldNotEqual, "")
			So(tt.GetId("buildVar2", "taskB"), ShouldNotEqual, "")
			So(tt.GetId("buildVar2", "taskC"), ShouldNotEqual, "")
			So(tt.GetId("buildVar2", "taskE"), ShouldNotEqual, "")
			So(tt.GetId("buildVar3", "taskA"), ShouldNotEqual, "")

			Convey(`and incorrect GetId() calls should return ""`, func() {
				So(tt.GetId("buildVar", "taskF"), ShouldEqual, "")
				So(tt.GetId("buildVar2", "taskD"), ShouldEqual, "")
				So(tt.GetId("buildVar7", "taskA"), ShouldEqual, "")
			})
		})

		Convey("if a non-existent build variant is passed in, an error should be returned", func() {

			buildId, err := CreateBuildFromVersion(project, v, tt, "blecch", false, []string{})
			So(err, ShouldNotBeNil)
			So(buildId, ShouldEqual, "")

		})

		Convey("if no task names are passed in to be used, all of the default"+
			" tasks for the build variant should be created", func() {

			buildId, err := CreateBuildFromVersion(project, v, tt, buildVar1.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")
			buildId2, err := CreateBuildFromVersion(project, v, tt, buildVar2.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId2, ShouldNotEqual, "")

			// find the tasks, make sure they were all created
			tasks, err := task.Find(task.All)
			So(err, ShouldBeNil)
			So(len(tasks), ShouldEqual, 8)
			So(len(tasks[0].Tags), ShouldEqual, 2)

		})

		Convey("if a non-empty list of task names is passed in, only the"+
			" specified tasks should be created", func() {

			buildId, err := CreateBuildFromVersion(project, v, tt, buildVar1.Name, false,
				[]string{"taskA", "taskB"})
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")

			// find the tasks, make sure they were all created
			tasks, err := task.Find(task.All)
			So(err, ShouldBeNil)
			So(len(tasks), ShouldEqual, 2)

		})

		Convey("the build should contain task caches that correspond exactly"+
			" to the tasks created", func() {

			buildId, err := CreateBuildFromVersion(project, v, tt, buildVar1.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")

			// find the tasks, make sure they were all created
			tasks, err := task.Find(task.All)
			So(err, ShouldBeNil)
			So(len(tasks), ShouldEqual, 4)

			// find the build from the db
			b, err := build.FindOne(build.ById(buildId))
			So(err, ShouldBeNil)
			So(len(b.Tasks), ShouldEqual, 4)

			// make sure the task caches are correct.  they should also appear
			// in the same order that they appear in the project file
			So(b.Tasks[0].Id, ShouldNotEqual, "")
			So(b.Tasks[0].DisplayName, ShouldEqual, "taskA")
			So(b.Tasks[0].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(b.Tasks[1].Id, ShouldNotEqual, "")
			So(b.Tasks[1].DisplayName, ShouldEqual, "taskB")
			So(b.Tasks[1].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(b.Tasks[2].Id, ShouldNotEqual, "")
			So(b.Tasks[2].DisplayName, ShouldEqual, "taskC")
			So(b.Tasks[2].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(b.Tasks[3].Id, ShouldNotEqual, "")
			So(b.Tasks[3].DisplayName, ShouldEqual, "taskD")
			So(b.Tasks[3].Status, ShouldEqual, evergreen.TaskUndispatched)

		})

		Convey("all of the tasks created should have the dependencies"+
			"and priorities specified in the project", func() {

			buildId, err := CreateBuildFromVersion(project, v, tt, buildVar1.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")
			buildId2, err := CreateBuildFromVersion(project, v, tt, buildVar2.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId2, ShouldNotEqual, "")
			buildId3, err := CreateBuildFromVersion(project, v, tt, buildVar3.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId3, ShouldNotEqual, "")

			// find the tasks, make sure they were all created
			tasks, err := task.Find(task.All.Sort([]string{task.DisplayNameKey, task.BuildVariantKey}))
			So(err, ShouldBeNil)
			So(len(tasks), ShouldEqual, 9)

			// taskA
			So(len(tasks[0].DependsOn), ShouldEqual, 0)
			So(len(tasks[1].DependsOn), ShouldEqual, 0)
			So(len(tasks[2].DependsOn), ShouldEqual, 1)
			So(tasks[0].Priority, ShouldEqual, 5)
			So(tasks[1].Priority, ShouldEqual, 5)
			So(tasks[2].DependsOn, ShouldResemble,
				[]task.Dependency{{tasks[0].Id, evergreen.TaskSucceeded}})

