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291
vendor/k8s.io/client-go/applyconfigurations/certificates/v1beta1/certificatesigningrequest.go generated vendored Normal file
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/*
Copyright 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.
*/
// Code generated by applyconfiguration-gen. DO NOT EDIT.
package v1beta1
import (
certificatesv1beta1 "k8s.io/api/certificates/v1beta1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
types "k8s.io/apimachinery/pkg/types"
managedfields "k8s.io/apimachinery/pkg/util/managedfields"
internal "k8s.io/client-go/applyconfigurations/internal"
v1 "k8s.io/client-go/applyconfigurations/meta/v1"
)
// CertificateSigningRequestApplyConfiguration represents a declarative configuration of the CertificateSigningRequest type for use
// with apply.
//
// Describes a certificate signing request
type CertificateSigningRequestApplyConfiguration struct {
v1.TypeMetaApplyConfiguration `json:",inline"`
*v1.ObjectMetaApplyConfiguration `json:"metadata,omitempty"`
// spec contains the certificate request, and is immutable after creation.
// Only the request, signerName, expirationSeconds, and usages fields can be set on creation.
// Other fields are derived by Kubernetes and cannot be modified by users.
Spec *CertificateSigningRequestSpecApplyConfiguration `json:"spec,omitempty"`
// Derived information about the request.
Status *CertificateSigningRequestStatusApplyConfiguration `json:"status,omitempty"`
}
// CertificateSigningRequest constructs a declarative configuration of the CertificateSigningRequest type for use with
// apply.
func CertificateSigningRequest(name string) *CertificateSigningRequestApplyConfiguration {
b := &CertificateSigningRequestApplyConfiguration{}
b.WithName(name)
b.WithKind("CertificateSigningRequest")
b.WithAPIVersion("certificates.k8s.io/v1beta1")
return b
}
// ExtractCertificateSigningRequestFrom extracts the applied configuration owned by fieldManager from
// certificateSigningRequest for the specified subresource. Pass an empty string for subresource to extract
// the main resource. Common subresources include "status", "scale", etc.
// certificateSigningRequest must be a unmodified CertificateSigningRequest API object that was retrieved from the Kubernetes API.
// ExtractCertificateSigningRequestFrom provides a way to perform a extract/modify-in-place/apply workflow.
// Note that an extracted apply configuration will contain fewer fields than what the fieldManager previously
// applied if another fieldManager has updated or force applied any of the previously applied fields.
func ExtractCertificateSigningRequestFrom(certificateSigningRequest *certificatesv1beta1.CertificateSigningRequest, fieldManager string, subresource string) (*CertificateSigningRequestApplyConfiguration, error) {
b := &CertificateSigningRequestApplyConfiguration{}
err := managedfields.ExtractInto(certificateSigningRequest, internal.Parser().Type("io.k8s.api.certificates.v1beta1.CertificateSigningRequest"), fieldManager, b, subresource)
if err != nil {
return nil, err
}
b.WithName(certificateSigningRequest.Name)
b.WithKind("CertificateSigningRequest")
b.WithAPIVersion("certificates.k8s.io/v1beta1")
return b, nil
}
// ExtractCertificateSigningRequest extracts the applied configuration owned by fieldManager from
// certificateSigningRequest. If no managedFields are found in certificateSigningRequest for fieldManager, a
// CertificateSigningRequestApplyConfiguration is returned with only the Name, Namespace (if applicable),
// APIVersion and Kind populated. It is possible that no managed fields were found for because other
// field managers have taken ownership of all the fields previously owned by fieldManager, or because
// the fieldManager never owned fields any fields.
// certificateSigningRequest must be a unmodified CertificateSigningRequest API object that was retrieved from the Kubernetes API.
// ExtractCertificateSigningRequest provides a way to perform a extract/modify-in-place/apply workflow.
// Note that an extracted apply configuration will contain fewer fields than what the fieldManager previously
// applied if another fieldManager has updated or force applied any of the previously applied fields.
func ExtractCertificateSigningRequest(certificateSigningRequest *certificatesv1beta1.CertificateSigningRequest, fieldManager string) (*CertificateSigningRequestApplyConfiguration, error) {
return ExtractCertificateSigningRequestFrom(certificateSigningRequest, fieldManager, "")
}
// ExtractCertificateSigningRequestStatus extracts the applied configuration owned by fieldManager from
// certificateSigningRequest for the status subresource.
func ExtractCertificateSigningRequestStatus(certificateSigningRequest *certificatesv1beta1.CertificateSigningRequest, fieldManager string) (*CertificateSigningRequestApplyConfiguration, error) {
return ExtractCertificateSigningRequestFrom(certificateSigningRequest, fieldManager, "status")
}
func (b CertificateSigningRequestApplyConfiguration) IsApplyConfiguration() {}
// WithKind sets the Kind field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Kind field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithKind(value string) *CertificateSigningRequestApplyConfiguration {
b.TypeMetaApplyConfiguration.Kind = &value
return b
}
// WithAPIVersion sets the APIVersion field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the APIVersion field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithAPIVersion(value string) *CertificateSigningRequestApplyConfiguration {
b.TypeMetaApplyConfiguration.APIVersion = &value
return b
}
// WithName sets the Name field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Name field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithName(value string) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.Name = &value
return b
}
// WithGenerateName sets the GenerateName field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the GenerateName field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithGenerateName(value string) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.GenerateName = &value
return b
}
// WithNamespace sets the Namespace field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Namespace field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithNamespace(value string) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.Namespace = &value
return b
}
// WithUID sets the UID field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the UID field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithUID(value types.UID) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.UID = &value
return b
}
// WithResourceVersion sets the ResourceVersion field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the ResourceVersion field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithResourceVersion(value string) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.ResourceVersion = &value
return b
}
// WithGeneration sets the Generation field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Generation field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithGeneration(value int64) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.Generation = &value
return b
}
// WithCreationTimestamp sets the CreationTimestamp field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the CreationTimestamp field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithCreationTimestamp(value metav1.Time) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.CreationTimestamp = &value
return b
}
// WithDeletionTimestamp sets the DeletionTimestamp field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the DeletionTimestamp field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithDeletionTimestamp(value metav1.Time) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.DeletionTimestamp = &value
return b
}
// WithDeletionGracePeriodSeconds sets the DeletionGracePeriodSeconds field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the DeletionGracePeriodSeconds field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithDeletionGracePeriodSeconds(value int64) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.DeletionGracePeriodSeconds = &value
return b
}
// WithLabels puts the entries into the Labels field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, the entries provided by each call will be put on the Labels field,
// overwriting an existing map entries in Labels field with the same key.
func (b *CertificateSigningRequestApplyConfiguration) WithLabels(entries map[string]string) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
if b.ObjectMetaApplyConfiguration.Labels == nil && len(entries) > 0 {
b.ObjectMetaApplyConfiguration.Labels = make(map[string]string, len(entries))
}
for k, v := range entries {
b.ObjectMetaApplyConfiguration.Labels[k] = v
}
return b
}
// WithAnnotations puts the entries into the Annotations field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, the entries provided by each call will be put on the Annotations field,
// overwriting an existing map entries in Annotations field with the same key.
