// // DISCLAIMER // // Copyright 2016-2024 ArangoDB GmbH, Cologne, Germany // // 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. // // Copyright holder is ArangoDB GmbH, Cologne, Germany // package cmd import ( "context" goflag "flag" "fmt" "net" "net/http" "os" "reflect" "strconv" "strings" "time" "github.com/gin-gonic/gin" "github.com/rs/zerolog" "github.com/spf13/cobra" flag "github.com/spf13/pflag" apps "k8s.io/api/apps/v1" core "k8s.io/api/core/v1" apiErrors "k8s.io/apimachinery/pkg/api/errors" meta "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/runtime" "k8s.io/client-go/kubernetes" typedCore "k8s.io/client-go/kubernetes/typed/core/v1" "k8s.io/client-go/tools/record" "github.com/arangodb/kube-arangodb/pkg/api" shared "github.com/arangodb/kube-arangodb/pkg/apis/shared" "github.com/arangodb/kube-arangodb/pkg/crd" agencyConfig "github.com/arangodb/kube-arangodb/pkg/deployment/agency/config" "github.com/arangodb/kube-arangodb/pkg/deployment/features" "github.com/arangodb/kube-arangodb/pkg/deployment/reconcile" "github.com/arangodb/kube-arangodb/pkg/generated/clientset/versioned/scheme" "github.com/arangodb/kube-arangodb/pkg/logging" "github.com/arangodb/kube-arangodb/pkg/metrics/collector" "github.com/arangodb/kube-arangodb/pkg/operator" "github.com/arangodb/kube-arangodb/pkg/operator/scope" "github.com/arangodb/kube-arangodb/pkg/server" "github.com/arangodb/kube-arangodb/pkg/util" "github.com/arangodb/kube-arangodb/pkg/util/constants" "github.com/arangodb/kube-arangodb/pkg/util/errors" "github.com/arangodb/kube-arangodb/pkg/util/globals" operatorHTTP "github.com/arangodb/kube-arangodb/pkg/util/http" "github.com/arangodb/kube-arangodb/pkg/util/k8sutil" "github.com/arangodb/kube-arangodb/pkg/util/kclient" "github.com/arangodb/kube-arangodb/pkg/util/metrics" "github.com/arangodb/kube-arangodb/pkg/util/probe" "github.com/arangodb/kube-arangodb/pkg/util/retry" "github.com/arangodb/kube-arangodb/pkg/util/shutdown" "github.com/arangodb/kube-arangodb/pkg/version" ) const ( defaultServerHost = "0.0.0.0" defaultServerPort = 8528 defaultAPIHTTPPort = 8628 defaultAPIGRPCPort = 8728 defaultAdminSecretName = "arangodb-operator-dashboard" defaultAPIJWTSecretName = "arangodb-operator-api-jwt" defaultAPIJWTKeySecretName = "arangodb-operator-api-jwt-key" defaultShutdownDelay = 2 * time.Second defaultShutdownTimeout = 30 * time.Second ) var ( logger = logging.Global().RegisterAndGetLogger("root", logging.Info) eventRecorder = logging.Global().RegisterAndGetLogger("root-event-recorder", logging.Info) cmdMain = cobra.Command{ Use: "arangodb_operator", Run: executeMain, } memoryLimit struct { hardLimit uint64 } serverOptions struct { host string port int tlsSecretName string adminSecretName string // Name of basic authentication secret containing the admin username+password of the dashboard allowAnonymous bool // If set, anonymous access to dashboard is allowed } apiOptions struct { enabled bool httpPort int grpcPort int jwtSecretName string jwtKeySecretName string tlsSecretName string } operatorOptions struct { enableDeployment bool // Run deployment operator enableDeploymentReplication bool // Run deployment-replication operator enableStorage bool // Run local-storage operator enableBackup bool // Run backup operator enableApps bool // Run apps operator enableML bool // Run ml operator enableAnalytics bool // Run analytics operator versionOnly bool // Run only version endpoint, explicitly disabled with other enableK2KClusterSync bool // Run k2kClusterSync