vendor: bump to kube 1.10/master

Signed-off-by: Antonio Murdaca <runcom@redhat.com>
This commit is contained in:
Antonio Murdaca 2017-12-11 16:45:48 +01:00
parent a85ea609db
commit f317ffce5b
No known key found for this signature in database
GPG key ID: B2BEAD150DE936B9
535 changed files with 52955 additions and 17528 deletions

View file

@ -21,27 +21,9 @@ limitations under the License.
package internalversion
import (
conversion "k8s.io/apimachinery/pkg/conversion"
runtime "k8s.io/apimachinery/pkg/runtime"
reflect "reflect"
)
// GetGeneratedDeepCopyFuncs returns the generated funcs, since we aren't registering them.
//
// Deprecated: deepcopy registration will go away when static deepcopy is fully implemented.
func GetGeneratedDeepCopyFuncs() []conversion.GeneratedDeepCopyFunc {
return []conversion.GeneratedDeepCopyFunc{
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*List).DeepCopyInto(out.(*List))
return nil
}, InType: reflect.TypeOf(&List{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*ListOptions).DeepCopyInto(out.(*ListOptions))
return nil
}, InType: reflect.TypeOf(&ListOptions{})},
}
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *List) DeepCopyInto(out *List) {
*out = *in

View file

@ -38,6 +38,7 @@ func AddConversionFuncs(scheme *runtime.Scheme) error {
Convert_intstr_IntOrString_To_intstr_IntOrString,
Convert_unversioned_Time_To_unversioned_Time,
Convert_unversioned_MicroTime_To_unversioned_MicroTime,
Convert_Pointer_v1_Duration_To_v1_Duration,
Convert_v1_Duration_To_Pointer_v1_Duration,
@ -199,6 +200,12 @@ func Convert_v1_Duration_To_Pointer_v1_Duration(in *Duration, out **Duration, s
return nil
}
func Convert_unversioned_MicroTime_To_unversioned_MicroTime(in *MicroTime, out *MicroTime, s conversion.Scope) error {
// Cannot deep copy these, because time.Time has unexported fields.
*out = *in
return nil
}
// Convert_Slice_string_To_unversioned_Time allows converting a URL query parameter value
func Convert_Slice_string_To_unversioned_Time(input *[]string, out *Time, s conversion.Scope) error {
str := ""

View file

@ -50,6 +50,7 @@ limitations under the License.
MicroTime
ObjectMeta
OwnerReference
Patch
Preconditions
RootPaths
ServerAddressByClientCIDR
@ -196,51 +197,55 @@ func (m *OwnerReference) Reset() { *m = OwnerReference{} }
func (*OwnerReference) ProtoMessage() {}
func (*OwnerReference) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{24} }
func (m *Patch) Reset() { *m = Patch{} }
func (*Patch) ProtoMessage() {}
func (*Patch) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{25} }
func (m *Preconditions) Reset() { *m = Preconditions{} }
func (*Preconditions) ProtoMessage() {}
func (*Preconditions) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{25} }
func (*Preconditions) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{26} }
func (m *RootPaths) Reset() { *m = RootPaths{} }
func (*RootPaths) ProtoMessage() {}
func (*RootPaths) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{26} }
func (*RootPaths) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{27} }
func (m *ServerAddressByClientCIDR) Reset() { *m = ServerAddressByClientCIDR{} }
func (*ServerAddressByClientCIDR) ProtoMessage() {}
func (*ServerAddressByClientCIDR) Descriptor() ([]byte, []int) {
return fileDescriptorGenerated, []int{27}
return fileDescriptorGenerated, []int{28}
}
func (m *Status) Reset() { *m = Status{} }
func (*Status) ProtoMessage() {}
func (*Status) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{28} }
func (*Status) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{29} }
func (m *StatusCause) Reset() { *m = StatusCause{} }
func (*StatusCause) ProtoMessage() {}
func (*StatusCause) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{29} }
func (*StatusCause) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{30} }
func (m *StatusDetails) Reset() { *m = StatusDetails{} }
func (*StatusDetails) ProtoMessage() {}
func (*StatusDetails) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{30} }
func (*StatusDetails) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{31} }
func (m *Time) Reset() { *m = Time{} }
func (*Time) ProtoMessage() {}
func (*Time) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{31} }
func (*Time) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{32} }
func (m *Timestamp) Reset() { *m = Timestamp{} }
func (*Timestamp) ProtoMessage() {}
func (*Timestamp) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{32} }
func (*Timestamp) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{33} }
func (m *TypeMeta) Reset() { *m = TypeMeta{} }
func (*TypeMeta) ProtoMessage() {}
func (*TypeMeta) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{33} }
func (*TypeMeta) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{34} }
func (m *Verbs) Reset() { *m = Verbs{} }
func (*Verbs) ProtoMessage() {}
func (*Verbs) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{34} }
func (*Verbs) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{35} }
func (m *WatchEvent) Reset() { *m = WatchEvent{} }
func (*WatchEvent) ProtoMessage() {}
func (*WatchEvent) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{35} }
func (*WatchEvent) Descriptor() ([]byte, []int) { return fileDescriptorGenerated, []int{36} }
func init() {
proto.RegisterType((*APIGroup)(nil), "k8s.io.apimachinery.pkg.apis.meta.v1.APIGroup")
@ -268,6 +273,7 @@ func init() {
proto.RegisterType((*MicroTime)(nil), "k8s.io.apimachinery.pkg.apis.meta.v1.MicroTime")
proto.RegisterType((*ObjectMeta)(nil), "k8s.io.apimachinery.pkg.apis.meta.v1.ObjectMeta")
proto.RegisterType((*OwnerReference)(nil), "k8s.io.apimachinery.pkg.apis.meta.v1.OwnerReference")
proto.RegisterType((*Patch)(nil), "k8s.io.apimachinery.pkg.apis.meta.v1.Patch")
proto.RegisterType((*Preconditions)(nil), "k8s.io.apimachinery.pkg.apis.meta.v1.Preconditions")
proto.RegisterType((*RootPaths)(nil), "k8s.io.apimachinery.pkg.apis.meta.v1.RootPaths")
proto.RegisterType((*ServerAddressByClientCIDR)(nil), "k8s.io.apimachinery.pkg.apis.meta.v1.ServerAddressByClientCIDR")
@ -1317,6 +1323,24 @@ func (m *OwnerReference) MarshalTo(dAtA []byte) (int, error) {
return i, nil
}
func (m *Patch) Marshal() (dAtA []byte, err error) {
size := m.Size()
dAtA = make([]byte, size)
n, err := m.MarshalTo(dAtA)
if err != nil {
return nil, err
}
return dAtA[:n], nil
}
func (m *Patch) MarshalTo(dAtA []byte) (int, error) {
var i int
_ = i
var l int
_ = l
return i, nil
}
func (m *Preconditions) Marshal() (dAtA []byte, err error) {
size := m.Size()
dAtA = make([]byte, size)
@ -2065,6 +2089,12 @@ func (m *OwnerReference) Size() (n int) {
return n
}
func (m *Patch) Size() (n int) {
var l int
_ = l
return n
}
func (m *Preconditions) Size() (n int) {
var l int
_ = l
@ -2464,6 +2494,15 @@ func (this *OwnerReference) String() string {
}, "")
return s
}
func (this *Patch) String() string {
if this == nil {
return "nil"
}
s := strings.Join([]string{`&Patch{`,
`}`,
}, "")
return s
}
func (this *Preconditions) String() string {
if this == nil {
return "nil"
@ -6382,6 +6421,56 @@ func (m *OwnerReference) Unmarshal(dAtA []byte) error {
}
return nil
}
func (m *Patch) Unmarshal(dAtA []byte) error {
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return ErrIntOverflowGenerated
}
if iNdEx >= l {
return io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= (uint64(b) & 0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return fmt.Errorf("proto: Patch: wiretype end group for non-group")
}
if fieldNum <= 0 {
return fmt.Errorf("proto: Patch: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
default:
iNdEx = preIndex
skippy, err := skipGenerated(dAtA[iNdEx:])
if err != nil {
return err
}
if skippy < 0 {
return ErrInvalidLengthGenerated
}
if (iNdEx + skippy) > l {
return io.ErrUnexpectedEOF
}
iNdEx += skippy
}
}
if iNdEx > l {
return io.ErrUnexpectedEOF
}
return nil
}
func (m *Preconditions) Unmarshal(dAtA []byte) error {
l := len(dAtA)
iNdEx := 0
@ -7715,7 +7804,7 @@ func init() {
}
var fileDescriptorGenerated = []byte{
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// 2435 bytes of a gzipped FileDescriptorProto
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0x20, 0x00, 0x00,
}

