DevFW-CICD/ingress-nginx-helm
6
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions

Update go dependencies

Browse source
This commit is contained in:
Manuel de Brito Fontes 2017-04-01 11:42:02 -03:00
parent e0561ddeb9
commit 88a2751234
1970 changed files with 413928 additions and 222867 deletions
Download patch file Download diff file Expand all files Collapse all files

40
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/BUILD generated vendored
View file

@ -1,40 +0,0 @@
package(default_visibility = ["//visibility:public"])
licenses(["notice"])
load(
"@io_bazel_rules_go//go:def.bzl",
"go_binary",
"go_library",
"go_test",
"cgo_library",
)
go_library(
name = "go_default_library",
srcs = [
"doc.go",
"helpers.go",
"register.go",
"types.generated.go",
"types.go",
"zz_generated.deepcopy.go",
],
tags = ["automanaged"],
deps = [
"//pkg/api/unversioned:go_default_library",
"//pkg/conversion:go_default_library",
"//pkg/runtime:go_default_library",
"//pkg/util/config:go_default_library",
"//pkg/util/net:go_default_library",
"//vendor:github.com/ugorji/go/codec",
],
)
go_test(
name = "go_default_test",
srcs = ["helpers_test.go"],
library = "go_default_library",
tags = ["automanaged"],
deps = ["//vendor:github.com/spf13/pflag"],
)

20
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/doc.go generated vendored
View file

@ -1,20 +0,0 @@
/*
Copyright 2016 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.
*/
// +k8s:deepcopy-gen=package,register
// +k8s:openapi-gen=true
package componentconfig

97
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/helpers.go generated vendored
View file

@ -1,97 +0,0 @@
/*
Copyright 2016 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 componentconfig
import (
"fmt"
"net"
utilnet "k8s.io/kubernetes/pkg/util/net"
)
// used for validating command line opts
// TODO(mikedanese): remove these when we remove command line flags
type IPVar struct {
Val *string
}
func (v IPVar) Set(s string) error {
if net.ParseIP(s) == nil {
return fmt.Errorf("%q is not a valid IP address", s)
}
if v.Val == nil {
// it's okay to panic here since this is programmer error
panic("the string pointer passed into IPVar should not be nil")
}
*v.Val = s
return nil
}
func (v IPVar) String() string {
if v.Val == nil {
return ""
}
return *v.Val
}
func (v IPVar) Type() string {
return "ip"
}
func (m *ProxyMode) Set(s string) error {
*m = ProxyMode(s)
return nil
}
func (m *ProxyMode) String() string {
if m != nil {
return string(*m)
}
return ""
}
func (m *ProxyMode) Type() string {
return "ProxyMode"
}
type PortRangeVar struct {
Val *string
}
func (v PortRangeVar) Set(s string) error {
if _, err := utilnet.ParsePortRange(s); err != nil {
return fmt.Errorf("%q is not a valid port range: %v", s, err)
}
if v.Val == nil {
// it's okay to panic here since this is programmer error
panic("the string pointer passed into PortRangeVar should not be nil")
}
*v.Val = s
return nil
}
func (v PortRangeVar) String() string {
if v.Val == nil {
return ""
}
return *v.Val
}
func (v PortRangeVar) Type() string {
return "port-range"
}

22
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/install/BUILD generated vendored
View file

@ -1,22 +0,0 @@
package(default_visibility = ["//visibility:public"])
licenses(["notice"])
load(
"@io_bazel_rules_go//go:def.bzl",
"go_binary",
"go_library",
"go_test",
"cgo_library",
)
go_library(
name = "go_default_library",
srcs = ["install.go"],
tags = ["automanaged"],
deps = [
"//pkg/apimachinery/announced:go_default_library",
"//pkg/apis/componentconfig:go_default_library",
"//pkg/apis/componentconfig/v1alpha1:go_default_library",
],
)

41
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/install/install.go generated vendored
View file

@ -1,41 +0,0 @@
/*
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 install installs the experimental API group, making it available as
// an option to all of the API encoding/decoding machinery.
package install
import (
"k8s.io/kubernetes/pkg/apimachinery/announced"
"k8s.io/kubernetes/pkg/apis/componentconfig"
"k8s.io/kubernetes/pkg/apis/componentconfig/v1alpha1"
)
func init() {
if err := announced.NewGroupMetaFactory(
&announced.GroupMetaFactoryArgs{
GroupName: componentconfig.GroupName,
VersionPreferenceOrder: []string{v1alpha1.SchemeGroupVersion.Version},
ImportPrefix: "k8s.io/kubernetes/pkg/apis/componentconfig",
AddInternalObjectsToScheme: componentconfig.AddToScheme,
},
announced.VersionToSchemeFunc{
v1alpha1.SchemeGroupVersion.Version: v1alpha1.AddToScheme,
},
).Announce().RegisterAndEnable(); err != nil {
panic(err)
}
}

57
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/register.go generated vendored
View file

@ -1,57 +0,0 @@
/*
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 componentconfig
import (
"k8s.io/kubernetes/pkg/api/unversioned"
"k8s.io/kubernetes/pkg/runtime"
)
var (
SchemeBuilder = runtime.NewSchemeBuilder(addKnownTypes)
AddToScheme = SchemeBuilder.AddToScheme
)
// GroupName is the group name use in this package
const GroupName = "componentconfig"
// SchemeGroupVersion is group version used to register these objects
var SchemeGroupVersion = unversioned.GroupVersion{Group: GroupName, Version: runtime.APIVersionInternal}
// Kind takes an unqualified kind and returns a Group qualified GroupKind
func Kind(kind string) unversioned.GroupKind {
return SchemeGroupVersion.WithKind(kind).GroupKind()
}
// Resource takes an unqualified resource and returns a Group qualified GroupResource
func Resource(resource string) unversioned.GroupResource {
return SchemeGroupVersion.WithResource(resource).GroupResource()
}
func addKnownTypes(scheme *runtime.Scheme) error {
// TODO this will get cleaned up with the scheme types are fixed
scheme.AddKnownTypes(SchemeGroupVersion,
&KubeProxyConfiguration{},
&KubeSchedulerConfiguration{},
&KubeletConfiguration{},
)
return nil
}
func (obj *KubeProxyConfiguration) GetObjectKind() unversioned.ObjectKind { return &obj.TypeMeta }
func (obj *KubeSchedulerConfiguration) GetObjectKind() unversioned.ObjectKind { return &obj.TypeMeta }
func (obj *KubeletConfiguration) GetObjectKind() unversioned.ObjectKind { return &obj.TypeMeta }

12866
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/types.generated.go generated vendored
View file

File diff suppressed because it is too large Load diff

814
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/types.go generated vendored
View file