func (b *CertificateSigningRequestApplyConfiguration) WithAnnotations(entries map[string]string) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
if b.ObjectMetaApplyConfiguration.Annotations == nil && len(entries) > 0 {
b.ObjectMetaApplyConfiguration.Annotations = make(map[string]string, len(entries))
}
for k, v := range entries {
b.ObjectMetaApplyConfiguration.Annotations[k] = v
}
return b
}
// WithOwnerReferences adds the given value to the OwnerReferences field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the OwnerReferences field.
func (b *CertificateSigningRequestApplyConfiguration) WithOwnerReferences(values ...*v1.OwnerReferenceApplyConfiguration) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
for i := range values {
if values[i] == nil {
panic("nil value passed to WithOwnerReferences")
}
b.ObjectMetaApplyConfiguration.OwnerReferences = append(b.ObjectMetaApplyConfiguration.OwnerReferences, *values[i])
}
return b
}
// WithFinalizers adds the given value to the Finalizers field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the Finalizers field.
func (b *CertificateSigningRequestApplyConfiguration) WithFinalizers(values ...string) *CertificateSigningRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
for i := range values {
b.ObjectMetaApplyConfiguration.Finalizers = append(b.ObjectMetaApplyConfiguration.Finalizers, values[i])
}
return b
}
func (b *CertificateSigningRequestApplyConfiguration) ensureObjectMetaApplyConfigurationExists() {
if b.ObjectMetaApplyConfiguration == nil {
b.ObjectMetaApplyConfiguration = &v1.ObjectMetaApplyConfiguration{}
}
}
// WithSpec sets the Spec field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Spec field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithSpec(value *CertificateSigningRequestSpecApplyConfiguration) *CertificateSigningRequestApplyConfiguration {
b.Spec = value
return b
}
// WithStatus sets the Status field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Status field is set to the value of the last call.
func (b *CertificateSigningRequestApplyConfiguration) WithStatus(value *CertificateSigningRequestStatusApplyConfiguration) *CertificateSigningRequestApplyConfiguration {
b.Status = value
return b
}
// GetKind retrieves the value of the Kind field in the declarative configuration.
func (b *CertificateSigningRequestApplyConfiguration) GetKind() *string {
return b.TypeMetaApplyConfiguration.Kind
}
// GetAPIVersion retrieves the value of the APIVersion field in the declarative configuration.
func (b *CertificateSigningRequestApplyConfiguration) GetAPIVersion() *string {
return b.TypeMetaApplyConfiguration.APIVersion
}
// GetName retrieves the value of the Name field in the declarative configuration.
func (b *CertificateSigningRequestApplyConfiguration) GetName() *string {
b.ensureObjectMetaApplyConfigurationExists()
return b.ObjectMetaApplyConfiguration.Name
}
// GetNamespace retrieves the value of the Namespace field in the declarative configuration.
func (b *CertificateSigningRequestApplyConfiguration) GetNamespace() *string {
b.ensureObjectMetaApplyConfigurationExists()
return b.ObjectMetaApplyConfiguration.Namespace
}

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vendor/k8s.io/client-go/applyconfigurations/certificates/v1beta1/certificatesigningrequestcondition.go generated vendored Normal file
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/*
Copyright 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.
*/
// Code generated by applyconfiguration-gen. DO NOT EDIT.
package v1beta1
import (
certificatesv1beta1 "k8s.io/api/certificates/v1beta1"
v1 "k8s.io/api/core/v1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
)
// CertificateSigningRequestConditionApplyConfiguration represents a declarative configuration of the CertificateSigningRequestCondition type for use
// with apply.
type CertificateSigningRequestConditionApplyConfiguration struct {
// type of the condition. Known conditions include "Approved", "Denied", and "Failed".
Type *certificatesv1beta1.RequestConditionType `json:"type,omitempty"`
// Status of the condition, one of True, False, Unknown.
// Approved, Denied, and Failed conditions may not be "False" or "Unknown".
// Defaults to "True".
// If unset, should be treated as "True".
Status *v1.ConditionStatus `json:"status,omitempty"`
// brief reason for the request state
Reason *string `json:"reason,omitempty"`
// human readable message with details about the request state
Message *string `json:"message,omitempty"`
// timestamp for the last update to this condition
LastUpdateTime *metav1.Time `json:"lastUpdateTime,omitempty"`
// lastTransitionTime is the time the condition last transitioned from one status to another.
// If unset, when a new condition type is added or an existing condition's status is changed,
// the server defaults this to the current time.
LastTransitionTime *metav1.Time `json:"lastTransitionTime,omitempty"`
}
// CertificateSigningRequestConditionApplyConfiguration constructs a declarative configuration of the CertificateSigningRequestCondition type for use with
// apply.
func CertificateSigningRequestCondition() *CertificateSigningRequestConditionApplyConfiguration {
return &CertificateSigningRequestConditionApplyConfiguration{}
}
// WithType sets the Type field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Type field is set to the value of the last call.
func (b *CertificateSigningRequestConditionApplyConfiguration) WithType(value certificatesv1beta1.RequestConditionType) *CertificateSigningRequestConditionApplyConfiguration {
b.Type = &value
return b
}
// WithStatus sets the Status field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Status field is set to the value of the last call.
func (b *CertificateSigningRequestConditionApplyConfiguration) WithStatus(value v1.ConditionStatus) *CertificateSigningRequestConditionApplyConfiguration {
b.Status = &value
return b
}
// WithReason sets the Reason field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Reason field is set to the value of the last call.
func (b *CertificateSigningRequestConditionApplyConfiguration) WithReason(value string) *CertificateSigningRequestConditionApplyConfiguration {
b.Reason = &value
return b
}
// WithMessage sets the Message field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Message field is set to the value of the last call.
func (b *CertificateSigningRequestConditionApplyConfiguration) WithMessage(value string) *CertificateSigningRequestConditionApplyConfiguration {
b.Message = &value
return b
}
// WithLastUpdateTime sets the LastUpdateTime field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the LastUpdateTime field is set to the value of the last call.
func (b *CertificateSigningRequestConditionApplyConfiguration) WithLastUpdateTime(value metav1.Time) *CertificateSigningRequestConditionApplyConfiguration {
b.LastUpdateTime = &value
return b
}
// WithLastTransitionTime sets the LastTransitionTime field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the LastTransitionTime field is set to the value of the last call.
func (b *CertificateSigningRequestConditionApplyConfiguration) WithLastTransitionTime(value metav1.Time) *CertificateSigningRequestConditionApplyConfiguration {
b.LastTransitionTime = &value
return b
}

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vendor/k8s.io/client-go/applyconfigurations/certificates/v1beta1/certificatesigningrequestspec.go generated vendored Normal file
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/*
Copyright 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.
*/
// Code generated by applyconfiguration-gen. DO NOT EDIT.
package v1beta1
import (
certificatesv1beta1 "k8s.io/api/certificates/v1beta1"
)
// CertificateSigningRequestSpecApplyConfiguration represents a declarative configuration of the CertificateSigningRequestSpec type for use
// with apply.
//
// CertificateSigningRequestSpec contains the certificate request.
type CertificateSigningRequestSpecApplyConfiguration struct {
// Base64-encoded PKCS#10 CSR data
Request []byte `json:"request,omitempty"`
// Requested signer for the request. It is a qualified name in the form:
// `scope-hostname.io/name`.
// If empty, it will be defaulted:
// 1. If it's a kubelet client certificate, it is assigned
// "kubernetes.io/kube-apiserver-client-kubelet".
