// ValidateImageStreamMapping tests required fields for an ImageStreamMapping.
func ValidateImageStreamMapping(mapping *api.ImageStreamMapping) field.ErrorList {
result := validation.ValidateObjectMeta(&mapping.ObjectMeta, true, oapi.MinimalNameRequirements, field.NewPath("metadata"))
hasRepository := len(mapping.DockerImageRepository) != 0
hasName := len(mapping.Name) != 0
switch {
case hasRepository:
if _, err := api.ParseDockerImageReference(mapping.DockerImageRepository); err != nil {
result = append(result, field.Invalid(field.NewPath("dockerImageRepository"), mapping.DockerImageRepository, err.Error()))
}
case hasName:
default:
result = append(result, field.Required(field.NewPath("name"), ""))
result = append(result, field.Required(field.NewPath("dockerImageRepository"), ""))
}
if ok, msg := validation.ValidateNamespaceName(mapping.Namespace, false); !ok {
result = append(result, field.Invalid(field.NewPath("metadata", "namespace"), mapping.Namespace, msg))
}
if len(mapping.Tag) == 0 {
result = append(result, field.Required(field.NewPath("tag"), ""))
}
if errs := validateImage(&mapping.Image, field.NewPath("image")); len(errs) != 0 {
result = append(result, errs...)
}
return result
}
func validateRoleBinding(roleBinding *rbac.RoleBinding, isNamespaced bool, fldPath *field.Path) field.ErrorList {
allErrs := field.ErrorList{}
allErrs = append(allErrs, validation.ValidateObjectMeta(&roleBinding.ObjectMeta, isNamespaced, minimalNameRequirements, fldPath.Child("metadata"))...)
// roleRef namespace is empty when referring to global policy.
if len(roleBinding.RoleRef.Namespace) > 0 {
if ok, reason := validation.ValidateNamespaceName(roleBinding.RoleRef.Namespace, false); !ok {
allErrs = append(allErrs, field.Invalid(fldPath.Child("roleRef", "namespace"), roleBinding.RoleRef.Namespace, reason))
}
}
if len(roleBinding.RoleRef.Name) == 0 {
allErrs = append(allErrs, field.Required(fldPath.Child("roleRef", "name"), ""))
} else {
if valid, err := minimalNameRequirements(roleBinding.RoleRef.Name, false); !valid {
allErrs = append(allErrs, field.Invalid(fldPath.Child("roleRef", "name"), roleBinding.RoleRef.Name, err))
}
}
subjectsPath := field.NewPath("subjects")
for i, subject := range roleBinding.Subjects {
allErrs = append(allErrs, validateRoleBindingSubject(subject, isNamespaced, subjectsPath.Index(i))...)
}
return allErrs
}
func ValidateClusterRoleBinding(roleBinding *rbac.ClusterRoleBinding) field.ErrorList {
allErrs := field.ErrorList{}
allErrs = append(allErrs, validation.ValidateObjectMeta(&roleBinding.ObjectMeta, false, minimalNameRequirements, field.NewPath("metadata"))...)
// roleRef namespace is empty when referring to global policy.
if len(roleBinding.RoleRef.Namespace) > 0 {
for _, msg := range validation.ValidateNamespaceName(roleBinding.RoleRef.Namespace, false) {
allErrs = append(allErrs, field.Invalid(field.NewPath("roleRef", "namespace"), roleBinding.RoleRef.Namespace, msg))
}
}
if len(roleBinding.RoleRef.Name) == 0 {
allErrs = append(allErrs, field.Required(field.NewPath("roleRef", "name"), ""))
} else {
for _, msg := range minimalNameRequirements(roleBinding.RoleRef.Name, false) {
allErrs = append(allErrs, field.Invalid(field.NewPath("roleRef", "name"), roleBinding.RoleRef.Name, msg))
}
}
subjectsPath := field.NewPath("subjects")
for i, subject := range roleBinding.Subjects {
allErrs = append(allErrs, validateRoleBindingSubject(subject, false, subjectsPath.Index(i))...)
}
return allErrs
}
func ValidateNamespace(namespace, field string) fielderrors.ValidationErrorList {
allErrs := fielderrors.ValidationErrorList{}
if len(namespace) == 0 {
allErrs = append(allErrs, fielderrors.NewFieldRequired(field))
} else if ok, _ := kvalidation.ValidateNamespaceName(namespace, false); !ok {
allErrs = append(allErrs, fielderrors.NewFieldInvalid(field, namespace, "must be a valid namespace"))
}
return allErrs
}
func ValidateNamespace(namespace string, fldPath *field.Path) field.ErrorList {
allErrs := field.ErrorList{}
if len(namespace) == 0 {
allErrs = append(allErrs, field.Required(fldPath, ""))
} else if reasons := kvalidation.ValidateNamespaceName(namespace, false); len(reasons) != 0 {
allErrs = append(allErrs, field.Invalid(fldPath, namespace, "must be a valid namespace"))
}
return allErrs
}
func PodMetricsUrl(namespace string, name string) (string, error) {
errs := validation.ValidateNamespaceName(namespace, false)
if len(errs) > 0 {
message := fmt.Sprintf("invalid namespace: %s - %v", namespace, errs)
return "", errors.New(message)
}
if len(name) > 0 {
errs = validation.ValidatePodName(name, false)
if len(errs) > 0 {
message := fmt.Sprintf("invalid pod name: %s - %v", name, errs)
return "", errors.New(message)
}
}
return fmt.Sprintf("%s/namespaces/%s/pods/%s", MetricsRoot, namespace, name), nil
}
func ValidateProjectName(name string, prefix bool) (bool, string) {
if ok, reason := oapi.MinimalNameRequirements(name, prefix); !ok {
return ok, reason
}
if len(name) < 2 {
return false, "must be at least 2 characters long"
}
if ok, msg := validation.ValidateNamespaceName(name, false); !ok {
return ok, msg
}
return true, ""
}
func ValidateProjectName(name string, prefix bool) []string {
if reasons := path.ValidatePathSegmentName(name, prefix); len(reasons) != 0 {
return reasons
}
if len(name) < 2 {
return []string{"must be at least 2 characters long"}
}
if reasons := validation.ValidateNamespaceName(name, false); len(reasons) != 0 {
return reasons
}
return nil
}