			// taskB
			So(tasks[3].DependsOn, ShouldResemble,
				[]task.Dependency{{tasks[0].Id, evergreen.TaskSucceeded}})
			So(tasks[4].DependsOn, ShouldResemble,
				[]task.Dependency{{tasks[0].Id, evergreen.TaskSucceeded}}) //cross-variant
			So(tasks[3].Priority, ShouldEqual, 0)
			So(tasks[4].Priority, ShouldEqual, 0) //default priority

			// taskC
			So(tasks[5].DependsOn, ShouldResemble,
				[]task.Dependency{
					{tasks[0].Id, evergreen.TaskSucceeded},
					{tasks[3].Id, evergreen.TaskSucceeded}})
			So(tasks[6].DependsOn, ShouldResemble,
				[]task.Dependency{
					{tasks[1].Id, evergreen.TaskSucceeded},
					{tasks[4].Id, evergreen.TaskSucceeded}})
			So(tasks[7].DependsOn, ShouldResemble,
				[]task.Dependency{
					{tasks[0].Id, evergreen.TaskSucceeded},
					{tasks[3].Id, evergreen.TaskSucceeded},
					{tasks[5].Id, evergreen.TaskSucceeded}})
			So(tasks[8].DisplayName, ShouldEqual, "taskE")
			So(len(tasks[8].DependsOn), ShouldEqual, 8)
		})

		Convey("all of the build's essential fields should be set"+
			" correctly", func() {

			buildId, err := CreateBuildFromVersion(project, v, tt, buildVar1.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")

			// find the build from the db
			b, err := build.FindOne(build.ById(buildId))
			So(err, ShouldBeNil)

			// verify all the fields are set appropriately
			So(len(b.Tasks), ShouldEqual, 4)
			So(b.CreateTime.Truncate(time.Second), ShouldResemble,
				v.CreateTime.Truncate(time.Second))
			So(b.PushTime.Truncate(time.Second), ShouldResemble,
				v.CreateTime.Truncate(time.Second))
			So(b.Activated, ShouldEqual, v.BuildVariants[0].Activated)
			So(b.Project, ShouldEqual, project.Identifier)
			So(b.Revision, ShouldEqual, v.Revision)
			So(b.Status, ShouldEqual, evergreen.BuildCreated)
			So(b.BuildVariant, ShouldEqual, buildVar1.Name)
			So(b.Version, ShouldEqual, v.Id)
			So(b.DisplayName, ShouldEqual, buildVar1.DisplayName)
			So(b.RevisionOrderNumber, ShouldEqual, v.RevisionOrderNumber)
			So(b.Requester, ShouldEqual, v.Requester)

		})

		Convey("all of the tasks' essential fields should be set"+
			" correctly", func() {

			buildId, err := CreateBuildFromVersion(project, v, tt, buildVar1.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")

			// find the build from the db
			b, err := build.FindOne(build.ById(buildId))
			So(err, ShouldBeNil)

			// find the tasks, make sure they were all created
			tasks, err := task.Find(task.All.Sort([]string{task.DisplayNameKey}))
			So(err, ShouldBeNil)
			So(len(tasks), ShouldEqual, 4)

			So(tasks[0].Id, ShouldNotEqual, "")
			So(tasks[0].Secret, ShouldNotEqual, "")
			So(tasks[0].DisplayName, ShouldEqual, "taskA")
			So(tasks[0].BuildId, ShouldEqual, buildId)
			So(tasks[0].DistroId, ShouldEqual, "")
			So(tasks[0].BuildVariant, ShouldEqual, buildVar1.Name)
			So(tasks[0].CreateTime.Truncate(time.Second), ShouldResemble,
				b.CreateTime.Truncate(time.Second))
			So(tasks[0].PushTime.Truncate(time.Second), ShouldResemble,
				b.PushTime.Truncate(time.Second))
			So(tasks[0].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(tasks[0].Activated, ShouldEqual, b.Activated)
			So(tasks[0].RevisionOrderNumber, ShouldEqual, b.RevisionOrderNumber)
			So(tasks[0].Requester, ShouldEqual, b.Requester)
			So(tasks[0].Version, ShouldEqual, v.Id)
			So(tasks[0].Revision, ShouldEqual, v.Revision)
			So(tasks[0].Project, ShouldEqual, project.Identifier)

