package internal import ( "context" "encoding/json" "errors" "fmt" "net" "strings" "time" "github.com/go-logr/logr" "github.com/kyverno/kyverno/api/kyverno" kyvernov1 "github.com/kyverno/kyverno/api/kyverno/v1" "github.com/kyverno/kyverno/ext/wildcard" "github.com/kyverno/kyverno/pkg/config" "github.com/kyverno/kyverno/pkg/cosign" engineapi "github.com/kyverno/kyverno/pkg/engine/api" enginecontext "github.com/kyverno/kyverno/pkg/engine/context" "github.com/kyverno/kyverno/pkg/engine/variables" "github.com/kyverno/kyverno/pkg/images" "github.com/kyverno/kyverno/pkg/imageverifycache" "github.com/kyverno/kyverno/pkg/notary" apiutils "github.com/kyverno/kyverno/pkg/utils/api" "github.com/kyverno/kyverno/pkg/utils/jsonpointer" "go.uber.org/multierr" "gomodules.xyz/jsonpatch/v2" "k8s.io/apimachinery/pkg/apis/meta/v1/unstructured" ) type ImageVerifier struct { logger logr.Logger rclient engineapi.RegistryClient ivCache imageverifycache.Client policyContext engineapi.PolicyContext rule kyvernov1.Rule ivm *engineapi.ImageVerificationMetadata } func NewImageVerifier( logger logr.Logger, rclient engineapi.RegistryClient, ivCache imageverifycache.Client, policyContext engineapi.PolicyContext, rule kyvernov1.Rule, ivm *engineapi.ImageVerificationMetadata, ) *ImageVerifier { return &ImageVerifier{ logger: logger, rclient: rclient, ivCache: ivCache, policyContext: policyContext, rule: rule, ivm: ivm, } } func HasImageVerifiedAnnotationChanged(ctx engineapi.PolicyContext, log logr.Logger) bool { newResource := ctx.NewResource() oldResource := ctx.OldResource() if newResource.Object == nil || oldResource.Object == nil { return false } newValue := newResource.GetAnnotations()[kyverno.AnnotationImageVerify] oldValue := oldResource.GetAnnotations()[kyverno.AnnotationImageVerify] if newValue == oldValue { return false } var newValueObj, oldValueObj map[string]engineapi.ImageVerificationMetadataStatus err := json.Unmarshal([]byte(newValue), &newValueObj) if err != nil { log.Error(err, "failed to parse new resource annotation.") return true } err = json.Unmarshal([]byte(oldValue), &oldValueObj) if err != nil { log.Error(err, "failed to parse old resource annotation.") return true } for img := range oldValueObj { _, found := newValueObj[img] if found { result := newValueObj[img] != oldValueObj[img] if result { log.V(2).Info("annotation mismatch", "oldValue", oldValue, "newValue", newValue, "key", kyverno.AnnotationImageVerify) return result } } } return false } func matchReferences(imageReferences []string, image string) bool { for _, imageRef := range imageReferences { if wildcard.Match(imageRef, image) { return true } } return false } func ruleStatusToImageVerificationStatus(ruleStatus engineapi.RuleStatus) engineapi.ImageVerificationMetadataStatus { var imageVerificationResult engineapi.ImageVerificationMetadataStatus switch ruleStatus { case engineapi.RuleStatusPass: imageVerificationResult = engineapi.ImageVerificationPass case engineapi.RuleStatusSkip: imageVerificationResult = engineapi.ImageVerificationSkip case engineapi.RuleStatusWarn: imageVerificationResult = engineapi.ImageVerificationSkip case engineapi.RuleStatusFail: imageVerificationResult = engineapi.ImageVerificationFail default: imageVerificationResult = engineapi.ImageVerificationFail } return imageVerificationResult } func isImageVerified(resource unstructured.Unstructured, image string, log logr.Logger) (bool, error) { if resource.Object == nil { return false, fmt.Errorf("nil