View file

@ -149,6 +149,10 @@ message DeleteOptions {
// Either this field or OrphanDependents may be set, but not both.
// The default policy is decided by the existing finalizer set in the
// metadata.finalizers and the resource-specific default policy.
// Acceptable values are: 'Orphan' - orphan the dependents; 'Background' -
// allow the garbage collector to delete the dependents in the background;
// 'Foreground' - a cascading policy that deletes all dependents in the
// foreground.
// +optional
optional string propagationPolicy = 4;
}
@ -382,7 +386,7 @@ message ListOptions {
// more results are available. Servers may choose not to support the limit argument and will return
// all of the available results. If limit is specified and the continue field is empty, clients may
// assume that no more results are available. This field is not supported if watch is true.
//
//
// The server guarantees that the objects returned when using continue will be identical to issuing
// a single list call without a limit - that is, no objects created, modified, or deleted after the
// first request is issued will be included in any subsequent continued requests. This is sometimes
@ -510,15 +514,16 @@ message ObjectMeta {
// DeletionTimestamp is RFC 3339 date and time at which this resource will be deleted. This
// field is set by the server when a graceful deletion is requested by the user, and is not
// directly settable by a client. The resource is expected to be deleted (no longer visible
// from resource lists, and not reachable by name) after the time in this field. Once set,
// this value may not be unset or be set further into the future, although it may be shortened
// or the resource may be deleted prior to this time. For example, a user may request that
// a pod is deleted in 30 seconds. The Kubelet will react by sending a graceful termination
// signal to the containers in the pod. After that 30 seconds, the Kubelet will send a hard
// termination signal (SIGKILL) to the container and after cleanup, remove the pod from the
// API. In the presence of network partitions, this object may still exist after this
// timestamp, until an administrator or automated process can determine the resource is
// fully terminated.
// from resource lists, and not reachable by name) after the time in this field, once the
// finalizers list is empty. As long as the finalizers list contains items, deletion is blocked.
// Once the deletionTimestamp is set, this value may not be unset or be set further into the
// future, although it may be shortened or the resource may be deleted prior to this time.
// For example, a user may request that a pod is deleted in 30 seconds. The Kubelet will react
// by sending a graceful termination signal to the containers in the pod. After that 30 seconds,
// the Kubelet will send a hard termination signal (SIGKILL) to the container and after cleanup,
// remove the pod from the API. In the presence of network partitions, this object may still
// exist after this timestamp, until an administrator or automated process can determine the
// resource is fully terminated.
// If not set, graceful deletion of the object has not been requested.
//
// Populated by the system when a graceful deletion is requested.
@ -616,6 +621,10 @@ message OwnerReference {
optional bool blockOwnerDeletion = 7;
}
// Patch is provided to give a concrete name and type to the Kubernetes PATCH request body.
message Patch {
}
// Preconditions must be fulfilled before an operation (update, delete, etc.) is carried out.
message Preconditions {
// Specifies the target UID.
@ -781,7 +790,7 @@ message Timestamp {
// TypeMeta describes an individual object in an API response or request
// with strings representing the type of the object and its API schema version.
// Structures that are versioned or persisted should inline TypeMeta.
//
//
// +k8s:deepcopy-gen=false
message TypeMeta {
// Kind is a string value representing the REST resource this object represents.

View file

@ -70,7 +70,6 @@ func AddToGroupVersion(scheme *runtime.Scheme, groupVersion schema.GroupVersion)
)
// register manually. This usually goes through the SchemeBuilder, which we cannot use here.
scheme.AddGeneratedDeepCopyFuncs(GetGeneratedDeepCopyFuncs()...)
AddConversionFuncs(scheme)
RegisterDefaults(scheme)
}
@ -90,6 +89,5 @@ func init() {
)
// register manually. This usually goes through the SchemeBuilder, which we cannot use here.
scheme.AddGeneratedDeepCopyFuncs(GetGeneratedDeepCopyFuncs()...)
RegisterDefaults(scheme)
}

View file

@ -177,15 +177,16 @@ type ObjectMeta struct {
// DeletionTimestamp is RFC 3339 date and time at which this resource will be deleted. This
// field is set by the server when a graceful deletion is requested by the user, and is not
// directly settable by a client. The resource is expected to be deleted (no longer visible
// from resource lists, and not reachable by name) after the time in this field. Once set,
// this value may not be unset or be set further into the future, although it may be shortened
// or the resource may be deleted prior to this time. For example, a user may request that
// a pod is deleted in 30 seconds. The Kubelet will react by sending a graceful termination
// signal to the containers in the pod. After that 30 seconds, the Kubelet will send a hard
// termination signal (SIGKILL) to the container and after cleanup, remove the pod from the
// API. In the presence of network partitions, this object may still exist after this
// timestamp, until an administrator or automated process can determine the resource is
// fully terminated.
// from resource lists, and not reachable by name) after the time in this field, once the
// finalizers list is empty. As long as the finalizers list contains items, deletion is blocked.
// Once the deletionTimestamp is set, this value may not be unset or be set further into the
// future, although it may be shortened or the resource may be deleted prior to this time.
// For example, a user may request that a pod is deleted in 30 seconds. The Kubelet will react
// by sending a graceful termination signal to the containers in the pod. After that 30 seconds,
// the Kubelet will send a hard termination signal (SIGKILL) to the container and after cleanup,
// remove the pod from the API. In the presence of network partitions, this object may still
// exist after this timestamp, until an administrator or automated process can determine the
// resource is fully terminated.
// If not set, graceful deletion of the object has not been requested.
//
// Populated by the system when a graceful deletion is requested.
@ -445,6 +446,10 @@ type DeleteOptions struct {
// Either this field or OrphanDependents may be set, but not both.
// The default policy is decided by the existing finalizer set in the
// metadata.finalizers and the resource-specific default policy.
// Acceptable values are: 'Orphan' - orphan the dependents; 'Background' -
// allow the garbage collector to delete the dependents in the background;
// 'Foreground' - a cascading policy that deletes all dependents in the
// foreground.
// +optional
PropagationPolicy *DeletionPropagation `json:"propagationPolicy,omitempty" protobuf:"varint,4,opt,name=propagationPolicy"`
}

View file

@ -90,7 +90,7 @@ var map_DeleteOptions = map[string]string{
"gracePeriodSeconds": "The duration in seconds before the object should be deleted. Value must be non-negative integer. The value zero indicates delete immediately. If this value is nil, the default grace period for the specified type will be used. Defaults to a per object value if not specified. zero means delete immediately.",
"preconditions": "Must be fulfilled before a deletion is carried out. If not possible, a 409 Conflict status will be returned.",
"orphanDependents": "Deprecated: please use the PropagationPolicy, this field will be deprecated in 1.7. Should the dependent objects be orphaned. If true/false, the \"orphan\" finalizer will be added to/removed from the object's finalizers list. Either this field or PropagationPolicy may be set, but not both.",
"propagationPolicy": "Whether and how garbage collection will be performed. Either this field or OrphanDependents may be set, but not both. The default policy is decided by the existing finalizer set in the metadata.finalizers and the resource-specific default policy.",
"propagationPolicy": "Whether and how garbage collection will be performed. Either this field or OrphanDependents may be set, but not both. The default policy is decided by the existing finalizer set in the metadata.finalizers and the resource-specific default policy. Acceptable values are: 'Orphan' - orphan the dependents; 'Background' - allow the garbage collector to delete the dependents in the background; 'Foreground' - a cascading policy that deletes all dependents in the foreground.",
}
func (DeleteOptions) SwaggerDoc() map[string]string {
@ -214,7 +214,7 @@ var map_ObjectMeta = map[string]string{
"resourceVersion": "An opaque value that represents the internal version of this object that can be used by clients to determine when objects have changed. May be used for optimistic concurrency, change detection, and the watch operation on a resource or set of resources. Clients must treat these values as opaque and passed unmodified back to the server. They may only be valid for a particular resource or set of resources.\n\nPopulated by the system. Read-only. Value must be treated as opaque by clients and . More info: https://git.k8s.io/community/contributors/devel/api-conventions.md#concurrency-control-and-consistency",
"generation": "A sequence number representing a specific generation of the desired state. Populated by the system. Read-only.",
"creationTimestamp": "CreationTimestamp is a timestamp representing the server time when this object was created. It is not guaranteed to be set in happens-before order across separate operations. Clients may not set this value. It is represented in RFC3339 form and is in UTC.\n\nPopulated by the system. Read-only. Null for lists. More info: https://git.k8s.io/community/contributors/devel/api-conventions.md#metadata",
"deletionTimestamp": "DeletionTimestamp is RFC 3339 date and time at which this resource will be deleted. This field is set by the server when a graceful deletion is requested by the user, and is not directly settable by a client. The resource is expected to be deleted (no longer visible from resource lists, and not reachable by name) after the time in this field. Once set, this value may not be unset or be set further into the future, although it may be shortened or the resource may be deleted prior to this time. For example, a user may request that a pod is deleted in 30 seconds. The Kubelet will react by sending a graceful termination signal to the containers in the pod. After that 30 seconds, the Kubelet will send a hard termination signal (SIGKILL) to the container and after cleanup, remove the pod from the API. In the presence of network partitions, this object may still exist after this timestamp, until an administrator or automated process can determine the resource is fully terminated. If not set, graceful deletion of the object has not been requested.\n\nPopulated by the system when a graceful deletion is requested. Read-only. More info: https://git.k8s.io/community/contributors/devel/api-conventions.md#metadata",
"deletionTimestamp": "DeletionTimestamp is RFC 3339 date and time at which this resource will be deleted. This field is set by the server when a graceful deletion is requested by the user, and is not directly settable by a client. The resource is expected to be deleted (no longer visible from resource lists, and not reachable by name) after the time in this field, once the finalizers list is empty. As long as the finalizers list contains items, deletion is blocked. Once the deletionTimestamp is set, this value may not be unset or be set further into the future, although it may be shortened or the resource may be deleted prior to this time. For example, a user may request that a pod is deleted in 30 seconds. The Kubelet will react by sending a graceful termination signal to the containers in the pod. After that 30 seconds, the Kubelet will send a hard termination signal (SIGKILL) to the container and after cleanup, remove the pod from the API. In the presence of network partitions, this object may still exist after this timestamp, until an administrator or automated process can determine the resource is fully terminated. If not set, graceful deletion of the object has not been requested.\n\nPopulated by the system when a graceful deletion is requested. Read-only. More info: https://git.k8s.io/community/contributors/devel/api-conventions.md#metadata",
"deletionGracePeriodSeconds": "Number of seconds allowed for this object to gracefully terminate before it will be removed from the system. Only set when deletionTimestamp is also set. May only be shortened. Read-only.",
"labels": "Map of string keys and values that can be used to organize and categorize (scope and select) objects. May match selectors of replication controllers and services. More info: http://kubernetes.io/docs/user-guide/labels",
"annotations": "Annotations is an unstructured key value map stored with a resource that may be set by external tools to store and retrieve arbitrary metadata. They are not queryable and should be preserved when modifying objects. More info: http://kubernetes.io/docs/user-guide/annotations",