			So(tasks[1].Id, ShouldNotEqual, "")
			So(tasks[1].Secret, ShouldNotEqual, "")
			So(tasks[1].DisplayName, ShouldEqual, "taskB")
			So(tasks[1].BuildId, ShouldEqual, buildId)
			So(tasks[1].DistroId, ShouldEqual, "")
			So(tasks[1].BuildVariant, ShouldEqual, buildVar1.Name)
			So(tasks[1].CreateTime.Truncate(time.Second), ShouldResemble,
				b.CreateTime.Truncate(time.Second))
			So(tasks[1].PushTime.Truncate(time.Second), ShouldResemble,
				b.PushTime.Truncate(time.Second))
			So(tasks[1].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(tasks[1].Activated, ShouldEqual, b.Activated)
			So(tasks[1].RevisionOrderNumber, ShouldEqual, b.RevisionOrderNumber)
			So(tasks[1].Requester, ShouldEqual, b.Requester)
			So(tasks[1].Version, ShouldEqual, v.Id)
			So(tasks[1].Revision, ShouldEqual, v.Revision)
			So(tasks[1].Project, ShouldEqual, project.Identifier)

			So(tasks[2].Id, ShouldNotEqual, "")
			So(tasks[2].Secret, ShouldNotEqual, "")
			So(tasks[2].DisplayName, ShouldEqual, "taskC")
			So(tasks[2].BuildId, ShouldEqual, buildId)
			So(tasks[2].DistroId, ShouldEqual, "")
			So(tasks[2].BuildVariant, ShouldEqual, buildVar1.Name)
			So(tasks[2].CreateTime.Truncate(time.Second), ShouldResemble,
				b.CreateTime.Truncate(time.Second))
			So(tasks[2].PushTime.Truncate(time.Second), ShouldResemble,
				b.PushTime.Truncate(time.Second))
			So(tasks[2].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(tasks[2].Activated, ShouldEqual, b.Activated)
			So(tasks[2].RevisionOrderNumber, ShouldEqual, b.RevisionOrderNumber)
			So(tasks[2].Requester, ShouldEqual, b.Requester)
			So(tasks[2].Version, ShouldEqual, v.Id)
			So(tasks[2].Revision, ShouldEqual, v.Revision)
			So(tasks[2].Project, ShouldEqual, project.Identifier)

			So(tasks[3].Id, ShouldNotEqual, "")
			So(tasks[3].Secret, ShouldNotEqual, "")
			So(tasks[3].DisplayName, ShouldEqual, "taskD")
			So(tasks[3].BuildId, ShouldEqual, buildId)
			So(tasks[3].DistroId, ShouldEqual, "")
			So(tasks[3].BuildVariant, ShouldEqual, buildVar1.Name)
			So(tasks[3].CreateTime.Truncate(time.Second), ShouldResemble,
				b.CreateTime.Truncate(time.Second))
			So(tasks[3].PushTime.Truncate(time.Second), ShouldResemble,
				b.PushTime.Truncate(time.Second))
			So(tasks[3].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(tasks[3].Activated, ShouldEqual, b.Activated)
			So(tasks[3].RevisionOrderNumber, ShouldEqual, b.RevisionOrderNumber)
			So(tasks[3].Requester, ShouldEqual, b.Requester)
			So(tasks[3].Version, ShouldEqual, v.Id)
			So(tasks[3].Revision, ShouldEqual, v.Revision)
			So(tasks[3].Project, ShouldEqual, project.Identifier)
		})

		Convey("if the activated flag is set, the build and all its tasks should be activated",
			func() {

				buildId, err := CreateBuildFromVersion(project, v, tt, buildVar1.Name, true, nil)
				So(err, ShouldBeNil)
				So(buildId, ShouldNotEqual, "")

				// find the build from the db
				build, err := build.FindOne(build.ById(buildId))
				So(err, ShouldBeNil)
				So(build.Activated, ShouldBeTrue)

				// find the tasks, make sure they were all created
				tasks, err := task.Find(task.All.Sort([]string{task.DisplayNameKey}))
				So(err, ShouldBeNil)
				So(len(tasks), ShouldEqual, 4)

