kubevela/pkg/controller/core.oam.dev/v1alpha2/application/apply.go

/*
Copyright 2021 The KubeVela Authors.

Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

    http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/

package application

import (
	"context"

	"github.com/pkg/errors"
	corev1 "k8s.io/api/core/v1"
	metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
	"k8s.io/apimachinery/pkg/apis/meta/v1/unstructured"
	"sigs.k8s.io/controller-runtime/pkg/client"
	"sigs.k8s.io/controller-runtime/pkg/reconcile"

	terraformtypes "github.com/oam-dev/terraform-controller/api/types"
	terraformapi "github.com/oam-dev/terraform-controller/api/v1beta1"

	"github.com/oam-dev/kubevela/apis/core.oam.dev/common"
	"github.com/oam-dev/kubevela/apis/core.oam.dev/v1beta1"
	"github.com/oam-dev/kubevela/apis/types"
	"github.com/oam-dev/kubevela/pkg/appfile"
	"github.com/oam-dev/kubevela/pkg/controller/core.oam.dev/v1alpha2/applicationrollout"
	"github.com/oam-dev/kubevela/pkg/controller/utils"
	"github.com/oam-dev/kubevela/pkg/multicluster"
	oamutil "github.com/oam-dev/kubevela/pkg/oam/util"
	"github.com/oam-dev/kubevela/pkg/resourcekeeper"
)

// AppHandler handles application reconcile
type AppHandler struct {
	r              *Reconciler
	app            *v1beta1.Application
	currentAppRev  *v1beta1.ApplicationRevision
	latestAppRev   *v1beta1.ApplicationRevision
	resourceKeeper resourcekeeper.ResourceKeeper

	isNewRevision  bool
	currentRevHash string

	services         []common.ApplicationComponentStatus
	appliedResources []common.ClusterObjectReference
	deletedResources []common.ClusterObjectReference
	parser           *appfile.Parser
}

// NewAppHandler create new app handler
func NewAppHandler(ctx context.Context, r *Reconciler, app *v1beta1.Application, parser *appfile.Parser) (*AppHandler, error) {
	resourceHandler, err := resourcekeeper.NewResourceKeeper(ctx, r.Client, app)
	if err != nil {
		return nil, errors.Wrapf(err, "failed to create resourceKeeper")
	}
	return &AppHandler{
		r:              r,
		app:            app,
		resourceKeeper: resourceHandler,
		parser:         parser,
	}, nil
}

// Dispatch apply manifests into k8s.
func (h *AppHandler) Dispatch(ctx context.Context, cluster string, owner common.ResourceCreatorRole, manifests ...*unstructured.Unstructured) error {
	manifests = multicluster.ResourcesWithClusterName(cluster, manifests...)
	if err := h.resourceKeeper.Dispatch(ctx, manifests); err != nil {
		return err
	}
	for _, mf := range manifests {
		if mf == nil {
			continue
		}
		ref := common.ClusterObjectReference{
			Cluster: cluster,
			Creator: owner,
			ObjectReference: corev1.ObjectReference{
				Name:       mf.GetName(),
				Namespace:  mf.GetNamespace(),
				Kind:       mf.GetKind(),
				APIVersion: mf.GetAPIVersion(),
			},
		}
		h.addAppliedResource(false, ref)
	}
	return nil
}

// Delete delete manifests from k8s.
func (h *AppHandler) Delete(ctx context.Context, cluster string, owner common.ResourceCreatorRole, manifest *unstructured.Unstructured) error {
	manifests := multicluster.ResourcesWithClusterName(cluster, manifest)
	if err := h.resourceKeeper.Delete(ctx, manifests); err != nil {
		return err
	}
	ref := common.ClusterObjectReference{
		Cluster: cluster,
		Creator: owner,
		ObjectReference: corev1.ObjectReference{
			Name:       manifest.GetName(),
			Namespace:  manifest.GetNamespace(),
			Kind:       manifest.GetKind(),
			APIVersion: manifest.GetAPIVersion(),
		},
	}
	h.deleteAppliedResource(ref)
	return nil
}