View file

@ -0,0 +1,453 @@
/*
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 unstructured
import (
gojson "encoding/json"
"errors"
"fmt"
"io"
"strings"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/json"
)
// NestedFieldCopy returns a deep copy of the value of a nested field.
// false is returned if the value is missing.
// nil, true is returned for a nil field.
func NestedFieldCopy(obj map[string]interface{}, fields ...string) (interface{}, bool) {
val, ok := nestedFieldNoCopy(obj, fields...)
if !ok {
return nil, false
}
return runtime.DeepCopyJSONValue(val), true
}
func nestedFieldNoCopy(obj map[string]interface{}, fields ...string) (interface{}, bool) {
var val interface{} = obj
for _, field := range fields {
if m, ok := val.(map[string]interface{}); ok {
val, ok = m[field]
if !ok {
return nil, false
}
} else {
// Expected map[string]interface{}, got something else
return nil, false
}
}
return val, true
}
// NestedString returns the string value of a nested field.
// Returns false if value is not found or is not a string.
func NestedString(obj map[string]interface{}, fields ...string) (string, bool) {
val, ok := nestedFieldNoCopy(obj, fields...)
if !ok {
return "", false
}
s, ok := val.(string)
return s, ok
}
// NestedBool returns the bool value of a nested field.
// Returns false if value is not found or is not a bool.
func NestedBool(obj map[string]interface{}, fields ...string) (bool, bool) {
val, ok := nestedFieldNoCopy(obj, fields...)
if !ok {
return false, false
}
b, ok := val.(bool)
return b, ok
}
// NestedFloat64 returns the bool value of a nested field.
// Returns false if value is not found or is not a float64.
func NestedFloat64(obj map[string]interface{}, fields ...string) (float64, bool) {
val, ok := nestedFieldNoCopy(obj, fields...)
if !ok {
return 0, false
}
f, ok := val.(float64)
return f, ok
}
// NestedInt64 returns the int64 value of a nested field.
// Returns false if value is not found or is not an int64.
func NestedInt64(obj map[string]interface{}, fields ...string) (int64, bool) {
val, ok := nestedFieldNoCopy(obj, fields...)
if !ok {
return 0, false
}
i, ok := val.(int64)
return i, ok
}
// NestedStringSlice returns a copy of []string value of a nested field.
// Returns false if value is not found, is not a []interface{} or contains non-string items in the slice.
func NestedStringSlice(obj map[string]interface{}, fields ...string) ([]string, bool) {
val, ok := nestedFieldNoCopy(obj, fields...)
if !ok {
return nil, false
}
if m, ok := val.([]interface{}); ok {
strSlice := make([]string, 0, len(m))
for _, v := range m {
if str, ok := v.(string); ok {
strSlice = append(strSlice, str)
} else {
return nil, false
}
}
return strSlice, true
}
return nil, false
}
// NestedSlice returns a deep copy of []interface{} value of a nested field.
// Returns false if value is not found or is not a []interface{}.
func NestedSlice(obj map[string]interface{}, fields ...string) ([]interface{}, bool) {
val, ok := nestedFieldNoCopy(obj, fields...)
if !ok {
return nil, false
}
if _, ok := val.([]interface{}); ok {
return runtime.DeepCopyJSONValue(val).([]interface{}), true
}
return nil, false
}
// NestedStringMap returns a copy of map[string]string value of a nested field.
// Returns false if value is not found, is not a map[string]interface{} or contains non-string values in the map.
func NestedStringMap(obj map[string]interface{}, fields ...string) (map[string]string, bool) {
m, ok := nestedMapNoCopy(obj, fields...)
if !ok {
return nil, false
}
strMap := make(map[string]string, len(m))
for k, v := range m {
if str, ok := v.(string); ok {
strMap[k] = str
} else {
return nil, false
}
}
return strMap, true
}
// NestedMap returns a deep copy of map[string]interface{} value of a nested field.
// Returns false if value is not found or is not a map[string]interface{}.
func NestedMap(obj map[string]interface{}, fields ...string) (map[string]interface{}, bool) {
m, ok := nestedMapNoCopy(obj, fields...)
if !ok {
return nil, false
}
return runtime.DeepCopyJSON(m), true
}
// nestedMapNoCopy returns a map[string]interface{} value of a nested field.
// Returns false if value is not found or is not a map[string]interface{}.
func nestedMapNoCopy(obj map[string]interface{}, fields ...string) (map[string]interface{}, bool) {
val, ok := nestedFieldNoCopy(obj, fields...)
if !ok {
return nil, false
}
m, ok := val.(map[string]interface{})
return m, ok
}
// SetNestedField sets the value of a nested field to a deep copy of the value provided.
// Returns false if value cannot be set because one of the nesting levels is not a map[string]interface{}.
func SetNestedField(obj map[string]interface{}, value interface{}, fields ...string) bool {
return setNestedFieldNoCopy(obj, runtime.DeepCopyJSONValue(value), fields...)
}
func setNestedFieldNoCopy(obj map[string]interface{}, value interface{}, fields ...string) bool {
m := obj
for _, field := range fields[:len(fields)-1] {
if val, ok := m[field]; ok {
if valMap, ok := val.(map[string]interface{}); ok {
m = valMap
} else {
return false
}
} else {
newVal := make(map[string]interface{})
m[field] = newVal
m = newVal
}
}
m[fields[len(fields)-1]] = value
return true
}
// SetNestedStringSlice sets the string slice value of a nested field.
// Returns false if value cannot be set because one of the nesting levels is not a map[string]interface{}.
func SetNestedStringSlice(obj map[string]interface{}, value []string, fields ...string) bool {
m := make([]interface{}, 0, len(value)) // convert []string into []interface{}
for _, v := range value {
m = append(m, v)
}
return setNestedFieldNoCopy(obj, m, fields...)
}
// SetNestedSlice sets the slice value of a nested field.
// Returns false if value cannot be set because one of the nesting levels is not a map[string]interface{}.
func SetNestedSlice(obj map[string]interface{}, value []interface{}, fields ...string) bool {
return SetNestedField(obj, value, fields...)
}
// SetNestedStringMap sets the map[string]string value of a nested field.
// Returns false if value cannot be set because one of the nesting levels is not a map[string]interface{}.
func SetNestedStringMap(obj map[string]interface{}, value map[string]string, fields ...string) bool {
m := make(map[string]interface{}, len(value)) // convert map[string]string into map[string]interface{}
for k, v := range value {
m[k] = v
}
return setNestedFieldNoCopy(obj, m, fields...)
}
// SetNestedMap sets the map[string]interface{} value of a nested field.
// Returns false if value cannot be set because one of the nesting levels is not a map[string]interface{}.
func SetNestedMap(obj map[string]interface{}, value map[string]interface{}, fields ...string) bool {
return SetNestedField(obj, value, fields...)
}
// RemoveNestedField removes the nested field from the obj.
func RemoveNestedField(obj map[string]interface{}, fields ...string) {
m := obj
for _, field := range fields[:len(fields)-1] {
if x, ok := m[field].(map[string]interface{}); ok {
m = x
} else {
return
}
}
delete(m, fields[len(fields)-1])
}
func getNestedString(obj map[string]interface{}, fields ...string) string {
val, ok := NestedString(obj, fields...)
if !ok {
return ""
}
return val
}
func extractOwnerReference(v map[string]interface{}) metav1.OwnerReference {
// though this field is a *bool, but when decoded from JSON, it's
// unmarshalled as bool.
var controllerPtr *bool
if controller, ok := NestedBool(v, "controller"); ok {
controllerPtr = &controller
}
var blockOwnerDeletionPtr *bool
if blockOwnerDeletion, ok := NestedBool(v, "blockOwnerDeletion"); ok {
blockOwnerDeletionPtr = &blockOwnerDeletion
}
return metav1.OwnerReference{
Kind: getNestedString(v, "kind"),
Name: getNestedString(v, "name"),
APIVersion: getNestedString(v, "apiVersion"),
UID: types.UID(getNestedString(v, "uid")),
Controller: controllerPtr,
BlockOwnerDeletion: blockOwnerDeletionPtr,
}
}
// UnstructuredJSONScheme is capable of converting JSON data into the Unstructured
// type, which can be used for generic access to objects without a predefined scheme.
// TODO: move into serializer/json.
var UnstructuredJSONScheme runtime.Codec = unstructuredJSONScheme{}
type unstructuredJSONScheme struct{}
func (s unstructuredJSONScheme) Decode(data []byte, _ *schema.GroupVersionKind, obj runtime.Object) (runtime.Object, *schema.GroupVersionKind, error) {
var err error
if obj != nil {
err = s.decodeInto(data, obj)
} else {
obj, err = s.decode(data)
}
if err != nil {
return nil, nil, err
}
gvk := obj.GetObjectKind().GroupVersionKind()
if len(gvk.Kind) == 0 {
return nil, &gvk, runtime.NewMissingKindErr(string(data))
}
return obj, &gvk, nil
}
func (unstructuredJSONScheme) Encode(obj runtime.Object, w io.Writer) error {
switch t := obj.(type) {
case *Unstructured:
return json.NewEncoder(w).Encode(t.Object)
case *UnstructuredList:
items := make([]interface{}, 0, len(t.Items))
for _, i := range t.Items {
items = append(items, i.Object)
}
listObj := make(map[string]interface{}, len(t.Object)+1)
for k, v := range t.Object { // Make a shallow copy
listObj[k] = v
}
listObj["items"] = items
return json.NewEncoder(w).Encode(listObj)
case *runtime.Unknown:
// TODO: Unstructured needs to deal with ContentType.
_, err := w.Write(t.Raw)
return err
default:
return json.NewEncoder(w).Encode(t)
}
}
func (s unstructuredJSONScheme) decode(data []byte) (runtime.Object, error) {
type detector struct {
Items gojson.RawMessage
}
var det detector
if err := json.Unmarshal(data, &det); err != nil {
return nil, err
}
if det.Items != nil {
list := &UnstructuredList{}
err := s.decodeToList(data, list)
return list, err
}
// No Items field, so it wasn't a list.
unstruct := &Unstructured{}
err := s.decodeToUnstructured(data, unstruct)
return unstruct, err
}
func (s unstructuredJSONScheme) decodeInto(data []byte, obj runtime.Object) error {
switch x := obj.(type) {
case *Unstructured:
return s.decodeToUnstructured(data, x)
case *UnstructuredList:
return s.decodeToList(data, x)
case *runtime.VersionedObjects:
o, err := s.decode(data)
if err == nil {
x.Objects = []runtime.Object{o}
}
return err
default:
return json.Unmarshal(data, x)
}
}
func (unstructuredJSONScheme) decodeToUnstructured(data []byte, unstruct *Unstructured) error {
m := make(map[string]interface{})
if err := json.Unmarshal(data, &m); err != nil {
return err
}
unstruct.Object = m
return nil
}
func (s unstructuredJSONScheme) decodeToList(data []byte, list *UnstructuredList) error {
type decodeList struct {
Items []gojson.RawMessage
}
var dList decodeList
if err := json.Unmarshal(data, &dList); err != nil {
return err
}
if err := json.Unmarshal(data, &list.Object); err != nil {
return err
}
// For typed lists, e.g., a PodList, API server doesn't set each item's
// APIVersion and Kind. We need to set it.
listAPIVersion := list.GetAPIVersion()
listKind := list.GetKind()
itemKind := strings.TrimSuffix(listKind, "List")
delete(list.Object, "items")
list.Items = make([]Unstructured, 0, len(dList.Items))
for _, i := range dList.Items {
unstruct := &Unstructured{}
if err := s.decodeToUnstructured([]byte(i), unstruct); err != nil {
return err
}
// This is hacky. Set the item's Kind and APIVersion to those inferred
// from the List.
if len(unstruct.GetKind()) == 0 && len(unstruct.GetAPIVersion()) == 0 {
unstruct.SetKind(itemKind)
unstruct.SetAPIVersion(listAPIVersion)
}
list.Items = append(list.Items, *unstruct)
}
return nil
}
// UnstructuredObjectConverter is an ObjectConverter for use with
// Unstructured objects. Since it has no schema or type information,
// it will only succeed for no-op conversions. This is provided as a
// sane implementation for APIs that require an object converter.
type UnstructuredObjectConverter struct{}
func (UnstructuredObjectConverter) Convert(in, out, context interface{}) error {
unstructIn, ok := in.(*Unstructured)
if !ok {
return fmt.Errorf("input type %T in not valid for unstructured conversion", in)
}
unstructOut, ok := out.(*Unstructured)
if !ok {
return fmt.Errorf("output type %T in not valid for unstructured conversion", out)
}
// maybe deep copy the map? It is documented in the
// ObjectConverter interface that this function is not
// guaranteed to not mutate the input. Or maybe set the input
// object to nil.
unstructOut.Object = unstructIn.Object
return nil
}
func (UnstructuredObjectConverter) ConvertToVersion(in runtime.Object, target runtime.GroupVersioner) (runtime.Object, error) {
if kind := in.GetObjectKind().GroupVersionKind(); !kind.Empty() {
gvk, ok := target.KindForGroupVersionKinds([]schema.GroupVersionKind{kind})
if !ok {
// TODO: should this be a typed error?
return nil, fmt.Errorf("%v is unstructured and is not suitable for converting to %q", kind, target)
}
in.GetObjectKind().SetGroupVersionKind(gvk)
}
return in, nil
}
func (UnstructuredObjectConverter) ConvertFieldLabel(version, kind, label, value string) (string, string, error) {
return "", "", errors.New("unstructured cannot convert field labels")
}