// 2. If it's a kubelet serving certificate, it is assigned
// "kubernetes.io/kubelet-serving".
// 3. Otherwise, it is assigned "kubernetes.io/legacy-unknown".
// Distribution of trust for signers happens out of band.
// You can select on this field using `spec.signerName`.
SignerName *string `json:"signerName,omitempty"`
// expirationSeconds is the requested duration of validity of the issued
// certificate. The certificate signer may issue a certificate with a different
// validity duration so a client must check the delta between the notBefore and
// and notAfter fields in the issued certificate to determine the actual duration.
//
// The v1.22+ in-tree implementations of the well-known Kubernetes signers will
// honor this field as long as the requested duration is not greater than the
// maximum duration they will honor per the --cluster-signing-duration CLI
// flag to the Kubernetes controller manager.
//
// Certificate signers may not honor this field for various reasons:
//
// 1. Old signer that is unaware of the field (such as the in-tree
// implementations prior to v1.22)
// 2. Signer whose configured maximum is shorter than the requested duration
// 3. Signer whose configured minimum is longer than the requested duration
//
// The minimum valid value for expirationSeconds is 600, i.e. 10 minutes.
ExpirationSeconds *int32 `json:"expirationSeconds,omitempty"`
// allowedUsages specifies a set of usage contexts the key will be
// valid for.
// See:
// https://tools.ietf.org/html/rfc5280#section-4.2.1.3
// https://tools.ietf.org/html/rfc5280#section-4.2.1.12
//
// Valid values are:
// "signing",
// "digital signature",
// "content commitment",
// "key encipherment",
// "key agreement",
// "data encipherment",
// "cert sign",
// "crl sign",
// "encipher only",
// "decipher only",
// "any",
// "server auth",
// "client auth",
// "code signing",
// "email protection",
// "s/mime",
// "ipsec end system",
// "ipsec tunnel",
// "ipsec user",
// "timestamping",
// "ocsp signing",
// "microsoft sgc",
// "netscape sgc"
Usages []certificatesv1beta1.KeyUsage `json:"usages,omitempty"`
// Information about the requesting user.
// See user.Info interface for details.
Username *string `json:"username,omitempty"`
// UID information about the requesting user.
// See user.Info interface for details.
UID *string `json:"uid,omitempty"`
// Group information about the requesting user.
// See user.Info interface for details.
Groups []string `json:"groups,omitempty"`
// Extra information about the requesting user.
// See user.Info interface for details.
Extra map[string]certificatesv1beta1.ExtraValue `json:"extra,omitempty"`
}
// CertificateSigningRequestSpecApplyConfiguration constructs a declarative configuration of the CertificateSigningRequestSpec type for use with
// apply.
func CertificateSigningRequestSpec() *CertificateSigningRequestSpecApplyConfiguration {
return &CertificateSigningRequestSpecApplyConfiguration{}
}
// WithRequest adds the given value to the Request field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the Request field.
func (b *CertificateSigningRequestSpecApplyConfiguration) WithRequest(values ...byte) *CertificateSigningRequestSpecApplyConfiguration {
for i := range values {
b.Request = append(b.Request, values[i])
}
return b
}
// WithSignerName sets the SignerName field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the SignerName field is set to the value of the last call.
func (b *CertificateSigningRequestSpecApplyConfiguration) WithSignerName(value string) *CertificateSigningRequestSpecApplyConfiguration {
b.SignerName = &value
return b
}
// WithExpirationSeconds sets the ExpirationSeconds field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the ExpirationSeconds field is set to the value of the last call.
func (b *CertificateSigningRequestSpecApplyConfiguration) WithExpirationSeconds(value int32) *CertificateSigningRequestSpecApplyConfiguration {
b.ExpirationSeconds = &value
return b
}
// WithUsages adds the given value to the Usages field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the Usages field.
func (b *CertificateSigningRequestSpecApplyConfiguration) WithUsages(values ...certificatesv1beta1.KeyUsage) *CertificateSigningRequestSpecApplyConfiguration {
for i := range values {
b.Usages = append(b.Usages, values[i])
}
return b
}
// WithUsername sets the Username field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Username field is set to the value of the last call.
func (b *CertificateSigningRequestSpecApplyConfiguration) WithUsername(value string) *CertificateSigningRequestSpecApplyConfiguration {
b.Username = &value
return b
}
// WithUID sets the UID field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the UID field is set to the value of the last call.
func (b *CertificateSigningRequestSpecApplyConfiguration) WithUID(value string) *CertificateSigningRequestSpecApplyConfiguration {
b.UID = &value
return b
}
// WithGroups adds the given value to the Groups field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the Groups field.
func (b *CertificateSigningRequestSpecApplyConfiguration) WithGroups(values ...string) *CertificateSigningRequestSpecApplyConfiguration {
for i := range values {
b.Groups = append(b.Groups, values[i])
}
return b
}
// WithExtra puts the entries into the Extra field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, the entries provided by each call will be put on the Extra field,
// overwriting an existing map entries in Extra field with the same key.
func (b *CertificateSigningRequestSpecApplyConfiguration) WithExtra(entries map[string]certificatesv1beta1.ExtraValue) *CertificateSigningRequestSpecApplyConfiguration {
if b.Extra == nil && len(entries) > 0 {
b.Extra = make(map[string]certificatesv1beta1.ExtraValue, len(entries))
}
for k, v := range entries {
b.Extra[k] = v
}
return b
}

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vendor/k8s.io/client-go/applyconfigurations/certificates/v1beta1/certificatesigningrequeststatus.go generated vendored Normal file
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/*
Copyright 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.
*/
// Code generated by applyconfiguration-gen. DO NOT EDIT.
package v1beta1
// CertificateSigningRequestStatusApplyConfiguration represents a declarative configuration of the CertificateSigningRequestStatus type for use
// with apply.
type CertificateSigningRequestStatusApplyConfiguration struct {
// Conditions applied to the request, such as approval or denial.
Conditions []CertificateSigningRequestConditionApplyConfiguration `json:"conditions,omitempty"`
// If request was approved, the controller will place the issued certificate here.
Certificate []byte `json:"certificate,omitempty"`
}
// CertificateSigningRequestStatusApplyConfiguration constructs a declarative configuration of the CertificateSigningRequestStatus type for use with
// apply.
func CertificateSigningRequestStatus() *CertificateSigningRequestStatusApplyConfiguration {
return &CertificateSigningRequestStatusApplyConfiguration{}
}
// WithConditions adds the given value to the Conditions field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the Conditions field.
func (b *CertificateSigningRequestStatusApplyConfiguration) WithConditions(values ...*CertificateSigningRequestConditionApplyConfiguration) *CertificateSigningRequestStatusApplyConfiguration {
for i := range values {
if values[i] == nil {
panic("nil value passed to WithConditions")
}
b.Conditions = append(b.Conditions, *values[i])
}
return b
}
// WithCertificate adds the given value to the Certificate field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the Certificate field.
func (b *CertificateSigningRequestStatusApplyConfiguration) WithCertificate(values ...byte) *CertificateSigningRequestStatusApplyConfiguration {
for i := range values {
b.Certificate = append(b.Certificate, values[i])
}
return b
}

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vendor/k8s.io/client-go/applyconfigurations/certificates/v1beta1/clustertrustbundle.go generated vendored Normal file
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/*
Copyright 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.