@ -1,814 +0,0 @@
/*
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 componentconfig
import (
"k8s.io/kubernetes/pkg/api/unversioned"
utilconfig "k8s.io/kubernetes/pkg/util/config"
)
type KubeProxyConfiguration struct {
unversioned.TypeMeta
// bindAddress is the IP address for the proxy server to serve on (set to 0.0.0.0
// for all interfaces)
BindAddress string `json:"bindAddress"`
// clusterCIDR is the CIDR range of the pods in the cluster. It is used to
// bridge traffic coming from outside of the cluster. If not provided,
// no off-cluster bridging will be performed.
ClusterCIDR string `json:"clusterCIDR"`
// healthzBindAddress is the IP address for the health check server to serve on,
// defaulting to 127.0.0.1 (set to 0.0.0.0 for all interfaces)
HealthzBindAddress string `json:"healthzBindAddress"`
// healthzPort is the port to bind the health check server. Use 0 to disable.
HealthzPort int32 `json:"healthzPort"`
// hostnameOverride, if non-empty, will be used as the identity instead of the actual hostname.
HostnameOverride string `json:"hostnameOverride"`
// iptablesMasqueradeBit is the bit of the iptables fwmark space to use for SNAT if using
// the pure iptables proxy mode. Values must be within the range [0, 31].
IPTablesMasqueradeBit *int32 `json:"iptablesMasqueradeBit"`
// iptablesSyncPeriod is the period that iptables rules are refreshed (e.g. '5s', '1m',
// '2h22m'). Must be greater than 0.
IPTablesSyncPeriod unversioned.Duration `json:"iptablesSyncPeriodSeconds"`
// iptablesMinSyncPeriod is the minimum period that iptables rules are refreshed (e.g. '5s', '1m',
// '2h22m').
IPTablesMinSyncPeriod unversioned.Duration `json:"iptablesMinSyncPeriodSeconds"`
// kubeconfigPath is the path to the kubeconfig file with authorization information (the
// master location is set by the master flag).
KubeconfigPath string `json:"kubeconfigPath"`
// masqueradeAll tells kube-proxy to SNAT everything if using the pure iptables proxy mode.
MasqueradeAll bool `json:"masqueradeAll"`
// master is the address of the Kubernetes API server (overrides any value in kubeconfig)
Master string `json:"master"`
// oomScoreAdj is the oom-score-adj value for kube-proxy process. Values must be within
// the range [-1000, 1000]
OOMScoreAdj *int32 `json:"oomScoreAdj"`
// mode specifies which proxy mode to use.
Mode ProxyMode `json:"mode"`
// portRange is the range of host ports (beginPort-endPort, inclusive) that may be consumed
// in order to proxy service traffic. If unspecified (0-0) then ports will be randomly chosen.
PortRange string `json:"portRange"`
// resourceContainer is the absolute name of the resource-only container to create and run
// the Kube-proxy in (Default: /kube-proxy).
ResourceContainer string `json:"resourceContainer"`
// udpIdleTimeout is how long an idle UDP connection will be kept open (e.g. '250ms', '2s').
// Must be greater than 0. Only applicable for proxyMode=userspace.
UDPIdleTimeout unversioned.Duration `json:"udpTimeoutMilliseconds"`
// conntrackMax is the maximum number of NAT connections to track (0 to
// leave as-is). This takes precedence over conntrackMaxPerCore and conntrackMin.
ConntrackMax int32 `json:"conntrackMax"`
// conntrackMaxPerCore is the maximum number of NAT connections to track
// per CPU core (0 to leave the limit as-is and ignore conntrackMin).
ConntrackMaxPerCore int32 `json:"conntrackMaxPerCore"`
// conntrackMin is the minimum value of connect-tracking records to allocate,
// regardless of conntrackMaxPerCore (set conntrackMaxPerCore=0 to leave the limit as-is).
ConntrackMin int32 `json:"conntrackMin"`
// conntrackTCPEstablishedTimeout is how long an idle TCP connection will be kept open
// (e.g. '2s'). Must be greater than 0.
ConntrackTCPEstablishedTimeout unversioned.Duration `json:"conntrackTCPEstablishedTimeout"`
// conntrackTCPCloseWaitTimeout is how long an idle conntrack entry
// in CLOSE_WAIT state will remain in the conntrack
// table. (e.g. '60s'). Must be greater than 0 to set.
ConntrackTCPCloseWaitTimeout unversioned.Duration `json:"conntrackTCPCloseWaitTimeout"`
}
// Currently two modes of proxying are available: 'userspace' (older, stable) or 'iptables'
// (newer, faster). If blank, look at the Node object on the Kubernetes API and respect the
// 'net.experimental.kubernetes.io/proxy-mode' annotation if provided. Otherwise use the
// best-available proxy (currently iptables, but may change in future versions). If the
// iptables proxy is selected, regardless of how, but the system's kernel or iptables
// versions are insufficient, this always falls back to the userspace proxy.
type ProxyMode string
const (
ProxyModeUserspace ProxyMode = "userspace"
ProxyModeIPTables ProxyMode = "iptables"
)
// HairpinMode denotes how the kubelet should configure networking to handle
// hairpin packets.
type HairpinMode string
// Enum settings for different ways to handle hairpin packets.
const (
// Set the hairpin flag on the veth of containers in the respective
// container runtime.
HairpinVeth = "hairpin-veth"
// Make the container bridge promiscuous. This will force it to accept
// hairpin packets, even if the flag isn't set on ports of the bridge.
PromiscuousBridge = "promiscuous-bridge"
// Neither of the above. If the kubelet is started in this hairpin mode
// and kube-proxy is running in iptables mode, hairpin packets will be
// dropped by the container bridge.
HairpinNone = "none"
)
// TODO: curate the ordering and structure of this config object
type KubeletConfiguration struct {
unversioned.TypeMeta
// podManifestPath is the path to the directory containing pod manifests to
// run, or the path to a single manifest file
PodManifestPath string `json:"podManifestPath"`
// syncFrequency is the max period between synchronizing running
// containers and config
SyncFrequency unversioned.Duration `json:"syncFrequency"`
// fileCheckFrequency is the duration between checking config files for
// new data
FileCheckFrequency unversioned.Duration `json:"fileCheckFrequency"`
// httpCheckFrequency is the duration between checking http for new data
HTTPCheckFrequency unversioned.Duration `json:"httpCheckFrequency"`
// manifestURL is the URL for accessing the container manifest
ManifestURL string `json:"manifestURL"`
// manifestURLHeader is the HTTP header to use when accessing the manifest
// URL, with the key separated from the value with a ':', as in 'key:value'
ManifestURLHeader string `json:"manifestURLHeader"`
// enableServer enables the Kubelet's server
EnableServer bool `json:"enableServer"`
// address is the IP address for the Kubelet to serve on (set to 0.0.0.0
// for all interfaces)
Address string `json:"address"`
// port is the port for the Kubelet to serve on.
Port int32 `json:"port"`
// readOnlyPort is the read-only port for the Kubelet to serve on with
// no authentication/authorization (set to 0 to disable)
ReadOnlyPort int32 `json:"readOnlyPort"`
// tlsCertFile is the file containing x509 Certificate for HTTPS. (CA cert,
// if any, concatenated after server cert). If tlsCertFile and
// tlsPrivateKeyFile are not provided, a self-signed certificate
// and key are generated for the public address and saved to the directory
// passed to certDir.
TLSCertFile string `json:"tlsCertFile"`
// tlsPrivateKeyFile is the ile containing x509 private key matching
// tlsCertFile.
TLSPrivateKeyFile string `json:"tlsPrivateKeyFile"`
// certDirectory is the directory where the TLS certs are located (by
// default /var/run/kubernetes). If tlsCertFile and tlsPrivateKeyFile
// are provided, this flag will be ignored.
CertDirectory string `json:"certDirectory"`
// authentication specifies how requests to the Kubelet's server are authenticated
Authentication KubeletAuthentication `json:"authentication"`
// authorization specifies how requests to the Kubelet's server are authorized
Authorization KubeletAuthorization `json:"authorization"`
// hostnameOverride is the hostname used to identify the kubelet instead
// of the actual hostname.
HostnameOverride string `json:"hostnameOverride"`
// podInfraContainerImage is the image whose network/ipc namespaces
// containers in each pod will use.
PodInfraContainerImage string `json:"podInfraContainerImage"`
// dockerEndpoint is the path to the docker endpoint to communicate with.
DockerEndpoint string `json:"dockerEndpoint"`
// rootDirectory is the directory path to place kubelet files (volume
// mounts,etc).
RootDirectory string `json:"rootDirectory"`
// seccompProfileRoot is the directory path for seccomp profiles.
SeccompProfileRoot string `json:"seccompProfileRoot"`
// allowPrivileged enables containers to request privileged mode.
// Defaults to false.
AllowPrivileged bool `json:"allowPrivileged"`
// hostNetworkSources is a comma-separated list of sources from which the
// Kubelet allows pods to use of host network. Defaults to "*". Valid
// options are "file", "http", "api", and "*" (all sources).
HostNetworkSources []string `json:"hostNetworkSources"`
// hostPIDSources is a comma-separated list of sources from which the
// Kubelet allows pods to use the host pid namespace. Defaults to "*".