				So(tasks[0].Id, ShouldNotEqual, "")
				So(tasks[0].Secret, ShouldNotEqual, "")
				So(tasks[0].DisplayName, ShouldEqual, "taskA")
				So(tasks[0].BuildId, ShouldEqual, buildId)
				So(tasks[0].DistroId, ShouldEqual, "")
				So(tasks[0].BuildVariant, ShouldEqual, buildVar1.Name)
				So(tasks[0].CreateTime.Truncate(time.Second), ShouldResemble,
					build.CreateTime.Truncate(time.Second))
				So(tasks[0].PushTime.Truncate(time.Second), ShouldResemble,
					build.PushTime.Truncate(time.Second))
				So(tasks[0].Status, ShouldEqual, evergreen.TaskUndispatched)
				So(tasks[0].Activated, ShouldEqual, build.Activated)
				So(tasks[0].RevisionOrderNumber, ShouldEqual, build.RevisionOrderNumber)
				So(tasks[0].Requester, ShouldEqual, build.Requester)
				So(tasks[0].Version, ShouldEqual, v.Id)
				So(tasks[0].Revision, ShouldEqual, v.Revision)
				So(tasks[0].Project, ShouldEqual, project.Identifier)

				So(tasks[1].Id, ShouldNotEqual, "")
				So(tasks[1].Secret, ShouldNotEqual, "")
				So(tasks[1].DisplayName, ShouldEqual, "taskB")
				So(tasks[1].BuildId, ShouldEqual, buildId)
				So(tasks[1].DistroId, ShouldEqual, "")
				So(tasks[1].BuildVariant, ShouldEqual, buildVar1.Name)
				So(tasks[1].CreateTime.Truncate(time.Second), ShouldResemble,
					build.CreateTime.Truncate(time.Second))
				So(tasks[1].PushTime.Truncate(time.Second), ShouldResemble,
					build.PushTime.Truncate(time.Second))
				So(tasks[1].Status, ShouldEqual, evergreen.TaskUndispatched)
				So(tasks[1].Activated, ShouldEqual, build.Activated)
				So(tasks[1].RevisionOrderNumber, ShouldEqual, build.RevisionOrderNumber)
				So(tasks[1].Requester, ShouldEqual, build.Requester)
				So(tasks[1].Version, ShouldEqual, v.Id)
				So(tasks[1].Revision, ShouldEqual, v.Revision)
				So(tasks[1].Project, ShouldEqual, project.Identifier)

				So(tasks[2].Id, ShouldNotEqual, "")
				So(tasks[2].Secret, ShouldNotEqual, "")
				So(tasks[2].DisplayName, ShouldEqual, "taskC")
				So(tasks[2].BuildId, ShouldEqual, buildId)
				So(tasks[2].DistroId, ShouldEqual, "")
				So(tasks[2].BuildVariant, ShouldEqual, buildVar1.Name)
				So(tasks[2].CreateTime.Truncate(time.Second), ShouldResemble,
					build.CreateTime.Truncate(time.Second))
				So(tasks[2].PushTime.Truncate(time.Second), ShouldResemble,
					build.PushTime.Truncate(time.Second))
				So(tasks[2].Status, ShouldEqual, evergreen.TaskUndispatched)
				So(tasks[2].Activated, ShouldEqual, build.Activated)
				So(tasks[2].RevisionOrderNumber, ShouldEqual, build.RevisionOrderNumber)
				So(tasks[2].Requester, ShouldEqual, build.Requester)
				So(tasks[2].Version, ShouldEqual, v.Id)
				So(tasks[2].Revision, ShouldEqual, v.Revision)
				So(tasks[2].Project, ShouldEqual, project.Identifier)

				So(tasks[3].Id, ShouldNotEqual, "")
				So(tasks[3].Secret, ShouldNotEqual, "")
				So(tasks[3].DisplayName, ShouldEqual, "taskD")
				So(tasks[3].BuildId, ShouldEqual, buildId)
				So(tasks[3].DistroId, ShouldEqual, "")
				So(tasks[3].BuildVariant, ShouldEqual, buildVar1.Name)
				So(tasks[3].CreateTime.Truncate(time.Second), ShouldResemble,
					build.CreateTime.Truncate(time.Second))
				So(tasks[3].PushTime.Truncate(time.Second), ShouldResemble,
					build.PushTime.Truncate(time.Second))
				So(tasks[3].Status, ShouldEqual, evergreen.TaskUndispatched)
				So(tasks[3].Activated, ShouldEqual, build.Activated)
				So(tasks[3].RevisionOrderNumber, ShouldEqual, build.RevisionOrderNumber)
				So(tasks[3].Requester, ShouldEqual, build.Requester)
				So(tasks[3].Version, ShouldEqual, v.Id)
				So(tasks[3].Revision, ShouldEqual, v.Revision)
				So(tasks[3].Project, ShouldEqual, project.Identifier)
			})