View file

@ -18,20 +18,13 @@ package unstructured
import (
"bytes"
gojson "encoding/json"
"errors"
"fmt"
"io"
"strings"
"github.com/golang/glog"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/conversion/unstructured"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/json"
utilruntime "k8s.io/apimachinery/pkg/util/runtime"
)
@ -54,39 +47,31 @@ type Unstructured struct {
var _ metav1.Object = &Unstructured{}
var _ runtime.Unstructured = &Unstructured{}
var _ runtime.Unstructured = &UnstructuredList{}
func (obj *Unstructured) GetObjectKind() schema.ObjectKind { return obj }
func (obj *UnstructuredList) GetObjectKind() schema.ObjectKind { return obj }
func (obj *Unstructured) IsUnstructuredObject() {}
func (obj *UnstructuredList) IsUnstructuredObject() {}
func (obj *Unstructured) GetObjectKind() schema.ObjectKind { return obj }
func (obj *Unstructured) IsList() bool {
if obj.Object != nil {
_, ok := obj.Object["items"]
return ok
}
return false
}
func (obj *UnstructuredList) IsList() bool { return true }
func (obj *Unstructured) EachListItem(fn func(runtime.Object) error) error {
if obj.Object == nil {
return fmt.Errorf("content is not a list")
}
field, ok := obj.Object["items"]
if !ok {
return fmt.Errorf("content is not a list")
return false
}
_, ok = field.([]interface{})
return ok
}
func (obj *Unstructured) EachListItem(fn func(runtime.Object) error) error {
field, ok := obj.Object["items"]
if !ok {
return errors.New("content is not a list")
}
items, ok := field.([]interface{})
if !ok {
return nil
return fmt.Errorf("content is not a list: %T", field)
}
for _, item := range items {
child, ok := item.(map[string]interface{})
if !ok {
return fmt.Errorf("items member is not an object")
return fmt.Errorf("items member is not an object: %T", child)
}
if err := fn(&Unstructured{Object: child}); err != nil {
return err
@ -95,15 +80,6 @@ func (obj *Unstructured) EachListItem(fn func(runtime.Object) error) error {
return nil
}
func (obj *UnstructuredList) EachListItem(fn func(runtime.Object) error) error {
for i := range obj.Items {
if err := fn(&obj.Items[i]); err != nil {
return err
}
}
return nil
}
func (obj *Unstructured) UnstructuredContent() map[string]interface{} {
if obj.Object == nil {
obj.Object = make(map[string]interface{})
@ -111,23 +87,8 @@ func (obj *Unstructured) UnstructuredContent() map[string]interface{} {
return obj.Object
}
// UnstructuredContent returns a map contain an overlay of the Items field onto
// the Object field. Items always overwrites overlay. Changing "items" in the
// returned object will affect items in the underlying Items field, but changing
// the "items" slice itself will have no effect.
// TODO: expose SetUnstructuredContent on runtime.Unstructured that allows
// items to be changed.
func (obj *UnstructuredList) UnstructuredContent() map[string]interface{} {
out := obj.Object
if out == nil {
out = make(map[string]interface{})
}
items := make([]interface{}, len(obj.Items))
for i, item := range obj.Items {
items[i] = item.Object
}
out["items"] = items
return out
func (obj *Unstructured) SetUnstructuredContent(content map[string]interface{}) {
obj.Object = content
}
// MarshalJSON ensures that the unstructured object produces proper
@ -151,227 +112,61 @@ func (in *Unstructured) DeepCopy() *Unstructured {
}
out := new(Unstructured)
*out = *in
out.Object = unstructured.DeepCopyJSON(in.Object)
out.Object = runtime.DeepCopyJSON(in.Object)
return out
}
func (in *UnstructuredList) DeepCopy() *UnstructuredList {
if in == nil {
return nil
}
out := new(UnstructuredList)
*out = *in
out.Object = unstructured.DeepCopyJSON(in.Object)
out.Items = make([]Unstructured, len(in.Items))
for i := range in.Items {
in.Items[i].DeepCopyInto(&out.Items[i])
}
return out
}
func getNestedField(obj map[string]interface{}, fields ...string) interface{} {
var val interface{} = obj
for _, field := range fields {
if _, ok := val.(map[string]interface{}); !ok {
return nil
}
val = val.(map[string]interface{})[field]
}
return val
}
func getNestedString(obj map[string]interface{}, fields ...string) string {
if str, ok := getNestedField(obj, fields...).(string); ok {
return str
}
return ""
}
func getNestedInt64(obj map[string]interface{}, fields ...string) int64 {
if str, ok := getNestedField(obj, fields...).(int64); ok {
return str
}
return 0
}
func getNestedInt64Pointer(obj map[string]interface{}, fields ...string) *int64 {
nested := getNestedField(obj, fields...)
switch n := nested.(type) {
case int64:
return &n
case *int64:
return n
default:
return nil
}
}
func getNestedSlice(obj map[string]interface{}, fields ...string) []string {
if m, ok := getNestedField(obj, fields...).([]interface{}); ok {
strSlice := make([]string, 0, len(m))
for _, v := range m {
if str, ok := v.(string); ok {
strSlice = append(strSlice, str)
}
}
return strSlice
}
return nil
}
func getNestedMap(obj map[string]interface{}, fields ...string) map[string]string {
if m, ok := getNestedField(obj, fields...).(map[string]interface{}); ok {
strMap := make(map[string]string, len(m))
for k, v := range m {
if str, ok := v.(string); ok {
strMap[k] = str
}
}
return strMap
}
return nil
}
func setNestedField(obj map[string]interface{}, value interface{}, fields ...string) {
m := obj
if len(fields) > 1 {
for _, field := range fields[0 : len(fields)-1] {
if _, ok := m[field].(map[string]interface{}); !ok {
m[field] = make(map[string]interface{})
}
m = m[field].(map[string]interface{})
}
}
m[fields[len(fields)-1]] = value
}
func setNestedSlice(obj map[string]interface{}, value []string, fields ...string) {
m := make([]interface{}, 0, len(value))
for _, v := range value {
m = append(m, v)
}
setNestedField(obj, m, fields...)
}
func setNestedMap(obj map[string]interface{}, value map[string]string, fields ...string) {
m := make(map[string]interface{}, len(value))
for k, v := range value {
m[k] = v
}
setNestedField(obj, m, fields...)
}
func (u *Unstructured) setNestedField(value interface{}, fields ...string) {
if u.Object == nil {
u.Object = make(map[string]interface{})
}
setNestedField(u.Object, value, fields...)
SetNestedField(u.Object, value, fields...)
}
func (u *Unstructured) setNestedSlice(value []string, fields ...string) {
if u.Object == nil {
u.Object = make(map[string]interface{})
}
setNestedSlice(u.Object, value, fields...)
SetNestedStringSlice(u.Object, value, fields...)
}
func (u *Unstructured) setNestedMap(value map[string]string, fields ...string) {
if u.Object == nil {
u.Object = make(map[string]interface{})
}
setNestedMap(u.Object, value, fields...)
}
func extractOwnerReference(src interface{}) metav1.OwnerReference {
v := src.(map[string]interface{})
// though this field is a *bool, but when decoded from JSON, it's
// unmarshalled as bool.
var controllerPtr *bool
controller, ok := (getNestedField(v, "controller")).(bool)
if !ok {
controllerPtr = nil
} else {
controllerCopy := controller
controllerPtr = &controllerCopy
}
var blockOwnerDeletionPtr *bool
blockOwnerDeletion, ok := (getNestedField(v, "blockOwnerDeletion")).(bool)
if !ok {
blockOwnerDeletionPtr = nil
} else {
blockOwnerDeletionCopy := blockOwnerDeletion
blockOwnerDeletionPtr = &blockOwnerDeletionCopy
}
return metav1.OwnerReference{
Kind: getNestedString(v, "kind"),
Name: getNestedString(v, "name"),
APIVersion: getNestedString(v, "apiVersion"),
UID: (types.UID)(getNestedString(v, "uid")),
Controller: controllerPtr,