operator operatorFeatureConfigMap string // ConfigMap name scalingIntegrationEnabled bool reconciliationDelay time.Duration singleMode bool scope string } shutdownOptions struct { delay time.Duration timeout time.Duration } crdOptions struct { install bool validationSchema []string } operatorKubernetesOptions struct { maxBatchSize int64 qps float32 burst int } operatorBackup struct { concurrentUploads int } operatorTimeouts struct { k8s time.Duration arangoD time.Duration arangoDCheck time.Duration reconciliation time.Duration agency time.Duration shardRebuild time.Duration shardRebuildRetry time.Duration backupArangoD time.Duration backupUploadArangoD time.Duration forcePodDeletionGracePeriod time.Duration podSchedulingGracePeriod time.Duration } operatorImageDiscovery struct { timeout time.Duration defaultStatusDiscovery bool } operatorReconciliationRetry struct { delay time.Duration count int } chaosOptions struct { allowed bool } metricsOptions struct { excludedMetricPrefixes []string } livenessProbe probe.LivenessProbe deploymentProbe probe.ReadyProbe deploymentReplicationProbe probe.ReadyProbe storageProbe probe.ReadyProbe backupProbe probe.ReadyProbe appsProbe probe.ReadyProbe mlProbe probe.ReadyProbe analyticsProbe probe.ReadyProbe k2KClusterSyncProbe probe.ReadyProbe ) func init() { var deprecatedStr string f := cmdMain.Flags() f.StringVar(&serverOptions.host, "server.host", defaultServerHost, "Host to listen on") f.IntVar(&serverOptions.port, "server.port", defaultServerPort, "Port to listen on") f.StringVar(&serverOptions.tlsSecretName, "server.tls-secret-name", "", "Name of secret containing tls.crt & tls.key for HTTPS server (if empty, self-signed certificate is used)") f.StringVar(&serverOptions.adminSecretName, "server.admin-secret-name", defaultAdminSecretName, "Name of secret containing username + password for login to the dashboard") f.BoolVar(&serverOptions.allowAnonymous, "server.allow-anonymous-access", false, "Allow anonymous access to the dashboard") f.BoolVar(&apiOptions.enabled, "api.enabled", true, "Enable operator HTTP and gRPC API") f.IntVar(&apiOptions.httpPort, "api.http-port", defaultAPIHTTPPort, "HTTP API port to listen on") f.IntVar(&apiOptions.grpcPort, "api.grpc-port", defaultAPIGRPCPort, "gRPC API port to listen on") f.StringVar(&apiOptions.tlsSecretName, "api.tls-secret-name", "", "Name of secret containing tls.crt & tls.key for HTTPS API (if empty, self-signed certificate is used)") f.StringVar(&apiOptions.jwtSecretName, "api.jwt-secret-name", defaultAPIJWTSecretName, "Name of secret which will contain JWT to authenticate API requests.") f.StringVar(&apiOptions.jwtKeySecretName, "api.jwt-key-secret-name", defaultAPIJWTKeySecretName, "Name of secret containing key used to sign JWT. If there is no such secret present, value will be saved here") f.BoolVar(&operatorOptions.enableDeployment, "operator.deployment", false, "Enable to run the ArangoDeployment operator") f.BoolVar(&operatorOptions.enableDeploymentReplication, "operator.deployment-replication", false, "Enable to run the ArangoDeploymentReplication operator") f.BoolVar(&operatorOptions.enableStorage, "operator.storage", false, "Enable to run the ArangoLocalStorage operator") f.BoolVar(&operatorOptions.enableBackup, "operator.backup", false, "Enable to run the ArangoBackup operator") f.BoolVar(&operatorOptions.enableApps, "operator.apps", false, "Enable to run the ArangoApps operator") f.BoolVar(&operatorOptions.enableML, "operator.ml", false, "Enable to run the