/* Copyright (c) Edgeless Systems GmbH SPDX-License-Identifier: AGPL-3.0-only */ package helm import ( "bytes" "embed" "encoding/base64" "encoding/json" "fmt" "io/fs" "os" "path/filepath" "strings" "github.com/edgelesssys/constellation/v2/internal/cloud/cloudprovider" "github.com/edgelesssys/constellation/v2/internal/config" "github.com/edgelesssys/constellation/v2/internal/constants" "github.com/edgelesssys/constellation/v2/internal/deploy/helm" "github.com/edgelesssys/constellation/v2/internal/versions" "github.com/pkg/errors" "helm.sh/helm/pkg/ignore" "helm.sh/helm/v3/pkg/chart" "helm.sh/helm/v3/pkg/chart/loader" "helm.sh/helm/v3/pkg/chartutil" ) // Run `go generate` to download (and patch) upstream helm charts. //go:generate ./generateCilium.sh //go:generate ./update-csi-charts.sh //go:generate ./generateCertManager.sh //go:embed all:charts/* var helmFS embed.FS // ChartLoader loads embedded helm charts. type ChartLoader struct { joinServiceImage string kmsImage string ccmImage string cnmImage string autoscalerImage string verificationServiceImage string gcpGuestAgentImage string konnectivityImage string } // New creates a new ChartLoader. func New(csp cloudprovider.Provider, k8sVersion versions.ValidK8sVersion) *ChartLoader { var ccmImage, cnmImage string switch csp { case cloudprovider.AWS: ccmImage = versions.VersionConfigs[k8sVersion].CloudControllerManagerImageAWS case cloudprovider.Azure: ccmImage = versions.VersionConfigs[k8sVersion].CloudControllerManagerImageAzure cnmImage = versions.VersionConfigs[k8sVersion].CloudNodeManagerImageAzure case cloudprovider.GCP: ccmImage = versions.VersionConfigs[k8sVersion].CloudControllerManagerImageGCP } return &ChartLoader{ joinServiceImage: versions.JoinImage, kmsImage: versions.KmsImage, ccmImage: ccmImage, cnmImage: cnmImage, autoscalerImage: versions.VersionConfigs[k8sVersion].ClusterAutoscalerImage, verificationServiceImage: versions.VerificationImage, gcpGuestAgentImage: versions.GcpGuestImage, konnectivityImage: versions.KonnectivityAgentImage, } } // Load the embedded helm charts. func (i *ChartLoader) Load(config *config.Config, conformanceMode bool, masterSecret, salt []byte) ([]byte, error) { ciliumRelease, err := i.loadCilium(config.GetProvider(), conformanceMode) if err != nil { return nil, fmt.Errorf("loading cilium: %w", err) } certManagerRelease, err := i.loadCertManager() if err != nil { return nil, fmt.Errorf("loading cilium: %w", err) } operatorRelease, err := i.loadOperators(config.GetProvider()) if err != nil { return nil, fmt.Errorf("loading operators: %w", err) } conServicesRelease, err := i.loadConstellationServices(config, masterSecret, salt) if err != nil { return nil, fmt.Errorf("loading constellation-services: %w", err) } releases := helm.Releases{Cilium: ciliumRelease, CertManager: certManagerRelease, Operators: operatorRelease, ConstellationServices: conServicesRelease} rel, err := json.Marshal(releases) if err != nil { return nil, err } return rel, nil } func (i *ChartLoader) loadCilium(csp cloudprovider.Provider, conformanceMode bool) (helm.Release, error) { chart, values, err := i.loadCiliumHelper(csp, conformanceMode) if err != nil { return helm.Release{}, err } chartRaw, err := i.marshalChart(chart) if err != nil { return helm.Release{}, fmt.Errorf("packaging cilium chart: %w", err) } return helm.Release{Chart: chartRaw, Values: values, ReleaseName: "cilium", Wait: false}, nil } // loadCiliumHelper is used to separate the marshalling step from the loading step. // This reduces the time unit tests take to execute. func (i *ChartLoader) loadCiliumHelper(csp cloudprovider.Provider, conformanceMode bool) (*chart.Chart, map[string]any, error) { chart, err := loadChartsDir(helmFS, "charts/cilium") if err != nil { return nil, nil, fmt.Errorf("loading cilium chart: %w", err) } var