/* Copyright 2015 The Kubernetes Authors. 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. */ package testing import ( "fmt" "reflect" "strconv" "github.com/google/gofuzz" "k8s.io/apimachinery/pkg/api/resource" apitesting "k8s.io/apimachinery/pkg/api/testing" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/fields" "k8s.io/apimachinery/pkg/labels" "k8s.io/apimachinery/pkg/runtime" "k8s.io/apimachinery/pkg/runtime/schema" runtimeserializer "k8s.io/apimachinery/pkg/runtime/serializer" "k8s.io/apimachinery/pkg/util/intstr" kubeadmfuzzer "k8s.io/kubernetes/cmd/kubeadm/app/apis/kubeadm/fuzzer" "k8s.io/kubernetes/pkg/api" "k8s.io/kubernetes/pkg/api/testapi" "k8s.io/kubernetes/pkg/api/v1" "k8s.io/kubernetes/pkg/apis/autoscaling" "k8s.io/kubernetes/pkg/apis/batch" "k8s.io/kubernetes/pkg/apis/certificates" "k8s.io/kubernetes/pkg/apis/extensions" extensionsv1beta1 "k8s.io/kubernetes/pkg/apis/extensions/v1beta1" "k8s.io/kubernetes/pkg/apis/policy" "k8s.io/kubernetes/pkg/apis/rbac" ) // overrideGenericFuncs override some generic fuzzer funcs from k8s.io/apiserver in order to have more realistic // values in a Kubernetes context. func overrideGenericFuncs(t apitesting.TestingCommon, codecs runtimeserializer.CodecFactory) []interface{} { return []interface{}{ func(j *runtime.Object, c fuzz.Continue) { // TODO: uncomment when round trip starts from a versioned object if true { //c.RandBool() { *j = &runtime.Unknown{ // We do not set TypeMeta here because it is not carried through a round trip Raw: []byte(`{"apiVersion":"unknown.group/unknown","kind":"Something","someKey":"someValue"}`), ContentType: runtime.ContentTypeJSON, } } else { types := []runtime.Object{&api.Pod{}, &api.ReplicationController{}} t := types[c.Rand.Intn(len(types))] c.Fuzz(t) *j = t } }, func(r *runtime.RawExtension, c fuzz.Continue) { // Pick an arbitrary type and fuzz it types := []runtime.Object{&api.Pod{}, &extensions.Deployment{}, &api.Service{}} obj := types[c.Rand.Intn(len(types))] c.Fuzz(obj) var codec runtime.Codec switch obj.(type) { case *extensions.Deployment: codec = apitesting.TestCodec(codecs, extensionsv1beta1.SchemeGroupVersion) default: codec = apitesting.TestCodec(codecs, v1.SchemeGroupVersion) } // Convert the object to raw bytes bytes, err := runtime.Encode(codec, obj) if err != nil { t.Errorf("Failed to encode object: %v", err) return } // Set the bytes field on the RawExtension r.Raw = bytes }, } } func coreFuncs(t apitesting.TestingCommon) []interface{} { return []interface{}{ func(q *resource.Quantity, c fuzz.Continue) { *q = *resource.NewQuantity(c.Int63n(1000), resource.DecimalExponent) }, func(j *api.ObjectReference, c fuzz.Continue) { // We have to customize the randomization of TypeMetas because their // APIVersion and Kind must remain blank in memory. j.APIVersion = c.RandString() j.Kind = c.RandString() j.Namespace = c.RandString() j.Name = c.RandString() j.ResourceVersion = strconv.FormatUint(c.RandUint64(), 10) j.FieldPath = c.RandString() }, func(j *api.ListOptions, c fuzz.Continue) { label, _ := labels.Parse("a=b") j.LabelSelector = label field, _ := fields.ParseSelector("a=b") j.FieldSelector = field }, func(j *api.PodExecOptions, c fuzz.Continue) { j.Stdout = true j.Stderr = true }, func(j *api.PodAttachOptions, c fuzz.Continue) { j.Stdout = true j.Stderr = true }, func(j *api.PodPortForwardOptions, c fuzz.Continue) { if c.RandBool() { j.Ports = make([]int32, c.Intn(10)) for i := range j.Ports { j.Ports[i] = c.Int31n(65535) } } }, func(s *api.PodSpec, c fuzz.Continue) { c.FuzzNoCustom(s) // has a default value ttl := int64(30) if c.RandBool() { ttl = int64(c.Uint32()) } s.TerminationGracePeriodSeconds = &ttl c.Fuzz(s.SecurityContext) if s.SecurityContext == nil { s.SecurityContext = new(api.PodSecurityContext) } if s.Affinity == nil { s.Affinity = new(api.Affinity) } if s.SchedulerName == "" { s.SchedulerName = api.DefaultSchedulerName } }, func(j *api.PodPhase, c fuzz.Continue) { statuses := []api.PodPhase{api.PodPending, api.PodRunning, api.PodFailed, api.PodUnknown} *j = statuses[c.Rand.Intn(len(statuses))] }, func(j *api.Binding, c fuzz.Continue) { c.Fuzz(&j.ObjectMeta) j.Target.Name = c.RandString() }, func(j *api.ReplicationControllerSpec, c fuzz.Continue) { c.FuzzNoCustom(j) // fuzz self without calling this function again //j.TemplateRef = nil // this is required for round trip }, func(j *api.List, c fuzz.Continue) { c.FuzzNoCustom(j) // fuzz self without calling this function again // TODO: uncomment when round trip starts from a versioned object if false { //j.Items == nil { j.Items = []runtime.Object{} } }, func(q *api.ResourceRequirements, c fuzz.Continue) { randomQuantity := func() resource.Quantity { var q resource.Quantity c.Fuzz(&q) // precalc the string for benchmarking purposes _ = q.String() return q } q.Limits = make(api.ResourceList) q.Requests = make(api.ResourceList) cpuLimit := randomQuantity() q.Limits[api.ResourceCPU] = *cpuLimit.Copy() q.Requests[api.ResourceCPU] = *cpuLimit.Copy() memoryLimit := randomQuantity() q.Limits[api.ResourceMemory] = *memoryLimit.Copy() q.Requests[api.ResourceMemory] = *memoryLimit.Copy() storageLimit := randomQuantity() q.Limits[api.ResourceStorage] = *storageLimit.Copy() q.Requests[api.ResourceStorage] = *storageLimit.Copy() }, func(q *api.LimitRangeItem, c fuzz.Continue) { var cpuLimit resource.Quantity c.Fuzz(&cpuLimit) q.Type = api.LimitTypeContainer q.Default = make(api.ResourceList) q.Default[api.ResourceCPU] = *(cpuLimit.Copy()) q.DefaultRequest = make(api.ResourceList) q.DefaultRequest[api.ResourceCPU] = *(cpuLimit.Copy()) q.Max = make(api.ResourceList) q.Max[api.ResourceCPU] = *(cpuLimit.Copy()) q.Min = make(api.ResourceList) q.Min[api.ResourceCPU] = *(cpuLimit.Copy()) q.MaxLimitRequestRatio = make(api.ResourceList) q.MaxLimitRequestRatio[api.ResourceCPU] = resource.MustParse("10") }, func(p *api.PullPolicy, c fuzz.Continue) { policies := []api.PullPolicy{api.PullAlways, api.PullNever, api.PullIfNotPresent} *p = policies[c.Rand.Intn(len(policies))] }, func(rp *api.RestartPolicy, c fuzz.Continue) { policies := []api.RestartPolicy{api.RestartPolicyAlways, api.RestartPolicyNever, api.RestartPolicyOnFailure} *rp = policies[c.Rand.Intn(len(policies))] }, // api.DownwardAPIVolumeFile needs to have a specific func since FieldRef has to be // defaulted to a version otherwise roundtrip will fail func(m *api.DownwardAPIVolumeFile, c fuzz.Continue) { m.Path = c.RandString() versions := []string{"v1"} m.FieldRef = &api.ObjectFieldSelector{} m.FieldRef.APIVersion = versions[c.Rand.Intn(len(versions))] m.FieldRef.FieldPath = c.RandString() c.Fuzz(m.Mode) if m.Mode != nil { *m.Mode &= 0777 } }, func(s *api.SecretVolumeSource, c fuzz.Continue) { c.FuzzNoCustom(s) // fuzz self without calling this function again if c.RandBool() { opt := c.RandBool() s.Optional = &opt } // DefaultMode should always be set, it has a default // value and it is expected to be between 0 and 0777 var mode int32 c.Fuzz(&mode) mode &= 0777 s.DefaultMode = &mode }, func(cm *api.ConfigMapVolumeSource, c fuzz.Continue) { c.FuzzNoCustom(cm) // fuzz self without calling this function again if c.RandBool() { opt := c.RandBool() cm.Optional = &opt } // DefaultMode should always be set, it has a default // value and it is expected to be between 0 and 0777 var mode int32 c.Fuzz(&mode) mode &= 0777 cm.DefaultMode = &mode }, func(d *api.DownwardAPIVolumeSource, c fuzz.Continue) { c.FuzzNoCustom(d) // fuzz self without calling this function again // DefaultMode should always be set, it has a default // value and it is expected to be between 0 and 0777 var mode int32 c.Fuzz(&mode) mode &= 0777 d.DefaultMode = &mode }, func(s *api.ProjectedVolumeSource, c fuzz.Continue) { c.FuzzNoCustom(s) // fuzz self without calling this function again // DefaultMode should always be set, it has a default // value and it is expected to be between 0 and 0777 var mode int32 c.Fuzz(&mode) mode &= 0777 s.DefaultMode = &mode }, func(k *api.KeyToPath, c fuzz.Continue) { c.FuzzNoCustom(k) // fuzz self without calling this function again k.Key = c.RandString() k.Path = c.RandString() // Mode is not mandatory, but if it is set, it should be // a value between 0 and 0777 if k.Mode != nil { *k.Mode &= 0777 } }, func(vs *api.VolumeSource, c fuzz.Continue) { // Exactly one of the fields must be set. v := reflect.ValueOf(vs).Elem() i := int(c.RandUint64() % uint64(v.NumField())) t := v.Field(i).Addr() for v.Field(i).IsNil() { c.Fuzz(t.Interface()) } }, func(i *api.ISCSIVolumeSource, c fuzz.Continue) { i.ISCSIInterface = c.RandString() if i.ISCSIInterface == "" { i.ISCSIInterface = "default" } }, func(d *api.DNSPolicy, c fuzz.Continue) { policies := []api.DNSPolicy{api.DNSClusterFirst, api.DNSDefault} *d = policies[c.Rand.Intn(len(policies))] }, func(p *api.Protocol, c fuzz.Continue) { protocols := []api.Protocol{api.ProtocolTCP, api.ProtocolUDP} *p = protocols[c.Rand.Intn(len(protocols))] }, func(p *api.ServiceAffinity, c fuzz.Continue) { types := []api.ServiceAffinity{api.ServiceAffinityClientIP, api.ServiceAffinityNone} *p = types[c.Rand.Intn(len(types))] }, func(p *api.ServiceType, c fuzz.Continue) { types := []api.ServiceType{api.ServiceTypeClusterIP, api.ServiceTypeNodePort, api.ServiceTypeLoadBalancer} *p = types[c.Rand.Intn(len(types))] }, func(ct *api.Container, c