ArangoML operator") f.BoolVar(&operatorOptions.enableAnalytics, "operator.analytics", false, "Enable to run the Analytics operator") f.BoolVar(&operatorOptions.enableK2KClusterSync, "operator.k2k-cluster-sync", false, "Enable to run the ListSimple operator") f.MarkDeprecated("operator.k2k-cluster-sync", "Enabled within deployment operator") f.BoolVar(&operatorOptions.versionOnly, "operator.version", false, "Enable only version endpoint in Operator") f.StringVar(&deprecatedStr, "operator.alpine-image", "alpine:3.7", "Docker image used for alpine containers") f.MarkDeprecated("operator.alpine-image", "Value is not used anymore") f.StringVar(&deprecatedStr, "operator.metrics-exporter-image", "arangodb/arangodb-exporter:0.1.6", "Docker image used for metrics containers by default") f.MarkDeprecated("operator.metrics-exporter-image", "Value is not used anymore") f.StringVar(&deprecatedStr, "operator.arango-image", "arangodb/arangodb:latest", "Docker image used for arango by default") f.MarkDeprecated("operator.arango-image", "Value is not used anymore") f.BoolVar(&chaosOptions.allowed, "chaos.allowed", false, "Set to allow chaos in deployments. Only activated when allowed and enabled in deployment") f.BoolVar(&operatorOptions.singleMode, "mode.single", false, "Enable single mode in Operator. WARNING: There should be only one replica of Operator, otherwise Operator can take unexpected actions") f.StringVar(&operatorOptions.scope, "scope", scope.DefaultScope.String(), "Define scope on which Operator works. Legacy - pre 1.1.0 scope with limited cluster access") f.DurationVar(&operatorTimeouts.k8s, "timeout.k8s", globals.DefaultKubernetesTimeout, "The request timeout to the kubernetes") f.DurationVar(&operatorTimeouts.arangoD, "timeout.arangod", globals.DefaultArangoDTimeout, "The request timeout to the ArangoDB") f.DurationVar(&operatorTimeouts.arangoDCheck, "timeout.arangod-check", globals.DefaultArangoDCheckTimeout, "The version check request timeout to the ArangoDB") f.DurationVar(&operatorTimeouts.agency, "timeout.agency", globals.DefaultArangoDAgencyTimeout, "The Agency read timeout") f.DurationVar(&operatorTimeouts.reconciliation, "timeout.reconciliation", globals.DefaultReconciliationTimeout, "The reconciliation timeout to the ArangoDB CR") f.DurationVar(&operatorTimeouts.shardRebuild, "timeout.shard-rebuild", globals.DefaultOutSyncedShardRebuildTimeout, "Timeout after which particular out-synced shard is considered as failed and rebuild is triggered") f.DurationVar(&operatorTimeouts.shardRebuildRetry, "timeout.shard-rebuild-retry", globals.DefaultOutSyncedShardRebuildRetryTimeout, "Timeout after which rebuild shards retry flow is triggered") f.DurationVar(&operatorTimeouts.backupArangoD, "timeout.backup-arangod", globals.BackupDefaultArangoClientTimeout, "The request timeout to the ArangoDB during backup calls") f.DurationVar(&operatorTimeouts.backupUploadArangoD, "timeout.backup-upload", globals.BackupUploadArangoClientTimeout, "The request timeout to the ArangoDB during uploading files") f.DurationVar(&operatorTimeouts.forcePodDeletionGracePeriod, "timeout.force-delete-pod-grace-period", globals.DefaultForcePodDeletionGracePeriodTimeout, "Default period when ArangoDB Pod should be forcefully removed after all containers were stopped - set to 0 to disable forceful removals") f.DurationVar(&operatorTimeouts.podSchedulingGracePeriod, "timeout.pod-scheduling-grace-period", globals.DefaultPodSchedulingGracePeriod, "Default period when ArangoDB Pod should be