*/
// Code generated by applyconfiguration-gen. DO NOT EDIT.
package v1beta1
import (
certificatesv1beta1 "k8s.io/api/certificates/v1beta1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
types "k8s.io/apimachinery/pkg/types"
managedfields "k8s.io/apimachinery/pkg/util/managedfields"
internal "k8s.io/client-go/applyconfigurations/internal"
v1 "k8s.io/client-go/applyconfigurations/meta/v1"
)
// ClusterTrustBundleApplyConfiguration represents a declarative configuration of the ClusterTrustBundle type for use
// with apply.
//
// ClusterTrustBundle is a cluster-scoped container for X.509 trust anchors
// (root certificates).
//
// ClusterTrustBundle objects are considered to be readable by any authenticated
// user in the cluster, because they can be mounted by pods using the
// `clusterTrustBundle` projection. All service accounts have read access to
// ClusterTrustBundles by default. Users who only have namespace-level access
// to a cluster can read ClusterTrustBundles by impersonating a serviceaccount
// that they have access to.
//
// It can be optionally associated with a particular assigner, in which case it
// contains one valid set of trust anchors for that signer. Signers may have
// multiple associated ClusterTrustBundles; each is an independent set of trust
// anchors for that signer. Admission control is used to enforce that only users
// with permissions on the signer can create or modify the corresponding bundle.
type ClusterTrustBundleApplyConfiguration struct {
v1.TypeMetaApplyConfiguration `json:",inline"`
// metadata contains the object metadata.
*v1.ObjectMetaApplyConfiguration `json:"metadata,omitempty"`
// spec contains the signer (if any) and trust anchors.
Spec *ClusterTrustBundleSpecApplyConfiguration `json:"spec,omitempty"`
}
// ClusterTrustBundle constructs a declarative configuration of the ClusterTrustBundle type for use with
// apply.
func ClusterTrustBundle(name string) *ClusterTrustBundleApplyConfiguration {
b := &ClusterTrustBundleApplyConfiguration{}
b.WithName(name)
b.WithKind("ClusterTrustBundle")
b.WithAPIVersion("certificates.k8s.io/v1beta1")
return b
}
// ExtractClusterTrustBundleFrom extracts the applied configuration owned by fieldManager from
// clusterTrustBundle for the specified subresource. Pass an empty string for subresource to extract
// the main resource. Common subresources include "status", "scale", etc.
// clusterTrustBundle must be a unmodified ClusterTrustBundle API object that was retrieved from the Kubernetes API.
// ExtractClusterTrustBundleFrom provides a way to perform a extract/modify-in-place/apply workflow.
// Note that an extracted apply configuration will contain fewer fields than what the fieldManager previously
// applied if another fieldManager has updated or force applied any of the previously applied fields.
func ExtractClusterTrustBundleFrom(clusterTrustBundle *certificatesv1beta1.ClusterTrustBundle, fieldManager string, subresource string) (*ClusterTrustBundleApplyConfiguration, error) {
b := &ClusterTrustBundleApplyConfiguration{}
err := managedfields.ExtractInto(clusterTrustBundle, internal.Parser().Type("io.k8s.api.certificates.v1beta1.ClusterTrustBundle"), fieldManager, b, subresource)
if err != nil {
return nil, err
}
b.WithName(clusterTrustBundle.Name)
b.WithKind("ClusterTrustBundle")
b.WithAPIVersion("certificates.k8s.io/v1beta1")
return b, nil
}
// ExtractClusterTrustBundle extracts the applied configuration owned by fieldManager from
// clusterTrustBundle. If no managedFields are found in clusterTrustBundle for fieldManager, a
// ClusterTrustBundleApplyConfiguration is returned with only the Name, Namespace (if applicable),
// APIVersion and Kind populated. It is possible that no managed fields were found for because other
// field managers have taken ownership of all the fields previously owned by fieldManager, or because
// the fieldManager never owned fields any fields.
// clusterTrustBundle must be a unmodified ClusterTrustBundle API object that was retrieved from the Kubernetes API.
// ExtractClusterTrustBundle provides a way to perform a extract/modify-in-place/apply workflow.
// Note that an extracted apply configuration will contain fewer fields than what the fieldManager previously
// applied if another fieldManager has updated or force applied any of the previously applied fields.
func ExtractClusterTrustBundle(clusterTrustBundle *certificatesv1beta1.ClusterTrustBundle, fieldManager string) (*ClusterTrustBundleApplyConfiguration, error) {
return ExtractClusterTrustBundleFrom(clusterTrustBundle, fieldManager, "")
}
func (b ClusterTrustBundleApplyConfiguration) IsApplyConfiguration() {}
// WithKind sets the Kind field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Kind field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithKind(value string) *ClusterTrustBundleApplyConfiguration {
b.TypeMetaApplyConfiguration.Kind = &value
return b
}
// WithAPIVersion sets the APIVersion field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the APIVersion field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithAPIVersion(value string) *ClusterTrustBundleApplyConfiguration {
b.TypeMetaApplyConfiguration.APIVersion = &value
return b
}
// WithName sets the Name field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Name field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithName(value string) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.Name = &value
return b
}
// WithGenerateName sets the GenerateName field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the GenerateName field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithGenerateName(value string) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.GenerateName = &value
return b
}
// WithNamespace sets the Namespace field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Namespace field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithNamespace(value string) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.Namespace = &value
return b
}
// WithUID sets the UID field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the UID field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithUID(value types.UID) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.UID = &value
return b
}
// WithResourceVersion sets the ResourceVersion field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the ResourceVersion field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithResourceVersion(value string) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.ResourceVersion = &value
return b
}
// WithGeneration sets the Generation field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Generation field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithGeneration(value int64) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.Generation = &value
return b
}
// WithCreationTimestamp sets the CreationTimestamp field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the CreationTimestamp field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithCreationTimestamp(value metav1.Time) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.CreationTimestamp = &value
return b
}
// WithDeletionTimestamp sets the DeletionTimestamp field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the DeletionTimestamp field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithDeletionTimestamp(value metav1.Time) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.DeletionTimestamp = &value
return b
}
// WithDeletionGracePeriodSeconds sets the DeletionGracePeriodSeconds field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the DeletionGracePeriodSeconds field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithDeletionGracePeriodSeconds(value int64) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.DeletionGracePeriodSeconds = &value
return b
}
// WithLabels puts the entries into the Labels field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, the entries provided by each call will be put on the Labels field,
// overwriting an existing map entries in Labels field with the same key.
func (b *ClusterTrustBundleApplyConfiguration) WithLabels(entries map[string]string) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
if b.ObjectMetaApplyConfiguration.Labels == nil && len(entries) > 0 {
b.ObjectMetaApplyConfiguration.Labels = make(map[string]string, len(entries))
}
for k, v := range entries {
b.ObjectMetaApplyConfiguration.Labels[k] = v
}
return b
}
// WithAnnotations puts the entries into the Annotations field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, the entries provided by each call will be put on the Annotations field,
// overwriting an existing map entries in Annotations field with the same key.