values map[string]any switch csp { case cloudprovider.AWS: values = awsVals case cloudprovider.Azure: values = azureVals case cloudprovider.GCP: values = gcpVals case cloudprovider.QEMU: values = qemuVals default: return nil, nil, fmt.Errorf("unknown csp: %s", csp) } if conformanceMode { values["kubeProxyReplacementHealthzBindAddr"] = "" values["kubeProxyReplacement"] = "partial" values["sessionAffinity"] = true values["cni"] = map[string]any{ "chainingMode": "portmap", } } return chart, values, nil } func (i *ChartLoader) loadCertManager() (helm.Release, error) { chart, values, err := i.loadCertManagerHelper() if err != nil { return helm.Release{}, err } chartRaw, err := i.marshalChart(chart) if err != nil { return helm.Release{}, fmt.Errorf("packaging cert-manager chart: %w", err) } return helm.Release{Chart: chartRaw, Values: values, ReleaseName: "cert-manager", Wait: false}, nil } // loadCertManagerHelper is used to separate the marshalling step from the loading step. // This reduces the time unit tests take to execute. func (i *ChartLoader) loadCertManagerHelper() (*chart.Chart, map[string]any, error) { chart, err := loadChartsDir(helmFS, "charts/cert-manager") if err != nil { return nil, nil, fmt.Errorf("loading cert-manager chart: %w", err) } values := map[string]any{ "installCRDs": true, "prometheus": map[string]any{ "enabled": false, }, "tolerations": []map[string]any{ { "key": "node-role.kubernetes.io/control-plane", "effect": "NoSchedule", "operator": "Exists", }, { "key": "node-role.kubernetes.io/master", "effect": "NoSchedule", "operator": "Exists", }, }, "webhook": map[string]any{ "tolerations": []map[string]any{ { "key": "node-role.kubernetes.io/control-plane", "effect": "NoSchedule", "operator": "Exists", }, { "key": "node-role.kubernetes.io/master", "effect": "NoSchedule", "operator": "Exists", }, }, }, "cainjector": map[string]any{ "tolerations": []map[string]any{ { "key": "node-role.kubernetes.io/control-plane", "effect": "NoSchedule", "operator": "Exists", }, { "key": "node-role.kubernetes.io/master", "effect": "NoSchedule", "operator": "Exists", }, }, }, "startupapicheck": map[string]any{ "timeout": "5m", "extraArgs": []string{ "--verbose", }, "tolerations": []map[string]any{ { "key": "node-role.kubernetes.io/control-plane", "effect": "NoSchedule", "operator": "Exists", }, { "key": "node-role.kubernetes.io/master", "effect": "NoSchedule", "operator": "Exists", }, }, }, } return chart, values, nil } func (i *ChartLoader) loadOperators(csp cloudprovider.Provider) (helm.Release, error) { chart, values, err := i.loadOperatorsHelper(csp) if err != nil { return helm.Release{}, err } chartRaw, err := i.marshalChart(chart) if err != nil { return helm.Release{}, fmt.Errorf("packaging operators chart: %w", err) } return helm.Release{Chart: chartRaw, Values: values, ReleaseName: "con-operators", Wait: false}, nil } // loadOperatorsHelper is used to separate the marshalling step from the loading step. // This reduces the time unit tests take to execute. func (i *ChartLoader) loadOperatorsHelper(csp cloudprovider.Provider) (*chart.Chart, map[string]any, error) { chart, err := loadChartsDir(helmFS, "charts/edgeless/operators") if err != nil { return nil, nil, fmt.Errorf("loading operators chart: %w", err) } values := map[string]any{ "constellation-operator": map[string]any{ "controllerManager": map[string]any{ "manager": map[string]any{ "image": versions.ConstellationOperatorImage, }, }, }, "node-maintenance-operator": map[string]any{ "controllerManager": map[string]any{ "manager": map[string]any{ "image": versions.NodeMaintenanceOperatorImage, }, }, }, } switch csp { case cloudprovider.Azure: conOpVals, ok := values["constellation-operator"].