BlockOwnerDeletion: blockOwnerDeletionPtr,
}
}
func setOwnerReference(src metav1.OwnerReference) map[string]interface{} {
ret := make(map[string]interface{})
setNestedField(ret, src.Kind, "kind")
setNestedField(ret, src.Name, "name")
setNestedField(ret, src.APIVersion, "apiVersion")
setNestedField(ret, string(src.UID), "uid")
// json.Unmarshal() extracts boolean json fields as bool, not as *bool and hence extractOwnerReference()
// expects bool or a missing field, not *bool. So if pointer is nil, fields are omitted from the ret object.
// If pointer is non-nil, they are set to the referenced value.
if src.Controller != nil {
setNestedField(ret, *src.Controller, "controller")
}
if src.BlockOwnerDeletion != nil {
setNestedField(ret, *src.BlockOwnerDeletion, "blockOwnerDeletion")
}
return ret
}
func getOwnerReferences(object map[string]interface{}) ([]map[string]interface{}, error) {
field := getNestedField(object, "metadata", "ownerReferences")
if field == nil {
return nil, fmt.Errorf("cannot find field metadata.ownerReferences in %v", object)
}
ownerReferences, ok := field.([]map[string]interface{})
if ok {
return ownerReferences, nil
}
// TODO: This is hacky...
interfaces, ok := field.([]interface{})
if !ok {
return nil, fmt.Errorf("expect metadata.ownerReferences to be a slice in %#v", object)
}
ownerReferences = make([]map[string]interface{}, 0, len(interfaces))
for i := 0; i < len(interfaces); i++ {
r, ok := interfaces[i].(map[string]interface{})
if !ok {
return nil, fmt.Errorf("expect element metadata.ownerReferences to be a map[string]interface{} in %#v", object)
}
ownerReferences = append(ownerReferences, r)
}
return ownerReferences, nil
SetNestedStringMap(u.Object, value, fields...)
}
func (u *Unstructured) GetOwnerReferences() []metav1.OwnerReference {
original, err := getOwnerReferences(u.Object)
if err != nil {
glog.V(6).Info(err)
field, ok := nestedFieldNoCopy(u.Object, "metadata", "ownerReferences")
if !ok {
return nil
}
original, ok := field.([]interface{})
if !ok {
return nil
}
ret := make([]metav1.OwnerReference, 0, len(original))
for i := 0; i < len(original); i++ {
ret = append(ret, extractOwnerReference(original[i]))
for _, obj := range original {
o, ok := obj.(map[string]interface{})
if !ok {
// expected map[string]interface{}, got something else
return nil
}
ret = append(ret, extractOwnerReference(o))
}
return ret
}
func (u *Unstructured) SetOwnerReferences(references []metav1.OwnerReference) {
var newReferences = make([]map[string]interface{}, 0, len(references))
for i := 0; i < len(references); i++ {
newReferences = append(newReferences, setOwnerReference(references[i]))
newReferences := make([]interface{}, 0, len(references))
for _, reference := range references {
out, err := runtime.DefaultUnstructuredConverter.ToUnstructured(&reference)
if err != nil {
utilruntime.HandleError(fmt.Errorf("unable to convert Owner Reference: %v", err))
continue
}
newReferences = append(newReferences, out)
}
u.setNestedField(newReferences, "metadata", "ownerReferences")
}
@ -433,7 +228,11 @@ func (u *Unstructured) SetResourceVersion(version string) {
}
func (u *Unstructured) GetGeneration() int64 {
return getNestedInt64(u.Object, "metadata", "generation")
val, ok := NestedInt64(u.Object, "metadata", "generation")
if !ok {
return 0
}
return val
}
func (u *Unstructured) SetGeneration(generation int64) {
@ -464,6 +263,10 @@ func (u *Unstructured) GetCreationTimestamp() metav1.Time {
func (u *Unstructured) SetCreationTimestamp(timestamp metav1.Time) {
ts, _ := timestamp.MarshalQueryParameter()
if len(ts) == 0 || timestamp.Time.IsZero() {
RemoveNestedField(u.Object, "metadata", "creationTimestamp")
return
}
u.setNestedField(ts, "metadata", "creationTimestamp")
}
@ -478,7 +281,7 @@ func (u *Unstructured) GetDeletionTimestamp() *metav1.Time {
func (u *Unstructured) SetDeletionTimestamp(timestamp *metav1.Time) {
if timestamp == nil {
u.setNestedField(nil, "metadata", "deletionTimestamp")
RemoveNestedField(u.Object, "metadata", "deletionTimestamp")
return
}
ts, _ := timestamp.MarshalQueryParameter()
@ -486,15 +289,24 @@ func (u *Unstructured) SetDeletionTimestamp(timestamp *metav1.Time) {
}
func (u *Unstructured) GetDeletionGracePeriodSeconds() *int64 {
return getNestedInt64Pointer(u.Object, "metadata", "deletionGracePeriodSeconds")
val, ok := NestedInt64(u.Object, "metadata", "deletionGracePeriodSeconds")
if !ok {
return nil
}
return &val
}
func (u *Unstructured) SetDeletionGracePeriodSeconds(deletionGracePeriodSeconds *int64) {
u.setNestedField(deletionGracePeriodSeconds, "metadata", "deletionGracePeriodSeconds")
if deletionGracePeriodSeconds == nil {
RemoveNestedField(u.Object, "metadata", "deletionGracePeriodSeconds")
return
}
u.setNestedField(*deletionGracePeriodSeconds, "metadata", "deletionGracePeriodSeconds")
}
func (u *Unstructured) GetLabels() map[string]string {
return getNestedMap(u.Object, "metadata", "labels")
m, _ := NestedStringMap(u.Object, "metadata", "labels")
return m
}
func (u *Unstructured) SetLabels(labels map[string]string) {
@ -502,7 +314,8 @@ func (u *Unstructured) SetLabels(labels map[string]string) {
}
func (u *Unstructured) GetAnnotations() map[string]string {
return getNestedMap(u.Object, "metadata", "annotations")
m, _ := NestedStringMap(u.Object, "metadata", "annotations")
return m
}
func (u *Unstructured) SetAnnotations(annotations map[string]string) {
@ -523,41 +336,34 @@ func (u *Unstructured) GroupVersionKind() schema.GroupVersionKind {
return gvk
}
var converter = unstructured.NewConverter(false)
func (u *Unstructured) GetInitializers() *metav1.Initializers {
field := getNestedField(u.Object, "metadata", "initializers")
if field == nil {
return nil
}
obj, ok := field.(map[string]interface{})
m, ok := nestedMapNoCopy(u.Object, "metadata", "initializers")
if !ok {
return nil
}
out := &metav1.Initializers{}
if err := converter.FromUnstructured(obj, out); err != nil {
if err := runtime.DefaultUnstructuredConverter.FromUnstructured(m, out); err != nil {
utilruntime.HandleError(fmt.Errorf("unable to retrieve initializers for object: %v", err))
return nil
}
return out
}
func (u *Unstructured) SetInitializers(initializers *metav1.Initializers) {
if u.Object == nil {
u.Object = make(map[string]interface{})
}
if initializers == nil {
setNestedField(u.Object, nil, "metadata", "initializers")
RemoveNestedField(u.Object, "metadata", "initializers")
return
}
out, err := converter.ToUnstructured(initializers)
out, err := runtime.DefaultUnstructuredConverter.ToUnstructured(initializers)
if err != nil {
utilruntime.HandleError(fmt.Errorf("unable to retrieve initializers for object: %v", err))
}
setNestedField(u.Object, out, "metadata", "initializers")
u.setNestedField(out, "metadata", "initializers")
}
func (u *Unstructured) GetFinalizers() []string {
return getNestedSlice(u.Object, "metadata", "finalizers")
val, _ := NestedStringSlice(u.Object, "metadata", "finalizers")
return val
}
func (u *Unstructured) SetFinalizers(finalizers []string) {
@ -571,272 +377,3 @@ func (u *Unstructured) GetClusterName() string {
func (u *Unstructured) SetClusterName(clusterName string) {
u.setNestedField(clusterName, "metadata", "clusterName")
}
// UnstructuredList allows lists that do not have Golang structs
// registered to be manipulated generically. This can be used to deal
// with the API lists from a plug-in.
// +k8s:deepcopy-gen:interfaces=k8s.io/apimachinery/pkg/runtime.Object