	})
}
Example #21
0
func TestCreateBuildFromVersion(t *testing.T) {

	Convey("When creating a build from a version", t, func() {

		testutil.HandleTestingErr(db.ClearCollections(build.Collection, TasksCollection), t,
			"Error clearing test collection")

		// the mock build variant we'll be using. runs all three tasks
		buildVar := BuildVariant{
			Name:        "buildVar",
			DisplayName: "Build Variant",
			Tasks: []BuildVariantTask{
				{Name: "taskA"}, {Name: "taskB"}, {Name: "taskC"}, {Name: "taskD"},
			},
		}

		// the mock project we'll be using.  the mock tasks are:
		// taskOne - no dependencies
		// taskTwo - depends on taskOne
		// taskThree - depends on taskOne and taskTwo
		project := &Project{
			Tasks: []ProjectTask{
				ProjectTask{
					Name:      "taskA",
					DependsOn: []TaskDependency{},
				},
				ProjectTask{
					Name: "taskB",
					DependsOn: []TaskDependency{
						TaskDependency{
							Name: "taskA",
						},
					},
				},
				ProjectTask{
					Name: "taskC",
					DependsOn: []TaskDependency{
						TaskDependency{
							Name: "taskA",
						},
						TaskDependency{
							Name: "taskB",
						},
					},
				},
				ProjectTask{
					Name: "taskD",
					DependsOn: []TaskDependency{
						TaskDependency{
							Name: AllDependencies,
						},
					},
				},
			},
			BuildVariants: []BuildVariant{buildVar},
		}

		// the mock version we'll be using
		v := &version.Version{
			Id:                  "versionId",
			CreateTime:          time.Now(),
			Revision:            "foobar",
			RevisionOrderNumber: 500,
			Requester:           evergreen.RepotrackerVersionRequester,
			BuildVariants: []version.BuildStatus{
				{
					BuildVariant: buildVar.Name,
					Activated:    false,
				},
			},
		}

		Convey("if a non-existent build variant is passed in, an error should"+
			" be returned", func() {

			buildId, err := CreateBuildFromVersion(project, v, "blecch", false, []string{})
			So(err, ShouldNotBeNil)
			So(buildId, ShouldEqual, "")

		})

		Convey("if no task names are passed in to be used, all of the default"+
			" tasks for the build variant should be created", func() {

			buildId, err := CreateBuildFromVersion(project, v, buildVar.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")

			// find the tasks, make sure they were all created
			tasks, err := FindAllTasks(
				bson.M{},
				db.NoProjection,
				db.NoSort,
				db.NoSkip,
				db.NoLimit,
			)
			So(err, ShouldBeNil)
			So(len(tasks), ShouldEqual, 4)

		})

		Convey("if a non-empty list of task names is passed in, only the"+
			" specified tasks should be created", func() {

			buildId, err := CreateBuildFromVersion(project, v, buildVar.Name, false,
				[]string{"taskA", "taskB"})
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")

			// find the tasks, make sure they were all created
			tasks, err := FindAllTasks(
				bson.M{},
				db.NoProjection,
				db.NoSort,
				db.NoSkip,
				db.NoLimit,
			)
			So(err, ShouldBeNil)
			So(len(tasks), ShouldEqual, 2)

		})

		Convey("the build should contain task caches that correspond exactly"+
			" to the tasks created", func() {

			buildId, err := CreateBuildFromVersion(project, v, buildVar.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")

			// find the tasks, make sure they were all created
			tasks, err := FindAllTasks(
				bson.M{},
				db.NoProjection,
				db.NoSort,
				db.NoSkip,
				db.NoLimit,
			)
			So(err, ShouldBeNil)
			So(len(tasks), ShouldEqual, 4)

			// find the build from the db
			b, err := build.FindOne(build.ById(buildId))
			So(err, ShouldBeNil)
			So(len(b.Tasks), ShouldEqual, 4)

			// make sure the task caches are correct.  they should also appear
			// in the same order that they appear in the project file
			So(b.Tasks[0].Id, ShouldNotEqual, "")
			So(b.Tasks[0].DisplayName, ShouldEqual, "taskA")
			So(b.Tasks[0].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(b.Tasks[1].Id, ShouldNotEqual, "")
			So(b.Tasks[1].DisplayName, ShouldEqual, "taskB")
			So(b.Tasks[1].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(b.Tasks[2].Id, ShouldNotEqual, "")
			So(b.Tasks[2].DisplayName, ShouldEqual, "taskC")
			So(b.Tasks[2].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(b.Tasks[3].Id, ShouldNotEqual, "")
			So(b.Tasks[3].DisplayName, ShouldEqual, "taskD")
			So(b.Tasks[3].Status, ShouldEqual, evergreen.TaskUndispatched)