func ValidateProjectName(name string, prefix bool) []string {
if reasons := oapi.MinimalNameRequirements(name, prefix); len(reasons) != 0 {
return reasons
}
if len(name) < 2 {
return []string{"must be at least 2 characters long"}
}
if reasons := validation.ValidateNamespaceName(name, false); len(reasons) != 0 {
return reasons
}
return nil
}
// SplitUsername returns the namespace and ServiceAccount name embedded in the given username,
// or an error if the username is not a valid name produced by MakeUsername
func SplitUsername(username string) (string, string, error) {
if !strings.HasPrefix(username, ServiceAccountUsernamePrefix) {
return "", "", invalidUsernameErr
}
trimmed := strings.TrimPrefix(username, ServiceAccountUsernamePrefix)
parts := strings.Split(trimmed, ServiceAccountUsernameSeparator)
if len(parts) != 2 {
return "", "", invalidUsernameErr
}
namespace, name := parts[0], parts[1]
if len(validation.ValidateNamespaceName(namespace, false)) != 0 {
return "", "", invalidUsernameErr
}
if len(validation.ValidateServiceAccountName(name, false)) != 0 {
return "", "", invalidUsernameErr
}
return namespace, name, nil
}
func fuzzInternalObject(t *testing.T, forVersion string, item runtime.Object, seed int64) runtime.Object {
f := apitesting.FuzzerFor(t, forVersion, rand.NewSource(seed))
f.Funcs(
// Roles and RoleBindings maps are never nil
func(j *authorizationapi.Policy, c fuzz.Continue) {
j.Roles = make(map[string]*authorizationapi.Role)
},
func(j *authorizationapi.PolicyBinding, c fuzz.Continue) {
j.RoleBindings = make(map[string]*authorizationapi.RoleBinding)
},
func(j *authorizationapi.ClusterPolicy, c fuzz.Continue) {
j.Roles = make(map[string]*authorizationapi.ClusterRole)
},
func(j *authorizationapi.ClusterPolicyBinding, c fuzz.Continue) {
j.RoleBindings = make(map[string]*authorizationapi.ClusterRoleBinding)
},
func(j *authorizationapi.RoleBinding, c fuzz.Continue) {
c.FuzzNoCustom(j)
for i := range j.Subjects {
kinds := []string{authorizationapi.UserKind, authorizationapi.SystemUserKind, authorizationapi.GroupKind, authorizationapi.SystemGroupKind, authorizationapi.ServiceAccountKind}
j.Subjects[i].Kind = kinds[c.Intn(len(kinds))]
switch j.Subjects[i].Kind {
case authorizationapi.UserKind:
j.Subjects[i].Namespace = ""
if valid, _ := uservalidation.ValidateUserName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("validusername%d", i)
}
case authorizationapi.GroupKind:
j.Subjects[i].Namespace = ""
if valid, _ := uservalidation.ValidateGroupName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("validgroupname%d", i)
}
case authorizationapi.ServiceAccountKind:
if valid, _ := validation.ValidateNamespaceName(j.Subjects[i].Namespace, false); !valid {
j.Subjects[i].Namespace = fmt.Sprintf("sanamespacehere%d", i)
}
if valid, _ := validation.ValidateServiceAccountName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("sanamehere%d", i)
}
case authorizationapi.SystemUserKind, authorizationapi.SystemGroupKind:
j.Subjects[i].Namespace = ""
j.Subjects[i].Name = ":" + j.Subjects[i].Name
}
j.Subjects[i].UID = types.UID("")
j.Subjects[i].APIVersion = ""
j.Subjects[i].ResourceVersion = ""
j.Subjects[i].FieldPath = ""
}
},
func(j *authorizationapi.ClusterRoleBinding, c fuzz.Continue) {
c.FuzzNoCustom(j)
for i := range j.Subjects {
kinds := []string{authorizationapi.UserKind, authorizationapi.SystemUserKind, authorizationapi.GroupKind, authorizationapi.SystemGroupKind, authorizationapi.ServiceAccountKind}
j.Subjects[i].Kind = kinds[c.Intn(len(kinds))]
switch j.Subjects[i].Kind {
case authorizationapi.UserKind:
j.Subjects[i].Namespace = ""
if valid, _ := uservalidation.ValidateUserName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("validusername%d", i)
}
case authorizationapi.GroupKind:
j.Subjects[i].Namespace = ""
if valid, _ := uservalidation.ValidateGroupName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("validgroupname%d", i)
}
case authorizationapi.ServiceAccountKind:
if valid, _ := validation.ValidateNamespaceName(j.Subjects[i].Namespace, false); !valid {
j.Subjects[i].Namespace = fmt.Sprintf("sanamespacehere%d", i)
}
if valid, _ := validation.ValidateServiceAccountName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("sanamehere%d", i)
}
case authorizationapi.SystemUserKind, authorizationapi.SystemGroupKind:
j.Subjects[i].Namespace = ""
j.Subjects[i].Name = ":" + j.Subjects[i].Name
}
j.Subjects[i].UID = types.UID("")
j.Subjects[i].APIVersion = ""
j.Subjects[i].ResourceVersion = ""
j.Subjects[i].FieldPath = ""
}
},
func(j *template.Template, c fuzz.Continue) {
c.Fuzz(&j.ObjectMeta)
c.Fuzz(&j.Parameters)
// TODO: replace with structured type definition
j.Objects = []runtime.Object{}
},
func(j *image.Image, c fuzz.Continue) {
c.Fuzz(&j.ObjectMeta)
c.Fuzz(&j.DockerImageMetadata)
j.DockerImageMetadata.APIVersion = ""
j.DockerImageMetadata.Kind = ""
j.DockerImageMetadataVersion = []string{"pre012", "1.0"}[c.Rand.Intn(2)]
j.DockerImageReference = c.RandString()
},
func(j *image.ImageStreamMapping, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.DockerImageRepository = ""
},
func(j *image.ImageImportSpec, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.To == nil {
// To is defaulted to be not nil
j.To = &api.LocalObjectReference{}
}
},
func(j *image.ImageStreamImage, c fuzz.Continue) {
c.Fuzz(&j.Image)
// because we de-embedded Image from ImageStreamImage, in order to round trip
// successfully, the ImageStreamImage's ObjectMeta must match the Image's.