// +k8s:deepcopy-gen=true
type UnstructuredList struct {
Object map[string]interface{}
// Items is a list of unstructured objects.
Items []Unstructured `json:"items"`
}
var _ metav1.ListInterface = &UnstructuredList{}
// MarshalJSON ensures that the unstructured list object produces proper
// JSON when passed to Go's standard JSON library.
func (u *UnstructuredList) MarshalJSON() ([]byte, error) {
var buf bytes.Buffer
err := UnstructuredJSONScheme.Encode(u, &buf)
return buf.Bytes(), err
}
// UnmarshalJSON ensures that the unstructured list object properly
// decodes JSON when passed to Go's standard JSON library.
func (u *UnstructuredList) UnmarshalJSON(b []byte) error {
_, _, err := UnstructuredJSONScheme.Decode(b, nil, u)
return err
}
func (u *UnstructuredList) setNestedField(value interface{}, fields ...string) {
if u.Object == nil {
u.Object = make(map[string]interface{})
}
setNestedField(u.Object, value, fields...)
}
func (u *UnstructuredList) GetAPIVersion() string {
return getNestedString(u.Object, "apiVersion")
}
func (u *UnstructuredList) SetAPIVersion(version string) {
u.setNestedField(version, "apiVersion")
}
func (u *UnstructuredList) GetKind() string {
return getNestedString(u.Object, "kind")
}
func (u *UnstructuredList) SetKind(kind string) {
u.setNestedField(kind, "kind")
}
func (u *UnstructuredList) GetResourceVersion() string {
return getNestedString(u.Object, "metadata", "resourceVersion")
}
func (u *UnstructuredList) SetResourceVersion(version string) {
u.setNestedField(version, "metadata", "resourceVersion")
}
func (u *UnstructuredList) GetSelfLink() string {
return getNestedString(u.Object, "metadata", "selfLink")
}
func (u *UnstructuredList) SetSelfLink(selfLink string) {
u.setNestedField(selfLink, "metadata", "selfLink")
}
func (u *UnstructuredList) GetContinue() string {
return getNestedString(u.Object, "metadata", "continue")
}
func (u *UnstructuredList) SetContinue(c string) {
u.setNestedField(c, "metadata", "continue")
}
func (u *UnstructuredList) SetGroupVersionKind(gvk schema.GroupVersionKind) {
u.SetAPIVersion(gvk.GroupVersion().String())
u.SetKind(gvk.Kind)
}
func (u *UnstructuredList) GroupVersionKind() schema.GroupVersionKind {
gv, err := schema.ParseGroupVersion(u.GetAPIVersion())
if err != nil {
return schema.GroupVersionKind{}
}
gvk := gv.WithKind(u.GetKind())
return gvk
}
// UnstructuredJSONScheme is capable of converting JSON data into the Unstructured
// type, which can be used for generic access to objects without a predefined scheme.
// TODO: move into serializer/json.
var UnstructuredJSONScheme runtime.Codec = unstructuredJSONScheme{}
type unstructuredJSONScheme struct{}
func (s unstructuredJSONScheme) Decode(data []byte, _ *schema.GroupVersionKind, obj runtime.Object) (runtime.Object, *schema.GroupVersionKind, error) {
var err error
if obj != nil {
err = s.decodeInto(data, obj)
} else {
obj, err = s.decode(data)
}
if err != nil {
return nil, nil, err
}
gvk := obj.GetObjectKind().GroupVersionKind()
if len(gvk.Kind) == 0 {
return nil, &gvk, runtime.NewMissingKindErr(string(data))
}
return obj, &gvk, nil
}
func (unstructuredJSONScheme) Encode(obj runtime.Object, w io.Writer) error {
switch t := obj.(type) {
case *Unstructured:
return json.NewEncoder(w).Encode(t.Object)
case *UnstructuredList:
items := make([]map[string]interface{}, 0, len(t.Items))
for _, i := range t.Items {
items = append(items, i.Object)
}
listObj := make(map[string]interface{}, len(t.Object)+1)
for k, v := range t.Object { // Make a shallow copy
listObj[k] = v
}
listObj["items"] = items
return json.NewEncoder(w).Encode(listObj)
case *runtime.Unknown:
// TODO: Unstructured needs to deal with ContentType.
_, err := w.Write(t.Raw)
return err
default:
return json.NewEncoder(w).Encode(t)
}
}
func (s unstructuredJSONScheme) decode(data []byte) (runtime.Object, error) {
type detector struct {
Items gojson.RawMessage
}
var det detector
if err := json.Unmarshal(data, &det); err != nil {
return nil, err
}
if det.Items != nil {
list := &UnstructuredList{}
err := s.decodeToList(data, list)
return list, err
}
// No Items field, so it wasn't a list.
unstruct := &Unstructured{}
err := s.decodeToUnstructured(data, unstruct)
return unstruct, err
}
func (s unstructuredJSONScheme) decodeInto(data []byte, obj runtime.Object) error {
switch x := obj.(type) {
case *Unstructured:
return s.decodeToUnstructured(data, x)
case *UnstructuredList:
return s.decodeToList(data, x)
case *runtime.VersionedObjects:
o, err := s.decode(data)
if err == nil {
x.Objects = []runtime.Object{o}
}
return err
default:
return json.Unmarshal(data, x)
}
}
func (unstructuredJSONScheme) decodeToUnstructured(data []byte, unstruct *Unstructured) error {
m := make(map[string]interface{})
if err := json.Unmarshal(data, &m); err != nil {
return err
}
unstruct.Object = m
return nil
}
func (s unstructuredJSONScheme) decodeToList(data []byte, list *UnstructuredList) error {
type decodeList struct {
Items []gojson.RawMessage
}
var dList decodeList
if err := json.Unmarshal(data, &dList); err != nil {
return err
}
if err := json.Unmarshal(data, &list.Object); err != nil {
return err
}
// For typed lists, e.g., a PodList, API server doesn't set each item's
// APIVersion and Kind. We need to set it.
listAPIVersion := list.GetAPIVersion()
listKind := list.GetKind()
itemKind := strings.TrimSuffix(listKind, "List")
delete(list.Object, "items")
list.Items = nil
for _, i := range dList.Items {
unstruct := &Unstructured{}
if err := s.decodeToUnstructured([]byte(i), unstruct); err != nil {
return err
}
// This is hacky. Set the item's Kind and APIVersion to those inferred
// from the List.
if len(unstruct.GetKind()) == 0 && len(unstruct.GetAPIVersion()) == 0 {
unstruct.SetKind(itemKind)
unstruct.SetAPIVersion(listAPIVersion)
}
list.Items = append(list.Items, *unstruct)
}
return nil
}
// UnstructuredObjectConverter is an ObjectConverter for use with
// Unstructured objects. Since it has no schema or type information,
// it will only succeed for no-op conversions. This is provided as a
// sane implementation for APIs that require an object converter.
type UnstructuredObjectConverter struct{}
func (UnstructuredObjectConverter) Convert(in, out, context interface{}) error {
unstructIn, ok := in.(*Unstructured)
if !ok {
return fmt.Errorf("input type %T in not valid for unstructured conversion", in)
}
unstructOut, ok := out.(*Unstructured)
if !ok {
return fmt.Errorf("output type %T in not valid for unstructured conversion", out)
}
// maybe deep copy the map? It is documented in the
// ObjectConverter interface that this function is not
// guaranteeed to not mutate the input. Or maybe set the input
// object to nil.
unstructOut.Object = unstructIn.Object
return nil
}
func (UnstructuredObjectConverter) ConvertToVersion(in runtime.Object, target runtime.GroupVersioner) (runtime.Object, error) {
if kind := in.GetObjectKind().GroupVersionKind(); !kind.Empty() {
gvk, ok := target.KindForGroupVersionKinds([]schema.GroupVersionKind{kind})
if !ok {
// TODO: should this be a typed error?
return nil, fmt.Errorf("%v is unstructured and is not suitable for converting to %q", kind, target)
}
in.GetObjectKind().SetGroupVersionKind(gvk)
}
return in, nil
}
func (UnstructuredObjectConverter) ConvertFieldLabel(version, kind, label, value string) (string, string, error) {
return "", "", errors.New("unstructured cannot convert field labels")
}