deleted in case of scheduling info change - set to 0 to disable") f.DurationVar(&shutdownOptions.delay, "shutdown.delay", defaultShutdownDelay, "The delay before running shutdown handlers") f.DurationVar(&shutdownOptions.timeout, "shutdown.timeout", defaultShutdownTimeout, "Timeout for shutdown handlers") f.DurationVar(&operatorReconciliationRetry.delay, "operator.reconciliation.retry.delay", globals.DefaultOperatorUpdateRetryDelay, "Delay between Object Update operations in the Reconciliation loop") f.IntVar(&operatorReconciliationRetry.count, "operator.reconciliation.retry.count", globals.DefaultOperatorUpdateRetryCount, "Count of retries during Object Update operations in the Reconciliation loop") f.BoolVar(&operatorOptions.scalingIntegrationEnabled, "internal.scaling-integration", false, "Enable Scaling Integration") f.DurationVar(&operatorOptions.reconciliationDelay, "reconciliation.delay", 0, "Delay between reconciliation loops (<= 0 -> Disabled)") f.Int64Var(&operatorKubernetesOptions.maxBatchSize, "kubernetes.max-batch-size", globals.DefaultKubernetesRequestBatchSize, "Size of batch during objects read") f.Float32Var(&operatorKubernetesOptions.qps, "kubernetes.qps", kclient.DefaultQPS, "Number of queries per second for k8s API") f.IntVar(&operatorKubernetesOptions.burst, "kubernetes.burst", kclient.DefaultBurst, "Burst for the k8s API") f.BoolVar(&crdOptions.install, "crd.install", true, "Install missing CRD if access is possible") f.StringArrayVar(&crdOptions.validationSchema, "crd.validation-schema", defaultValidationSchemaEnabled, "Overrides default set of CRDs which should have validation schema enabled =.") f.IntVar(&operatorBackup.concurrentUploads, "backup-concurrent-uploads", globals.DefaultBackupConcurrentUploads, "Number of concurrent uploads per deployment") f.Uint64Var(&memoryLimit.hardLimit, "memory-limit", 0, "Define memory limit for hard shutdown and the dump of goroutines. Used for testing") f.StringArrayVar(&metricsOptions.excludedMetricPrefixes, "metrics.excluded-prefixes", nil, "List of the excluded metrics prefixes") f.BoolVar(&operatorImageDiscovery.defaultStatusDiscovery, "image.discovery.status", true, "Discover Operator Image from Pod Status by default. When disabled Pod Spec is used.") f.DurationVar(&operatorImageDiscovery.timeout, "image.discovery.timeout", time.Minute, "Timeout for image discovery process") if err := logging.Init(&cmdMain); err != nil { panic(err.Error()) } if err := features.Init(&cmdMain); err != nil { panic(err.Error()) } if err := agencyConfig.Init(&cmdMain); err != nil { panic(err.Error()) } if err := reconcile.ActionsConfigGlobal.Init(&cmdMain); err != nil { panic(err.Error()) } } func Command() *cobra.Command { return &cmdMain } func Execute() int { flag.CommandLine.AddGoFlagSet(goflag.CommandLine) if err := cmdMain.Execute(); err != nil { if v, ok := err.(CommandExitCode); ok { return v.ExitCode } return 1 } return 0 } // Show usage func executeUsage(cmd *cobra.Command, args []string) { cmd.Usage() } // Run the operator func executeMain(cmd *cobra.Command, args []string) { // Get environment namespace := os.Getenv(constants.EnvOperatorPodNamespace) name := os.Getenv(constants.EnvOperatorPodName) ip := os.Getenv(constants.EnvOperatorPodIP) go