j.ObjectMeta = j.Image.ObjectMeta
},
func(j *image.ImageStreamSpec, c fuzz.Continue) {
c.FuzzNoCustom(j)
// if the generated fuzz value has a tag or image id, strip it
if strings.ContainsAny(j.DockerImageRepository, ":@") {
j.DockerImageRepository = ""
}
if j.Tags == nil {
j.Tags = make(map[string]image.TagReference)
}
},
func(j *image.ImageStreamStatus, c fuzz.Continue) {
c.FuzzNoCustom(j)
// if the generated fuzz value has a tag or image id, strip it
if strings.ContainsAny(j.DockerImageRepository, ":@") {
j.DockerImageRepository = ""
}
},
func(j *image.ImageStreamTag, c fuzz.Continue) {
c.Fuzz(&j.Image)
// because we de-embedded Image from ImageStreamTag, in order to round trip
// successfully, the ImageStreamTag's ObjectMeta must match the Image's.
j.ObjectMeta = j.Image.ObjectMeta
},
func(j *image.TagReference, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.From != nil {
specs := []string{"", "ImageStreamTag", "ImageStreamImage"}
j.From.Kind = specs[c.Intn(len(specs))]
}
},
func(j *build.SourceBuildStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.From.Kind = "ImageStreamTag"
j.From.Name = "image:tag"
j.From.APIVersion = ""
j.From.ResourceVersion = ""
j.From.FieldPath = ""
},
func(j *build.CustomBuildStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.From.Kind = "ImageStreamTag"
j.From.Name = "image:tag"
j.From.APIVersion = ""
j.From.ResourceVersion = ""
j.From.FieldPath = ""
},
func(j *build.DockerBuildStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.From.Kind = "ImageStreamTag"
j.From.Name = "image:tag"
j.From.APIVersion = ""
j.From.ResourceVersion = ""
j.From.FieldPath = ""
},
func(j *build.BuildOutput, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.To != nil && (len(j.To.Kind) == 0 || j.To.Kind == "ImageStream") {
j.To.Kind = "ImageStreamTag"
}
if j.To != nil && strings.Contains(j.To.Name, ":") {
j.To.Name = strings.Replace(j.To.Name, ":", "-", -1)
}
},
func(j *route.RouteSpec, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.To = api.ObjectReference{
Kind: "Service",
Name: j.To.Name,
}
},
func(j *route.TLSConfig, c fuzz.Continue) {
c.FuzzNoCustom(j)
if len(j.Termination) == 0 && len(j.DestinationCACertificate) == 0 {
j.Termination = route.TLSTerminationEdge
}
},
func(j *deploy.DeploymentConfig, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.Spec.Triggers = []deploy.DeploymentTriggerPolicy{{Type: deploy.DeploymentTriggerOnConfigChange}}
if forVersion == "v1beta3" {
// v1beta3 does not contain the PodSecurityContext type. For this API version, only fuzz
// the host namespace fields. The fields set to nil here are the other fields of the
// PodSecurityContext that will not roundtrip correctly from internal->v1beta3->internal.