HostPIDSources []string `json:"hostPIDSources"`
// hostIPCSources is a comma-separated list of sources from which the
// Kubelet allows pods to use the host ipc namespace. Defaults to "*".
HostIPCSources []string `json:"hostIPCSources"`
// registryPullQPS is the limit of registry pulls per second. If 0,
// unlimited. Set to 0 for no limit. Defaults to 5.0.
RegistryPullQPS int32 `json:"registryPullQPS"`
// registryBurst is the maximum size of a bursty pulls, temporarily allows
// pulls to burst to this number, while still not exceeding registryQps.
// Only used if registryQPS > 0.
RegistryBurst int32 `json:"registryBurst"`
// eventRecordQPS is the maximum event creations per second. If 0, there
// is no limit enforced.
EventRecordQPS int32 `json:"eventRecordQPS"`
// eventBurst is the maximum size of a bursty event records, temporarily
// allows event records to burst to this number, while still not exceeding
// event-qps. Only used if eventQps > 0
EventBurst int32 `json:"eventBurst"`
// enableDebuggingHandlers enables server endpoints for log collection
// and local running of containers and commands
EnableDebuggingHandlers bool `json:"enableDebuggingHandlers"`
// minimumGCAge is the minimum age for a finished container before it is
// garbage collected.
MinimumGCAge unversioned.Duration `json:"minimumGCAge"`
// maxPerPodContainerCount is the maximum number of old instances to
// retain per container. Each container takes up some disk space.
MaxPerPodContainerCount int32 `json:"maxPerPodContainerCount"`
// maxContainerCount is the maximum number of old instances of containers
// to retain globally. Each container takes up some disk space.
MaxContainerCount int32 `json:"maxContainerCount"`
// cAdvisorPort is the port of the localhost cAdvisor endpoint
CAdvisorPort int32 `json:"cAdvisorPort"`
// healthzPort is the port of the localhost healthz endpoint
HealthzPort int32 `json:"healthzPort"`
// healthzBindAddress is the IP address for the healthz server to serve
// on.
HealthzBindAddress string `json:"healthzBindAddress"`
// oomScoreAdj is The oom-score-adj value for kubelet process. Values
// must be within the range [-1000, 1000].
OOMScoreAdj int32 `json:"oomScoreAdj"`
// registerNode enables automatic registration with the apiserver.
RegisterNode bool `json:"registerNode"`
// clusterDomain is the DNS domain for this cluster. If set, kubelet will
// configure all containers to search this domain in addition to the
// host's search domains.
ClusterDomain string `json:"clusterDomain"`
// masterServiceNamespace is The namespace from which the kubernetes
// master services should be injected into pods.
MasterServiceNamespace string `json:"masterServiceNamespace"`
// clusterDNS is the IP address for a cluster DNS server. If set, kubelet
// will configure all containers to use this for DNS resolution in
// addition to the host's DNS servers
ClusterDNS string `json:"clusterDNS"`
// streamingConnectionIdleTimeout is the maximum time a streaming connection
// can be idle before the connection is automatically closed.
StreamingConnectionIdleTimeout unversioned.Duration `json:"streamingConnectionIdleTimeout"`
// nodeStatusUpdateFrequency is the frequency that kubelet posts node
// status to master. Note: be cautious when changing the constant, it
// must work with nodeMonitorGracePeriod in nodecontroller.
NodeStatusUpdateFrequency unversioned.Duration `json:"nodeStatusUpdateFrequency"`
// imageMinimumGCAge is the minimum age for an unused image before it is
// garbage collected.
ImageMinimumGCAge unversioned.Duration `json:"imageMinimumGCAge"`
// imageGCHighThresholdPercent is the percent of disk usage after which
// image garbage collection is always run.
ImageGCHighThresholdPercent int32 `json:"imageGCHighThresholdPercent"`
// imageGCLowThresholdPercent is the percent of disk usage before which
// image garbage collection is never run. Lowest disk usage to garbage
// collect to.
ImageGCLowThresholdPercent int32 `json:"imageGCLowThresholdPercent"`
// lowDiskSpaceThresholdMB is the absolute free disk space, in MB, to
// maintain. When disk space falls below this threshold, new pods would
// be rejected.
LowDiskSpaceThresholdMB int32 `json:"lowDiskSpaceThresholdMB"`
// How frequently to calculate and cache volume disk usage for all pods
VolumeStatsAggPeriod unversioned.Duration `json:"volumeStatsAggPeriod"`
// networkPluginName is the name of the network plugin to be invoked for
// various events in kubelet/pod lifecycle
NetworkPluginName string `json:"networkPluginName"`
// networkPluginMTU is the MTU to be passed to the network plugin,
// and overrides the default MTU for cases where it cannot be automatically
// computed (such as IPSEC).
NetworkPluginMTU int32 `json:"networkPluginMTU"`
// networkPluginDir is the full path of the directory in which to search
// for network plugins (and, for backwards-compat, CNI config files)
NetworkPluginDir string `json:"networkPluginDir"`
// CNIConfDir is the full path of the directory in which to search for
// CNI config files
CNIConfDir string `json:"cniConfDir"`
// CNIBinDir is the full path of the directory in which to search for
// CNI plugin binaries
CNIBinDir string `json:"cniBinDir"`
// volumePluginDir is the full path of the directory in which to search
// for additional third party volume plugins
VolumePluginDir string `json:"volumePluginDir"`
// cloudProvider is the provider for cloud services.
// +optional
CloudProvider string `json:"cloudProvider,omitempty"`
// cloudConfigFile is the path to the cloud provider configuration file.
// +optional
CloudConfigFile string `json:"cloudConfigFile,omitempty"`
// KubeletCgroups is the absolute name of cgroups to isolate the kubelet in.
// +optional
KubeletCgroups string `json:"kubeletCgroups,omitempty"`
// Enable QoS based Cgroup hierarchy: top level cgroups for QoS Classes
// And all Burstable and BestEffort pods are brought up under their
// specific top level QoS cgroup.
// +optional
ExperimentalCgroupsPerQOS bool `json:"experimentalCgroupsPerQOS,omitempty"`
// driver that the kubelet uses to manipulate cgroups on the host (cgroupfs or systemd)
// +optional
CgroupDriver string `json:"cgroupDriver,omitempty"`
// Cgroups that container runtime is expected to be isolated in.
// +optional
RuntimeCgroups string `json:"runtimeCgroups,omitempty"`
// SystemCgroups is absolute name of cgroups in which to place
// all non-kernel processes that are not already in a container. Empty
// for no container. Rolling back the flag requires a reboot.
// +optional
SystemCgroups string `json:"systemCgroups,omitempty"`
// CgroupRoot is the root cgroup to use for pods.
// If ExperimentalCgroupsPerQOS is enabled, this is the root of the QoS cgroup hierarchy.
// +optional
CgroupRoot string `json:"cgroupRoot,omitempty"`
// containerRuntime is the container runtime to use.
ContainerRuntime string `json:"containerRuntime"`
// remoteRuntimeEndpoint is the endpoint of remote runtime service
RemoteRuntimeEndpoint string `json:"remoteRuntimeEndpoint"`
// remoteImageEndpoint is the endpoint of remote image service
RemoteImageEndpoint string `json:"remoteImageEndpoint"`
// runtimeRequestTimeout is the timeout for all runtime requests except long running
// requests - pull, logs, exec and attach.
// +optional
RuntimeRequestTimeout unversioned.Duration `json:"runtimeRequestTimeout,omitempty"`
// rktPath is the path of rkt binary. Leave empty to use the first rkt in
// $PATH.
// +optional
RktPath string `json:"rktPath,omitempty"`
// experimentalMounterPath is the path of mounter binary. Leave empty to use the default mount path
ExperimentalMounterPath string `json:"experimentalMounterPath,omitempty"`
// rktApiEndpoint is the endpoint of the rkt API service to communicate with.
// +optional
RktAPIEndpoint string `json:"rktAPIEndpoint,omitempty"`
// rktStage1Image is the image to use as stage1. Local paths and
// http/https URLs are supported.
// +optional
RktStage1Image string `json:"rktStage1Image,omitempty"`
// lockFilePath is the path that kubelet will use to as a lock file.
// It uses this file as a lock to synchronize with other kubelet processes
// that may be running.
LockFilePath string `json:"lockFilePath"`
// ExitOnLockContention is a flag that signifies to the kubelet that it is running
// in "bootstrap" mode. This requires that 'LockFilePath' has been set.
// This will cause the kubelet to listen to inotify events on the lock file,
// releasing it and exiting when another process tries to open that file.
ExitOnLockContention bool `json:"exitOnLockContention"`
// How should the kubelet configure the container bridge for hairpin packets.
// Setting this flag allows endpoints in a Service to loadbalance back to
// themselves if they should try to access their own Service. Values:
// "promiscuous-bridge": make the container bridge promiscuous.
// "hairpin-veth": set the hairpin flag on container veth interfaces.
// "none": do nothing.
// Generally, one must set --hairpin-mode=veth-flag to achieve hairpin NAT,
// because promiscous-bridge assumes the existence of a container bridge named cbr0.