(map[string]any) if !ok { return nil, nil, errors.New("invalid constellation-operator values") } conOpVals["csp"] = "Azure" values["tags"] = map[string]any{ "Azure": true, } case cloudprovider.GCP: conOpVals, ok := values["constellation-operator"].(map[string]any) if !ok { return nil, nil, errors.New("invalid constellation-operator values") } conOpVals["csp"] = "GCP" values["tags"] = map[string]any{ "GCP": true, } case cloudprovider.QEMU: conOpVals, ok := values["constellation-operator"].(map[string]any) if !ok { return nil, nil, errors.New("invalid constellation-operator values") } conOpVals["csp"] = "QEMU" values["tags"] = map[string]any{ "QEMU": true, } case cloudprovider.AWS: conOpVals, ok := values["constellation-operator"].(map[string]any) if !ok { return nil, nil, errors.New("invalid constellation-operator values") } conOpVals["csp"] = "AWS" values["tags"] = map[string]any{ "AWS": true, } } return chart, values, nil } // loadConstellationServices loads the constellation-services chart from the embed.FS, // marshals it into a helm-package .tgz and sets the values that can be set in the CLI. func (i *ChartLoader) loadConstellationServices(config *config.Config, masterSecret, salt []byte) (helm.Release, error) { chart, values, err := i.loadConstellationServicesHelper(config, masterSecret, salt) if err != nil { return helm.Release{}, err } chartRaw, err := i.marshalChart(chart) if err != nil { return helm.Release{}, fmt.Errorf("packaging constellation-services chart: %w", err) } return helm.Release{Chart: chartRaw, Values: values, ReleaseName: "constellation-services", Wait: false}, nil } // loadConstellationServicesHelper is used to separate the marshalling step from the loading step. // This reduces the time unit tests take to execute. func (i *ChartLoader) loadConstellationServicesHelper(config *config.Config, masterSecret, salt []byte) (*chart.Chart, map[string]any, error) { chart, err := loadChartsDir(helmFS, "charts/edgeless/constellation-services") if err != nil { return nil, nil, fmt.Errorf("loading constellation-services chart: %w", err) } csp := config.GetProvider() values := map[string]any{ "global": map[string]any{ "kmsPort": constants.KMSPort, "serviceBasePath": constants.ServiceBasePath, "joinConfigCMName": constants.JoinConfigMap, "k8sVersionCMName": constants.K8sVersion, "internalCMName": constants.InternalConfigMap, }, "kms": map[string]any{ "image": i.kmsImage, "masterSecret": base64.StdEncoding.EncodeToString(masterSecret), "salt": base64.StdEncoding.EncodeToString(salt), "saltKeyName": constants.ConstellationSaltKey, "masterSecretKeyName": constants.ConstellationMasterSecretKey, "masterSecretName": constants.ConstellationMasterSecretStoreName, "measurementsFilename": constants.MeasurementsFilename, }, "join-service": map[string]any{ "csp": csp.String(), "image": i.joinServiceImage, }, "ccm": map[string]any{ "csp": csp.String(), }, "autoscaler": map[string]any{ "csp": csp.String(), "image": i.autoscalerImage, }, "verification-service": map[string]any{ "csp": csp.String(), "image": i.verificationServiceImage, }, "gcp-guest-agent": map[string]any{ "image": i.gcpGuestAgentImage, }, "konnectivity": map[string]any{ "image": i.konnectivityImage, }, } switch csp { case cloudprovider.Azure: joinServiceVals, ok := values["join-service"].(map[string]any) if !ok { return nil, nil, errors.New("invalid join-service values") } joinServiceVals["enforceIdKeyDigest"] = config.EnforcesIDKeyDigest() ccmVals, ok := values["ccm"].(map[string]any) if !ok { return nil, nil, errors.New("invalid ccm values") } ccmVals["Azure"] = map[string]any{ "image": i.ccmImage, } values["cnm"] = map[string]any{ "image": i.cnmImage, } values["azure"] = map[string]any{ "deployCSIDriver": config.DeployCSIDriver(), } values["azuredisk-csi-driver"] = map[string]any{ "node": map[string]any{ "kmsPort": constants.KMSPort, "kmsNamespace": "", // empty namespace means we use the release namespace }, } values["tags"] = map[string]any{ "Azure": true, } case cloudprovider.GCP: ccmVals, ok := values["ccm"].