j.Spec.Template.Spec.SecurityContext.SELinuxOptions = nil
j.Spec.Template.Spec.SecurityContext.RunAsUser = nil
j.Spec.Template.Spec.SecurityContext.RunAsNonRoot = nil
j.Spec.Template.Spec.SecurityContext.SupplementalGroups = nil
j.Spec.Template.Spec.SecurityContext.FSGroup = nil
}
},
func(j *deploy.DeploymentStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
strategyTypes := []deploy.DeploymentStrategyType{deploy.DeploymentStrategyTypeRecreate, deploy.DeploymentStrategyTypeRolling, deploy.DeploymentStrategyTypeCustom}
j.Type = strategyTypes[c.Rand.Intn(len(strategyTypes))]
switch j.Type {
case deploy.DeploymentStrategyTypeRolling:
params := &deploy.RollingDeploymentStrategyParams{}
randInt64 := func() *int64 {
p := int64(c.RandUint64())
return &p
}
params.TimeoutSeconds = randInt64()
params.IntervalSeconds = randInt64()
params.UpdatePeriodSeconds = randInt64()
policyTypes := []deploy.LifecycleHookFailurePolicy{
deploy.LifecycleHookFailurePolicyRetry,
deploy.LifecycleHookFailurePolicyAbort,
deploy.LifecycleHookFailurePolicyIgnore,
}
if c.RandBool() {
params.Pre = &deploy.LifecycleHook{
FailurePolicy: policyTypes[c.Rand.Intn(len(policyTypes))],
ExecNewPod: &deploy.ExecNewPodHook{
ContainerName: c.RandString(),
},
}
}
if c.RandBool() {
params.Post = &deploy.LifecycleHook{
FailurePolicy: policyTypes[c.Rand.Intn(len(policyTypes))],
ExecNewPod: &deploy.ExecNewPodHook{
ContainerName: c.RandString(),
},
}
}
if c.RandBool() {
params.MaxUnavailable = util.NewIntOrStringFromInt(int(c.RandUint64()))
params.MaxSurge = util.NewIntOrStringFromInt(int(c.RandUint64()))
} else {
params.MaxSurge = util.NewIntOrStringFromString(fmt.Sprintf("%d%%", c.RandUint64()))
params.MaxUnavailable = util.NewIntOrStringFromString(fmt.Sprintf("%d%%", c.RandUint64()))
}
j.RollingParams = params
default:
j.RollingParams = nil
}
},
func(j *deploy.DeploymentCauseImageTrigger, c fuzz.Continue) {
c.FuzzNoCustom(j)
specs := []string{"", "a/b", "a/b/c", "a:5000/b/c", "a/b", "a/b"}
tags := []string{"stuff", "other"}
j.From.Name = specs[c.Intn(len(specs))]
if len(j.From.Name) > 0 {
j.From.Name = image.JoinImageStreamTag(j.From.Name, tags[c.Intn(len(tags))])
}
},
func(j *deploy.DeploymentTriggerImageChangeParams, c fuzz.Continue) {
c.FuzzNoCustom(j)
specs := []string{"a/b", "a/b/c", "a:5000/b/c", "a/b:latest", "a/b@test"}
j.From.Kind = "DockerImage"
j.From.Name = specs[c.Intn(len(specs))]
},
func(j *runtime.EmbeddedObject, c fuzz.Continue) {
// runtime.EmbeddedObject causes a panic inside of fuzz because runtime.Object isn't handled.
},
func(t *time.Time, c fuzz.Continue) {
// This is necessary because the standard fuzzed time.Time object is
// completely nil, but when JSON unmarshals dates it fills in the
// unexported loc field with the time.UTC object, resulting in
// reflect.DeepEqual returning false in the round trip tests. We solve it
// by using a date that will be identical to the one JSON unmarshals.
*t = time.Date(2000, 1, 1, 1, 1, 1, 0, time.UTC)
},
func(u64 *uint64, c fuzz.Continue) {
// TODO: uint64's are NOT handled right.
*u64 = c.RandUint64() >> 8
},
)
f.Fuzz(item)
j, err := meta.TypeAccessor(item)
if err != nil {
t.Fatalf("Unexpected error %v for %#v", err, item)
}
j.SetKind("")
j.SetAPIVersion("")
return item
}
func fuzzInternalObject(t *testing.T, forVersion unversioned.GroupVersion, item runtime.Object, seed int64) runtime.Object {
f := apitesting.FuzzerFor(t, forVersion, rand.NewSource(seed))
f.Funcs(
// Roles and RoleBindings maps are never nil
func(j *authorizationapi.Policy, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.Roles != nil {
j.Roles = make(map[string]*authorizationapi.Role)
}
for k, v := range j.Roles {
if v == nil {
delete(j.Roles, k)
}
}
},
func(j *authorizationapi.PolicyBinding, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.RoleBindings == nil {
j.RoleBindings = make(map[string]*authorizationapi.RoleBinding)
}
for k, v := range j.RoleBindings {
if v == nil {
delete(j.RoleBindings, k)
}
}
},
func(j *authorizationapi.ClusterPolicy, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.Roles == nil {
j.Roles = make(map[string]*authorizationapi.ClusterRole)
}
for k, v := range j.Roles {
if v == nil {
delete(j.Roles, k)
}
}
},
func(j *authorizationapi.ClusterPolicyBinding, c fuzz.Continue) {
j.RoleBindings = make(map[string]*authorizationapi.ClusterRoleBinding)
},
func(j *authorizationapi.RoleBinding, c fuzz.Continue) {
c.FuzzNoCustom(j)
for i := range j.Subjects {
kinds := []string{authorizationapi.UserKind, authorizationapi.SystemUserKind, authorizationapi.GroupKind, authorizationapi.SystemGroupKind, authorizationapi.ServiceAccountKind}
j.Subjects[i].Kind = kinds[c.Intn(len(kinds))]
switch j.Subjects[i].Kind {
case authorizationapi.UserKind:
j.Subjects[i].Namespace = ""