func (b *ClusterTrustBundleApplyConfiguration) WithAnnotations(entries map[string]string) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
if b.ObjectMetaApplyConfiguration.Annotations == nil && len(entries) > 0 {
b.ObjectMetaApplyConfiguration.Annotations = make(map[string]string, len(entries))
}
for k, v := range entries {
b.ObjectMetaApplyConfiguration.Annotations[k] = v
}
return b
}
// WithOwnerReferences adds the given value to the OwnerReferences field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the OwnerReferences field.
func (b *ClusterTrustBundleApplyConfiguration) WithOwnerReferences(values ...*v1.OwnerReferenceApplyConfiguration) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
for i := range values {
if values[i] == nil {
panic("nil value passed to WithOwnerReferences")
}
b.ObjectMetaApplyConfiguration.OwnerReferences = append(b.ObjectMetaApplyConfiguration.OwnerReferences, *values[i])
}
return b
}
// WithFinalizers adds the given value to the Finalizers field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the Finalizers field.
func (b *ClusterTrustBundleApplyConfiguration) WithFinalizers(values ...string) *ClusterTrustBundleApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
for i := range values {
b.ObjectMetaApplyConfiguration.Finalizers = append(b.ObjectMetaApplyConfiguration.Finalizers, values[i])
}
return b
}
func (b *ClusterTrustBundleApplyConfiguration) ensureObjectMetaApplyConfigurationExists() {
if b.ObjectMetaApplyConfiguration == nil {
b.ObjectMetaApplyConfiguration = &v1.ObjectMetaApplyConfiguration{}
}
}
// WithSpec sets the Spec field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Spec field is set to the value of the last call.
func (b *ClusterTrustBundleApplyConfiguration) WithSpec(value *ClusterTrustBundleSpecApplyConfiguration) *ClusterTrustBundleApplyConfiguration {
b.Spec = value
return b
}
// GetKind retrieves the value of the Kind field in the declarative configuration.
func (b *ClusterTrustBundleApplyConfiguration) GetKind() *string {
return b.TypeMetaApplyConfiguration.Kind
}
// GetAPIVersion retrieves the value of the APIVersion field in the declarative configuration.
func (b *ClusterTrustBundleApplyConfiguration) GetAPIVersion() *string {
return b.TypeMetaApplyConfiguration.APIVersion
}
// GetName retrieves the value of the Name field in the declarative configuration.
func (b *ClusterTrustBundleApplyConfiguration) GetName() *string {
b.ensureObjectMetaApplyConfigurationExists()
return b.ObjectMetaApplyConfiguration.Name
}
// GetNamespace retrieves the value of the Namespace field in the declarative configuration.
func (b *ClusterTrustBundleApplyConfiguration) GetNamespace() *string {
b.ensureObjectMetaApplyConfigurationExists()
return b.ObjectMetaApplyConfiguration.Namespace
}

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vendor/k8s.io/client-go/applyconfigurations/certificates/v1beta1/clustertrustbundlespec.go generated vendored Normal file
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/*
Copyright 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.
*/
// Code generated by applyconfiguration-gen. DO NOT EDIT.
package v1beta1
// ClusterTrustBundleSpecApplyConfiguration represents a declarative configuration of the ClusterTrustBundleSpec type for use
// with apply.
//
// ClusterTrustBundleSpec contains the signer and trust anchors.
type ClusterTrustBundleSpecApplyConfiguration struct {
// signerName indicates the associated signer, if any.
//
// In order to create or update a ClusterTrustBundle that sets signerName,
// you must have the following cluster-scoped permission:
// group=certificates.k8s.io resource=signers resourceName=<the signer name>
// verb=attest.
//
// If signerName is not empty, then the ClusterTrustBundle object must be
// named with the signer name as a prefix (translating slashes to colons).
// For example, for the signer name `example.com/foo`, valid
// ClusterTrustBundle object names include `example.com:foo:abc` and
// `example.com:foo:v1`.
//
// If signerName is empty, then the ClusterTrustBundle object's name must
// not have such a prefix.
//
// List/watch requests for ClusterTrustBundles can filter on this field
// using a `spec.signerName=NAME` field selector.
SignerName *string `json:"signerName,omitempty"`
// trustBundle contains the individual X.509 trust anchors for this
// bundle, as PEM bundle of PEM-wrapped, DER-formatted X.509 certificates.
//
// The data must consist only of PEM certificate blocks that parse as valid
// X.509 certificates. Each certificate must include a basic constraints
// extension with the CA bit set. The API server will reject objects that
// contain duplicate certificates, or that use PEM block headers.
//
// Users of ClusterTrustBundles, including Kubelet, are free to reorder and
// deduplicate certificate blocks in this file according to their own logic,
// as well as to drop PEM block headers and inter-block data.
TrustBundle *string `json:"trustBundle,omitempty"`
}
// ClusterTrustBundleSpecApplyConfiguration constructs a declarative configuration of the ClusterTrustBundleSpec type for use with
// apply.
func ClusterTrustBundleSpec() *ClusterTrustBundleSpecApplyConfiguration {
return &ClusterTrustBundleSpecApplyConfiguration{}
}
// WithSignerName sets the SignerName field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the SignerName field is set to the value of the last call.
func (b *ClusterTrustBundleSpecApplyConfiguration) WithSignerName(value string) *ClusterTrustBundleSpecApplyConfiguration {
b.SignerName = &value
return b
}
// WithTrustBundle sets the TrustBundle field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the TrustBundle field is set to the value of the last call.
func (b *ClusterTrustBundleSpecApplyConfiguration) WithTrustBundle(value string) *ClusterTrustBundleSpecApplyConfiguration {
b.TrustBundle = &value
return b
}

295
vendor/k8s.io/client-go/applyconfigurations/certificates/v1beta1/podcertificaterequest.go generated vendored Normal file
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/*
Copyright 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.
*/
// Code generated by applyconfiguration-gen. DO NOT EDIT.
package v1beta1
import (
certificatesv1beta1 "k8s.io/api/certificates/v1beta1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
types "k8s.io/apimachinery/pkg/types"
managedfields "k8s.io/apimachinery/pkg/util/managedfields"
internal "k8s.io/client-go/applyconfigurations/internal"
v1 "k8s.io/client-go/applyconfigurations/meta/v1"
)
// PodCertificateRequestApplyConfiguration represents a declarative configuration of the PodCertificateRequest type for use
// with apply.
//
// PodCertificateRequest encodes a pod requesting a certificate from a given
// signer.
//
// Kubelets use this API to implement podCertificate projected volumes
type PodCertificateRequestApplyConfiguration struct {
v1.TypeMetaApplyConfiguration `json:",inline"`
// metadata contains the object metadata.
*v1.ObjectMetaApplyConfiguration `json:"metadata,omitempty"`
// spec contains the details about the certificate being requested.
Spec *PodCertificateRequestSpecApplyConfiguration `json:"spec,omitempty"`
// status contains the issued certificate, and a standard set of conditions.
Status *PodCertificateRequestStatusApplyConfiguration `json:"status,omitempty"`
}
// PodCertificateRequest constructs a declarative configuration of the PodCertificateRequest type for use with
// apply.
func PodCertificateRequest(name, namespace string) *PodCertificateRequestApplyConfiguration {
b := &PodCertificateRequestApplyConfiguration{}
b.WithName(name)
b.WithNamespace(namespace)
b.WithKind("PodCertificateRequest")
b.WithAPIVersion("certificates.k8s.io/v1beta1")
return b
}
// ExtractPodCertificateRequestFrom extracts the applied configuration owned by fieldManager from
// podCertificateRequest for the specified subresource. Pass an empty string for subresource to extract
// the main resource. Common subresources include "status", "scale", etc.
