/* Copyright (c) Edgeless Systems GmbH SPDX-License-Identifier: AGPL-3.0-only */ package helm import ( "bytes" "encoding/json" "fmt" "io/fs" "os" "path" "path/filepath" "sort" "strings" "testing" "github.com/pkg/errors" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "helm.sh/helm/v3/pkg/chart/loader" "helm.sh/helm/v3/pkg/chartutil" "helm.sh/helm/v3/pkg/engine" "github.com/edgelesssys/constellation/v2/internal/attestation/idkeydigest" "github.com/edgelesssys/constellation/v2/internal/attestation/measurements" "github.com/edgelesssys/constellation/v2/internal/cloud/cloudprovider" "github.com/edgelesssys/constellation/v2/internal/config" "github.com/edgelesssys/constellation/v2/internal/deploy/helm" ) // TestLoad checks if the serialized format that Load returns correctly preserves the dependencies of the loaded chart. func TestLoad(t *testing.T) { assert := assert.New(t) require := require.New(t) config := &config.Config{Provider: config.ProviderConfig{GCP: &config.GCPConfig{}}} chartLoader := ChartLoader{csp: config.GetProvider()} release, err := chartLoader.Load(config, true, helm.WaitModeAtomic, []byte("secret"), []byte("salt")) require.NoError(err) var helmReleases helm.Releases err = json.Unmarshal(release, &helmReleases) require.NoError(err) reader := bytes.NewReader(helmReleases.ConstellationServices.Chart) chart, err := loader.LoadArchive(reader) require.NoError(err) assert.NotNil(chart.Dependencies()) } // TestConstellationServices checks if the rendered constellation-services chart produces the expected yaml files. func TestConstellationServices(t *testing.T) { testCases := map[string]struct { config *config.Config enforceIDKeyDigest bool ccmImage string cnmImage string }{ "AWS": { config: &config.Config{ Provider: config.ProviderConfig{AWS: &config.AWSConfig{ DeployCSIDriver: toPtr(false), }}, Attestation: config.AttestationConfig{AWSNitroTPM: &config.AWSNitroTPM{ Measurements: measurements.M{1: measurements.WithAllBytes(0xAA, measurements.Enforce, measurements.PCRMeasurementLength)}, }}, }, ccmImage: "ccmImageForAWS", }, "Azure": { config: &config.Config{ Provider: config.ProviderConfig{Azure: &config.AzureConfig{ DeployCSIDriver: toPtr(true), }}, Attestation: config.AttestationConfig{AzureSEVSNP: &config.AzureSEVSNP{ Measurements: measurements.M{1: measurements.WithAllBytes(0xAA, measurements.Enforce, measurements.PCRMeasurementLength)}, FirmwareSignerConfig: config.SNPFirmwareSignerConfig{ AcceptedKeyDigests: idkeydigest.List{bytes.Repeat([]byte{0xAA}, 32)}, EnforcementPolicy: idkeydigest.MAAFallback, MAAURL: "https://192.0.2.1:8080/maa", }, BootloaderVersion: config.AttestationVersion{Value: 1, WantLatest: true}, TEEVersion: config.AttestationVersion{Value: 2, WantLatest: true}, SNPVersion: config.AttestationVersion{Value: 3, WantLatest: true}, MicrocodeVersion: config.AttestationVersion{Value: 4, WantLatest: true}, }}, }, enforceIDKeyDigest: true, ccmImage: "ccmImageForAzure", cnmImage: "cnmImageForAzure", }, "GCP": { config: &config.Config{ Provider: config.ProviderConfig{GCP: &config.GCPConfig{ DeployCSIDriver: toPtr(true), }}, Attestation: config.AttestationConfig{GCPSEVES: &config.GCPSEVES{ Measurements: measurements.M{1: measurements.WithAllBytes(0xAA, measurements.Enforce, measurements.PCRMeasurementLength)}, }}, }, ccmImage: "ccmImageForGCP", }, "OpenStack": { config: &config.Config{ Provider: config.ProviderConfig{OpenStack: &config.OpenStackConfig{}}, Attestation: config.AttestationConfig{QEMUVTPM: &config.QEMUVTPM{ Measurements: measurements.M{1: measurements.WithAllBytes(0xAA, measurements.Enforce, measurements.PCRMeasurementLength)}, }}, }, ccmImage: "ccmImageForOpenStack", }, "QEMU": { config: &config.Config{ Provider: config.ProviderConfig{QEMU: &config.QEMUConfig{}}, Attestation: config.AttestationConfig{QEMUVTPM: &config.QEMUVTPM{ Measurements: measurements.M{1: measurements.WithAllBytes(0xAA, measurements.Enforce, measurements.PCRMeasurementLength)}, }}, }, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) chartLoader := ChartLoader{ csp: tc.config.GetProvider(), joinServiceImage: "joinServiceImage", keyServiceImage: "keyServiceImage", ccmImage: tc.ccmImage, cnmImage: tc.cnmImage, autoscalerImage: "autoscalerImage", verificationServiceImage: "verificationImage", konnectivityImage: "konnectivityImage", gcpGuestAgentImage: "gcpGuestAgentImage", } chart, err := loadChartsDir(helmFS, constellationServicesInfo.path) require.NoError(err) values := chartLoader.loadConstellationServicesValues() err = extendConstellationServicesValues(values, tc.config, []byte("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"), []byte("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa")) require.NoError(err) options := chartutil.ReleaseOptions{ Name: "testRelease", Namespace: "testNamespace", Revision: 1, IsInstall: true, IsUpgrade: false, } kubeVersion, err := chartutil.ParseKubeVersion("1.18.0") require.NoError(err) caps := &chartutil.Capabilities{ KubeVersion: *kubeVersion, } // Add provider tag values["tags"] = map[string]any{ tc.config.GetProvider().String(): true, } // Add values that are only known after the cluster is created. err = addInClusterValues(values, tc.config.GetProvider()) require.NoError(err) // This step is needed to enabled/disable subcharts according to their tags/conditions. err = chartutil.ProcessDependencies(chart, values) require.NoError(err) valuesToRender, err := chartutil.ToRenderValues(chart, values, options, caps) require.NoError(err) result, err := engine.Render(chart, valuesToRender) require.NoError(err) testDataPath := path.Join("testdata", tc.config.GetProvider().String(), "constellation-services") // Build a map with the same structure as result: filepaths -> rendered template. expectedData := map[string]string{} err = filepath.Walk(testDataPath, buildTestdataMap(tc.config.GetProvider().String(), expectedData, require)) require.NoError(err) compareMaps(expectedData, result, assert, require, t) }) } } // TestOperators checks if the rendered constellation-services chart produces the expected yaml files. func TestOperators(t *testing.T) { testCases := map[string]struct { csp cloudprovider.Provider }{ "GCP": { csp: cloudprovider.GCP, }, "Azure": { csp: cloudprovider.Azure, }, "QEMU": { csp: cloudprovider.QEMU, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) chartLoader := ChartLoader{ csp: tc.csp, joinServiceImage: "joinServiceImage", keyServiceImage: "keyServiceImage", ccmImage: "ccmImage", cnmImage: "cnmImage", autoscalerImage: "autoscalerImage", constellationOperatorImage: "constellationOperatorImage", nodeMaintenanceOperatorImage: "nodeMaintenanceOperatorImage", } chart, err := loadChartsDir(helmFS, constellationOperatorsInfo.path) require.NoError(err) vals := chartLoader.loadOperatorsValues() options := chartutil.ReleaseOptions{ Name: "testRelease", Namespace: "testNamespace", Revision: 1, IsInstall: true, IsUpgrade: false, } caps := &chartutil.Capabilities{} vals["tags"] = map[string]any{ tc.csp.String(): true, } conOpVals, ok := vals["constellation-operator"].(map[string]any) require.True(ok) conOpVals["constellationUID"] = "42424242424242" // This step is needed to enabled/disable subcharts according to their tags/conditions. err = chartutil.ProcessDependencies(chart, vals) require.NoError(err) valuesToRender, err := chartutil.ToRenderValues(chart, vals, options, caps) require.NoError(err) result, err := engine.Render(chart, valuesToRender) require.NoError(err) testDataPath := path.Join("testdata", tc.csp.String(), "constellation-operators") // Build a map with the same structe as result: filepaths -> rendered template. expectedData := map[string]string{} err = filepath.Walk(testDataPath, buildTestdataMap(tc.csp.String(), expectedData, require)) require.NoError(err) compareMaps(expectedData, result, assert, require, t) }) } } // compareMaps ensures that both