resource") } annotations := resource.GetAnnotations() if len(annotations) == 0 { return false, nil } data, ok := annotations[kyverno.AnnotationImageVerify] if !ok { log.V(2).Info("missing image metadata in annotation", "key", kyverno.AnnotationImageVerify) return false, fmt.Errorf("image is not verified") } ivm, err := engineapi.ParseImageMetadata(data) if err != nil { log.Error(err, "failed to parse image verification metadata", "data", data) return false, fmt.Errorf("failed to parse image metadata: %w", err) } return ivm.IsVerified(image), nil } func ExpandStaticKeys(attestorSet kyvernov1.AttestorSet) kyvernov1.AttestorSet { entries := make([]kyvernov1.Attestor, 0, len(attestorSet.Entries)) for _, e := range attestorSet.Entries { if e.Keys != nil { keys := splitPEM(e.Keys.PublicKeys) if len(keys) > 1 { moreEntries := createStaticKeyAttestors(keys) entries = append(entries, moreEntries...) continue } } entries = append(entries, e) } return kyvernov1.AttestorSet{ Count: attestorSet.Count, Entries: entries, } } func splitPEM(pem string) []string { keys := strings.SplitAfter(pem, "-----END PUBLIC KEY-----") if len(keys) < 1 { return keys } return keys[0 : len(keys)-1] } func createStaticKeyAttestors(keys []string) []kyvernov1.Attestor { attestors := make([]kyvernov1.Attestor, 0, len(keys)) for _, k := range keys { a := kyvernov1.Attestor{ Keys: &kyvernov1.StaticKeyAttestor{ PublicKeys: k, }, } attestors = append(attestors, a) } return attestors } func buildStatementMap(statements []map[string]interface{}) (map[string][]map[string]interface{}, []string) { results := map[string][]map[string]interface{}{} predicateTypes := make([]string, 0, len(statements)) for _, s := range statements { predicateType := s["type"].(string) if results[predicateType] != nil { results[predicateType] = append(results[predicateType], s) } else { results[predicateType] = []map[string]interface{}{s} } predicateTypes = append(predicateTypes, predicateType) } return results, predicateTypes } func makeAddDigestPatch(imageInfo apiutils.ImageInfo, digest string) jsonpatch.JsonPatchOperation { return jsonpatch.JsonPatchOperation{ Operation: "replace", Path: imageInfo.Pointer, Value: imageInfo.String() + "@" + digest, } } func EvaluateConditions( conditions []kyvernov1.AnyAllConditions, ctx enginecontext.Interface, s map[string]interface{}, log logr.Logger, ) (bool, string, error) { predicate, ok := s["predicate"].(map[string]interface{}) if !ok { return false, "", fmt.Errorf("failed to extract predicate from statement: %v", s) } if err := enginecontext.AddJSONObject(ctx, predicate); err != nil { return false, "", fmt.Errorf("failed to add Statement to the context %v: %w", s, err) } c, err := variables.SubstituteAllInConditions(log, ctx, conditions) if err != nil { return false, "", fmt.Errorf("failed to substitute variables in attestation conditions: %w", err) } return variables.EvaluateAnyAllConditions(log, ctx, c) } // verify applies policy rules to each matching image. The policy rule results and annotation patches are // added to tme imageVerifier `resp` and `ivm` fields. func (iv *ImageVerifier) Verify( ctx context.Context, imageVerify kyvernov1.ImageVerification, matchedImageInfos []apiutils.ImageInfo, cfg config.Configuration, ) ([]jsonpatch.JsonPatchOperation, []*engineapi.RuleResponse) { var responses []*engineapi.RuleResponse var patches []jsonpatch.JsonPatchOperation // for backward compatibility imageVerify = *imageVerify.Convert() for _, imageInfo := range