(map[string]any) if !ok { return nil, nil, errors.New("invalid ccm values") } ccmVals["GCP"] = map[string]any{ "image": i.ccmImage, } values["gcp"] = map[string]any{ "deployCSIDriver": config.DeployCSIDriver(), } values["gcp-compute-persistent-disk-csi-driver"] = map[string]any{ "csiNode": map[string]any{ "kmsPort": constants.KMSPort, "kmsNamespace": "", // empty namespace means we use the release namespace }, } values["tags"] = map[string]any{ "GCP": true, } case cloudprovider.QEMU: values["tags"] = map[string]interface{}{ "QEMU": true, } case cloudprovider.AWS: ccmVals, ok := values["ccm"].(map[string]any) if !ok { return nil, nil, errors.New("invalid ccm values") } ccmVals["AWS"] = map[string]any{ "image": i.ccmImage, } values["tags"] = map[string]any{ "AWS": true, } } return chart, values, nil } // marshalChart takes a Chart object, packages it to a temporary file and returns the content of that file. // We currently need to take this approach of marshaling as dependencies are not marshaled correctly with json.Marshal. // This stems from the fact that chart.Chart does not export the dependencies property. func (i *ChartLoader) marshalChart(chart *chart.Chart) ([]byte, error) { // A separate tmpdir path is necessary since during unit testing multiple go routines are accessing the same path, possibly deleting files for other routines. tmpDirPath, err := os.MkdirTemp("", "*") defer os.Remove(tmpDirPath) if err != nil { return nil, fmt.Errorf("creating tmp dir: %w", err) } path, err := chartutil.Save(chart, tmpDirPath) defer os.Remove(path) if err != nil { return nil, fmt.Errorf("chartutil save: %w", err) } chartRaw, err := os.ReadFile(path) if err != nil { return nil, fmt.Errorf("reading packaged chart: %w", err) } return chartRaw, nil } // taken from loader.LoadDir from the helm go module // loadChartsDir loads from a directory. // // This loads charts only from directories. func loadChartsDir(efs embed.FS, dir string) (*chart.Chart, error) { utf8bom := []byte{0xEF, 0xBB, 0xBF} // Just used for errors. c := &chart.Chart{} rules := ignore.Empty() ifile, err := efs.ReadFile(filepath.Join(dir, ignore.HelmIgnore)) if err == nil { r, err := ignore.Parse(bytes.NewReader(ifile)) if err != nil { return c, err } rules = r } rules.AddDefaults() files := []*loader.BufferedFile{} walk := func(path string, d fs.DirEntry, err error) error { n := strings.TrimPrefix(path, dir) if n == "" { // No need to process top level. Avoid bug with helmignore .* matching // empty names. See issue https://github.com/kubernetes/helm/issues/1776. return nil } // Normalize to / since it will also work on Windows n = filepath.ToSlash(n) // Check input err if err != nil { return err } fi, err := d.Info() if err != nil { return err } if d.IsDir() { // Directory-based ignore rules should involve skipping the entire // contents of that directory. if rules.Ignore(n, fi) { return filepath.SkipDir } return nil } // If a .helmignore file matches, skip this file. if rules.Ignore(n, fi) { return nil } // Irregular files include devices, sockets, and other uses of files that // are not regular files. In Go they have a file mode type bit set. // See https://golang.org/pkg/os/#FileMode for examples. if !fi.Mode().IsRegular() { return fmt.Errorf("cannot load irregular file %s as it has file mode type bits set", path) } data, err := efs.ReadFile(path) if err != nil { return errors.Wrapf(err, "error reading %s", n) } data = bytes.TrimPrefix(data, utf8bom) n = strings.TrimPrefix(n, "/") files = append(files, &loader.BufferedFile{Name: n, Data: data}) return nil } if err := fs.WalkDir(efs, dir, walk); err != nil { return c, err } return loader.LoadFiles(files) }