if len(uservalidation.ValidateUserName(j.Subjects[i].Name, false)) != 0 {
j.Subjects[i].Name = fmt.Sprintf("validusername%d", i)
}
case authorizationapi.GroupKind:
j.Subjects[i].Namespace = ""
if len(uservalidation.ValidateGroupName(j.Subjects[i].Name, false)) != 0 {
j.Subjects[i].Name = fmt.Sprintf("validgroupname%d", i)
}
case authorizationapi.ServiceAccountKind:
if len(validation.ValidateNamespaceName(j.Subjects[i].Namespace, false)) != 0 {
j.Subjects[i].Namespace = fmt.Sprintf("sanamespacehere%d", i)
}
if len(validation.ValidateServiceAccountName(j.Subjects[i].Name, false)) != 0 {
j.Subjects[i].Name = fmt.Sprintf("sanamehere%d", i)
}
case authorizationapi.SystemUserKind, authorizationapi.SystemGroupKind:
j.Subjects[i].Namespace = ""
j.Subjects[i].Name = ":" + j.Subjects[i].Name
}
j.Subjects[i].UID = types.UID("")
j.Subjects[i].APIVersion = ""
j.Subjects[i].ResourceVersion = ""
j.Subjects[i].FieldPath = ""
}
},
func(j *authorizationapi.PolicyRule, c fuzz.Continue) {
c.FuzzNoCustom(j)
// if no groups are found, then we assume "". This matches defaulting
if len(j.APIGroups) == 0 {
j.APIGroups = []string{""}
}
switch c.Intn(3) {
case 0:
j.AttributeRestrictions = &authorizationapi.IsPersonalSubjectAccessReview{}
case 1:
j.AttributeRestrictions = &runtime.Unknown{TypeMeta: runtime.TypeMeta{Kind: "Type", APIVersion: "other"}, ContentType: "application/json", Raw: []byte(`{"apiVersion":"other","kind":"Type"}`)}
default:
j.AttributeRestrictions = nil
}
},
func(j *authorizationapi.ClusterRoleBinding, c fuzz.Continue) {
c.FuzzNoCustom(j)
for i := range j.Subjects {
kinds := []string{authorizationapi.UserKind, authorizationapi.SystemUserKind, authorizationapi.GroupKind, authorizationapi.SystemGroupKind, authorizationapi.ServiceAccountKind}
j.Subjects[i].Kind = kinds[c.Intn(len(kinds))]
switch j.Subjects[i].Kind {
case authorizationapi.UserKind:
j.Subjects[i].Namespace = ""
if len(uservalidation.ValidateUserName(j.Subjects[i].Name, false)) != 0 {
j.Subjects[i].Name = fmt.Sprintf("validusername%d", i)
}
case authorizationapi.GroupKind:
j.Subjects[i].Namespace = ""
if len(uservalidation.ValidateGroupName(j.Subjects[i].Name, false)) != 0 {
j.Subjects[i].Name = fmt.Sprintf("validgroupname%d", i)
}
case authorizationapi.ServiceAccountKind:
if len(validation.ValidateNamespaceName(j.Subjects[i].Namespace, false)) != 0 {
j.Subjects[i].Namespace = fmt.Sprintf("sanamespacehere%d", i)
}
if len(validation.ValidateServiceAccountName(j.Subjects[i].Name, false)) != 0 {
j.Subjects[i].Name = fmt.Sprintf("sanamehere%d", i)
}
case authorizationapi.SystemUserKind, authorizationapi.SystemGroupKind:
j.Subjects[i].Namespace = ""
j.Subjects[i].Name = ":" + j.Subjects[i].Name
}
j.Subjects[i].UID = types.UID("")
j.Subjects[i].APIVersion = ""
j.Subjects[i].ResourceVersion = ""
j.Subjects[i].FieldPath = ""
}
},
func(j *template.Template, c fuzz.Continue) {
c.Fuzz(&j.ObjectMeta)
c.Fuzz(&j.Parameters)
// TODO: replace with structured type definition
j.Objects = []runtime.Object{}
},
func(j *image.Image, c fuzz.Continue) {
c.Fuzz(&j.ObjectMeta)
c.Fuzz(&j.DockerImageMetadata)
c.Fuzz(&j.Signatures)
j.DockerImageMetadata.APIVersion = ""
j.DockerImageMetadata.Kind = ""
j.DockerImageMetadataVersion = []string{"pre012", "1.0"}[c.Rand.Intn(2)]
j.DockerImageReference = c.RandString()
},
func(j *image.ImageSignature, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.Conditions = nil
j.ImageIdentity = ""
j.SignedClaims = nil
j.Created = nil
j.IssuedBy = nil
j.IssuedTo = nil
},
func(j *image.ImageStreamMapping, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.DockerImageRepository = ""
},
func(j *image.ImageImportSpec, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.To == nil {
// To is defaulted to be not nil
j.To = &kapi.LocalObjectReference{}
}
},
func(j *image.ImageStreamImage, c fuzz.Continue) {
c.Fuzz(&j.Image)
// because we de-embedded Image from ImageStreamImage, in order to round trip
// successfully, the ImageStreamImage's ObjectMeta must match the Image's.
j.ObjectMeta = j.Image.ObjectMeta
},
func(j *image.ImageStreamSpec, c fuzz.Continue) {
c.FuzzNoCustom(j)
// if the generated fuzz value has a tag or image id, strip it
if strings.ContainsAny(j.DockerImageRepository, ":@") {
j.DockerImageRepository = ""
}
if j.Tags == nil {
j.Tags = make(map[string]image.TagReference)
}
for k, v := range j.Tags {
v.Name = k
j.Tags[k] = v
}
},
func(j *image.ImageStreamStatus, c fuzz.Continue) {
c.FuzzNoCustom(j)
// if the generated fuzz value has a tag or image id, strip it
if strings.ContainsAny(j.DockerImageRepository, ":@") {
j.DockerImageRepository = ""
}
},
func(j *image.ImageStreamTag, c fuzz.Continue) {
c.Fuzz(&j.Image)
// because we de-embedded Image from ImageStreamTag, in order to round trip
// successfully, the ImageStreamTag's ObjectMeta must match the Image's.