matchedImageInfos { image := imageInfo.String() if HasImageVerifiedAnnotationChanged(iv.policyContext, iv.logger) { msg := kyverno.AnnotationImageVerify + " annotation cannot be changed" iv.logger.Info("image verification error", "reason", msg) responses = append(responses, engineapi.RuleFail(iv.rule.Name, engineapi.ImageVerify, msg)) continue } pointer := jsonpointer.ParsePath(imageInfo.Pointer).JMESPath() changed, err := iv.policyContext.JSONContext().HasChanged(pointer) if err == nil && !changed { iv.logger.V(4).Info("no change in image, skipping check", "image", image) iv.ivm.Add(image, engineapi.ImageVerificationPass) continue } verified, err := isImageVerified(iv.policyContext.NewResource(), image, iv.logger) if err == nil && verified { iv.logger.Info("image was previously verified, skipping check", "image", image) iv.ivm.Add(image, engineapi.ImageVerificationPass) continue } start := time.Now() isInCache := false if iv.ivCache != nil { found, err := iv.ivCache.Get(ctx, iv.policyContext.Policy(), iv.rule.Name, image) if err != nil { iv.logger.Error(err, "error occurred during cache get") } else { isInCache = found } } var ruleResp *engineapi.RuleResponse var digest string if isInCache { iv.logger.V(2).Info("cache entry found", "namespace", iv.policyContext.Policy().GetNamespace(), "policy", iv.policyContext.Policy().GetName(), "ruleName", iv.rule.Name, "imageRef", image) ruleResp = engineapi.RulePass(iv.rule.Name, engineapi.ImageVerify, "verified from cache") digest = imageInfo.Digest } else { iv.logger.V(2).Info("cache entry not found", "namespace", iv.policyContext.Policy().GetNamespace(), "policy", iv.policyContext.Policy().GetName(), "ruleName", iv.rule.Name, "imageRef", image) ruleResp, digest = iv.verifyImage(ctx, imageVerify, imageInfo, cfg) if ruleResp != nil && ruleResp.Status() == engineapi.RuleStatusPass { if iv.ivCache != nil { setted, err := iv.ivCache.Set(ctx, iv.policyContext.Policy(), iv.rule.Name, image) if err != nil { iv.logger.Error(err, "error occurred during cache set") } else { if setted { iv.logger.V(4).Info("successfully set cache", "namespace", iv.policyContext.Policy().GetNamespace(), "policy", iv.policyContext.Policy().GetName(), "ruleName", iv.rule.Name, "imageRef", image) } } } } } iv.logger.V(4).Info("time taken by the image verify operation", "duration", time.Since(start)) if imageVerify.MutateDigest { patch, retrievedDigest, err := iv.handleMutateDigest(ctx, digest, imageInfo) if err != nil { responses = append(responses, engineapi.RuleError(iv.rule.Name, engineapi.ImageVerify, "failed to update digest", err)) } else if patch != nil { if ruleResp == nil { ruleResp = engineapi.RulePass(iv.rule.Name, engineapi.ImageVerify, "mutated image digest") } patches = append(patches, *patch) imageInfo.Digest = retrievedDigest image = imageInfo.String() } } if ruleResp != nil { if len(imageVerify.Attestors) > 0 || len(imageVerify.Attestations) > 0 { iv.ivm.Add(image, ruleStatusToImageVerificationStatus(ruleResp.Status())) } responses = append(responses, ruleResp) } } return patches, responses } func (iv *ImageVerifier) verifyImage( ctx context.Context, imageVerify kyvernov1.ImageVerification, imageInfo apiutils.ImageInfo, cfg config.Configuration, ) (*engineapi.RuleResponse, string) { if len(imageVerify.Attestors) <= 0 && len(imageVerify.Attestations) <= 0 { return nil, "" } image := imageInfo.String() for _, att := range imageVerify.Attestations { if att.Type == "" && att.PredicateType != "" { att.Type = att.PredicateType } } iv.logger.V(2).Info("verifying image signatures", "image", image, "attestors", len(imageVerify.Attestors), "attestations", len(imageVerify.Attestations)) if err := iv.policyContext.JSONContext().AddImageInfo(imageInfo, cfg); err != nil { iv.logger.Error(err, "failed to add image to context") return engineapi.RuleError(iv.rule.Name, engineapi.ImageVerify, fmt.Sprintf("failed to add image to context %s", image), err), "" } if len(imageVerify.Attestors) > 0 { if !matchReferences(imageVerify.ImageReferences, image) { return engineapi.RuleSkip(iv.rule.Name, engineapi.ImageVerify, fmt.Sprintf("skipping image reference image %s, policy %s ruleName %s", image, iv.policyContext.Policy().GetName(), iv.rule.Name)), "" } if matchReferences(imageVerify.SkipImageReferences, image) { iv.logger.Info("skipping image reference", "image", image, "policy", iv.policyContext.Policy().GetName(), "ruleName", iv.rule.Name) iv.ivm.Add(image, engineapi.ImageVerificationSkip) return engineapi.RuleSkip(iv.rule.Name, engineapi.ImageVerify, fmt.Sprintf("skipping image reference image %s, policy %s ruleName %s", image, iv.policyContext.Policy().GetName(), iv.rule.Name)).WithEmitWarning(true), "" } ruleResp, cosignResp := iv.verifyAttestors(ctx, imageVerify.Attestors, imageVerify, imageInfo) if ruleResp.Status() != engineapi.RuleStatusPass { return ruleResp, "" } if imageInfo.Digest == "" { imageInfo.Digest = cosignResp.Digest } if len(imageVerify.Attestations) == 0 { return ruleResp, cosignResp.Digest } } return iv.verifyAttestations(ctx, imageVerify, imageInfo) } func (iv *ImageVerifier) verifyAttestors( ctx context.Context, attestors []kyvernov1.AttestorSet, imageVerify kyvernov1.ImageVerification, imageInfo apiutils.ImageInfo, ) (*engineapi.RuleResponse, *images.Response) { var cosignResponse *images.Response image := imageInfo.String() for i, attestorSet := range attestors { var err error path := fmt.Sprintf(".attestors[%d]", i) iv.logger.V(4).Info("verifying attestors", "path", path) cosignResponse, err = iv.verifyAttestorSet(ctx, attestorSet, imageVerify, imageInfo, path) if err != nil { iv.logger.Error(err, "failed to verify image") return iv.handleRegistryErrors(image, err), nil } } if cosignResponse == nil { return engineapi.RuleError(iv.rule.Name, engineapi.ImageVerify, "invalid response", fmt.Errorf("nil")), nil } msg := fmt.Sprintf("verified image signatures for %s", image) return engineapi.RulePass(iv.rule.Name, engineapi.ImageVerify, msg), cosignResponse } // handle registry network errors as a rule error (instead of a policy failure) func (iv *ImageVerifier) handleRegistryErrors(image string, err error) *engineapi.RuleResponse { msg := fmt.Sprintf("failed to verify image %s: %s", image, err.Error()) var netErr *net.OpError if errors.As(err, &netErr) { return engineapi.RuleError(iv.rule.Name, engineapi.ImageVerify, fmt.Sprintf("failed to verify image %s", image), err) } return engineapi.RuleFail(iv.rule.Name, engineapi.ImageVerify, msg) } func (iv *ImageVerifier) verifyAttestations( ctx context.Context, imageVerify kyvernov1.ImageVerification, imageInfo apiutils.ImageInfo, ) (*engineapi.RuleResponse, string) { image := imageInfo.String() for i, attestation := range imageVerify.Attestations { var errorList []error path := fmt.Sprintf(".attestations[%d]", i) iv.logger.V(2).Info(fmt.Sprintf("attestation %+v", attestation)) if attestation.Type == "" && attestation.PredicateType == "" { return engineapi.RuleFail(iv.rule.Name, engineapi.ImageVerify, path+": missing