monitorMemoryLimit() globals.GetGlobalTimeouts().Kubernetes().Set(operatorTimeouts.k8s) globals.GetGlobalTimeouts().ArangoD().Set(operatorTimeouts.arangoD) globals.GetGlobalTimeouts().Agency().Set(operatorTimeouts.agency) globals.GetGlobalTimeouts().ArangoDCheck().Set(operatorTimeouts.arangoDCheck) globals.GetGlobalTimeouts().Reconciliation().Set(operatorTimeouts.reconciliation) globals.GetGlobalTimeouts().ShardRebuild().Set(operatorTimeouts.shardRebuild) globals.GetGlobalTimeouts().ShardRebuildRetry().Set(operatorTimeouts.shardRebuildRetry) globals.GetGlobalTimeouts().BackupArangoClientTimeout().Set(operatorTimeouts.backupArangoD) globals.GetGlobalTimeouts().BackupArangoClientUploadTimeout().Set(operatorTimeouts.backupUploadArangoD) globals.GetGlobalTimeouts().ForcePodDeletionGracePeriodTimeout().Set(operatorTimeouts.forcePodDeletionGracePeriod) globals.GetGlobalTimeouts().PodSchedulingGracePeriod().Set(operatorTimeouts.podSchedulingGracePeriod) globals.GetGlobals().Retry().OperatorUpdateRetryDelay().Set(operatorReconciliationRetry.delay) globals.GetGlobals().Retry().OperatorUpdateRetryCount().Set(operatorReconciliationRetry.count) globals.GetGlobals().Kubernetes().RequestBatchSize().Set(operatorKubernetesOptions.maxBatchSize) globals.GetGlobals().Backup().ConcurrentUploads().Set(operatorBackup.concurrentUploads) collector.GetCollector().SetFilter(metrics.NegateMetricPushFilter(metrics.NewPrefixMetricPushFilter(metricsOptions.excludedMetricPrefixes...))) kclient.SetDefaultQPS(operatorKubernetesOptions.qps) kclient.SetDefaultBurst(operatorKubernetesOptions.burst) // Prepare log service if err := logging.Enable(); err != nil { logger.Err(err).Fatal("Unable to enable logger") } podNameParts := strings.Split(name, "-") operatorID := podNameParts[len(podNameParts)-1] if operatorID != "" { logging.Global().RegisterWrappers(func(in *zerolog.Event) *zerolog.Event { return in.Str("operator-id", operatorID) }) } logger.Info("nice to meet you") // Print all enabled featured features.Iterate(func(name string, feature features.Feature) { logger.Info("Operator Feature %s (%s) is %s.", name, features.GetFeatureArgName(name), util.BoolSwitch(feature.Enabled(), "enabled", "disabled")) }) // Check operating mode if !operatorOptions.enableDeployment && !operatorOptions.enableDeploymentReplication && !operatorOptions.enableStorage && !operatorOptions.enableBackup && !operatorOptions.enableApps && !operatorOptions.enableK2KClusterSync && !operatorOptions.enableML && !operatorOptions.enableAnalytics { if !operatorOptions.versionOnly { if version.GetVersionV1().IsEnterprise() { logger.Fatal("Turn on --operator.deployment, --operator.deployment-replication, --operator.storage, --operator.backup, --operator.apps, --operator.k2k-cluster-sync, --operator.ml, --operator.analytics or any combination of these") } else { logger.Fatal("Turn on --operator.deployment, --operator.deployment-replication, --operator.storage, --operator.backup, --operator.apps, --operator.k2k-cluster-sync or any combination of these") } } } else if operatorOptions.versionOnly { logger.Fatal("Options --operator.deployment, --operator.deployment-replication, --operator.storage, --operator.backup, --operator.apps, --operator.k2k-cluster-sync, --operator.ml, --operator.analytics cannot be enabled together with --operator.version") } else if !version.GetVersionV1().IsEnterprise() { if operatorOptions.enableML || operatorOptions.enableAnalytics { logger.Fatal("Options --operator.ml, --operator.analytics can be enabled only on the Enterprise Operator") } } // Log version logger. Str("pod-name", name). Str("pod-namespace", namespace). Info("Starting arangodb-operator (%s), version %s build %s", version.GetVersionV1().Edition.Title(), version.GetVersionV1().Version, version.GetVersionV1().Build) // Check