// podCertificateRequest must be a unmodified PodCertificateRequest API object that was retrieved from the Kubernetes API.
// ExtractPodCertificateRequestFrom provides a way to perform a extract/modify-in-place/apply workflow.
// Note that an extracted apply configuration will contain fewer fields than what the fieldManager previously
// applied if another fieldManager has updated or force applied any of the previously applied fields.
func ExtractPodCertificateRequestFrom(podCertificateRequest *certificatesv1beta1.PodCertificateRequest, fieldManager string, subresource string) (*PodCertificateRequestApplyConfiguration, error) {
b := &PodCertificateRequestApplyConfiguration{}
err := managedfields.ExtractInto(podCertificateRequest, internal.Parser().Type("io.k8s.api.certificates.v1beta1.PodCertificateRequest"), fieldManager, b, subresource)
if err != nil {
return nil, err
}
b.WithName(podCertificateRequest.Name)
b.WithNamespace(podCertificateRequest.Namespace)
b.WithKind("PodCertificateRequest")
b.WithAPIVersion("certificates.k8s.io/v1beta1")
return b, nil
}
// ExtractPodCertificateRequest extracts the applied configuration owned by fieldManager from
// podCertificateRequest. If no managedFields are found in podCertificateRequest for fieldManager, a
// PodCertificateRequestApplyConfiguration is returned with only the Name, Namespace (if applicable),
// APIVersion and Kind populated. It is possible that no managed fields were found for because other
// field managers have taken ownership of all the fields previously owned by fieldManager, or because
// the fieldManager never owned fields any fields.
// podCertificateRequest must be a unmodified PodCertificateRequest API object that was retrieved from the Kubernetes API.
// ExtractPodCertificateRequest provides a way to perform a extract/modify-in-place/apply workflow.
// Note that an extracted apply configuration will contain fewer fields than what the fieldManager previously
// applied if another fieldManager has updated or force applied any of the previously applied fields.
func ExtractPodCertificateRequest(podCertificateRequest *certificatesv1beta1.PodCertificateRequest, fieldManager string) (*PodCertificateRequestApplyConfiguration, error) {
return ExtractPodCertificateRequestFrom(podCertificateRequest, fieldManager, "")
}
// ExtractPodCertificateRequestStatus extracts the applied configuration owned by fieldManager from
// podCertificateRequest for the status subresource.
func ExtractPodCertificateRequestStatus(podCertificateRequest *certificatesv1beta1.PodCertificateRequest, fieldManager string) (*PodCertificateRequestApplyConfiguration, error) {
return ExtractPodCertificateRequestFrom(podCertificateRequest, fieldManager, "status")
}
func (b PodCertificateRequestApplyConfiguration) IsApplyConfiguration() {}
// WithKind sets the Kind field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Kind field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithKind(value string) *PodCertificateRequestApplyConfiguration {
b.TypeMetaApplyConfiguration.Kind = &value
return b
}
// WithAPIVersion sets the APIVersion field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the APIVersion field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithAPIVersion(value string) *PodCertificateRequestApplyConfiguration {
b.TypeMetaApplyConfiguration.APIVersion = &value
return b
}
// WithName sets the Name field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Name field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithName(value string) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.Name = &value
return b
}
// WithGenerateName sets the GenerateName field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the GenerateName field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithGenerateName(value string) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.GenerateName = &value
return b
}
// WithNamespace sets the Namespace field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Namespace field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithNamespace(value string) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.Namespace = &value
return b
}
// WithUID sets the UID field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the UID field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithUID(value types.UID) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.UID = &value
return b
}
// WithResourceVersion sets the ResourceVersion field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the ResourceVersion field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithResourceVersion(value string) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.ResourceVersion = &value
return b
}
// WithGeneration sets the Generation field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Generation field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithGeneration(value int64) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.Generation = &value
return b
}
// WithCreationTimestamp sets the CreationTimestamp field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the CreationTimestamp field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithCreationTimestamp(value metav1.Time) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.CreationTimestamp = &value
return b
}
// WithDeletionTimestamp sets the DeletionTimestamp field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the DeletionTimestamp field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithDeletionTimestamp(value metav1.Time) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.DeletionTimestamp = &value
return b
}
// WithDeletionGracePeriodSeconds sets the DeletionGracePeriodSeconds field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the DeletionGracePeriodSeconds field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithDeletionGracePeriodSeconds(value int64) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
b.ObjectMetaApplyConfiguration.DeletionGracePeriodSeconds = &value
return b
}
// WithLabels puts the entries into the Labels field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, the entries provided by each call will be put on the Labels field,
// overwriting an existing map entries in Labels field with the same key.
func (b *PodCertificateRequestApplyConfiguration) WithLabels(entries map[string]string) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
if b.ObjectMetaApplyConfiguration.Labels == nil && len(entries) > 0 {
b.ObjectMetaApplyConfiguration.Labels = make(map[string]string, len(entries))
}
for k, v := range entries {
b.ObjectMetaApplyConfiguration.Labels[k] = v
}
return b
}
// WithAnnotations puts the entries into the Annotations field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, the entries provided by each call will be put on the Annotations field,
// overwriting an existing map entries in Annotations field with the same key.
func (b *PodCertificateRequestApplyConfiguration) WithAnnotations(entries map[string]string) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
if b.ObjectMetaApplyConfiguration.Annotations == nil && len(entries) > 0 {
b.ObjectMetaApplyConfiguration.Annotations = make(map[string]string, len(entries))
}
for k, v := range entries {
b.ObjectMetaApplyConfiguration.Annotations[k] = v
}
return b
}
// WithOwnerReferences adds the given value to the OwnerReferences field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the OwnerReferences field.
func (b *PodCertificateRequestApplyConfiguration) WithOwnerReferences(values ...*v1.OwnerReferenceApplyConfiguration) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
for i := range values {
if values[i] == nil {
panic("nil value passed to WithOwnerReferences")
}
b.ObjectMetaApplyConfiguration.OwnerReferences = append(b.ObjectMetaApplyConfiguration.OwnerReferences, *values[i])
}
return b
}
// WithFinalizers adds the given value to the Finalizers field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the Finalizers field.
func (b *PodCertificateRequestApplyConfiguration) WithFinalizers(values ...string) *PodCertificateRequestApplyConfiguration {
b.ensureObjectMetaApplyConfigurationExists()
for i := range values {
b.ObjectMetaApplyConfiguration.Finalizers = append(b.ObjectMetaApplyConfiguration.Finalizers, values[i])
}
return b
}
func (b *PodCertificateRequestApplyConfiguration) ensureObjectMetaApplyConfigurationExists() {
if b.ObjectMetaApplyConfiguration == nil {
b.ObjectMetaApplyConfiguration = &v1.ObjectMetaApplyConfiguration{}
}
}
// WithSpec sets the Spec field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Spec field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithSpec(value *PodCertificateRequestSpecApplyConfiguration) *PodCertificateRequestApplyConfiguration {
b.Spec = value
return b
}
// WithStatus sets the Status field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the Status field is set to the value of the last call.