type"), "" } if attestation.Type == "" && attestation.PredicateType != "" { attestation.Type = attestation.PredicateType } if len(attestation.Attestors) == 0 { // add an empty attestor to allow fetching and checking attestations attestation.Attestors = []kyvernov1.AttestorSet{{Entries: []kyvernov1.Attestor{{}}}} } for j, attestor := range attestation.Attestors { attestorPath := fmt.Sprintf("%s.attestors[%d]", path, j) requiredCount := attestor.RequiredCount() verifiedCount := 0 for _, a := range attestor.Entries { var attestationError error entryPath := fmt.Sprintf("%s.entries[%d]", attestorPath, i) v, opts, subPath := iv.buildVerifier(a, imageVerify, image, &imageVerify.Attestations[i]) cosignResp, err := v.FetchAttestations(ctx, *opts) if err != nil { iv.logger.Error(err, "failed to fetch attestations") errorList = append(errorList, err) continue } if imageInfo.Digest == "" { imageInfo.Digest = cosignResp.Digest image = imageInfo.String() } attestationError = iv.verifyAttestation(cosignResp.Statements, attestation, imageInfo) if attestationError == nil { verifiedCount++ if verifiedCount >= requiredCount { iv.logger.V(2).Info("image attestations verification succeeded", "verifiedCount", verifiedCount, "requiredCount", requiredCount) break } } else { attestationError = fmt.Errorf("%s: %w", entryPath+subPath, attestationError) iv.logger.Error(attestationError, "image attestation verification failed") errorList = append(errorList, attestationError) } } err := multierr.Combine(errorList...) errMsg := "attestations verification failed" if err != nil { errMsg = err.Error() } if verifiedCount < requiredCount { msg := fmt.Sprintf("image attestations verification failed, verifiedCount: %v, requiredCount: %v, error: %s", verifiedCount, requiredCount, errMsg) return engineapi.RuleFail(iv.rule.Name, engineapi.ImageVerify, msg), "" } } iv.logger.V(4).Info("attestation checks passed", "path", path, "image", imageInfo.String(), "type", attestation.Type) } msg := fmt.Sprintf("verified image attestations for %s", image) iv.logger.V(2).Info(msg) return engineapi.RulePass(iv.rule.Name, engineapi.ImageVerify, msg), imageInfo.Digest } func (iv *ImageVerifier) verifyAttestorSet( ctx context.Context, attestorSet kyvernov1.AttestorSet, imageVerify kyvernov1.ImageVerification, imageInfo apiutils.ImageInfo, path string, ) (*images.Response, error) { var errorList []error verifiedCount := 0 attestorSet = ExpandStaticKeys(attestorSet) requiredCount := attestorSet.RequiredCount() image := imageInfo.String() for i, a := range attestorSet.Entries { var entryError error var cosignResp *images.Response attestorPath := fmt.Sprintf("%s.entries[%d]", path, i) iv.logger.V(4).Info("verifying attestorSet", "path", attestorPath) if a.Attestor != nil { nestedAttestorSet, err := kyvernov1.AttestorSetUnmarshal(a.Attestor) if err != nil { entryError = fmt.Errorf("failed to unmarshal nested attestor %s: %w", attestorPath, err) } else { attestorPath += ".attestor" cosignResp, entryError = iv.verifyAttestorSet(ctx, *nestedAttestorSet, imageVerify, imageInfo, attestorPath) } } else { v, opts, subPath := iv.buildVerifier(a, imageVerify, image, nil) cosignResp, entryError = v.VerifySignature(ctx, *opts) if entryError != nil { entryError = fmt.Errorf("%s: %w", attestorPath+subPath, entryError) } } if entryError == nil { verifiedCount++ if verifiedCount >= requiredCount { iv.logger.V(2).Info("image attestors verification