		})

		Convey("all of the tasks created should have the dependencies"+
			" specified in the project", func() {

			buildId, err := CreateBuildFromVersion(project, v, buildVar.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")

			// find the tasks, make sure they were all created
			tasks, err := FindAllTasks(
				bson.M{},
				db.NoProjection,
				[]string{"display_name"},
				db.NoSkip,
				db.NoLimit,
			)
			So(err, ShouldBeNil)
			So(len(tasks), ShouldEqual, 4)

			So(len(tasks[0].DependsOn), ShouldEqual, 0)
			So(tasks[1].DependsOn, ShouldResemble,
				[]string{tasks[0].Id})
			So(tasks[2].DependsOn, ShouldResemble,
				[]string{tasks[0].Id, tasks[1].Id})
			So(tasks[3].DependsOn, ShouldResemble,
				[]string{tasks[0].Id, tasks[1].Id, tasks[2].Id})

		})

		Convey("all of the build's essential fields should be set"+
			" correctly", func() {

			buildId, err := CreateBuildFromVersion(project, v, buildVar.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")

			// find the build from the db
			b, err := build.FindOne(build.ById(buildId))
			So(err, ShouldBeNil)

			// verify all the fields are set appropriately
			So(len(b.Tasks), ShouldEqual, 4)
			So(b.CreateTime.Truncate(time.Second), ShouldResemble,
				v.CreateTime.Truncate(time.Second))
			So(b.PushTime.Truncate(time.Second), ShouldResemble,
				v.CreateTime.Truncate(time.Second))
			So(b.Activated, ShouldEqual, v.BuildVariants[0].Activated)
			So(b.Project, ShouldEqual, project.Identifier)
			So(b.Revision, ShouldEqual, v.Revision)
			So(b.Status, ShouldEqual, evergreen.BuildCreated)
			So(b.BuildVariant, ShouldEqual, buildVar.Name)
			So(b.Version, ShouldEqual, v.Id)
			So(b.DisplayName, ShouldEqual, buildVar.DisplayName)
			So(b.RevisionOrderNumber, ShouldEqual, v.RevisionOrderNumber)
			So(b.Requester, ShouldEqual, v.Requester)

		})

		Convey("all of the tasks' essential fields should be set"+
			" correctly", func() {

			buildId, err := CreateBuildFromVersion(project, v, buildVar.Name, false, nil)
			So(err, ShouldBeNil)
			So(buildId, ShouldNotEqual, "")

			// find the build from the db
			b, err := build.FindOne(build.ById(buildId))
			So(err, ShouldBeNil)

			// find the tasks, make sure they were all created
			tasks, err := FindAllTasks(
				bson.M{},
				db.NoProjection,
				[]string{"display_name"},
				db.NoSkip,
				db.NoLimit,
			)
			So(err, ShouldBeNil)
			So(len(tasks), ShouldEqual, 4)

			So(tasks[0].Id, ShouldNotEqual, "")
			So(tasks[0].Secret, ShouldNotEqual, "")
			So(tasks[0].DisplayName, ShouldEqual, "taskA")
			So(tasks[0].BuildId, ShouldEqual, buildId)
			So(tasks[0].DistroId, ShouldEqual, "")
			So(tasks[0].BuildVariant, ShouldEqual, buildVar.Name)
			So(tasks[0].CreateTime.Truncate(time.Second), ShouldResemble,
				b.CreateTime.Truncate(time.Second))
			So(tasks[0].PushTime.Truncate(time.Second), ShouldResemble,
				b.PushTime.Truncate(time.Second))
			So(tasks[0].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(tasks[0].Activated, ShouldEqual, b.Activated)
			So(tasks[0].RevisionOrderNumber, ShouldEqual, b.RevisionOrderNumber)
			So(tasks[0].Requester, ShouldEqual, b.Requester)
			So(tasks[0].Version, ShouldEqual, v.Id)
			So(tasks[0].Revision, ShouldEqual, v.Revision)
			So(tasks[0].Project, ShouldEqual, project.Identifier)