HairpinMode string `json:"hairpinMode"`
// The node has babysitter process monitoring docker and kubelet.
BabysitDaemons bool `json:"babysitDaemons"`
// maxPods is the number of pods that can run on this Kubelet.
MaxPods int32 `json:"maxPods"`
// nvidiaGPUs is the number of NVIDIA GPU devices on this node.
NvidiaGPUs int32 `json:"nvidiaGPUs"`
// dockerExecHandlerName is the handler to use when executing a command
// in a container. Valid values are 'native' and 'nsenter'. Defaults to
// 'native'.
DockerExecHandlerName string `json:"dockerExecHandlerName"`
// The CIDR to use for pod IP addresses, only used in standalone mode.
// In cluster mode, this is obtained from the master.
PodCIDR string `json:"podCIDR"`
// ResolverConfig is the resolver configuration file used as the basis
// for the container DNS resolution configuration."), []
ResolverConfig string `json:"resolvConf"`
// cpuCFSQuota is Enable CPU CFS quota enforcement for containers that
// specify CPU limits
CPUCFSQuota bool `json:"cpuCFSQuota"`
// containerized should be set to true if kubelet is running in a container.
Containerized bool `json:"containerized"`
// maxOpenFiles is Number of files that can be opened by Kubelet process.
MaxOpenFiles int64 `json:"maxOpenFiles"`
// reconcileCIDR is Reconcile node CIDR with the CIDR specified by the
// API server. Won't have any effect if register-node is false.
ReconcileCIDR bool `json:"reconcileCIDR"`
// registerSchedulable tells the kubelet to register the node as
// schedulable. Won't have any effect if register-node is false.
RegisterSchedulable bool `json:"registerSchedulable"`
// contentType is contentType of requests sent to apiserver.
ContentType string `json:"contentType"`
// kubeAPIQPS is the QPS to use while talking with kubernetes apiserver
KubeAPIQPS int32 `json:"kubeAPIQPS"`
// kubeAPIBurst is the burst to allow while talking with kubernetes
// apiserver
KubeAPIBurst int32 `json:"kubeAPIBurst"`
// serializeImagePulls when enabled, tells the Kubelet to pull images one
// at a time. We recommend *not* changing the default value on nodes that
// run docker daemon with version < 1.9 or an Aufs storage backend.
// Issue #10959 has more details.
SerializeImagePulls bool `json:"serializeImagePulls"`
// outOfDiskTransitionFrequency is duration for which the kubelet has to
// wait before transitioning out of out-of-disk node condition status.
// +optional
OutOfDiskTransitionFrequency unversioned.Duration `json:"outOfDiskTransitionFrequency,omitempty"`
// nodeIP is IP address of the node. If set, kubelet will use this IP
// address for the node.
// +optional
NodeIP string `json:"nodeIP,omitempty"`
// nodeLabels to add when registering the node in the cluster.
NodeLabels map[string]string `json:"nodeLabels"`
// nonMasqueradeCIDR configures masquerading: traffic to IPs outside this range will use IP masquerade.
NonMasqueradeCIDR string `json:"nonMasqueradeCIDR"`
// enable gathering custom metrics.
EnableCustomMetrics bool `json:"enableCustomMetrics"`
// Comma-delimited list of hard eviction expressions. For example, 'memory.available<300Mi'.
// +optional
EvictionHard string `json:"evictionHard,omitempty"`
// Comma-delimited list of soft eviction expressions. For example, 'memory.available<300Mi'.
// +optional
EvictionSoft string `json:"evictionSoft,omitempty"`
// Comma-delimeted list of grace periods for each soft eviction signal. For example, 'memory.available=30s'.
// +optional
EvictionSoftGracePeriod string `json:"evictionSoftGracePeriod,omitempty"`
// Duration for which the kubelet has to wait before transitioning out of an eviction pressure condition.
// +optional
EvictionPressureTransitionPeriod unversioned.Duration `json:"evictionPressureTransitionPeriod,omitempty"`
// Maximum allowed grace period (in seconds) to use when terminating pods in response to a soft eviction threshold being met.
// +optional
EvictionMaxPodGracePeriod int32 `json:"evictionMaxPodGracePeriod,omitempty"`
// Comma-delimited list of minimum reclaims (e.g. imagefs.available=2Gi) that describes the minimum amount of resource the kubelet will reclaim when performing a pod eviction if that resource is under pressure.
// +optional
EvictionMinimumReclaim string `json:"evictionMinimumReclaim,omitempty"`
// If enabled, the kubelet will integrate with the kernel memcg notification to determine if memory eviction thresholds are crossed rather than polling.
// +optional
ExperimentalKernelMemcgNotification bool `json:"experimentalKernelMemcgNotification"`
// Maximum number of pods per core. Cannot exceed MaxPods
PodsPerCore int32 `json:"podsPerCore"`
// enableControllerAttachDetach enables the Attach/Detach controller to
// manage attachment/detachment of volumes scheduled to this node, and
// disables kubelet from executing any attach/detach operations
EnableControllerAttachDetach bool `json:"enableControllerAttachDetach"`
// A set of ResourceName=ResourceQuantity (e.g. cpu=200m,memory=150G) pairs
// that describe resources reserved for non-kubernetes components.
// Currently only cpu and memory are supported. [default=none]
// See http://kubernetes.io/docs/user-guide/compute-resources for more detail.
SystemReserved utilconfig.ConfigurationMap `json:"systemReserved"`
// A set of ResourceName=ResourceQuantity (e.g. cpu=200m,memory=150G) pairs
// that describe resources reserved for kubernetes system components.
// Currently only cpu and memory are supported. [default=none]
// See http://kubernetes.io/docs/user-guide/compute-resources for more detail.
KubeReserved utilconfig.ConfigurationMap `json:"kubeReserved"`
// Default behaviour for kernel tuning
ProtectKernelDefaults bool `json:"protectKernelDefaults"`
// If true, Kubelet ensures a set of iptables rules are present on host.
// These rules will serve as utility for various components, e.g. kube-proxy.
// The rules will be created based on IPTablesMasqueradeBit and IPTablesDropBit.
MakeIPTablesUtilChains bool `json:"makeIPTablesUtilChains"`
// iptablesMasqueradeBit is the bit of the iptables fwmark space to use for SNAT
// Values must be within the range [0, 31].
// Warning: Please match the value of corresponding parameter in kube-proxy
// TODO: clean up IPTablesMasqueradeBit in kube-proxy
IPTablesMasqueradeBit int32 `json:"iptablesMasqueradeBit"`
// iptablesDropBit is the bit of the iptables fwmark space to use for dropping packets. Kubelet will ensure iptables mark and drop rules.
// Values must be within the range [0, 31]. Must be different from IPTablesMasqueradeBit
IPTablesDropBit int32 `json:"iptablesDropBit"`
// Whitelist of unsafe sysctls or sysctl patterns (ending in *).
// +optional
AllowedUnsafeSysctls []string `json:"experimentalAllowedUnsafeSysctls,omitempty"`
// featureGates is a string of comma-separated key=value pairs that describe feature
// gates for alpha/experimental features.
FeatureGates string `json:"featureGates"`
// Enable Container Runtime Interface (CRI) integration.
// +optional
EnableCRI bool `json:"enableCRI,omitempty"`
// TODO(#34726:1.8.0): Remove the opt-in for failing when swap is enabled.
// Tells the Kubelet to fail to start if swap is enabled on the node.
ExperimentalFailSwapOn bool `json:"experimentalFailSwapOn,omitempty"`
// This flag, if set, enables a check prior to mount operations to verify that the required components
// (binaries, etc.) to mount the volume are available on the underlying node. If the check is enabled
// and fails the mount operation fails.
ExperimentalCheckNodeCapabilitiesBeforeMount bool `json:"ExperimentalCheckNodeCapabilitiesBeforeMount,omitempty"`
}
type KubeletAuthorizationMode string
const (
// KubeletAuthorizationModeAlwaysAllow authorizes all authenticated requests
KubeletAuthorizationModeAlwaysAllow KubeletAuthorizationMode = "AlwaysAllow"
// KubeletAuthorizationModeWebhook uses the SubjectAccessReview API to determine authorization
KubeletAuthorizationModeWebhook KubeletAuthorizationMode = "Webhook"
)
type KubeletAuthorization struct {
// mode is the authorization mode to apply to requests to the kubelet server.
// Valid values are AlwaysAllow and Webhook.
// Webhook mode uses the SubjectAccessReview API to determine authorization.
Mode KubeletAuthorizationMode `json:"mode"`
// webhook contains settings related to Webhook authorization.
Webhook KubeletWebhookAuthorization `json:"webhook"`
}
type KubeletWebhookAuthorization struct {
// cacheAuthorizedTTL is the duration to cache 'authorized' responses from the webhook authorizer.
CacheAuthorizedTTL unversioned.Duration `json:"cacheAuthorizedTTL"`
// cacheUnauthorizedTTL is the duration to cache 'unauthorized' responses from the webhook authorizer.
CacheUnauthorizedTTL unversioned.Duration `json:"cacheUnauthorizedTTL"`
}
type KubeletAuthentication struct {
// x509 contains settings related to x509 client certificate authentication
X509 KubeletX509Authentication `json:"x509"`
// webhook contains settings related to webhook bearer token authentication
Webhook KubeletWebhookAuthentication `json:"webhook"`
// anonymous contains settings related to anonymous authentication