j.ObjectMeta = j.Image.ObjectMeta
},
func(j *image.TagReference, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.From != nil {
specs := []string{"", "ImageStreamTag", "ImageStreamImage"}
j.From.Kind = specs[c.Intn(len(specs))]
}
},
func(j *build.BuildConfigSpec, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.RunPolicy = build.BuildRunPolicySerial
},
func(j *build.SourceBuildStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.From.Kind = "ImageStreamTag"
j.From.Name = "image:tag"
j.From.APIVersion = ""
j.From.ResourceVersion = ""
j.From.FieldPath = ""
},
func(j *build.CustomBuildStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.From.Kind = "ImageStreamTag"
j.From.Name = "image:tag"
j.From.APIVersion = ""
j.From.ResourceVersion = ""
j.From.FieldPath = ""
},
func(j *build.DockerBuildStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.From.Kind = "ImageStreamTag"
j.From.Name = "image:tag"
j.From.APIVersion = ""
j.From.ResourceVersion = ""
j.From.FieldPath = ""
},
func(j *build.BuildOutput, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.To != nil && (len(j.To.Kind) == 0 || j.To.Kind == "ImageStream") {
j.To.Kind = "ImageStreamTag"
}
if j.To != nil && strings.Contains(j.To.Name, ":") {
j.To.Name = strings.Replace(j.To.Name, ":", "-", -1)
}
},
func(j *route.RouteTargetReference, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.Kind = "Service"
j.Weight = new(int32)
*j.Weight = 100
},
func(j *route.TLSConfig, c fuzz.Continue) {
c.FuzzNoCustom(j)
if len(j.Termination) == 0 && len(j.DestinationCACertificate) == 0 {
j.Termination = route.TLSTerminationEdge
}
},
func(j *deploy.DeploymentConfig, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.Spec.Triggers = []deploy.DeploymentTriggerPolicy{{Type: deploy.DeploymentTriggerOnConfigChange}}
if j.Spec.Template != nil && len(j.Spec.Template.Spec.Containers) == 1 {
containerName := j.Spec.Template.Spec.Containers[0].Name
if p := j.Spec.Strategy.RecreateParams; p != nil {
defaultHookContainerName(p.Pre, containerName)
defaultHookContainerName(p.Mid, containerName)
defaultHookContainerName(p.Post, containerName)
}
if p := j.Spec.Strategy.RollingParams; p != nil {
defaultHookContainerName(p.Pre, containerName)
defaultHookContainerName(p.Post, containerName)
}
}
},
func(j *deploy.DeploymentStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.RecreateParams, j.RollingParams, j.CustomParams = nil, nil, nil
strategyTypes := []deploy.DeploymentStrategyType{deploy.DeploymentStrategyTypeRecreate, deploy.DeploymentStrategyTypeRolling, deploy.DeploymentStrategyTypeCustom}
j.Type = strategyTypes[c.Rand.Intn(len(strategyTypes))]
switch j.Type {
case deploy.DeploymentStrategyTypeRecreate:
params := &deploy.RecreateDeploymentStrategyParams{}
c.Fuzz(params)
if params.TimeoutSeconds == nil {
s := int64(120)
params.TimeoutSeconds = &s
}
j.RecreateParams = params
case deploy.DeploymentStrategyTypeRolling:
params := &deploy.RollingDeploymentStrategyParams{}
randInt64 := func() *int64 {
p := int64(c.RandUint64())
return &p
}
params.TimeoutSeconds = randInt64()
params.IntervalSeconds = randInt64()
params.UpdatePeriodSeconds = randInt64()
policyTypes := []deploy.LifecycleHookFailurePolicy{
deploy.LifecycleHookFailurePolicyRetry,
deploy.LifecycleHookFailurePolicyAbort,
deploy.LifecycleHookFailurePolicyIgnore,
}
if c.RandBool() {
params.Pre = &deploy.LifecycleHook{
FailurePolicy: policyTypes[c.Rand.Intn(len(policyTypes))],
ExecNewPod: &deploy.ExecNewPodHook{
ContainerName: c.RandString(),
},
}
}
if c.RandBool() {
params.Post = &deploy.LifecycleHook{
FailurePolicy: policyTypes[c.Rand.Intn(len(policyTypes))],
ExecNewPod: &deploy.ExecNewPodHook{
ContainerName: c.RandString(),
},
}
}
if c.RandBool() {
params.MaxUnavailable = intstr.FromInt(int(c.RandUint64()))
params.MaxSurge = intstr.FromInt(int(c.RandUint64()))
} else {
params.MaxSurge = intstr.FromString(fmt.Sprintf("%d%%", c.RandUint64()))
params.MaxUnavailable = intstr.FromString(fmt.Sprintf("%d%%", c.RandUint64()))
}
j.RollingParams = params
}
},
func(j *deploy.DeploymentCauseImageTrigger, c fuzz.Continue) {
c.FuzzNoCustom(j)
specs := []string{"", "a/b", "a/b/c", "a:5000/b/c", "a/b", "a/b"}
tags := []string{"stuff", "other"}
j.From.Name = specs[c.Intn(len(specs))]
if len(j.From.Name) > 0 {
j.From.Name = image.JoinImageStreamTag(j.From.Name, tags[c.Intn(len(tags))])
}
},
func(j *deploy.DeploymentTriggerImageChangeParams, c fuzz.Continue) {
c.FuzzNoCustom(j)
specs := []string{"a/b", "a/b/c", "a:5000/b/c", "a/b:latest", "a/b@test"}
j.From.Kind = "DockerImage"
j.From.Name = specs[c.Intn(len(specs))]
},
// TODO: uncomment when round tripping for init containers is available (the annotation is
// not supported on security context review for now)
func(j *securityapi.PodSecurityPolicyReview, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.Spec.Template.Spec.InitContainers = nil
for i := range j.Status.AllowedServiceAccounts {
j.Status.AllowedServiceAccounts[i].Template.Spec.InitContainers = nil
}
},
func(j *securityapi.PodSecurityPolicySelfSubjectReview, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.Spec.Template.Spec.InitContainers = nil
j.Status.Template.Spec.InitContainers = nil
},
func(j *securityapi.PodSecurityPolicySubjectReview, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.Spec.Template.Spec.InitContainers = nil
j.Status.Template.Spec.InitContainers = nil
},
func(j *oauthapi.OAuthAuthorizeToken, c fuzz.Continue) {
c.FuzzNoCustom(j)
if len(j.CodeChallenge) > 0 && len(j.CodeChallengeMethod) == 0 {
j.CodeChallengeMethod = "plain"
}
},
func(j *oauthapi.OAuthClientAuthorization, c fuzz.Continue) {
c.FuzzNoCustom(j)
if len(j.Scopes) == 0 {
j.Scopes = append(j.Scopes, "user:full")
}
},
func(j *route.RouteSpec, c fuzz.Continue) {
c.FuzzNoCustom(j)
if len(j.WildcardPolicy) == 0 {
j.WildcardPolicy = route.WildcardPolicyNone
}
},
func(j *route.RouteIngress, c fuzz.Continue) {
c.FuzzNoCustom(j)
if len(j.WildcardPolicy) == 0 {
j.WildcardPolicy = route.WildcardPolicyNone
}
},
func(j *runtime.Object, c fuzz.Continue) {
// runtime.EmbeddedObject causes a panic inside of fuzz because runtime.Object isn't handled.