			So(tasks[1].Id, ShouldNotEqual, "")
			So(tasks[1].Secret, ShouldNotEqual, "")
			So(tasks[1].DisplayName, ShouldEqual, "taskB")
			So(tasks[1].BuildId, ShouldEqual, buildId)
			So(tasks[1].DistroId, ShouldEqual, "")
			So(tasks[1].BuildVariant, ShouldEqual, buildVar.Name)
			So(tasks[1].CreateTime.Truncate(time.Second), ShouldResemble,
				b.CreateTime.Truncate(time.Second))
			So(tasks[1].PushTime.Truncate(time.Second), ShouldResemble,
				b.PushTime.Truncate(time.Second))
			So(tasks[1].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(tasks[1].Activated, ShouldEqual, b.Activated)
			So(tasks[1].RevisionOrderNumber, ShouldEqual, b.RevisionOrderNumber)
			So(tasks[1].Requester, ShouldEqual, b.Requester)
			So(tasks[1].Version, ShouldEqual, v.Id)
			So(tasks[1].Revision, ShouldEqual, v.Revision)
			So(tasks[1].Project, ShouldEqual, project.Identifier)

			So(tasks[2].Id, ShouldNotEqual, "")
			So(tasks[2].Secret, ShouldNotEqual, "")
			So(tasks[2].DisplayName, ShouldEqual, "taskC")
			So(tasks[2].BuildId, ShouldEqual, buildId)
			So(tasks[2].DistroId, ShouldEqual, "")
			So(tasks[2].BuildVariant, ShouldEqual, buildVar.Name)
			So(tasks[2].CreateTime.Truncate(time.Second), ShouldResemble,
				b.CreateTime.Truncate(time.Second))
			So(tasks[2].PushTime.Truncate(time.Second), ShouldResemble,
				b.PushTime.Truncate(time.Second))
			So(tasks[2].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(tasks[2].Activated, ShouldEqual, b.Activated)
			So(tasks[2].RevisionOrderNumber, ShouldEqual, b.RevisionOrderNumber)
			So(tasks[2].Requester, ShouldEqual, b.Requester)
			So(tasks[2].Version, ShouldEqual, v.Id)
			So(tasks[2].Revision, ShouldEqual, v.Revision)
			So(tasks[2].Project, ShouldEqual, project.Identifier)

			So(tasks[3].Id, ShouldNotEqual, "")
			So(tasks[3].Secret, ShouldNotEqual, "")
			So(tasks[3].DisplayName, ShouldEqual, "taskD")
			So(tasks[3].BuildId, ShouldEqual, buildId)
			So(tasks[3].DistroId, ShouldEqual, "")
			So(tasks[3].BuildVariant, ShouldEqual, buildVar.Name)
			So(tasks[3].CreateTime.Truncate(time.Second), ShouldResemble,
				b.CreateTime.Truncate(time.Second))
			So(tasks[3].PushTime.Truncate(time.Second), ShouldResemble,
				b.PushTime.Truncate(time.Second))
			So(tasks[3].Status, ShouldEqual, evergreen.TaskUndispatched)
			So(tasks[3].Activated, ShouldEqual, b.Activated)
			So(tasks[3].RevisionOrderNumber, ShouldEqual, b.RevisionOrderNumber)
			So(tasks[3].Requester, ShouldEqual, b.Requester)
			So(tasks[3].Version, ShouldEqual, v.Id)
			So(tasks[3].Revision, ShouldEqual, v.Revision)
			So(tasks[3].Project, ShouldEqual, project.Identifier)
		})

		Convey("if the activated flag is set, the build and all its tasks should be activated",
			func() {

				buildId, err := CreateBuildFromVersion(project, v, buildVar.Name, true, nil)
				So(err, ShouldBeNil)
				So(buildId, ShouldNotEqual, "")

				// find the build from the db
				build, err := build.FindOne(build.ById(buildId))
				So(err, ShouldBeNil)
				So(build.Activated, ShouldBeTrue)

				// find the tasks, make sure they were all created
				tasks, err := FindAllTasks(
					bson.M{},
					db.NoProjection,
					[]string{"display_name"},
					db.NoSkip,
					db.NoLimit,
				)
				So(err, ShouldBeNil)
				So(len(tasks), ShouldEqual, 4)