func (b *PodCertificateRequestApplyConfiguration) WithStatus(value *PodCertificateRequestStatusApplyConfiguration) *PodCertificateRequestApplyConfiguration {
b.Status = value
return b
}
// GetKind retrieves the value of the Kind field in the declarative configuration.
func (b *PodCertificateRequestApplyConfiguration) GetKind() *string {
return b.TypeMetaApplyConfiguration.Kind
}
// GetAPIVersion retrieves the value of the APIVersion field in the declarative configuration.
func (b *PodCertificateRequestApplyConfiguration) GetAPIVersion() *string {
return b.TypeMetaApplyConfiguration.APIVersion
}
// GetName retrieves the value of the Name field in the declarative configuration.
func (b *PodCertificateRequestApplyConfiguration) GetName() *string {
b.ensureObjectMetaApplyConfigurationExists()
return b.ObjectMetaApplyConfiguration.Name
}
// GetNamespace retrieves the value of the Namespace field in the declarative configuration.
func (b *PodCertificateRequestApplyConfiguration) GetNamespace() *string {
b.ensureObjectMetaApplyConfigurationExists()
return b.ObjectMetaApplyConfiguration.Namespace
}

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/*
Copyright 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.
*/
// Code generated by applyconfiguration-gen. DO NOT EDIT.
package v1beta1
import (
types "k8s.io/apimachinery/pkg/types"
)
// PodCertificateRequestSpecApplyConfiguration represents a declarative configuration of the PodCertificateRequestSpec type for use
// with apply.
//
// PodCertificateRequestSpec describes the certificate request. All fields are
// immutable after creation.
type PodCertificateRequestSpecApplyConfiguration struct {
// signerName indicates the requested signer.
//
// All signer names beginning with `kubernetes.io` are reserved for use by
// the Kubernetes project. There is currently one well-known signer
// documented by the Kubernetes project,
// `kubernetes.io/kube-apiserver-client-pod`, which will issue client
// certificates understood by kube-apiserver. It is currently
// unimplemented.
SignerName *string `json:"signerName,omitempty"`
// podName is the name of the pod into which the certificate will be mounted.
PodName *string `json:"podName,omitempty"`
// podUID is the UID of the pod into which the certificate will be mounted.
PodUID *types.UID `json:"podUID,omitempty"`
// serviceAccountName is the name of the service account the pod is running as.
ServiceAccountName *string `json:"serviceAccountName,omitempty"`
// serviceAccountUID is the UID of the service account the pod is running as.
ServiceAccountUID *types.UID `json:"serviceAccountUID,omitempty"`
// nodeName is the name of the node the pod is assigned to.
NodeName *types.NodeName `json:"nodeName,omitempty"`
// nodeUID is the UID of the node the pod is assigned to.
NodeUID *types.UID `json:"nodeUID,omitempty"`
// maxExpirationSeconds is the maximum lifetime permitted for the
// certificate.
//
// If omitted, kube-apiserver will set it to 86400(24 hours). kube-apiserver
// will reject values shorter than 3600 (1 hour). The maximum allowable
// value is 7862400 (91 days).
//
// The signer implementation is then free to issue a certificate with any
// lifetime *shorter* than MaxExpirationSeconds, but no shorter than 3600
// seconds (1 hour). This constraint is enforced by kube-apiserver.
// `kubernetes.io` signers will never issue certificates with a lifetime
// longer than 24 hours.
MaxExpirationSeconds *int32 `json:"maxExpirationSeconds,omitempty"`
// pkixPublicKey is the PKIX-serialized public key the signer will issue the
// certificate to.
//
// The key must be one of RSA3072, RSA4096, ECDSAP256, ECDSAP384, ECDSAP521,
// or ED25519. Note that this list may be expanded in the future.
//
// Signer implementations do not need to support all key types supported by
// kube-apiserver and kubelet. If a signer does not support the key type
// used for a given PodCertificateRequest, it must deny the request by
// setting a status.conditions entry with a type of "Denied" and a reason of
// "UnsupportedKeyType". It may also suggest a key type that it does support
// in the message field.
PKIXPublicKey []byte `json:"pkixPublicKey,omitempty"`
// proofOfPossession proves that the requesting kubelet holds the private
// key corresponding to pkixPublicKey.
//
// It is contructed by signing the ASCII bytes of the pod's UID using
// `pkixPublicKey`.
//
// kube-apiserver validates the proof of possession during creation of the
// PodCertificateRequest.
//
// If the key is an RSA key, then the signature is over the ASCII bytes of
// the pod UID, using RSASSA-PSS from RFC 8017 (as implemented by the golang
// function crypto/rsa.SignPSS with nil options).
//
// If the key is an ECDSA key, then the signature is as described by [SEC 1,
// Version 2.0](https://www.secg.org/sec1-v2.pdf) (as implemented by the
// golang library function crypto/ecdsa.SignASN1)
//
// If the key is an ED25519 key, the the signature is as described by the
// [ED25519 Specification](https://ed25519.cr.yp.to/) (as implemented by
// the golang library crypto/ed25519.Sign).
ProofOfPossession []byte `json:"proofOfPossession,omitempty"`
// unverifiedUserAnnotations allow pod authors to pass additional information to
// the signer implementation. Kubernetes does not restrict or validate this
// metadata in any way.
//
// Entries are subject to the same validation as object metadata annotations,
// with the addition that all keys must be domain-prefixed. No restrictions
// are placed on values, except an overall size limitation on the entire field.
//
// Signers should document the keys and values they support. Signers should
// deny requests that contain keys they do not recognize.
UnverifiedUserAnnotations map[string]string `json:"unverifiedUserAnnotations,omitempty"`
}
// PodCertificateRequestSpecApplyConfiguration constructs a declarative configuration of the PodCertificateRequestSpec type for use with
// apply.
func PodCertificateRequestSpec() *PodCertificateRequestSpecApplyConfiguration {
return &PodCertificateRequestSpecApplyConfiguration{}
}
// WithSignerName sets the SignerName field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the SignerName field is set to the value of the last call.
func (b *PodCertificateRequestSpecApplyConfiguration) WithSignerName(value string) *PodCertificateRequestSpecApplyConfiguration {
b.SignerName = &value
return b
}
// WithPodName sets the PodName field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the PodName field is set to the value of the last call.
func (b *PodCertificateRequestSpecApplyConfiguration) WithPodName(value string) *PodCertificateRequestSpecApplyConfiguration {
b.PodName = &value
return b
}
// WithPodUID sets the PodUID field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the PodUID field is set to the value of the last call.
func (b *PodCertificateRequestSpecApplyConfiguration) WithPodUID(value types.UID) *PodCertificateRequestSpecApplyConfiguration {
b.PodUID = &value
return b
}
// WithServiceAccountName sets the ServiceAccountName field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the ServiceAccountName field is set to the value of the last call.
func (b *PodCertificateRequestSpecApplyConfiguration) WithServiceAccountName(value string) *PodCertificateRequestSpecApplyConfiguration {
b.ServiceAccountName = &value
return b
}
// WithServiceAccountUID sets the ServiceAccountUID field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the ServiceAccountUID field is set to the value of the last call.
func (b *PodCertificateRequestSpecApplyConfiguration) WithServiceAccountUID(value types.UID) *PodCertificateRequestSpecApplyConfiguration {
b.ServiceAccountUID = &value
return b
}
// WithNodeName sets the NodeName field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the NodeName field is set to the value of the last call.