},
func(t *time.Time, c fuzz.Continue) {
// This is necessary because the standard fuzzed time.Time object is
// completely nil, but when JSON unmarshals dates it fills in the
// unexported loc field with the time.UTC object, resulting in
// reflect.DeepEqual returning false in the round trip tests. We solve it
// by using a date that will be identical to the one JSON unmarshals.
*t = time.Date(2000, 1, 1, 1, 1, 1, 0, time.UTC)
},
func(u64 *uint64, c fuzz.Continue) {
// TODO: uint64's are NOT handled right.
*u64 = c.RandUint64() >> 8
},
)
f.Fuzz(item)
j, err := meta.TypeAccessor(item)
if err != nil {
t.Fatalf("Unexpected error %v for %#v", err, item)
}
j.SetKind("")
j.SetAPIVersion("")
return item
}
func fuzzInternalObject(t *testing.T, forVersion string, item runtime.Object, seed int64) runtime.Object {
f := apitesting.FuzzerFor(t, forVersion, rand.NewSource(seed))
f.Funcs(
// Roles and RoleBindings maps are never nil
func(j *authorizationapi.Policy, c fuzz.Continue) {
j.Roles = make(map[string]*authorizationapi.Role)
},
func(j *authorizationapi.PolicyBinding, c fuzz.Continue) {
j.RoleBindings = make(map[string]*authorizationapi.RoleBinding)
},
func(j *authorizationapi.ClusterPolicy, c fuzz.Continue) {
j.Roles = make(map[string]*authorizationapi.ClusterRole)
},
func(j *authorizationapi.ClusterPolicyBinding, c fuzz.Continue) {
j.RoleBindings = make(map[string]*authorizationapi.ClusterRoleBinding)
},
func(j *authorizationapi.RoleBinding, c fuzz.Continue) {
c.FuzzNoCustom(j)
for i := range j.Subjects {
kinds := []string{authorizationapi.UserKind, authorizationapi.SystemUserKind, authorizationapi.GroupKind, authorizationapi.SystemGroupKind, authorizationapi.ServiceAccountKind}
j.Subjects[i].Kind = kinds[c.Intn(len(kinds))]
switch j.Subjects[i].Kind {
case authorizationapi.UserKind:
j.Subjects[i].Namespace = ""
if valid, _ := uservalidation.ValidateUserName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("validusername%d", i)
}
case authorizationapi.GroupKind:
j.Subjects[i].Namespace = ""
if valid, _ := uservalidation.ValidateGroupName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("validgroupname%d", i)
}
case authorizationapi.ServiceAccountKind:
if valid, _ := validation.ValidateNamespaceName(j.Subjects[i].Namespace, false); !valid {
j.Subjects[i].Namespace = fmt.Sprintf("sanamespacehere%d", i)
}
if valid, _ := validation.ValidateServiceAccountName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("sanamehere%d", i)
}
case authorizationapi.SystemUserKind, authorizationapi.SystemGroupKind:
j.Subjects[i].Namespace = ""
j.Subjects[i].Name = ":" + j.Subjects[i].Name
}
j.Subjects[i].UID = types.UID("")
j.Subjects[i].APIVersion = ""
j.Subjects[i].ResourceVersion = ""
j.Subjects[i].FieldPath = ""
}
},
func(j *authorizationapi.ClusterRoleBinding, c fuzz.Continue) {
c.FuzzNoCustom(j)
for i := range j.Subjects {
kinds := []string{authorizationapi.UserKind, authorizationapi.SystemUserKind, authorizationapi.GroupKind, authorizationapi.SystemGroupKind, authorizationapi.ServiceAccountKind}
j.Subjects[i].Kind = kinds[c.Intn(len(kinds))]
switch j.Subjects[i].Kind {
case authorizationapi.UserKind:
j.Subjects[i].Namespace = ""
if valid, _ := uservalidation.ValidateUserName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("validusername%d", i)
}
case authorizationapi.GroupKind:
j.Subjects[i].Namespace = ""
if valid, _ := uservalidation.ValidateGroupName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("validgroupname%d", i)
}
case authorizationapi.ServiceAccountKind:
if valid, _ := validation.ValidateNamespaceName(j.Subjects[i].Namespace, false); !valid {
j.Subjects[i].Namespace = fmt.Sprintf("sanamespacehere%d", i)
}
if valid, _ := validation.ValidateServiceAccountName(j.Subjects[i].Name, false); !valid {
j.Subjects[i].Name = fmt.Sprintf("sanamehere%d", i)
}
case authorizationapi.SystemUserKind, authorizationapi.SystemGroupKind:
j.Subjects[i].Namespace = ""
j.Subjects[i].Name = ":" + j.Subjects[i].Name
}
j.Subjects[i].UID = types.UID("")
j.Subjects[i].APIVersion = ""
j.Subjects[i].ResourceVersion = ""
j.Subjects[i].FieldPath = ""
}
},
func(j *template.Template, c fuzz.Continue) {
c.Fuzz(&j.ObjectMeta)
c.Fuzz(&j.Parameters)
// TODO: replace with structured type definition
j.Objects = []runtime.Object{}
},
func(j *image.Image, c fuzz.Continue) {
c.Fuzz(&j.ObjectMeta)
c.Fuzz(&j.DockerImageMetadata)
j.DockerImageMetadata.APIVersion = ""
j.DockerImageMetadata.Kind = ""
j.DockerImageMetadataVersion = []string{"pre012", "1.0"}[c.Rand.Intn(2)]
j.DockerImageReference = c.RandString()
},
func(j *image.ImageStreamMapping, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.DockerImageRepository = ""
},
func(j *image.ImageStreamImage, c fuzz.Continue) {
c.Fuzz(&j.Image)
// because we de-embedded Image from ImageStreamImage, in order to round trip
// successfully, the ImageStreamImage's ObjectMeta must match the Image's.