maps specify the same templates. func compareMaps(expectedData map[string]string, result map[string]string, assert *assert.Assertions, require *require.Assertions, t *testing.T) { // This whole block is only to produce useful error messages. // It should allow a developer to see the missing template from just the error message. if len(expectedData) > len(result) { keys := getKeys(expectedData) sort.Strings(keys) t.Logf("expected these templates:\n%s", strings.Join(keys, "\n")) keys = getKeys(result) sort.Strings(keys) t.Logf("got these templates:\n%s", strings.Join(keys, "\n")) require.FailNow("missing templates in results.") } // Walk the map and compare each result with it's expected render. // Results where the expected-file is missing are errors. for k, actualTemplates := range result { if len(strings.TrimSpace(actualTemplates)) == 0 { continue } // testify has an issue where when multiple documents are contained in one YAML string, // only the first document is parsed [1]. For this reason we split the YAML string // into a slice of strings, each entry containing one document. // [1] https://github.com/stretchr/testify/issues/1281 renderedTemplates, ok := expectedData[k] require.True(ok, fmt.Sprintf("unexpected render in results, missing file with expected data: %s len: %d", k, len(actualTemplates))) expectedSplit := strings.Split(renderedTemplates, "\n---\n") sort.Strings(expectedSplit) actualSplit := strings.Split(actualTemplates, "\n---\n") sort.Strings(actualSplit) require.Equal(len(expectedSplit), len(actualSplit)) for i := range expectedSplit { assert.YAMLEq(expectedSplit[i], actualSplit[i], fmt.Sprintf("current file: %s", k)) } } } func getKeys(input map[string]string) []string { keys := []string{} for k := range input { keys = append(keys, k) } return keys } func buildTestdataMap(csp string, expectedData map[string]string, require *require.Assertions) func(path string, info fs.FileInfo, err error) error { return func(currentPath string, _ os.FileInfo, err error) error { if err != nil { return err } if !strings.HasSuffix(currentPath, ".yaml") { return nil } _, after, _ := strings.Cut(currentPath, "testdata/"+csp+"/") data, err := os.ReadFile(currentPath) require.NoError(err) _, ok := expectedData[after] require.False(ok, "read same path twice during expected data collection.") expectedData[after] = string(data) return nil } } // addInClusterValues adds values that are only known after the cluster is created. func addInClusterValues(values map[string]any, csp cloudprovider.Provider) error { joinVals, ok := values["join-service"].(map[string]any) if !ok { return errors.New("missing 'join-service' key") } joinVals["measurementSalt"] = "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA" verificationVals, ok := values["verification-service"].(map[string]any) if !ok { return fmt.Errorf("missing 'verification-service' key %v", values) } verificationVals["loadBalancerIP"] = "127.0.0.1" konnectivityVals, ok := values["konnectivity"].(map[string]any) if !ok { return errors.New("missing 'konnectivity' key") } konnectivityVals["loadBalancerIP"] = "127.0.0.1" ccmVals, ok := values["ccm"].(map[string]any) if !ok { return errors.New("missing 'ccm' key") } switch csp { case cloudprovider.Azure: ccmVals[cloudprovider.Azure.String()] = map[string]any{ "azureConfig": "baaaaaad", } autoscalerVals, ok := values["autoscaler"].(map[string]any) if !ok { return errors.New("missing 'autoscaler' key") } autoscalerVals["Azure"] = map[string]any{ "resourceGroup": "resourceGroup", "subscriptionID": "subscriptionID", "tenantID": "TenantID", } case cloudprovider.GCP: ccmVals[cloudprovider.GCP.String()] = map[string]any{ "subnetworkPodCIDR": "192.0.2.0/24", "projectID": "42424242424242", "uid": "242424242424", "secretData": "baaaaaad", } case cloudprovider.OpenStack: ccmVals["OpenStack"] = map[string]any{ "secretData": "baaaaaad", } } return nil } func toPtr[T any](v T) *T { return &v }