environment if !operatorOptions.versionOnly { if len(namespace) == 0 { logger.Fatal("%s environment variable missing", constants.EnvOperatorPodNamespace) } if len(name) == 0 { logger.Fatal("%s environment variable missing", constants.EnvOperatorPodName) } if len(ip) == 0 { logger.Fatal("%s environment variable missing", constants.EnvOperatorPodIP) } // Get host name id, err := os.Hostname() if err != nil { logger.Err(err).Fatal("Failed to get hostname") } client, ok := kclient.GetDefaultFactory().Client() if !ok { logger.Fatal("Failed to get client") } if crdOptions.install { ctx, cancel := context.WithTimeout(shutdown.Context(), time.Minute) defer cancel() crdOpts, err := prepareCRDOptions(crdOptions.validationSchema) if err != nil { logger.Fatal("Invalid --crd.validation-schema args: %s", err) } _ = crd.EnsureCRDWithOptions(ctx, client, crd.EnsureCRDOptions{IgnoreErrors: true, CRDOptions: crdOpts}) } secrets := client.Kubernetes().CoreV1().Secrets(namespace) // Create operator cfg, deps, err := newOperatorConfigAndDeps(id+"-"+name, namespace, name) if err != nil { logger.Err(err).Fatal("Failed to create operator config & deps") } if err := ensureFeaturesConfigMap(context.Background(), client.Kubernetes().CoreV1().ConfigMaps(namespace), cfg); err != nil { logger.Err(err).Error("Failed to create features config map") } o, err := operator.NewOperator(cfg, deps) if err != nil { logger.Err(err).Fatal("Failed to create operator") } if apiOptions.enabled { apiServerCfg := api.ServerConfig{ Namespace: namespace, ServerName: name, ServerAltNames: []string{ip}, HTTPAddress: net.JoinHostPort("0.0.0.0", strconv.Itoa(apiOptions.httpPort)), GRPCAddress: net.JoinHostPort("0.0.0.0", strconv.Itoa(apiOptions.grpcPort)), TLSSecretName: apiOptions.tlsSecretName, JWTSecretName: apiOptions.jwtSecretName, JWTKeySecretName: apiOptions.jwtKeySecretName, LivelinessProbe: &livenessProbe, ProbeDeployment: api.ReadinessProbeConfig{ Enabled: cfg.EnableDeployment, Probe: &deploymentProbe, }, ProbeDeploymentReplication: api.ReadinessProbeConfig{ Enabled: cfg.EnableDeploymentReplication, Probe: &deploymentReplicationProbe, }, ProbeStorage: api.ReadinessProbeConfig{ Enabled: cfg.EnableStorage, Probe: &storageProbe, }, } apiServer, err := api.NewServer(client.Kubernetes().CoreV1(), apiServerCfg) if err != nil { logger.Err(err).Fatal("Failed to create API server") } go func() { if err := apiServer.Run(); err != nil { logger.Err(err).Error("while running API server") } }() } listenAddr := net.JoinHostPort(serverOptions.host, strconv.Itoa(serverOptions.port)) if svr, err := server.NewServer(client.Kubernetes().CoreV1(), server.Config{ Namespace: namespace, Address: listenAddr, TLSSecretName: serverOptions.tlsSecretName, TLSSecretNamespace: namespace, PodName: name, PodIP: ip, AdminSecretName: serverOptions.adminSecretName, AllowAnonymous: serverOptions.allowAnonymous, }, server.Dependencies{ LivenessProbe: &livenessProbe, Deployment: server.OperatorDependency{ Enabled: cfg.EnableDeployment, Probe: &deploymentProbe, }, DeploymentReplication: server.OperatorDependency{ Enabled: cfg.EnableDeploymentReplication, Probe: &deploymentReplicationProbe, }, Storage: server.OperatorDependency{ Enabled: cfg.EnableStorage, Probe: &storageProbe, }, Backup: server.OperatorDependency{ Enabled: cfg.EnableBackup, Probe: &backupProbe, }, Apps: server.OperatorDependency{ Enabled: cfg.EnableApps, Probe: &appsProbe, }, ML: server.OperatorDependency{ Enabled: cfg.EnableML, Probe: &mlProbe, }, Analytics: server.OperatorDependency{ Enabled: cfg.EnableAnalytics, Probe: &analyticsProbe, }, ClusterSync: server.OperatorDependency{ Enabled: cfg.EnableK2KClusterSync, Probe: &k2KClusterSyncProbe, }, Operators: o, Secrets: secrets, }); err != nil { logger.Err(err).Fatal("Failed to create HTTP server") } else { go func() { if err := svr.Run(); err != nil { logger.Err(err).Error("error while starting server") } }() } // startChaos(context.Background(), cfg.KubeCli, cfg.Namespace, chaosLevel) // Start operator o.Run() } else { if err := startVersionProcess(); err != nil { logger.Err(err).Fatal("Failed to create HTTP server") } } } func startVersionProcess() error { // Just expose version listenAddr := net.JoinHostPort(serverOptions.host, strconv.Itoa(serverOptions.port)) logger.Str("addr", listenAddr).Info("Starting version endpoint") gin.SetMode(gin.ReleaseMode) r := gin.New() r.Use(gin.Recovery()) versionV1Responser, err := operatorHTTP.NewSimpleJSONResponse(version.GetVersionV1()) if err != nil { return errors.WithStack(err) } r.GET("/_api/version", gin.WrapF(versionV1Responser.ServeHTTP)) r.GET("/api/v1/version", gin.WrapF(versionV1Responser.ServeHTTP)) s := http.Server{ Addr: listenAddr, Handler: r, } return s.ListenAndServe() } // newOperatorConfigAndDeps creates operator config & dependencies. func newOperatorConfigAndDeps(id, namespace, name string) (operator.Config, operator.Dependencies, error) { client, ok := kclient.GetDefaultFactory().Client() if !ok { return operator.Config{}, operator.Dependencies{}, errors.Errorf("Failed to get client") } image, serviceAccount, err := getMyPodInfo(client.Kubernetes(), namespace, name) if err != nil { return operator.Config{}, operator.Dependencies{}, errors.WithStack(fmt.Errorf("Failed to get my pod's service account: %s", err)) } eventRecorder := createRecorder(client.Kubernetes(), name, namespace) scope, ok := scope.AsScope(operatorOptions.scope) if !ok { return operator.Config{}, operator.Dependencies{}, errors.WithStack(fmt.Errorf("Scope %s is not known by Operator", operatorOptions.scope)) } cfg := operator.Config{ ID: id, Namespace: namespace, PodName: name, ServiceAccount: serviceAccount, OperatorImage: image, EnableDeployment: operatorOptions.enableDeployment, EnableDeploymentReplication: operatorOptions.enableDeploymentReplication, EnableStorage: operatorOptions.enableStorage, EnableBackup: operatorOptions.enableBackup, EnableApps: operatorOptions.enableApps, EnableML: operatorOptions.enableML, EnableAnalytics: operatorOptions.enableAnalytics, EnableK2KClusterSync: operatorOptions.enableK2KClusterSync, AllowChaos: chaosOptions.allowed, ScalingIntegrationEnabled: operatorOptions.scalingIntegrationEnabled, SingleMode: operatorOptions.singleMode, Scope: scope, ReconciliationDelay: operatorOptions.reconciliationDelay, ShutdownDelay: shutdownOptions.delay, ShutdownTimeout: shutdownOptions.timeout, } deps := operator.Dependencies{ Client: client, EventRecorder: eventRecorder, LivenessProbe: &livenessProbe, DeploymentProbe: &deploymentProbe, DeploymentReplicationProbe: &deploymentReplicationProbe, StorageProbe: &storageProbe, BackupProbe: &backupProbe, AppsProbe: &appsProbe, MlProbe: &mlProbe, AnalyticsProbe: &analyticsProbe, K2KClusterSyncProbe: &k2KClusterSyncProbe, } return cfg, deps, nil } // getMyPodInfo looks up the image & service account of the pod with given name in given namespace // Returns image, serviceAccount, error. func getMyPodInfo(kubecli kubernetes.Interface, namespace, name