// addAppliedResource recorde applied resource.
// reconcile run at single threaded. So there is no need to consider to use locker.
func (h *AppHandler) addAppliedResource(previous bool, refs ...common.ClusterObjectReference) {
	for _, ref := range refs {
		if previous {
			for i, deleted := range h.deletedResources {
				if deleted.Equal(ref) {
					h.deletedResources = removeResources(h.deletedResources, i)
					return
				}
			}
		}

		found := false
		for _, current := range h.appliedResources {
			if current.Equal(ref) {
				found = true
				break
			}
		}
		if !found {
			h.appliedResources = append(h.appliedResources, ref)
		}
	}
}

func (h *AppHandler) deleteAppliedResource(ref common.ClusterObjectReference) {
	delIndex := -1
	for i, current := range h.appliedResources {
		if current.Equal(ref) {
			delIndex = i
		}
	}
	if delIndex < 0 {
		isDeleted := false
		for _, deleted := range h.deletedResources {
			if deleted.Equal(ref) {
				isDeleted = true
				break
			}
		}
		if !isDeleted {
			h.deletedResources = append(h.deletedResources, ref)
		}
	} else {
		h.appliedResources = removeResources(h.appliedResources, delIndex)
	}

}

func removeResources(elements []common.ClusterObjectReference, index int) []common.ClusterObjectReference {
	elements[index] = elements[len(elements)-1]
	return elements[:len(elements)-1]
}

// addServiceStatus recorde the whole component status.
// reconcile run at single threaded. So there is no need to consider to use locker.
func (h *AppHandler) addServiceStatus(cover bool, svcs ...common.ApplicationComponentStatus) {
	for _, svc := range svcs {
		found := false
		for i := range h.services {
			current := h.services[i]
			if current.Name == svc.Name && current.Env == svc.Env {
				if cover {
					h.services[i] = svc
				}
				found = true
				break
			}
		}
		if !found {
			h.services = append(h.services, svc)
		}
	}
}

// ProduceArtifacts will produce Application artifacts that will be saved in configMap.
func (h *AppHandler) ProduceArtifacts(ctx context.Context, comps []*types.ComponentManifest, policies []*unstructured.Unstructured) error {
	return h.createResourcesConfigMap(ctx, h.currentAppRev, comps, policies)
}

func (h *AppHandler) collectHealthStatus(wl *appfile.Workload, appRev *v1beta1.ApplicationRevision, overrideNamespace string) (*common.ApplicationComponentStatus, bool, error) {
	namespace := h.app.Namespace
	if overrideNamespace != "" {
		namespace = overrideNamespace
	}

	var (
		status = common.ApplicationComponentStatus{
			Name:               wl.Name,
			WorkloadDefinition: wl.FullTemplate.Reference.Definition,
			Healthy:            true,
		}
		appName  = appRev.Spec.Application.Name
		isHealth = true
		err      error
	)

	if wl.CapabilityCategory == types.TerraformCategory {
		ctx := context.Background()
		var configuration terraformapi.Configuration
		if err := h.r.Client.Get(ctx, client.ObjectKey{Name: wl.Name, Namespace: namespace}, &configuration); err != nil {
			return nil, false, errors.WithMessagef(err, "app=%s, comp=%s, check health error", appName, wl.Name)
		}
		if configuration.Status.Apply.State != terraformtypes.Available {
			status.Healthy = false
			isHealth = false
		} else {
			status.Healthy = true
			isHealth = true
		}
		status.Message = configuration.Status.Apply.Message
	} else {
		if ok, err := wl.EvalHealth(wl.Ctx, h.r.Client, namespace); !ok || err != nil {
			isHealth = false
			status.Healthy = false
		}

		status.Message, err = wl.EvalStatus(wl.Ctx, h.r.Client, namespace)
		if err != nil {
			return nil, false, errors.WithMessagef(err, "app=%s, comp=%s, evaluate workload status message error", appName, wl.Name)
		}
	}