j.ObjectMeta = j.Image.ObjectMeta
},
func(j *image.ImageStreamTag, c fuzz.Continue) {
c.Fuzz(&j.Image)
// because we de-embedded Image from ImageStreamTag, in order to round trip
// successfully, the ImageStreamTag's ObjectMeta must match the Image's.
j.ObjectMeta = j.Image.ObjectMeta
},
func(j *image.TagReference, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.From != nil {
specs := []string{"", "ImageStreamTag", "ImageStreamImage"}
j.From.Kind = specs[c.Intn(len(specs))]
}
},
func(j *build.SourceBuildStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.From.Kind = "ImageStreamTag"
j.From.Name = "image:tag"
j.From.APIVersion = ""
j.From.ResourceVersion = ""
j.From.FieldPath = ""
},
func(j *build.CustomBuildStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.From.Kind = "ImageStreamTag"
j.From.Name = "image:tag"
j.From.APIVersion = ""
j.From.ResourceVersion = ""
j.From.FieldPath = ""
},
func(j *build.DockerBuildStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.From.Kind = "ImageStreamTag"
j.From.Name = "image:tag"
j.From.APIVersion = ""
j.From.ResourceVersion = ""
j.From.FieldPath = ""
},
func(j *build.BuildOutput, c fuzz.Continue) {
c.FuzzNoCustom(j)
if j.To != nil && (len(j.To.Kind) == 0 || j.To.Kind == "ImageStream") {
j.To.Kind = "ImageStreamTag"
}
if j.To != nil && strings.Contains(j.To.Name, ":") {
j.To.Name = strings.Replace(j.To.Name, ":", "-", -1)
}
},
func(j *route.RouteSpec, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.To = api.ObjectReference{
Kind: "Service",
Name: j.To.Name,
}
},
func(j *deploy.DeploymentConfig, c fuzz.Continue) {
c.FuzzNoCustom(j)
j.Triggers = []deploy.DeploymentTriggerPolicy{{Type: deploy.DeploymentTriggerOnConfigChange}}
},
func(j *deploy.DeploymentStrategy, c fuzz.Continue) {
c.FuzzNoCustom(j)
mkintp := func(i int) *int64 {
v := int64(i)
return &v
}
switch c.Intn(3) {
case 0:
// TODO: we should not have to set defaults, instead we should be able
// to detect defaults were applied.
j.Type = deploy.DeploymentStrategyTypeRolling
j.RollingParams = &deploy.RollingDeploymentStrategyParams{
IntervalSeconds: mkintp(1),
UpdatePeriodSeconds: mkintp(1),
TimeoutSeconds: mkintp(120),
}
case 1:
j.Type = deploy.DeploymentStrategyTypeRecreate
j.RollingParams = nil
case 2:
j.Type = deploy.DeploymentStrategyTypeCustom
j.RollingParams = nil
}
},
func(j *deploy.DeploymentCauseImageTrigger, c fuzz.Continue) {
c.FuzzNoCustom(j)
specs := []string{"", "a/b", "a/b/c", "a:5000/b/c", "a/b", "a/b"}
tags := []string{"", "stuff", "other"}
j.RepositoryName = specs[c.Intn(len(specs))]
if len(j.RepositoryName) > 0 {
j.Tag = tags[c.Intn(len(tags))]
} else {
j.Tag = ""
}
},
func(j *deploy.DeploymentTriggerImageChangeParams, c fuzz.Continue) {
c.FuzzNoCustom(j)
specs := []string{"a/b", "a/b/c", "a:5000/b/c", "a/b:latest", "a/b@test"}
j.From.Kind = "DockerImage"
j.From.Name = specs[c.Intn(len(specs))]
if ref, err := image.ParseDockerImageReference(j.From.Name); err == nil {
j.Tag = ref.Tag
ref.Tag, ref.ID = "", ""
j.RepositoryName = ref.String()
}
},
func(j *runtime.EmbeddedObject, c fuzz.Continue) {
// runtime.EmbeddedObject causes a panic inside of fuzz because runtime.Object isn't handled.
},
func(t *time.Time, c fuzz.Continue) {
// This is necessary because the standard fuzzed time.Time object is
// completely nil, but when JSON unmarshals dates it fills in the
// unexported loc field with the time.UTC object, resulting in
// reflect.DeepEqual returning false in the round trip tests. We solve it
// by using a date that will be identical to the one JSON unmarshals.
*t = time.Date(2000, 1, 1, 1, 1, 1, 0, time.UTC)
},
func(u64 *uint64, c fuzz.Continue) {
// TODO: uint64's are NOT handled right.
*u64 = c.RandUint64() >> 8
},
)
f.Fuzz(item)
j, err := meta.TypeAccessor(item)
if err != nil {
t.Fatalf("Unexpected error %v for %#v", err, item)
}
j.SetKind("")
j.SetAPIVersion("")
return item
}