Anonymous KubeletAnonymousAuthentication `json:"anonymous"`
}
type KubeletX509Authentication struct {
// clientCAFile is the path to a PEM-encoded certificate bundle. If set, any request presenting a client certificate
// signed by one of the authorities in the bundle is authenticated with a username corresponding to the CommonName,
// and groups corresponding to the Organization in the client certificate.
ClientCAFile string `json:"clientCAFile"`
}
type KubeletWebhookAuthentication struct {
// enabled allows bearer token authentication backed by the tokenreviews.authentication.k8s.io API
Enabled bool `json:"enabled"`
// cacheTTL enables caching of authentication results
CacheTTL unversioned.Duration `json:"cacheTTL"`
}
type KubeletAnonymousAuthentication struct {
// enabled allows anonymous requests to the kubelet server.
// Requests that are not rejected by another authentication method are treated as anonymous requests.
// Anonymous requests have a username of system:anonymous, and a group name of system:unauthenticated.
Enabled bool `json:"enabled"`
}
type KubeSchedulerConfiguration struct {
unversioned.TypeMeta
// port is the port that the scheduler's http service runs on.
Port int32 `json:"port"`
// address is the IP address to serve on.
Address string `json:"address"`
// algorithmProvider is the scheduling algorithm provider to use.
AlgorithmProvider string `json:"algorithmProvider"`
// policyConfigFile is the filepath to the scheduler policy configuration.
PolicyConfigFile string `json:"policyConfigFile"`
// enableProfiling enables profiling via web interface.
EnableProfiling bool `json:"enableProfiling"`
// contentType is contentType of requests sent to apiserver.
ContentType string `json:"contentType"`
// kubeAPIQPS is the QPS to use while talking with kubernetes apiserver.
KubeAPIQPS float32 `json:"kubeAPIQPS"`
// kubeAPIBurst is the QPS burst to use while talking with kubernetes apiserver.
KubeAPIBurst int32 `json:"kubeAPIBurst"`
// schedulerName is name of the scheduler, used to select which pods
// will be processed by this scheduler, based on pod's annotation with
// key 'scheduler.alpha.kubernetes.io/name'.
SchedulerName string `json:"schedulerName"`
// RequiredDuringScheduling affinity is not symmetric, but there is an implicit PreferredDuringScheduling affinity rule
// corresponding to every RequiredDuringScheduling affinity rule.
// HardPodAffinitySymmetricWeight represents the weight of implicit PreferredDuringScheduling affinity rule, in the range 0-100.
HardPodAffinitySymmetricWeight int `json:"hardPodAffinitySymmetricWeight"`
// Indicate the "all topologies" set for empty topologyKey when it's used for PreferredDuringScheduling pod anti-affinity.
FailureDomains string `json:"failureDomains"`
// leaderElection defines the configuration of leader election client.
LeaderElection LeaderElectionConfiguration `json:"leaderElection"`
}
// LeaderElectionConfiguration defines the configuration of leader election
// clients for components that can run with leader election enabled.
type LeaderElectionConfiguration struct {
// leaderElect enables a leader election client to gain leadership
// before executing the main loop. Enable this when running replicated
// components for high availability.
LeaderElect bool `json:"leaderElect"`
// leaseDuration is the duration that non-leader candidates will wait
// after observing a leadership renewal until attempting to acquire
// leadership of a led but unrenewed leader slot. This is effectively the
// maximum duration that a leader can be stopped before it is replaced
// by another candidate. This is only applicable if leader election is
// enabled.
LeaseDuration unversioned.Duration `json:"leaseDuration"`
// renewDeadline is the interval between attempts by the acting master to
// renew a leadership slot before it stops leading. This must be less
// than or equal to the lease duration. This is only applicable if leader
// election is enabled.
RenewDeadline unversioned.Duration `json:"renewDeadline"`
// retryPeriod is the duration the clients should wait between attempting
// acquisition and renewal of a leadership. This is only applicable if
// leader election is enabled.
RetryPeriod unversioned.Duration `json:"retryPeriod"`
}
type KubeControllerManagerConfiguration struct {
unversioned.TypeMeta
// port is the port that the controller-manager's http service runs on.
Port int32 `json:"port"`
// address is the IP address to serve on (set to 0.0.0.0 for all interfaces).
Address string `json:"address"`
// useServiceAccountCredentials indicates whether controllers should be run with
// individual service account credentials.
UseServiceAccountCredentials bool `json:"useServiceAccountCredentials"`
// cloudProvider is the provider for cloud services.
CloudProvider string `json:"cloudProvider"`
// cloudConfigFile is the path to the cloud provider configuration file.
CloudConfigFile string `json:"cloudConfigFile"`
// concurrentEndpointSyncs is the number of endpoint syncing operations
// that will be done concurrently. Larger number = faster endpoint updating,
// but more CPU (and network) load.
ConcurrentEndpointSyncs int32 `json:"concurrentEndpointSyncs"`
// concurrentRSSyncs is the number of replica sets that are allowed to sync
// concurrently. Larger number = more responsive replica management, but more
// CPU (and network) load.
ConcurrentRSSyncs int32 `json:"concurrentRSSyncs"`
// concurrentRCSyncs is the number of replication controllers that are
// allowed to sync concurrently. Larger number = more responsive replica
// management, but more CPU (and network) load.
ConcurrentRCSyncs int32 `json:"concurrentRCSyncs"`
// concurrentServiceSyncs is the number of services that are
// allowed to sync concurrently. Larger number = more responsive service
// management, but more CPU (and network) load.
ConcurrentServiceSyncs int32 `json:"concurrentServiceSyncs"`
// concurrentResourceQuotaSyncs is the number of resource quotas that are
// allowed to sync concurrently. Larger number = more responsive quota
// management, but more CPU (and network) load.
ConcurrentResourceQuotaSyncs int32 `json:"concurrentResourceQuotaSyncs"`
// concurrentDeploymentSyncs is the number of deployment objects that are
// allowed to sync concurrently. Larger number = more responsive deployments,
// but more CPU (and network) load.
ConcurrentDeploymentSyncs int32 `json:"concurrentDeploymentSyncs"`
// concurrentDaemonSetSyncs is the number of daemonset objects that are
// allowed to sync concurrently. Larger number = more responsive daemonset,
// but more CPU (and network) load.
ConcurrentDaemonSetSyncs int32 `json:"concurrentDaemonSetSyncs"`
// concurrentJobSyncs is the number of job objects that are
// allowed to sync concurrently. Larger number = more responsive jobs,
// but more CPU (and network) load.
ConcurrentJobSyncs int32 `json:"concurrentJobSyncs"`
// concurrentNamespaceSyncs is the number of namespace objects that are
// allowed to sync concurrently.
ConcurrentNamespaceSyncs int32 `json:"concurrentNamespaceSyncs"`
// concurrentSATokenSyncs is the number of service account token syncing operations
// that will be done concurrently.
ConcurrentSATokenSyncs int32 `json:"concurrentSATokenSyncs"`
// lookupCacheSizeForRC is the size of lookup cache for replication controllers.
// Larger number = more responsive replica management, but more MEM load.
LookupCacheSizeForRC int32 `json:"lookupCacheSizeForRC"`
// lookupCacheSizeForRS is the size of lookup cache for replicatsets.
// Larger number = more responsive replica management, but more MEM load.
LookupCacheSizeForRS int32 `json:"lookupCacheSizeForRS"`
// lookupCacheSizeForDaemonSet is the size of lookup cache for daemonsets.
// Larger number = more responsive daemonset, but more MEM load.
LookupCacheSizeForDaemonSet int32 `json:"lookupCacheSizeForDaemonSet"`
// serviceSyncPeriod is the period for syncing services with their external
// load balancers.
ServiceSyncPeriod unversioned.Duration `json:"serviceSyncPeriod"`
// nodeSyncPeriod is the period for syncing nodes from cloudprovider. Longer
// periods will result in fewer calls to cloud provider, but may delay addition
// of new nodes to cluster.
NodeSyncPeriod unversioned.Duration `json:"nodeSyncPeriod"`
// routeReconciliationPeriod is the period for reconciling routes created for Nodes by cloud provider..
RouteReconciliationPeriod unversioned.Duration `json:"routeReconciliationPeriod"`
// resourceQuotaSyncPeriod is the period for syncing quota usage status
// in the system.
ResourceQuotaSyncPeriod unversioned.Duration `json:"resourceQuotaSyncPeriod"`
// namespaceSyncPeriod is the period for syncing namespace life-cycle
// updates.
NamespaceSyncPeriod unversioned.Duration `json:"namespaceSyncPeriod"`
// pvClaimBinderSyncPeriod is the period for syncing persistent volumes
// and persistent volume claims.
PVClaimBinderSyncPeriod unversioned.Duration `json:"pvClaimBinderSyncPeriod"`
// minResyncPeriod is the resync period in reflectors; will be random between
// minResyncPeriod and 2*minResyncPeriod.