succeeded", "verifiedCount", verifiedCount, "requiredCount", requiredCount) return cosignResp, nil } } else { errorList = append(errorList, entryError) } } err := multierr.Combine(errorList...) iv.logger.Info("image attestors verification failed", "verifiedCount", verifiedCount, "requiredCount", requiredCount, "errors", err.Error()) return nil, err } func (iv *ImageVerifier) buildVerifier( attestor kyvernov1.Attestor, imageVerify kyvernov1.ImageVerification, image string, attestation *kyvernov1.Attestation, ) (images.ImageVerifier, *images.Options, string) { switch imageVerify.Type { case kyvernov1.Notary: return iv.buildNotaryVerifier(attestor, image, attestation) default: return iv.buildCosignVerifier(attestor, imageVerify, image, attestation) } } func (iv *ImageVerifier) buildCosignVerifier( attestor kyvernov1.Attestor, imageVerify kyvernov1.ImageVerification, image string, attestation *kyvernov1.Attestation, ) (images.ImageVerifier, *images.Options, string) { path := "" opts := &images.Options{ ImageRef: image, Repository: imageVerify.Repository, Annotations: imageVerify.Annotations, Client: iv.rclient, } if imageVerify.Roots != "" { opts.Roots = imageVerify.Roots } if attestation != nil { opts.PredicateType = attestation.PredicateType opts.Type = attestation.Type opts.IgnoreSCT = true // TODO: Add option to allow SCT when attestors are not provided if attestation.PredicateType != "" && attestation.Type == "" { iv.logger.Info("predicate type has been deprecated, please use type instead") opts.Type = attestation.PredicateType } opts.FetchAttestations = true } if attestor.Keys != nil { path = path + ".keys" if attestor.Keys.PublicKeys != "" { opts.Key = attestor.Keys.PublicKeys } else if attestor.Keys.Secret != nil { opts.Key = fmt.Sprintf("k8s://%s/%s", attestor.Keys.Secret.Namespace, attestor.Keys.Secret.Name) } else if attestor.Keys.KMS != "" { opts.Key = attestor.Keys.KMS } if attestor.Keys.Rekor != nil { opts.RekorURL = attestor.Keys.Rekor.URL opts.RekorPubKey = attestor.Keys.Rekor.RekorPubKey opts.IgnoreTlog = attestor.Keys.Rekor.IgnoreTlog } else { opts.RekorURL = "https://rekor.sigstore.dev" opts.IgnoreTlog = false } if attestor.Keys.CTLog != nil { opts.IgnoreSCT = attestor.Keys.CTLog.IgnoreSCT opts.CTLogsPubKey = attestor.Keys.CTLog.CTLogPubKey opts.TSACertChain = attestor.Keys.CTLog.TSACertChain } else { opts.IgnoreSCT = false } opts.SignatureAlgorithm = attestor.Keys.SignatureAlgorithm } else if attestor.Certificates != nil { path = path + ".certificates" opts.Cert = attestor.Certificates.Certificate opts.CertChain = attestor.Certificates.CertificateChain if attestor.Certificates.Rekor != nil { opts.RekorURL = attestor.Certificates.Rekor.URL opts.RekorPubKey = attestor.Certificates.Rekor.RekorPubKey opts.IgnoreTlog = attestor.Certificates.Rekor.IgnoreTlog } else { opts.RekorURL = "https://rekor.sigstore.dev" opts.IgnoreTlog = false } if attestor.Certificates.CTLog != nil { opts.IgnoreSCT = attestor.Certificates.CTLog.IgnoreSCT opts.CTLogsPubKey = attestor.Certificates.CTLog.CTLogPubKey opts.TSACertChain = attestor.Certificates.CTLog.TSACertChain } else { opts.IgnoreSCT = false } } else if attestor.Keyless != nil { path = path + ".keyless" if attestor.Keyless.Rekor != nil { opts.RekorURL = attestor.Keyless.Rekor.URL opts.RekorPubKey = attestor.Keyless.Rekor.RekorPubKey opts.IgnoreTlog = attestor.Keyless.Rekor.IgnoreTlog } else { opts.RekorURL = "https://rekor.sigstore.dev" opts.IgnoreTlog = false } if attestor.Keyless.CTLog != nil { opts.IgnoreSCT = attestor.Keyless.CTLog.IgnoreSCT opts.CTLogsPubKey = attestor.Keyless.CTLog.CTLogPubKey opts.TSACertChain = attestor.Keyless.CTLog.TSACertChain } else { opts.IgnoreSCT = false } opts.Roots = attestor.Keyless.Roots opts.Issuer = attestor.Keyless.Issuer opts.Subject = attestor.Keyless.Subject opts.AdditionalExtensions = attestor.Keyless.AdditionalExtensions } if attestor.Repository != "" { opts.Repository = attestor.Repository } if attestor.Annotations != nil { opts.Annotations = attestor.Annotations } iv.logger.V(4).Info("cosign verifier built", "ignoreTlog", opts.IgnoreTlog, "ignoreSCT", opts.IgnoreSCT) return cosign.NewVerifier(), opts, path } func (iv *ImageVerifier) buildNotaryVerifier( attestor kyvernov1.Attestor, image string, attestation *kyvernov1.Attestation, ) (images.ImageVerifier, *images.Options, string) { path := "" opts := &images.Options{ ImageRef: image, Cert: attestor.Certificates.Certificate, CertChain: attestor.Certificates.CertificateChain, Client: iv.rclient, } if attestation != nil { opts.Type = attestation.Type opts.PredicateType = attestation.PredicateType if attestation.PredicateType != "" && attestation.Type == "" { iv.logger.Info("predicate type has been deprecated, please use type instead") opts.Type = attestation.PredicateType } opts.FetchAttestations = true } if attestor.Repository != "" { opts.Repository = attestor.Repository } if attestor.Annotations != nil { opts.Annotations = attestor.Annotations } return notary.NewVerifier(), opts, path } func (iv *ImageVerifier) verifyAttestation(statements []map[string]interface{}, attestation kyvernov1.Attestation, imageInfo apiutils.ImageInfo) error { if attestation.Type == "" && attestation.PredicateType == "" { return fmt.Errorf("a type is required") } image := imageInfo.String() statementsByPredicate, types := buildStatementMap(statements) iv.logger.V(4).Info("checking attestations", "predicates", types, "image", image) statements = statementsByPredicate[attestation.Type] if statements == nil { iv.logger.Info("no attestations found for predicate", "type", attestation.Type, "predicates", types, "image", imageInfo.String()) return fmt.Errorf("attestions not found for predicate type %s", attestation.Type) } for _, s := range statements { iv.logger.Info("checking attestation", "predicates", types, "image", imageInfo.String()) val, msg, err := iv.checkAttestations(attestation, s) if err != nil { return fmt.Errorf("failed to check attestations: %w", err) } if !val { return fmt.Errorf("attestation checks failed for %s and predicate %s: %s", imageInfo.String(), attestation.Type, msg) } } return nil } func (iv *ImageVerifier) checkAttestations(a kyvernov1.Attestation, s map[string]interface{}) (bool, string, error) { if len(a.Conditions) == 0 { return true, "", nil } iv.policyContext.JSONContext().Checkpoint() defer iv.policyContext.JSONContext().Restore() return EvaluateConditions(a.Conditions, iv.policyContext.JSONContext(), s, iv.logger) } func (iv *ImageVerifier) handleMutateDigest(ctx context.Context, digest string, imageInfo apiutils.ImageInfo) (*jsonpatch.JsonPatchOperation, string, error) { if imageInfo.Digest != "" { return nil, "", nil } if digest == "" { desc, err := iv.rclient.FetchImageDescriptor(ctx, imageInfo.String()) if err != nil { return nil, "", err } digest = desc.Digest.String() } patch := makeAddDigestPatch(imageInfo, digest) iv.logger.V(4).Info("adding digest patch", "image", imageInfo.String(), "patch", patch.Json()) return &patch, digest, nil }