string) (string, string, error) { if image, sa, ok := getMyPodInfoWrap(kubecli, namespace, name, getMyImageInfoFunc(operatorImageDiscovery.defaultStatusDiscovery)); ok { return image, sa, nil } logger.Warn("Unable to discover image, fallback to second method") if image, sa, ok := getMyPodInfoWrap(kubecli, namespace, name, getMyImageInfoFunc(!operatorImageDiscovery.defaultStatusDiscovery)); ok { return image, sa, nil } return "", "", errors.Errorf("Unable to discover image") } func getMyPodInfoWrap(kubecli kubernetes.Interface, namespace, name string, imageFunc func(in *core.Pod) (string, bool)) (string, string, bool) { var image, sa string op := func() error { pod, err := kubecli.CoreV1().Pods(namespace).Get(context.Background(), name, meta.GetOptions{}) if err != nil { logger. Err(err). Str("name", name). Error("Failed to get operator pod") return errors.WithStack(err) } sa = pod.Spec.ServiceAccountName if i, ok := imageFunc(pod); !ok { return errors.Errorf("failed to get image ID from pod") } else { image = i } return nil } if err := retry.Retry(op, operatorImageDiscovery.timeout/2); err == nil { return image, sa, true } return "", "", false } func getMyImageInfoFunc(status bool) func(pod *core.Pod) (string, bool) { return func(pod *core.Pod) (string, bool) { if status { return k8sutil.GetArangoDBImageIDFromContainerStatuses(pod.Status.ContainerStatuses, shared.ServerContainerName, shared.OperatorContainerName, constants.MyContainerNameEnv.GetOrDefault(shared.OperatorContainerName)) } return k8sutil.GetArangoDBImageFromContainers(pod.Spec.Containers, shared.ServerContainerName, shared.OperatorContainerName, constants.MyContainerNameEnv.GetOrDefault(shared.OperatorContainerName)) } } func createRecorder(kubecli kubernetes.Interface, name, namespace string) record.EventRecorder { eventBroadcaster := record.NewBroadcaster() eventBroadcaster.StartLogging(func(format string, args ...interface{}) { eventRecorder.Info(format, args...) }) eventBroadcaster.StartRecordingToSink(&typedCore.EventSinkImpl{Interface: typedCore.New(kubecli.CoreV1().RESTClient()).Events(namespace)}) combinedScheme := runtime.NewScheme() scheme.AddToScheme(combinedScheme) core.AddToScheme(combinedScheme) apps.AddToScheme(combinedScheme) return eventBroadcaster.NewRecorder(combinedScheme, core.EventSource{Component: name}) } // ensureFeaturesConfigMap creates or updates config map with enabled features. func ensureFeaturesConfigMap(ctx context.Context, client typedCore.ConfigMapInterface, cfg operator.Config) error { ft := features.GetFeatureMap() featuresCM := make(map[string]string, len(ft)) for k, v := range ft { if v { featuresCM[k] = features.Enabled } else { featuresCM[k] = features.Disabled } } nctx, c := globals.GetGlobalTimeouts().Kubernetes().WithTimeout(ctx) defer c() if cm, err := client.Get(nctx, features.ConfigMapName(), meta.GetOptions{}); err != nil { if !apiErrors.IsNotFound(err) { return err } nctx, c := globals.GetGlobalTimeouts().Kubernetes().WithTimeout(ctx) defer c() if _, err := client.Create(nctx, &core.ConfigMap{ ObjectMeta: meta.ObjectMeta{ Name: features.ConfigMapName(), Namespace: cfg.Namespace, }, Data: featuresCM, }, meta.CreateOptions{}); err != nil { return err } return nil } else if !reflect.DeepEqual(cm.Data, featuresCM) { q := cm.DeepCopy() q.Data = featuresCM nctx, c := globals.GetGlobalTimeouts().Kubernetes().WithTimeout(ctx) defer c() if _, err := client.Update(nctx, q, meta.UpdateOptions{}); err != nil { return err } return nil } return nil }