MinResyncPeriod unversioned.Duration `json:"minResyncPeriod"`
// terminatedPodGCThreshold is the number of terminated pods that can exist
// before the terminated pod garbage collector starts deleting terminated pods.
// If <= 0, the terminated pod garbage collector is disabled.
TerminatedPodGCThreshold int32 `json:"terminatedPodGCThreshold"`
// horizontalPodAutoscalerSyncPeriod is the period for syncing the number of
// pods in horizontal pod autoscaler.
HorizontalPodAutoscalerSyncPeriod unversioned.Duration `json:"horizontalPodAutoscalerSyncPeriod"`
// deploymentControllerSyncPeriod is the period for syncing the deployments.
DeploymentControllerSyncPeriod unversioned.Duration `json:"deploymentControllerSyncPeriod"`
// podEvictionTimeout is the grace period for deleting pods on failed nodes.
PodEvictionTimeout unversioned.Duration `json:"podEvictionTimeout"`
// DEPRECATED: deletingPodsQps is the number of nodes per second on which pods are deleted in
// case of node failure.
DeletingPodsQps float32 `json:"deletingPodsQps"`
// DEPRECATED: deletingPodsBurst is the number of nodes on which pods are bursty deleted in
// case of node failure. For more details look into RateLimiter.
DeletingPodsBurst int32 `json:"deletingPodsBurst"`
// nodeMontiorGracePeriod is the amount of time which we allow a running node to be
// unresponsive before marking it unhealthy. Must be N times more than kubelet's
// nodeStatusUpdateFrequency, where N means number of retries allowed for kubelet
// to post node status.
NodeMonitorGracePeriod unversioned.Duration `json:"nodeMonitorGracePeriod"`
// registerRetryCount is the number of retries for initial node registration.
// Retry interval equals node-sync-period.
RegisterRetryCount int32 `json:"registerRetryCount"`
// nodeStartupGracePeriod is the amount of time which we allow starting a node to
// be unresponsive before marking it unhealthy.
NodeStartupGracePeriod unversioned.Duration `json:"nodeStartupGracePeriod"`
// nodeMonitorPeriod is the period for syncing NodeStatus in NodeController.
NodeMonitorPeriod unversioned.Duration `json:"nodeMonitorPeriod"`
// serviceAccountKeyFile is the filename containing a PEM-encoded private RSA key
// used to sign service account tokens.
ServiceAccountKeyFile string `json:"serviceAccountKeyFile"`
// clusterSigningCertFile is the filename containing a PEM-encoded
// X509 CA certificate used to issue cluster-scoped certificates
ClusterSigningCertFile string `json:"clusterSigningCertFile"`
// clusterSigningCertFile is the filename containing a PEM-encoded
// RSA or ECDSA private key used to issue cluster-scoped certificates
ClusterSigningKeyFile string `json:"clusterSigningKeyFile"`
// approveAllKubeletCSRs tells the CSR controller to approve all CSRs originating
// from the kubelet bootstrapping group automatically.
// WARNING: this grants all users with access to the certificates API group
// the ability to create credentials for any user that has access to the boostrapping
// user's credentials.
ApproveAllKubeletCSRsForGroup string `json:"approveAllKubeletCSRsForGroup"`
// enableProfiling enables profiling via web interface host:port/debug/pprof/
EnableProfiling bool `json:"enableProfiling"`
// clusterName is the instance prefix for the cluster.
ClusterName string `json:"clusterName"`
// clusterCIDR is CIDR Range for Pods in cluster.
ClusterCIDR string `json:"clusterCIDR"`
// serviceCIDR is CIDR Range for Services in cluster.
ServiceCIDR string `json:"serviceCIDR"`
// NodeCIDRMaskSize is the mask size for node cidr in cluster.
NodeCIDRMaskSize int32 `json:"nodeCIDRMaskSize"`
// allocateNodeCIDRs enables CIDRs for Pods to be allocated and, if
// ConfigureCloudRoutes is true, to be set on the cloud provider.
AllocateNodeCIDRs bool `json:"allocateNodeCIDRs"`
// configureCloudRoutes enables CIDRs allocated with allocateNodeCIDRs
// to be configured on the cloud provider.
ConfigureCloudRoutes bool `json:"configureCloudRoutes"`
// rootCAFile is the root certificate authority will be included in service
// account's token secret. This must be a valid PEM-encoded CA bundle.
RootCAFile string `json:"rootCAFile"`
// contentType is contentType of requests sent to apiserver.
ContentType string `json:"contentType"`
// kubeAPIQPS is the QPS to use while talking with kubernetes apiserver.
KubeAPIQPS float32 `json:"kubeAPIQPS"`
// kubeAPIBurst is the burst to use while talking with kubernetes apiserver.
KubeAPIBurst int32 `json:"kubeAPIBurst"`
// leaderElection defines the configuration of leader election client.
LeaderElection LeaderElectionConfiguration `json:"leaderElection"`
// volumeConfiguration holds configuration for volume related features.
VolumeConfiguration VolumeConfiguration `json:"volumeConfiguration"`
// How long to wait between starting controller managers
ControllerStartInterval unversioned.Duration `json:"controllerStartInterval"`
// enables the generic garbage collector. MUST be synced with the
// corresponding flag of the kube-apiserver. WARNING: the generic garbage
// collector is an alpha feature.
EnableGarbageCollector bool `json:"enableGarbageCollector"`
// concurrentGCSyncs is the number of garbage collector workers that are
// allowed to sync concurrently.
ConcurrentGCSyncs int32 `json:"concurrentGCSyncs"`
// nodeEvictionRate is the number of nodes per second on which pods are deleted in case of node failure when a zone is healthy
NodeEvictionRate float32 `json:"nodeEvictionRate"`
// secondaryNodeEvictionRate is the number of nodes per second on which pods are deleted in case of node failure when a zone is unhealty
SecondaryNodeEvictionRate float32 `json:"secondaryNodeEvictionRate"`
// secondaryNodeEvictionRate is implicitly overridden to 0 for clusters smaller than or equal to largeClusterSizeThreshold
LargeClusterSizeThreshold int32 `json:"largeClusterSizeThreshold"`
// Zone is treated as unhealthy in nodeEvictionRate and secondaryNodeEvictionRate when at least
// unhealthyZoneThreshold (no less than 3) of Nodes in the zone are NotReady
UnhealthyZoneThreshold float32 `json:"unhealthyZoneThreshold"`
}
// VolumeConfiguration contains *all* enumerated flags meant to configure all volume
// plugins. From this config, the controller-manager binary will create many instances of
// volume.VolumeConfig, each containing only the configuration needed for that plugin which
// are then passed to the appropriate plugin. The ControllerManager binary is the only part
// of the code which knows what plugins are supported and which flags correspond to each plugin.
type VolumeConfiguration struct {
// enableHostPathProvisioning enables HostPath PV provisioning when running without a
// cloud provider. This allows testing and development of provisioning features. HostPath
// provisioning is not supported in any way, won't work in a multi-node cluster, and
// should not be used for anything other than testing or development.
EnableHostPathProvisioning bool `json:"enableHostPathProvisioning"`
// enableDynamicProvisioning enables the provisioning of volumes when running within an environment
// that supports dynamic provisioning. Defaults to true.
EnableDynamicProvisioning bool `json:"enableDynamicProvisioning"`
// persistentVolumeRecyclerConfiguration holds configuration for persistent volume plugins.
PersistentVolumeRecyclerConfiguration PersistentVolumeRecyclerConfiguration `json:"persitentVolumeRecyclerConfiguration"`
// volumePluginDir is the full path of the directory in which the flex
// volume plugin should search for additional third party volume plugins
FlexVolumePluginDir string `json:"flexVolumePluginDir"`
}
type PersistentVolumeRecyclerConfiguration struct {
// maximumRetry is number of retries the PV recycler will execute on failure to recycle
// PV.
MaximumRetry int32 `json:"maximumRetry"`
// minimumTimeoutNFS is the minimum ActiveDeadlineSeconds to use for an NFS Recycler
// pod.
MinimumTimeoutNFS int32 `json:"minimumTimeoutNFS"`
// podTemplateFilePathNFS is the file path to a pod definition used as a template for
// NFS persistent volume recycling
PodTemplateFilePathNFS string `json:"podTemplateFilePathNFS"`
// incrementTimeoutNFS is the increment of time added per Gi to ActiveDeadlineSeconds
// for an NFS scrubber pod.
IncrementTimeoutNFS int32 `json:"incrementTimeoutNFS"`
// podTemplateFilePathHostPath is the file path to a pod definition used as a template for
// HostPath persistent volume recycling. This is for development and testing only and
// will not work in a multi-node cluster.
PodTemplateFilePathHostPath string `json:"podTemplateFilePathHostPath"`
// minimumTimeoutHostPath is the minimum ActiveDeadlineSeconds to use for a HostPath
// Recycler pod. This is for development and testing only and will not work in a multi-node
// cluster.
MinimumTimeoutHostPath int32 `json:"minimumTimeoutHostPath"`
// incrementTimeoutHostPath is the increment of time added per Gi to ActiveDeadlineSeconds
// for a HostPath scrubber pod. This is for development and testing only and will not work
// in a multi-node cluster.
IncrementTimeoutHostPath int32 `json:"incrementTimeoutHostPath"`
}