fuzz.Continue) { c.FuzzNoCustom(ct) // fuzz self without calling this function again ct.TerminationMessagePath = "/" + ct.TerminationMessagePath // Must be non-empty ct.TerminationMessagePolicy = "File" }, func(p *api.Probe, c fuzz.Continue) { c.FuzzNoCustom(p) // These fields have default values. intFieldsWithDefaults := [...]string{"TimeoutSeconds", "PeriodSeconds", "SuccessThreshold", "FailureThreshold"} v := reflect.ValueOf(p).Elem() for _, field := range intFieldsWithDefaults { f := v.FieldByName(field) if f.Int() == 0 { f.SetInt(1) } } }, func(ev *api.EnvVar, c fuzz.Continue) { ev.Name = c.RandString() if c.RandBool() { ev.Value = c.RandString() } else { ev.ValueFrom = &api.EnvVarSource{} ev.ValueFrom.FieldRef = &api.ObjectFieldSelector{} var versions []schema.GroupVersion for _, testGroup := range testapi.Groups { versions = append(versions, *testGroup.GroupVersion()) } ev.ValueFrom.FieldRef.APIVersion = versions[c.Rand.Intn(len(versions))].String() ev.ValueFrom.FieldRef.FieldPath = c.RandString() } }, func(ev *api.EnvFromSource, c fuzz.Continue) { if c.RandBool() { ev.Prefix = "p_" } if c.RandBool() { c.Fuzz(&ev.ConfigMapRef) } else { c.Fuzz(&ev.SecretRef) } }, func(cm *api.ConfigMapEnvSource, c fuzz.Continue) { c.FuzzNoCustom(cm) // fuzz self without calling this function again if c.RandBool() { opt := c.RandBool() cm.Optional = &opt } }, func(s *api.SecretEnvSource, c fuzz.Continue) { c.FuzzNoCustom(s) // fuzz self without calling this function again }, func(sc *api.SecurityContext, c fuzz.Continue) { c.FuzzNoCustom(sc) // fuzz self without calling this function again if c.RandBool() { priv := c.RandBool() sc.Privileged = &priv } if c.RandBool() { sc.Capabilities = &api.Capabilities{ Add: make([]api.Capability, 0), Drop: make([]api.Capability, 0), } c.Fuzz(&sc.Capabilities.Add) c.Fuzz(&sc.Capabilities.Drop) } }, func(s *api.Secret, c fuzz.Continue) { c.FuzzNoCustom(s) // fuzz self without calling this function again s.Type = api.SecretTypeOpaque }, func(r *api.RBDVolumeSource, c fuzz.Continue) { r.RBDPool = c.RandString() if r.RBDPool == "" { r.RBDPool = "rbd" } r.RadosUser = c.RandString() if r.RadosUser == "" { r.RadosUser = "admin" } r.Keyring = c.RandString() if r.Keyring == "" { r.Keyring = "/etc/ceph/keyring" } }, func(pv *api.PersistentVolume, c fuzz.Continue) { c.FuzzNoCustom(pv) // fuzz self without calling this function again types := []api.PersistentVolumePhase{api.VolumeAvailable, api.VolumePending, api.VolumeBound, api.VolumeReleased, api.VolumeFailed} pv.Status.Phase = types[c.Rand.Intn(len(types))] pv.Status.Message = c.RandString() reclamationPolicies := []api.PersistentVolumeReclaimPolicy{api.PersistentVolumeReclaimRecycle, api.PersistentVolumeReclaimRetain} pv.Spec.PersistentVolumeReclaimPolicy = reclamationPolicies[c.Rand.Intn(len(reclamationPolicies))] }, func(pvc *api.PersistentVolumeClaim, c fuzz.Continue) { c.FuzzNoCustom(pvc) // fuzz self without calling this function again types := []api.PersistentVolumeClaimPhase{api.ClaimBound, api.ClaimPending, api.ClaimLost} pvc.Status.Phase = types[c.Rand.Intn(len(types))] }, func(obj *api.AzureDiskVolumeSource, c fuzz.Continue) { if obj.CachingMode == nil { obj.CachingMode = new(api.AzureDataDiskCachingMode) *obj.CachingMode = api.AzureDataDiskCachingNone } if obj.FSType == nil { obj.FSType = new(string) *obj.FSType = "ext4" } if obj.ReadOnly == nil { obj.ReadOnly = new(bool) *obj.ReadOnly = false } }, func(sio *api.ScaleIOVolumeSource, c fuzz.Continue) { sio.ProtectionDomain = c.RandString() if sio.ProtectionDomain == "" { sio.ProtectionDomain = "default" } sio.StoragePool = c.RandString() if sio.StoragePool == "" { sio.StoragePool = "default" } sio.StorageMode = c.RandString() if sio.StorageMode == "" { sio.StorageMode = "ThinProvisioned" } sio.FSType = c.RandString() if sio.FSType == "" { sio.FSType = "xfs" } }, func(s *api.NamespaceSpec, c fuzz.Continue) { s.Finalizers = []api.FinalizerName{api.FinalizerKubernetes} }, func(s *api.NamespaceStatus, c fuzz.Continue) { s.Phase = api.NamespaceActive }, func(http *api.HTTPGetAction, c fuzz.Continue) { c.FuzzNoCustom(http) // fuzz self without calling this function again http.Path = "/" + http.Path // can't be blank http.Scheme = "x" + http.Scheme // can't be blank }, func(ss *api.ServiceSpec, c fuzz.Continue) { c.FuzzNoCustom(ss) // fuzz self without calling this function again if len(ss.Ports) == 0 { // There must be at least 1 port. ss.Ports = append(ss.Ports, api.ServicePort{}) c.Fuzz(&ss.Ports[0]) } for i := range ss.Ports { switch ss.Ports[i].TargetPort.Type { case intstr.Int: ss.Ports[i].TargetPort.IntVal = 1 + ss.Ports[i].TargetPort.IntVal%65535 // non-zero case intstr.String: ss.Ports[i].TargetPort.StrVal = "x" + ss.Ports[i].TargetPort.StrVal // non-empty } } }, func(n *api.Node, c fuzz.Continue) { c.FuzzNoCustom(n) n.Spec.ExternalID = "external" }, func(s *api.NodeStatus, c fuzz.Continue) { c.FuzzNoCustom(s) s.Allocatable = s.Capacity }, } } func extensionFuncs(t apitesting.TestingCommon) []interface{} { return []interface{}{ func(j *extensions.DeploymentSpec, c fuzz.Continue) { c.FuzzNoCustom(j) // fuzz self without calling this function again rhl := int32(c.Rand.Int31()) pds := int32(c.Rand.Int31()) j.RevisionHistoryLimit = &rhl j.ProgressDeadlineSeconds = &pds }, func(j *extensions.DeploymentStrategy, c fuzz.Continue) { c.FuzzNoCustom(j) // fuzz self without calling this function again // Ensure that strategyType is one of valid values. strategyTypes := []extensions.DeploymentStrategyType{extensions.RecreateDeploymentStrategyType, extensions.RollingUpdateDeploymentStrategyType} j.Type = strategyTypes[c.Rand.Intn(len(strategyTypes))] if j.Type != extensions.RollingUpdateDeploymentStrategyType { j.RollingUpdate = nil } else { rollingUpdate := extensions.RollingUpdateDeployment{} if c.RandBool() { rollingUpdate.MaxUnavailable = intstr.FromInt(int(c.Rand.Int31())) rollingUpdate.MaxSurge = intstr.FromInt(int(c.Rand.Int31())) } else { rollingUpdate.MaxSurge = intstr.FromString(fmt.Sprintf("%d%%", c.Rand.Int31())) } j.RollingUpdate = &rollingUpdate } }, func(psp *extensions.PodSecurityPolicySpec, c fuzz.Continue) { c.FuzzNoCustom(psp) // fuzz self without calling this