	var traitStatusList []common.ApplicationTraitStatus
	for _, tr := range wl.Traits {
		var traitStatus = common.ApplicationTraitStatus{
			Type:    tr.Name,
			Healthy: true,
		}
		if ok, err := tr.EvalHealth(wl.Ctx, h.r.Client, namespace); !ok || err != nil {
			isHealth = false
			traitStatus.Healthy = false
		}
		traitStatus.Message, err = tr.EvalStatus(wl.Ctx, h.r.Client, namespace)
		if err != nil {
			return nil, false, errors.WithMessagef(err, "app=%s, comp=%s, trait=%s, evaluate status message error", appName, wl.Name, tr.Name)
		}
		traitStatusList = append(traitStatusList, traitStatus)
	}

	status.Traits = traitStatusList
	status.Scopes = generateScopeReference(wl.Scopes)
	h.addServiceStatus(true, status)
	return &status, isHealth, nil
}

func generateScopeReference(scopes []appfile.Scope) []corev1.ObjectReference {
	var references []corev1.ObjectReference
	for _, scope := range scopes {
		references = append(references, corev1.ObjectReference{
			APIVersion: metav1.GroupVersion{
				Group:   scope.GVK.Group,
				Version: scope.GVK.Version,
			}.String(),
			Kind: scope.GVK.Kind,
			Name: scope.Name,
		})
	}
	return references
}

type garbageCollectFunc func(ctx context.Context, h *AppHandler) error

// execute garbage collection functions, including:
// - clean up legacy app revisions
// - clean up legacy component revisions
func garbageCollection(ctx context.Context, h *AppHandler) error {
	collectFuncs := []garbageCollectFunc{
		garbageCollectFunc(cleanUpApplicationRevision),
		garbageCollectFunc(cleanUpComponentRevision),
	}
	for _, collectFunc := range collectFuncs {
		if err := collectFunc(ctx, h); err != nil {
			return err
		}
	}
	return nil
}

func (h *AppHandler) handleRollout(ctx context.Context) (reconcile.Result, error) {
	var comps []string
	for _, component := range h.app.Spec.Components {
		comps = append(comps, component.Name)
		// TODO rollout only support one component now, and we only rollout the first component in Application
		break
	}

	// targetRevision should always points to LatestRevison
	targetRevision := h.app.Status.LatestRevision.Name
	var srcRevision string
	target, _ := oamutil.ExtractRevisionNum(targetRevision, "-")
	// if target == 1 this is a initial scale operation, sourceRevision should be empty
	// otherwise source revision always is targetRevision - 1
	if target > 1 {
		srcRevision = utils.ConstructRevisionName(h.app.Name, int64(target-1))
	}

	appRollout := v1beta1.AppRollout{
		TypeMeta: metav1.TypeMeta{
			APIVersion: v1beta1.SchemeGroupVersion.String(),
			Kind:       v1beta1.ApplicationKind,
		},
		ObjectMeta: metav1.ObjectMeta{
			Name:      h.app.Name,
			Namespace: h.app.Namespace,
			UID:       h.app.UID,
		},
		Spec: v1beta1.AppRolloutSpec{
			SourceAppRevisionName: srcRevision,
			TargetAppRevisionName: targetRevision,
			ComponentList:         comps,
			RolloutPlan:           *h.app.Spec.RolloutPlan,
		},
	}
	if h.app.Status.Rollout != nil {
		appRollout.Status = *h.app.Status.Rollout
	} else {
		appRollout.Status = common.AppRolloutStatus{}
	}
	// construct a fake rollout object and call rollout.DoReconcile
	r := applicationrollout.NewReconciler(h.r.Client, h.r.dm, h.r.pd, h.r.Recorder, h.r.Scheme, h.r.concurrentReconciles)
	res, err := r.DoReconcile(ctx, &appRollout)
	if err != nil {
		return reconcile.Result{}, err
	}

	// write back rollout status to application
	h.app.Status.Rollout = &appRollout.Status
	return res, nil
}