36
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/v1alpha1/BUILD generated vendored
View file

@ -1,36 +0,0 @@
package(default_visibility = ["//visibility:public"])
licenses(["notice"])
load(
"@io_bazel_rules_go//go:def.bzl",
"go_binary",
"go_library",
"go_test",
"cgo_library",
)
go_library(
name = "go_default_library",
srcs = [
"defaults.go",
"doc.go",
"register.go",
"types.go",
"zz_generated.conversion.go",
"zz_generated.deepcopy.go",
"zz_generated.defaults.go",
],
tags = ["automanaged"],
deps = [
"//pkg/api:go_default_library",
"//pkg/api/unversioned:go_default_library",
"//pkg/apis/componentconfig:go_default_library",
"//pkg/conversion:go_default_library",
"//pkg/kubelet/qos:go_default_library",
"//pkg/kubelet/types:go_default_library",
"//pkg/master/ports:go_default_library",
"//pkg/runtime:go_default_library",
"//pkg/util/config:go_default_library",
],
)

422
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/v1alpha1/defaults.go generated vendored
View file

@ -1,422 +0,0 @@
/*
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 v1alpha1
import (
"path/filepath"
"runtime"
"time"
"k8s.io/kubernetes/pkg/api"
"k8s.io/kubernetes/pkg/api/unversioned"
"k8s.io/kubernetes/pkg/kubelet/qos"
kubetypes "k8s.io/kubernetes/pkg/kubelet/types"
"k8s.io/kubernetes/pkg/master/ports"
kruntime "k8s.io/kubernetes/pkg/runtime"
)
const (
defaultRootDir = "/var/lib/kubelet"
// When these values are updated, also update test/e2e/framework/util.go
defaultPodInfraContainerImageName = "gcr.io/google_containers/pause"
defaultPodInfraContainerImageVersion = "3.0"
defaultPodInfraContainerImage = defaultPodInfraContainerImageName +
"-" + runtime.GOARCH + ":" +
defaultPodInfraContainerImageVersion
// From pkg/kubelet/rkt/rkt.go to avoid circular import
defaultRktAPIServiceEndpoint = "localhost:15441"
AutoDetectCloudProvider = "auto-detect"
defaultIPTablesMasqueradeBit = 14
defaultIPTablesDropBit = 15
)
var zeroDuration = unversioned.Duration{}
func addDefaultingFuncs(scheme *kruntime.Scheme) error {
RegisterDefaults(scheme)
return scheme.AddDefaultingFuncs(
SetDefaults_KubeProxyConfiguration,
SetDefaults_KubeSchedulerConfiguration,
SetDefaults_LeaderElectionConfiguration,
SetDefaults_KubeletConfiguration,
)
}
func SetDefaults_KubeProxyConfiguration(obj *KubeProxyConfiguration) {
if obj.BindAddress == "" {
obj.BindAddress = "0.0.0.0"
}
if obj.HealthzPort == 0 {
obj.HealthzPort = 10249
}
if obj.HealthzBindAddress == "" {
obj.HealthzBindAddress = "127.0.0.1"
}
if obj.OOMScoreAdj == nil {
temp := int32(qos.KubeProxyOOMScoreAdj)
obj.OOMScoreAdj = &temp
}
if obj.ResourceContainer == "" {
obj.ResourceContainer = "/kube-proxy"
}
if obj.IPTablesSyncPeriod.Duration == 0 {
obj.IPTablesSyncPeriod = unversioned.Duration{Duration: 30 * time.Second}
}
zero := unversioned.Duration{}
if obj.UDPIdleTimeout == zero {
obj.UDPIdleTimeout = unversioned.Duration{Duration: 250 * time.Millisecond}
}
// If ConntrackMax is set, respect it.
if obj.ConntrackMax == 0 {
// If ConntrackMax is *not* set, use per-core scaling.
if obj.ConntrackMaxPerCore == 0 {
obj.ConntrackMaxPerCore = 32 * 1024
}
if obj.ConntrackMin == 0 {
obj.ConntrackMin = 128 * 1024
}
}
if obj.IPTablesMasqueradeBit == nil {
temp := int32(14)
obj.IPTablesMasqueradeBit = &temp
}
if obj.ConntrackTCPEstablishedTimeout == zero {
obj.ConntrackTCPEstablishedTimeout = unversioned.Duration{Duration: 24 * time.Hour} // 1 day (1/5 default)
}
if obj.ConntrackTCPCloseWaitTimeout == zero {
// See https://github.com/kubernetes/kubernetes/issues/32551.
//
// CLOSE_WAIT conntrack state occurs when the the Linux kernel
// sees a FIN from the remote server. Note: this is a half-close
// condition that persists as long as the local side keeps the
// socket open. The condition is rare as it is typical in most
// protocols for both sides to issue a close; this typically
// occurs when the local socket is lazily garbage collected.
//
// If the CLOSE_WAIT conntrack entry expires, then FINs from the
// local socket will not be properly SNAT'd and will not reach the
// remote server (if the connection was subject to SNAT). If the
// remote timeouts for FIN_WAIT* states exceed the CLOSE_WAIT
// timeout, then there will be an inconsistency in the state of
// the connection and a new connection reusing the SNAT (src,
// port) pair may be rejected by the remote side with RST. This
// can cause new calls to connect(2) to return with ECONNREFUSED.
//
// We set CLOSE_WAIT to one hour by default to better match
// typical server timeouts.
obj.ConntrackTCPCloseWaitTimeout = unversioned.Duration{Duration: 1 * time.Hour}
}
}
func SetDefaults_KubeSchedulerConfiguration(obj *KubeSchedulerConfiguration) {
if obj.Port == 0 {
obj.Port = ports.SchedulerPort
}
if obj.Address == "" {
obj.Address = "0.0.0.0"
}
if obj.AlgorithmProvider == "" {
obj.AlgorithmProvider = "DefaultProvider"
}
if obj.ContentType == "" {
obj.ContentType = "application/vnd.kubernetes.protobuf"
}
if obj.KubeAPIQPS == 0 {
obj.KubeAPIQPS = 50.0
}
if obj.KubeAPIBurst == 0 {
obj.KubeAPIBurst = 100
}
if obj.SchedulerName == "" {
obj.SchedulerName = api.DefaultSchedulerName
}
if obj.HardPodAffinitySymmetricWeight == 0 {
obj.HardPodAffinitySymmetricWeight = api.DefaultHardPodAffinitySymmetricWeight
}
if obj.FailureDomains == "" {
obj.FailureDomains = api.DefaultFailureDomains
}
}
func SetDefaults_LeaderElectionConfiguration(obj *LeaderElectionConfiguration) {
zero := unversioned.Duration{}
if obj.LeaseDuration == zero {
obj.LeaseDuration = unversioned.Duration{Duration: 15 * time.Second}
}
if obj.RenewDeadline == zero {
obj.RenewDeadline = unversioned.Duration{Duration: 10 * time.Second}
}
if obj.RetryPeriod == zero {
obj.RetryPeriod = unversioned.Duration{Duration: 2 * time.Second}
}
}
func SetDefaults_KubeletConfiguration(obj *KubeletConfiguration) {
if obj.Authentication.Anonymous.Enabled == nil {
obj.Authentication.Anonymous.Enabled = boolVar(true)
}
if obj.Authentication.Webhook.Enabled == nil {
obj.Authentication.Webhook.Enabled = boolVar(false)
}
if obj.Authentication.Webhook.CacheTTL == zeroDuration {
obj.Authentication.Webhook.CacheTTL = unversioned.Duration{Duration: 2 * time.Minute}
}
if obj.Authorization.Mode == "" {
obj.Authorization.Mode = KubeletAuthorizationModeAlwaysAllow
}
if obj.Authorization.Webhook.CacheAuthorizedTTL == zeroDuration {
obj.Authorization.Webhook.CacheAuthorizedTTL = unversioned.Duration{Duration: 5 * time.Minute}
}
if obj.Authorization.Webhook.CacheUnauthorizedTTL == zeroDuration {
obj.Authorization.Webhook.CacheUnauthorizedTTL = unversioned.Duration{Duration: 30 * time.Second}
}
if obj.Address == "" {
obj.Address = "0.0.0.0"
}
if obj.CloudProvider == "" {
obj.CloudProvider = AutoDetectCloudProvider
}
if obj.CAdvisorPort == 0 {
obj.CAdvisorPort = 4194
}
if obj.VolumeStatsAggPeriod == zeroDuration {
obj.VolumeStatsAggPeriod = unversioned.Duration{Duration: time.Minute}
}
if obj.CertDirectory == "" {
obj.CertDirectory = "/var/run/kubernetes"
}
if obj.ExperimentalCgroupsPerQOS == nil {
obj.ExperimentalCgroupsPerQOS = boolVar(false)
}
if obj.ContainerRuntime == "" {
obj.ContainerRuntime = "docker"
}
if obj.RuntimeRequestTimeout == zeroDuration {
obj.RuntimeRequestTimeout = unversioned.Duration{Duration: 2 * time.Minute}
}
if obj.CPUCFSQuota == nil {
obj.CPUCFSQuota = boolVar(true)
}
if obj.DockerExecHandlerName == "" {
obj.DockerExecHandlerName = "native"
}
if obj.DockerEndpoint == "" && runtime.GOOS != "windows" {
obj.DockerEndpoint = "unix:///var/run/docker.sock"
}
if obj.EventBurst == 0 {
obj.EventBurst = 10
}
if obj.EventRecordQPS == nil {
temp := int32(5)
obj.EventRecordQPS = &temp
}
if obj.EnableControllerAttachDetach == nil {
obj.EnableControllerAttachDetach = boolVar(true)
}
if obj.EnableDebuggingHandlers == nil {
obj.EnableDebuggingHandlers = boolVar(true)
}
if obj.EnableServer == nil {
obj.EnableServer = boolVar(true)
}
if obj.FileCheckFrequency == zeroDuration {
obj.FileCheckFrequency = unversioned.Duration{Duration: 20 * time.Second}
}
if obj.HealthzBindAddress == "" {
obj.HealthzBindAddress = "127.0.0.1"
}
if obj.HealthzPort == 0 {
obj.HealthzPort = 10248
}
if obj.HostNetworkSources == nil {
obj.HostNetworkSources = []string{kubetypes.AllSource}
}
if obj.HostPIDSources == nil {
obj.HostPIDSources = []string{kubetypes.AllSource}
}
if obj.HostIPCSources == nil {
obj.HostIPCSources = []string{kubetypes.AllSource}
}
if obj.HTTPCheckFrequency == zeroDuration {
obj.HTTPCheckFrequency = unversioned.Duration{Duration: 20 * time.Second}
}
if obj.ImageMinimumGCAge == zeroDuration {
obj.ImageMinimumGCAge = unversioned.Duration{Duration: 2 * time.Minute}
}
if obj.ImageGCHighThresholdPercent == nil {
temp := int32(90)
obj.ImageGCHighThresholdPercent = &temp
}
if obj.ImageGCLowThresholdPercent == nil {
temp := int32(80)
obj.ImageGCLowThresholdPercent = &temp
}
if obj.LowDiskSpaceThresholdMB == 0 {
obj.LowDiskSpaceThresholdMB = 256
}
if obj.MasterServiceNamespace == "" {
obj.MasterServiceNamespace = api.NamespaceDefault
}
if obj.MaxContainerCount == nil {
temp := int32(-1)
obj.MaxContainerCount = &temp
}
if obj.MaxPerPodContainerCount == 0 {
obj.MaxPerPodContainerCount = 1
}
if obj.MaxOpenFiles == 0 {
obj.MaxOpenFiles = 1000000
}
if obj.MaxPods == 0 {
obj.MaxPods = 110
}
if obj.MinimumGCAge == zeroDuration {
obj.MinimumGCAge = unversioned.Duration{Duration: 0}
}
if obj.NonMasqueradeCIDR == "" {
obj.NonMasqueradeCIDR = "10.0.0.0/8"
}
if obj.VolumePluginDir == "" {
obj.VolumePluginDir = "/usr/libexec/kubernetes/kubelet-plugins/volume/exec/"
}
if obj.NodeStatusUpdateFrequency == zeroDuration {
obj.NodeStatusUpdateFrequency = unversioned.Duration{Duration: 10 * time.Second}
}
if obj.OOMScoreAdj == nil {
temp := int32(qos.KubeletOOMScoreAdj)
obj.OOMScoreAdj = &temp
}
if obj.PodInfraContainerImage == "" {
obj.PodInfraContainerImage = defaultPodInfraContainerImage
}
if obj.Port == 0 {
obj.Port = ports.KubeletPort
}
if obj.ReadOnlyPort == 0 {
obj.ReadOnlyPort = ports.KubeletReadOnlyPort
}
if obj.RegisterNode == nil {
obj.RegisterNode = boolVar(true)
}
if obj.RegisterSchedulable == nil {
obj.RegisterSchedulable = boolVar(true)
}
if obj.RegistryBurst == 0 {
obj.RegistryBurst = 10
}
if obj.RegistryPullQPS == nil {
temp := int32(5)
obj.RegistryPullQPS = &temp
}
if obj.ResolverConfig == "" {
obj.ResolverConfig = kubetypes.ResolvConfDefault
}
if obj.RktAPIEndpoint == "" {
obj.RktAPIEndpoint = defaultRktAPIServiceEndpoint
}
if obj.RootDirectory == "" {
obj.RootDirectory = defaultRootDir
}
if obj.SerializeImagePulls == nil {
obj.SerializeImagePulls = boolVar(true)
}
if obj.SeccompProfileRoot == "" {
obj.SeccompProfileRoot = filepath.Join(defaultRootDir, "seccomp")
}
if obj.StreamingConnectionIdleTimeout == zeroDuration {
obj.StreamingConnectionIdleTimeout = unversioned.Duration{Duration: 4 * time.Hour}
}
if obj.SyncFrequency == zeroDuration {
obj.SyncFrequency = unversioned.Duration{Duration: 1 * time.Minute}
}
if obj.ReconcileCIDR == nil {
obj.ReconcileCIDR = boolVar(true)
}
if obj.ContentType == "" {
obj.ContentType = "application/vnd.kubernetes.protobuf"
}
if obj.KubeAPIQPS == nil {
temp := int32(5)
obj.KubeAPIQPS = &temp
}
if obj.KubeAPIBurst == 0 {
obj.KubeAPIBurst = 10
}
if obj.OutOfDiskTransitionFrequency == zeroDuration {
obj.OutOfDiskTransitionFrequency = unversioned.Duration{Duration: 5 * time.Minute}
}
if string(obj.HairpinMode) == "" {
obj.HairpinMode = PromiscuousBridge
}
if obj.EvictionHard == nil {
temp := "memory.available<100Mi"
obj.EvictionHard = &temp
}
if obj.EvictionPressureTransitionPeriod == zeroDuration {
obj.EvictionPressureTransitionPeriod = unversioned.Duration{Duration: 5 * time.Minute}
}
if obj.ExperimentalKernelMemcgNotification == nil {
obj.ExperimentalKernelMemcgNotification = boolVar(false)
}
if obj.SystemReserved == nil {
obj.SystemReserved = make(map[string]string)
}
if obj.KubeReserved == nil {
obj.KubeReserved = make(map[string]string)
}
if obj.MakeIPTablesUtilChains == nil {
obj.MakeIPTablesUtilChains = boolVar(true)
}
if obj.IPTablesMasqueradeBit == nil {
temp := int32(defaultIPTablesMasqueradeBit)
obj.IPTablesMasqueradeBit = &temp
}
if obj.IPTablesDropBit == nil {
temp := int32(defaultIPTablesDropBit)
obj.IPTablesDropBit = &temp
}
if obj.ExperimentalCgroupsPerQOS == nil {
temp := false
obj.ExperimentalCgroupsPerQOS = &temp
}
if obj.CgroupDriver == "" {
obj.CgroupDriver = "cgroupfs"
}
// NOTE: this is for backwards compatibility with earlier releases where cgroup-root was optional.
// if cgroups per qos is not enabled, and cgroup-root is not specified, we need to default to the
// container runtime default and not default to the root cgroup.
if obj.ExperimentalCgroupsPerQOS != nil {
if *obj.ExperimentalCgroupsPerQOS {
if obj.CgroupRoot == "" {
obj.CgroupRoot = "/"
}
}
}
}
func boolVar(b bool) *bool {
return &b
}
var (
defaultCfg = KubeletConfiguration{}
)