function again runAsUserRules := []extensions.RunAsUserStrategy{extensions.RunAsUserStrategyMustRunAsNonRoot, extensions.RunAsUserStrategyMustRunAs, extensions.RunAsUserStrategyRunAsAny} psp.RunAsUser.Rule = runAsUserRules[c.Rand.Intn(len(runAsUserRules))] seLinuxRules := []extensions.SELinuxStrategy{extensions.SELinuxStrategyRunAsAny, extensions.SELinuxStrategyMustRunAs} psp.SELinux.Rule = seLinuxRules[c.Rand.Intn(len(seLinuxRules))] }, func(s *extensions.Scale, c fuzz.Continue) { c.FuzzNoCustom(s) // fuzz self without calling this function again // TODO: Implement a fuzzer to generate valid keys, values and operators for // selector requirements. if s.Status.Selector != nil { s.Status.Selector = &metav1.LabelSelector{ MatchLabels: map[string]string{ "testlabelkey": "testlabelval", }, MatchExpressions: []metav1.LabelSelectorRequirement{ { Key: "testkey", Operator: metav1.LabelSelectorOpIn, Values: []string{"val1", "val2", "val3"}, }, }, } } }, func(j *extensions.DaemonSetUpdateStrategy, c fuzz.Continue) { c.FuzzNoCustom(j) // fuzz self without calling this function again // Ensure that strategyType is one of valid values. strategyTypes := []extensions.DaemonSetUpdateStrategyType{extensions.RollingUpdateDaemonSetStrategyType, extensions.OnDeleteDaemonSetStrategyType} j.Type = strategyTypes[c.Rand.Intn(len(strategyTypes))] if j.Type != extensions.RollingUpdateDaemonSetStrategyType { j.RollingUpdate = nil } else { rollingUpdate := extensions.RollingUpdateDaemonSet{} if c.RandBool() { if c.RandBool() { rollingUpdate.MaxUnavailable = intstr.FromInt(1 + int(c.Rand.Int31())) } else { rollingUpdate.MaxUnavailable = intstr.FromString(fmt.Sprintf("%d%%", 1+c.Rand.Int31())) } } j.RollingUpdate = &rollingUpdate } }, } } func batchFuncs(t apitesting.TestingCommon) []interface{} { return []interface{}{ func(j *batch.JobSpec, c fuzz.Continue) { c.FuzzNoCustom(j) // fuzz self without calling this function again completions := int32(c.Rand.Int31()) parallelism := int32(c.Rand.Int31()) j.Completions = &completions j.Parallelism = ¶llelism if c.Rand.Int31()%2 == 0 { j.ManualSelector = newBool(true) } else { j.ManualSelector = nil } }, func(sj *batch.CronJobSpec, c fuzz.Continue) { c.FuzzNoCustom(sj) suspend := c.RandBool() sj.Suspend = &suspend sds := int64(c.RandUint64()) sj.StartingDeadlineSeconds = &sds sj.Schedule = c.RandString() if hasSuccessLimit := c.RandBool(); hasSuccessLimit { successfulJobsHistoryLimit := int32(c.Rand.Int31()) sj.SuccessfulJobsHistoryLimit = &successfulJobsHistoryLimit } if hasFailedLimit := c.RandBool(); hasFailedLimit { failedJobsHistoryLimit := int32(c.Rand.Int31()) sj.FailedJobsHistoryLimit = &failedJobsHistoryLimit } }, func(cp *batch.ConcurrencyPolicy, c fuzz.Continue) { policies := []batch.ConcurrencyPolicy{batch.AllowConcurrent, batch.ForbidConcurrent, batch.ReplaceConcurrent} *cp = policies[c.Rand.Intn(len(policies))] }, } } func autoscalingFuncs(t apitesting.TestingCommon) []interface{} { return []interface{}{ func(s *autoscaling.HorizontalPodAutoscalerSpec, c fuzz.Continue) { c.FuzzNoCustom(s) // fuzz self without calling this function