View file

@ -0,0 +1,189 @@
/*
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 unstructured
import (
"bytes"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
)
var _ runtime.Unstructured = &UnstructuredList{}
var _ metav1.ListInterface = &UnstructuredList{}
// UnstructuredList allows lists that do not have Golang structs
// registered to be manipulated generically. This can be used to deal
// with the API lists from a plug-in.
// +k8s:deepcopy-gen:interfaces=k8s.io/apimachinery/pkg/runtime.Object
// +k8s:deepcopy-gen=true
type UnstructuredList struct {
Object map[string]interface{}
// Items is a list of unstructured objects.
Items []Unstructured `json:"items"`
}
func (u *UnstructuredList) GetObjectKind() schema.ObjectKind { return u }
func (u *UnstructuredList) IsList() bool { return true }
func (u *UnstructuredList) EachListItem(fn func(runtime.Object) error) error {
for i := range u.Items {
if err := fn(&u.Items[i]); err != nil {
return err
}
}
return nil
}
// UnstructuredContent returns a map contain an overlay of the Items field onto
// the Object field. Items always overwrites overlay. Changing "items" in the
// returned object will affect items in the underlying Items field, but changing
// the "items" slice itself will have no effect.
// TODO: expose SetUnstructuredContent on runtime.Unstructured that allows
// items to be changed.
func (u *UnstructuredList) UnstructuredContent() map[string]interface{} {
out := u.Object
if out == nil {
out = make(map[string]interface{})
}
items := make([]interface{}, len(u.Items))
for i, item := range u.Items {
items[i] = item.Object
}
out["items"] = items
return out
}
// SetUnstructuredContent obeys the conventions of List and keeps Items and the items
// array in sync. If items is not an array of objects in the incoming map, then any
// mismatched item will be removed.
func (obj *UnstructuredList) SetUnstructuredContent(content map[string]interface{}) {
obj.Object = content
if content == nil {
obj.Items = nil
return
}
items, ok := obj.Object["items"].([]interface{})
if !ok || items == nil {
items = []interface{}{}
}
unstructuredItems := make([]Unstructured, 0, len(items))
newItems := make([]interface{}, 0, len(items))
for _, item := range items {
o, ok := item.(map[string]interface{})
if !ok {
continue
}
unstructuredItems = append(unstructuredItems, Unstructured{Object: o})
newItems = append(newItems, o)
}
obj.Items = unstructuredItems
obj.Object["items"] = newItems
}
func (u *UnstructuredList) DeepCopy() *UnstructuredList {
if u == nil {
return nil
}
out := new(UnstructuredList)
*out = *u
out.Object = runtime.DeepCopyJSON(u.Object)
out.Items = make([]Unstructured, len(u.Items))
for i := range u.Items {
u.Items[i].DeepCopyInto(&out.Items[i])
}
return out
}
// MarshalJSON ensures that the unstructured list object produces proper
// JSON when passed to Go's standard JSON library.
func (u *UnstructuredList) MarshalJSON() ([]byte, error) {
var buf bytes.Buffer
err := UnstructuredJSONScheme.Encode(u, &buf)
return buf.Bytes(), err
}
// UnmarshalJSON ensures that the unstructured list object properly
// decodes JSON when passed to Go's standard JSON library.
func (u *UnstructuredList) UnmarshalJSON(b []byte) error {
_, _, err := UnstructuredJSONScheme.Decode(b, nil, u)
return err
}
func (u *UnstructuredList) GetAPIVersion() string {
return getNestedString(u.Object, "apiVersion")
}
func (u *UnstructuredList) SetAPIVersion(version string) {
u.setNestedField(version, "apiVersion")
}
func (u *UnstructuredList) GetKind() string {
return getNestedString(u.Object, "kind")
}
func (u *UnstructuredList) SetKind(kind string) {
u.setNestedField(kind, "kind")
}
func (u *UnstructuredList) GetResourceVersion() string {
return getNestedString(u.Object, "metadata", "resourceVersion")
}
func (u *UnstructuredList) SetResourceVersion(version string) {
u.setNestedField(version, "metadata", "resourceVersion")
}
func (u *UnstructuredList) GetSelfLink() string {
return getNestedString(u.Object, "metadata", "selfLink")
}
func (u *UnstructuredList) SetSelfLink(selfLink string) {
u.setNestedField(selfLink, "metadata", "selfLink")
}
func (u *UnstructuredList) GetContinue() string {
return getNestedString(u.Object, "metadata", "continue")
}
func (u *UnstructuredList) SetContinue(c string) {
u.setNestedField(c, "metadata", "continue")
}
func (u *UnstructuredList) SetGroupVersionKind(gvk schema.GroupVersionKind) {
u.SetAPIVersion(gvk.GroupVersion().String())
u.SetKind(gvk.Kind)
}
func (u *UnstructuredList) GroupVersionKind() schema.GroupVersionKind {
gv, err := schema.ParseGroupVersion(u.GetAPIVersion())
if err != nil {
return schema.GroupVersionKind{}
}
gvk := gv.WithKind(u.GetKind())
return gvk
}
func (u *UnstructuredList) setNestedField(value interface{}, fields ...string) {
if u.Object == nil {
u.Object = make(map[string]interface{})
}
SetNestedField(u.Object, value, fields...)
}