func (b *PodCertificateRequestSpecApplyConfiguration) WithNodeName(value types.NodeName) *PodCertificateRequestSpecApplyConfiguration {
b.NodeName = &value
return b
}
// WithNodeUID sets the NodeUID field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the NodeUID field is set to the value of the last call.
func (b *PodCertificateRequestSpecApplyConfiguration) WithNodeUID(value types.UID) *PodCertificateRequestSpecApplyConfiguration {
b.NodeUID = &value
return b
}
// WithMaxExpirationSeconds sets the MaxExpirationSeconds field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the MaxExpirationSeconds field is set to the value of the last call.
func (b *PodCertificateRequestSpecApplyConfiguration) WithMaxExpirationSeconds(value int32) *PodCertificateRequestSpecApplyConfiguration {
b.MaxExpirationSeconds = &value
return b
}
// WithPKIXPublicKey adds the given value to the PKIXPublicKey field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the PKIXPublicKey field.
func (b *PodCertificateRequestSpecApplyConfiguration) WithPKIXPublicKey(values ...byte) *PodCertificateRequestSpecApplyConfiguration {
for i := range values {
b.PKIXPublicKey = append(b.PKIXPublicKey, values[i])
}
return b
}
// WithProofOfPossession adds the given value to the ProofOfPossession field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the ProofOfPossession field.
func (b *PodCertificateRequestSpecApplyConfiguration) WithProofOfPossession(values ...byte) *PodCertificateRequestSpecApplyConfiguration {
for i := range values {
b.ProofOfPossession = append(b.ProofOfPossession, values[i])
}
return b
}
// WithUnverifiedUserAnnotations puts the entries into the UnverifiedUserAnnotations field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, the entries provided by each call will be put on the UnverifiedUserAnnotations field,
// overwriting an existing map entries in UnverifiedUserAnnotations field with the same key.
func (b *PodCertificateRequestSpecApplyConfiguration) WithUnverifiedUserAnnotations(entries map[string]string) *PodCertificateRequestSpecApplyConfiguration {
if b.UnverifiedUserAnnotations == nil && len(entries) > 0 {
b.UnverifiedUserAnnotations = make(map[string]string, len(entries))
}
for k, v := range entries {
b.UnverifiedUserAnnotations[k] = v
}
return b
}

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/*
Copyright 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.
*/
// Code generated by applyconfiguration-gen. DO NOT EDIT.
package v1beta1
import (
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
v1 "k8s.io/client-go/applyconfigurations/meta/v1"
)
// PodCertificateRequestStatusApplyConfiguration represents a declarative configuration of the PodCertificateRequestStatus type for use
// with apply.
//
// PodCertificateRequestStatus describes the status of the request, and holds
// the certificate data if the request is issued.
type PodCertificateRequestStatusApplyConfiguration struct {
// conditions applied to the request.
//
// The types "Issued", "Denied", and "Failed" have special handling. At
// most one of these conditions may be present, and they must have status
// "True".
//
// If the request is denied with `Reason=UnsupportedKeyType`, the signer may
// suggest a key type that will work in the message field.
Conditions []v1.ConditionApplyConfiguration `json:"conditions,omitempty"`
// certificateChain is populated with an issued certificate by the signer.
// This field is set via the /status subresource. Once populated, this field
// is immutable.
//
// If the certificate signing request is denied, a condition of type
// "Denied" is added and this field remains empty. If the signer cannot
// issue the certificate, a condition of type "Failed" is added and this
// field remains empty.
//
// Validation requirements:
// 1. certificateChain must consist of one or more PEM-formatted certificates.
// 2. Each entry must be a valid PEM-wrapped, DER-encoded ASN.1 Certificate as
// described in section 4 of RFC5280.
//
// If more than one block is present, and the definition of the requested
// spec.signerName does not indicate otherwise, the first block is the
// issued certificate, and subsequent blocks should be treated as
// intermediate certificates and presented in TLS handshakes. When
// projecting the chain into a pod volume, kubelet will drop any data
// in-between the PEM blocks, as well as any PEM block headers.
CertificateChain *string `json:"certificateChain,omitempty"`
// notBefore is the time at which the certificate becomes valid. The value
// must be the same as the notBefore value in the leaf certificate in
// certificateChain. This field is set via the /status subresource. Once
// populated, it is immutable. The signer must set this field at the same
// time it sets certificateChain.
NotBefore *metav1.Time `json:"notBefore,omitempty"`
// beginRefreshAt is the time at which the kubelet should begin trying to
// refresh the certificate. This field is set via the /status subresource,
// and must be set at the same time as certificateChain. Once populated,
// this field is immutable.
//
// This field is only a hint. Kubelet may start refreshing before or after
// this time if necessary.
BeginRefreshAt *metav1.Time `json:"beginRefreshAt,omitempty"`
// notAfter is the time at which the certificate expires. The value must be
// the same as the notAfter value in the leaf certificate in
// certificateChain. This field is set via the /status subresource. Once
// populated, it is immutable. The signer must set this field at the same
// time it sets certificateChain.
NotAfter *metav1.Time `json:"notAfter,omitempty"`
}
// PodCertificateRequestStatusApplyConfiguration constructs a declarative configuration of the PodCertificateRequestStatus type for use with
// apply.
func PodCertificateRequestStatus() *PodCertificateRequestStatusApplyConfiguration {
return &PodCertificateRequestStatusApplyConfiguration{}
}
// WithConditions adds the given value to the Conditions field in the declarative configuration
// and returns the receiver, so that objects can be build by chaining "With" function invocations.
// If called multiple times, values provided by each call will be appended to the Conditions field.
func (b *PodCertificateRequestStatusApplyConfiguration) WithConditions(values ...*v1.ConditionApplyConfiguration) *PodCertificateRequestStatusApplyConfiguration {
for i := range values {
if values[i] == nil {
panic("nil value passed to WithConditions")
}
b.Conditions = append(b.Conditions, *values[i])
}
return b
}
// WithCertificateChain sets the CertificateChain field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the CertificateChain field is set to the value of the last call.
func (b *PodCertificateRequestStatusApplyConfiguration) WithCertificateChain(value string) *PodCertificateRequestStatusApplyConfiguration {
b.CertificateChain = &value
return b
}
// WithNotBefore sets the NotBefore field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the NotBefore field is set to the value of the last call.
func (b *PodCertificateRequestStatusApplyConfiguration) WithNotBefore(value metav1.Time) *PodCertificateRequestStatusApplyConfiguration {
b.NotBefore = &value
return b
}
// WithBeginRefreshAt sets the BeginRefreshAt field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the BeginRefreshAt field is set to the value of the last call.
func (b *PodCertificateRequestStatusApplyConfiguration) WithBeginRefreshAt(value metav1.Time) *PodCertificateRequestStatusApplyConfiguration {
b.BeginRefreshAt = &value
return b
}
// WithNotAfter sets the NotAfter field in the declarative configuration to the given value
// and returns the receiver, so that objects can be built by chaining "With" function invocations.
// If called multiple times, the NotAfter field is set to the value of the last call.
func (b *PodCertificateRequestStatusApplyConfiguration) WithNotAfter(value metav1.Time) *PodCertificateRequestStatusApplyConfiguration {
b.NotAfter = &value
return b
}