again minReplicas := int32(c.Rand.Int31()) s.MinReplicas = &minReplicas randomQuantity := func() resource.Quantity { var q resource.Quantity c.Fuzz(&q) // precalc the string for benchmarking purposes _ = q.String() return q } targetUtilization := int32(c.RandUint64()) s.Metrics = []autoscaling.MetricSpec{ { Type: autoscaling.PodsMetricSourceType, Pods: &autoscaling.PodsMetricSource{ MetricName: c.RandString(), TargetAverageValue: randomQuantity(), }, }, { Type: autoscaling.ResourceMetricSourceType, Resource: &autoscaling.ResourceMetricSource{ Name: api.ResourceCPU, TargetAverageUtilization: &targetUtilization, }, }, } }, func(s *autoscaling.HorizontalPodAutoscalerStatus, c fuzz.Continue) { c.FuzzNoCustom(s) // fuzz self without calling this function again randomQuantity := func() resource.Quantity { var q resource.Quantity c.Fuzz(&q) // precalc the string for benchmarking purposes _ = q.String() return q } currentUtilization := int32(c.RandUint64()) s.CurrentMetrics = []autoscaling.MetricStatus{ { Type: autoscaling.PodsMetricSourceType, Pods: &autoscaling.PodsMetricStatus{ MetricName: c.RandString(), CurrentAverageValue: randomQuantity(), }, }, { Type: autoscaling.ResourceMetricSourceType, Resource: &autoscaling.ResourceMetricStatus{ Name: api.ResourceCPU, CurrentAverageUtilization: ¤tUtilization, }, }, } }, } } func rbacFuncs(t apitesting.TestingCommon) []interface{} { return []interface{}{ func(r *rbac.RoleRef, c fuzz.Continue) { c.FuzzNoCustom(r) // fuzz self without calling this function again // match defaulter if len(r.APIGroup) == 0 { r.APIGroup = rbac.GroupName } }, func(r *rbac.Subject, c fuzz.Continue) { switch c.Int31n(3) { case 0: r.Kind = rbac.ServiceAccountKind r.APIGroup = "" c.FuzzNoCustom(&r.Name) c.FuzzNoCustom(&r.Namespace) case 1: r.Kind = rbac.UserKind r.APIGroup = rbac.GroupName c.FuzzNoCustom(&r.Name) // user "*" won't round trip because we convert it to the system:authenticated group. try again. for r.Name == "*" { c.FuzzNoCustom(&r.Name) } case 2: r.Kind = rbac.GroupKind r.APIGroup = rbac.GroupName c.FuzzNoCustom(&r.Name) } }, } } func policyFuncs(t apitesting.TestingCommon) []interface{} { return []interface{}{ func(s *policy.PodDisruptionBudgetStatus, c fuzz.Continue) { c.FuzzNoCustom(s) // fuzz self without calling this function again s.PodDisruptionsAllowed = int32(c.Rand.Intn(2)) }, } } func certificateFuncs(t apitesting.TestingCommon) []interface{} { return []interface{}{ func(obj *certificates.CertificateSigningRequestSpec, c fuzz.Continue) { c.FuzzNoCustom(obj) // fuzz self without calling this function again obj.Usages = []certificates.KeyUsage{certificates.UsageKeyEncipherment} }, } } func FuzzerFuncs(t apitesting.TestingCommon, codecs runtimeserializer.CodecFactory) []interface{} { return apitesting.MergeFuzzerFuncs(t, apitesting.GenericFuzzerFuncs(t, codecs), overrideGenericFuncs(t, codecs), coreFuncs(t), extensionFuncs(t), batchFuncs(t), autoscalingFuncs(t), rbacFuncs(t), kubeadmfuzzer.KubeadmFuzzerFuncs(t), policyFuncs(t), certificateFuncs(t), ) } func newBool(val bool) *bool { p := new(bool) *p = val return p }