				So(tasks[0].Id, ShouldNotEqual, "")
				So(tasks[0].Secret, ShouldNotEqual, "")
				So(tasks[0].DisplayName, ShouldEqual, "taskA")
				So(tasks[0].BuildId, ShouldEqual, buildId)
				So(tasks[0].DistroId, ShouldEqual, "")
				So(tasks[0].BuildVariant, ShouldEqual, buildVar.Name)
				So(tasks[0].CreateTime.Truncate(time.Second), ShouldResemble,
					build.CreateTime.Truncate(time.Second))
				So(tasks[0].PushTime.Truncate(time.Second), ShouldResemble,
					build.PushTime.Truncate(time.Second))
				So(tasks[0].Status, ShouldEqual, evergreen.TaskUndispatched)
				So(tasks[0].Activated, ShouldEqual, build.Activated)
				So(tasks[0].RevisionOrderNumber, ShouldEqual, build.RevisionOrderNumber)
				So(tasks[0].Requester, ShouldEqual, build.Requester)
				So(tasks[0].Version, ShouldEqual, v.Id)
				So(tasks[0].Revision, ShouldEqual, v.Revision)
				So(tasks[0].Project, ShouldEqual, project.Identifier)

				So(tasks[1].Id, ShouldNotEqual, "")
				So(tasks[1].Secret, ShouldNotEqual, "")
				So(tasks[1].DisplayName, ShouldEqual, "taskB")
				So(tasks[1].BuildId, ShouldEqual, buildId)
				So(tasks[1].DistroId, ShouldEqual, "")
				So(tasks[1].BuildVariant, ShouldEqual, buildVar.Name)
				So(tasks[1].CreateTime.Truncate(time.Second), ShouldResemble,
					build.CreateTime.Truncate(time.Second))
				So(tasks[1].PushTime.Truncate(time.Second), ShouldResemble,
					build.PushTime.Truncate(time.Second))
				So(tasks[1].Status, ShouldEqual, evergreen.TaskUndispatched)
				So(tasks[1].Activated, ShouldEqual, build.Activated)
				So(tasks[1].RevisionOrderNumber, ShouldEqual, build.RevisionOrderNumber)
				So(tasks[1].Requester, ShouldEqual, build.Requester)
				So(tasks[1].Version, ShouldEqual, v.Id)
				So(tasks[1].Revision, ShouldEqual, v.Revision)
				So(tasks[1].Project, ShouldEqual, project.Identifier)

				So(tasks[2].Id, ShouldNotEqual, "")
				So(tasks[2].Secret, ShouldNotEqual, "")
				So(tasks[2].DisplayName, ShouldEqual, "taskC")
				So(tasks[2].BuildId, ShouldEqual, buildId)
				So(tasks[2].DistroId, ShouldEqual, "")
				So(tasks[2].BuildVariant, ShouldEqual, buildVar.Name)
				So(tasks[2].CreateTime.Truncate(time.Second), ShouldResemble,
					build.CreateTime.Truncate(time.Second))
				So(tasks[2].PushTime.Truncate(time.Second), ShouldResemble,
					build.PushTime.Truncate(time.Second))
				So(tasks[2].Status, ShouldEqual, evergreen.TaskUndispatched)
				So(tasks[2].Activated, ShouldEqual, build.Activated)
				So(tasks[2].RevisionOrderNumber, ShouldEqual, build.RevisionOrderNumber)
				So(tasks[2].Requester, ShouldEqual, build.Requester)
				So(tasks[2].Version, ShouldEqual, v.Id)
				So(tasks[2].Revision, ShouldEqual, v.Revision)
				So(tasks[2].Project, ShouldEqual, project.Identifier)

				So(tasks[3].Id, ShouldNotEqual, "")
				So(tasks[3].Secret, ShouldNotEqual, "")
				So(tasks[3].DisplayName, ShouldEqual, "taskD")
				So(tasks[3].BuildId, ShouldEqual, buildId)
				So(tasks[3].DistroId, ShouldEqual, "")
				So(tasks[3].BuildVariant, ShouldEqual, buildVar.Name)
				So(tasks[3].CreateTime.Truncate(time.Second), ShouldResemble,
					build.CreateTime.Truncate(time.Second))
				So(tasks[3].PushTime.Truncate(time.Second), ShouldResemble,
					build.PushTime.Truncate(time.Second))
				So(tasks[3].Status, ShouldEqual, evergreen.TaskUndispatched)
				So(tasks[3].Activated, ShouldEqual, build.Activated)
				So(tasks[3].RevisionOrderNumber, ShouldEqual, build.RevisionOrderNumber)
				So(tasks[3].Requester, ShouldEqual, build.Requester)
				So(tasks[3].Version, ShouldEqual, v.Id)
				So(tasks[3].Revision, ShouldEqual, v.Revision)
				So(tasks[3].Project, ShouldEqual, project.Identifier)
			})

	})
}