View file

@ -21,27 +21,9 @@ limitations under the License.
package unstructured
import (
conversion "k8s.io/apimachinery/pkg/conversion"
runtime "k8s.io/apimachinery/pkg/runtime"
reflect "reflect"
)
// GetGeneratedDeepCopyFuncs returns the generated funcs, since we aren't registering them.
//
// Deprecated: deepcopy registration will go away when static deepcopy is fully implemented.
func GetGeneratedDeepCopyFuncs() []conversion.GeneratedDeepCopyFunc {
return []conversion.GeneratedDeepCopyFunc{
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*Unstructured).DeepCopyInto(out.(*Unstructured))
return nil
}, InType: reflect.TypeOf(&Unstructured{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*UnstructuredList).DeepCopyInto(out.(*UnstructuredList))
return nil
}, InType: reflect.TypeOf(&UnstructuredList{})},
}
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *Unstructured) DeepCopyInto(out *Unstructured) {
clone := in.DeepCopy()

View file

@ -21,164 +21,10 @@ limitations under the License.
package v1
import (
conversion "k8s.io/apimachinery/pkg/conversion"
runtime "k8s.io/apimachinery/pkg/runtime"
types "k8s.io/apimachinery/pkg/types"
reflect "reflect"
)
// GetGeneratedDeepCopyFuncs returns the generated funcs, since we aren't registering them.
//
// Deprecated: deepcopy registration will go away when static deepcopy is fully implemented.
func GetGeneratedDeepCopyFuncs() []conversion.GeneratedDeepCopyFunc {
return []conversion.GeneratedDeepCopyFunc{
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*APIGroup).DeepCopyInto(out.(*APIGroup))
return nil
}, InType: reflect.TypeOf(&APIGroup{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*APIGroupList).DeepCopyInto(out.(*APIGroupList))
return nil
}, InType: reflect.TypeOf(&APIGroupList{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*APIResource).DeepCopyInto(out.(*APIResource))
return nil
}, InType: reflect.TypeOf(&APIResource{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*APIResourceList).DeepCopyInto(out.(*APIResourceList))
return nil
}, InType: reflect.TypeOf(&APIResourceList{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*APIVersions).DeepCopyInto(out.(*APIVersions))
return nil
}, InType: reflect.TypeOf(&APIVersions{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*DeleteOptions).DeepCopyInto(out.(*DeleteOptions))
return nil
}, InType: reflect.TypeOf(&DeleteOptions{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*Duration).DeepCopyInto(out.(*Duration))
return nil
}, InType: reflect.TypeOf(&Duration{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*ExportOptions).DeepCopyInto(out.(*ExportOptions))
return nil
}, InType: reflect.TypeOf(&ExportOptions{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*GetOptions).DeepCopyInto(out.(*GetOptions))
return nil
}, InType: reflect.TypeOf(&GetOptions{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*GroupKind).DeepCopyInto(out.(*GroupKind))
return nil
}, InType: reflect.TypeOf(&GroupKind{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*GroupResource).DeepCopyInto(out.(*GroupResource))
return nil
}, InType: reflect.TypeOf(&GroupResource{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*GroupVersion).DeepCopyInto(out.(*GroupVersion))
return nil
}, InType: reflect.TypeOf(&GroupVersion{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*GroupVersionForDiscovery).DeepCopyInto(out.(*GroupVersionForDiscovery))
return nil
}, InType: reflect.TypeOf(&GroupVersionForDiscovery{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*GroupVersionKind).DeepCopyInto(out.(*GroupVersionKind))
return nil
}, InType: reflect.TypeOf(&GroupVersionKind{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*GroupVersionResource).DeepCopyInto(out.(*GroupVersionResource))
return nil
}, InType: reflect.TypeOf(&GroupVersionResource{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*Initializer).DeepCopyInto(out.(*Initializer))
return nil
}, InType: reflect.TypeOf(&Initializer{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*Initializers).DeepCopyInto(out.(*Initializers))
return nil
}, InType: reflect.TypeOf(&Initializers{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*InternalEvent).DeepCopyInto(out.(*InternalEvent))
return nil
}, InType: reflect.TypeOf(&InternalEvent{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*LabelSelector).DeepCopyInto(out.(*LabelSelector))
return nil
}, InType: reflect.TypeOf(&LabelSelector{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*LabelSelectorRequirement).DeepCopyInto(out.(*LabelSelectorRequirement))
return nil
}, InType: reflect.TypeOf(&LabelSelectorRequirement{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*List).DeepCopyInto(out.(*List))
return nil
}, InType: reflect.TypeOf(&List{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*ListMeta).DeepCopyInto(out.(*ListMeta))
return nil
}, InType: reflect.TypeOf(&ListMeta{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*ListOptions).DeepCopyInto(out.(*ListOptions))
return nil
}, InType: reflect.TypeOf(&ListOptions{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*MicroTime).DeepCopyInto(out.(*MicroTime))
return nil
}, InType: reflect.TypeOf(&MicroTime{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*ObjectMeta).DeepCopyInto(out.(*ObjectMeta))
return nil
}, InType: reflect.TypeOf(&ObjectMeta{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*OwnerReference).DeepCopyInto(out.(*OwnerReference))
return nil
}, InType: reflect.TypeOf(&OwnerReference{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*Patch).DeepCopyInto(out.(*Patch))
return nil
}, InType: reflect.TypeOf(&Patch{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*Preconditions).DeepCopyInto(out.(*Preconditions))
return nil
}, InType: reflect.TypeOf(&Preconditions{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*RootPaths).DeepCopyInto(out.(*RootPaths))
return nil
}, InType: reflect.TypeOf(&RootPaths{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*ServerAddressByClientCIDR).DeepCopyInto(out.(*ServerAddressByClientCIDR))
return nil
}, InType: reflect.TypeOf(&ServerAddressByClientCIDR{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*Status).DeepCopyInto(out.(*Status))
return nil
}, InType: reflect.TypeOf(&Status{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*StatusCause).DeepCopyInto(out.(*StatusCause))
return nil
}, InType: reflect.TypeOf(&StatusCause{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*StatusDetails).DeepCopyInto(out.(*StatusDetails))
return nil
}, InType: reflect.TypeOf(&StatusDetails{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*Time).DeepCopyInto(out.(*Time))
return nil
}, InType: reflect.TypeOf(&Time{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*Timestamp).DeepCopyInto(out.(*Timestamp))
return nil
}, InType: reflect.TypeOf(&Timestamp{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*WatchEvent).DeepCopyInto(out.(*WatchEvent))
return nil
}, InType: reflect.TypeOf(&WatchEvent{})},
}
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *APIGroup) DeepCopyInto(out *APIGroup) {
*out = *in

View file

@ -21,47 +21,9 @@ limitations under the License.
package v1alpha1
import (
conversion "k8s.io/apimachinery/pkg/conversion"
runtime "k8s.io/apimachinery/pkg/runtime"
reflect "reflect"
)
// GetGeneratedDeepCopyFuncs returns the generated funcs, since we aren't registering them.
//
// Deprecated: deepcopy registration will go away when static deepcopy is fully implemented.
func GetGeneratedDeepCopyFuncs() []conversion.GeneratedDeepCopyFunc {
return []conversion.GeneratedDeepCopyFunc{
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*PartialObjectMetadata).DeepCopyInto(out.(*PartialObjectMetadata))
return nil
}, InType: reflect.TypeOf(&PartialObjectMetadata{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*PartialObjectMetadataList).DeepCopyInto(out.(*PartialObjectMetadataList))
return nil
}, InType: reflect.TypeOf(&PartialObjectMetadataList{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*Table).DeepCopyInto(out.(*Table))
return nil
}, InType: reflect.TypeOf(&Table{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*TableColumnDefinition).DeepCopyInto(out.(*TableColumnDefinition))
return nil
}, InType: reflect.TypeOf(&TableColumnDefinition{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*TableOptions).DeepCopyInto(out.(*TableOptions))
return nil
}, InType: reflect.TypeOf(&TableOptions{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*TableRow).DeepCopyInto(out.(*TableRow))
return nil
}, InType: reflect.TypeOf(&TableRow{})},
{Fn: func(in interface{}, out interface{}, c *conversion.Cloner) error {
in.(*TableRowCondition).DeepCopyInto(out.(*TableRowCondition))
return nil
}, InType: reflect.TypeOf(&TableRowCondition{})},
}
}
// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.
func (in *PartialObjectMetadata) DeepCopyInto(out *PartialObjectMetadata) {
*out = *in