22
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/v1alpha1/doc.go generated vendored
View file

@ -1,22 +0,0 @@
/*
Copyright 2016 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.
*/
// +k8s:deepcopy-gen=package,register
// +k8s:conversion-gen=k8s.io/kubernetes/pkg/apis/componentconfig
// +k8s:openapi-gen=true
// +k8s:defaulter-gen=TypeMeta
package v1alpha1

46
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/v1alpha1/register.go generated vendored
View file

@ -1,46 +0,0 @@
/*
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 v1alpha1
import (
"k8s.io/kubernetes/pkg/api/unversioned"
"k8s.io/kubernetes/pkg/runtime"
)
// GroupName is the group name use in this package
const GroupName = "componentconfig"
// SchemeGroupVersion is group version used to register these objects
var SchemeGroupVersion = unversioned.GroupVersion{Group: GroupName, Version: "v1alpha1"}
var (
SchemeBuilder = runtime.NewSchemeBuilder(addKnownTypes, addDefaultingFuncs)
AddToScheme = SchemeBuilder.AddToScheme
)
func addKnownTypes(scheme *runtime.Scheme) error {
scheme.AddKnownTypes(SchemeGroupVersion,
&KubeProxyConfiguration{},
&KubeSchedulerConfiguration{},
&KubeletConfiguration{},
)
return nil
}
func (obj *KubeProxyConfiguration) GetObjectKind() unversioned.ObjectKind { return &obj.TypeMeta }
func (obj *KubeSchedulerConfiguration) GetObjectKind() unversioned.ObjectKind { return &obj.TypeMeta }
func (obj *KubeletConfiguration) GetObjectKind() unversioned.ObjectKind { return &obj.TypeMeta }

570
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/v1alpha1/types.go generated vendored
View file

@ -1,570 +0,0 @@
/*
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 v1alpha1
import "k8s.io/kubernetes/pkg/api/unversioned"
type KubeProxyConfiguration struct {
unversioned.TypeMeta
// bindAddress is the IP address for the proxy server to serve on (set to 0.0.0.0
// for all interfaces)
BindAddress string `json:"bindAddress"`
// clusterCIDR is the CIDR range of the pods in the cluster. It is used to
// bridge traffic coming from outside of the cluster. If not provided,
// no off-cluster bridging will be performed.
ClusterCIDR string `json:"clusterCIDR"`
// healthzBindAddress is the IP address for the health check server to serve on,
// defaulting to 127.0.0.1 (set to 0.0.0.0 for all interfaces)
HealthzBindAddress string `json:"healthzBindAddress"`
// healthzPort is the port to bind the health check server. Use 0 to disable.
HealthzPort int32 `json:"healthzPort"`
// hostnameOverride, if non-empty, will be used as the identity instead of the actual hostname.
HostnameOverride string `json:"hostnameOverride"`
// iptablesMasqueradeBit is the bit of the iptables fwmark space to use for SNAT if using
// the pure iptables proxy mode. Values must be within the range [0, 31].
IPTablesMasqueradeBit *int32 `json:"iptablesMasqueradeBit"`
// iptablesSyncPeriod is the period that iptables rules are refreshed (e.g. '5s', '1m',
// '2h22m'). Must be greater than 0.
IPTablesSyncPeriod unversioned.Duration `json:"iptablesSyncPeriodSeconds"`
// iptablesMinSyncPeriod is the minimum period that iptables rules are refreshed (e.g. '5s', '1m',
// '2h22m').
IPTablesMinSyncPeriod unversioned.Duration `json:"iptablesMinSyncPeriodSeconds"`
// kubeconfigPath is the path to the kubeconfig file with authorization information (the
// master location is set by the master flag).
KubeconfigPath string `json:"kubeconfigPath"`
// masqueradeAll tells kube-proxy to SNAT everything if using the pure iptables proxy mode.
MasqueradeAll bool `json:"masqueradeAll"`
// master is the address of the Kubernetes API server (overrides any value in kubeconfig)
Master string `json:"master"`
// oomScoreAdj is the oom-score-adj value for kube-proxy process. Values must be within
// the range [-1000, 1000]
OOMScoreAdj *int32 `json:"oomScoreAdj"`
// mode specifies which proxy mode to use.
Mode ProxyMode `json:"mode"`
// portRange is the range of host ports (beginPort-endPort, inclusive) that may be consumed
// in order to proxy service traffic. If unspecified (0-0) then ports will be randomly chosen.
PortRange string `json:"portRange"`
// resourceContainer is the bsolute name of the resource-only container to create and run
// the Kube-proxy in (Default: /kube-proxy).
ResourceContainer string `json:"resourceContainer"`
// udpIdleTimeout is how long an idle UDP connection will be kept open (e.g. '250ms', '2s').
// Must be greater than 0. Only applicable for proxyMode=userspace.
UDPIdleTimeout unversioned.Duration `json:"udpTimeoutMilliseconds"`
// conntrackMax is the maximum number of NAT connections to track (0 to
// leave as-is). This takes precedence over conntrackMaxPerCore and conntrackMin.
ConntrackMax int32 `json:"conntrackMax"`
// conntrackMaxPerCore is the maximum number of NAT connections to track
// per CPU core (0 to leave the limit as-is and ignore conntrackMin).
ConntrackMaxPerCore int32 `json:"conntrackMaxPerCore"`
// conntrackMin is the minimum value of connect-tracking records to allocate,
// regardless of conntrackMaxPerCore (set conntrackMaxPerCore=0 to leave the limit as-is).
ConntrackMin int32 `json:"conntrackMin"`
// conntrackTCPEstablishedTimeout is how long an idle TCP connection
// will be kept open (e.g. '2s'). Must be greater than 0.
ConntrackTCPEstablishedTimeout unversioned.Duration `json:"conntrackTCPEstablishedTimeout"`
// conntrackTCPCloseWaitTimeout is how long an idle conntrack entry
// in CLOSE_WAIT state will remain in the conntrack
// table. (e.g. '60s'). Must be greater than 0 to set.
ConntrackTCPCloseWaitTimeout unversioned.Duration `json:"conntrackTCPCloseWaitTimeout"`
}
// Currently two modes of proxying are available: 'userspace' (older, stable) or 'iptables'
// (experimental). If blank, look at the Node object on the Kubernetes API and respect the
// 'net.experimental.kubernetes.io/proxy-mode' annotation if provided. Otherwise use the
// best-available proxy (currently userspace, but may change in future versions). If the
// iptables proxy is selected, regardless of how, but the system's kernel or iptables
// versions are insufficient, this always falls back to the userspace proxy.
type ProxyMode string
const (
ProxyModeUserspace ProxyMode = "userspace"
ProxyModeIPTables ProxyMode = "iptables"
)
type KubeSchedulerConfiguration struct {
unversioned.TypeMeta
// port is the port that the scheduler's http service runs on.
Port int `json:"port"`
// address is the IP address to serve on.
Address string `json:"address"`
// algorithmProvider is the scheduling algorithm provider to use.
AlgorithmProvider string `json:"algorithmProvider"`
// policyConfigFile is the filepath to the scheduler policy configuration.
PolicyConfigFile string `json:"policyConfigFile"`
// enableProfiling enables profiling via web interface.
EnableProfiling *bool `json:"enableProfiling"`
// contentType is contentType of requests sent to apiserver.
ContentType string `json:"contentType"`
// kubeAPIQPS is the QPS to use while talking with kubernetes apiserver.
KubeAPIQPS float32 `json:"kubeAPIQPS"`
// kubeAPIBurst is the QPS burst to use while talking with kubernetes apiserver.
KubeAPIBurst int `json:"kubeAPIBurst"`
// schedulerName is name of the scheduler, used to select which pods
// will be processed by this scheduler, based on pod's annotation with
// key 'scheduler.alpha.kubernetes.io/name'.
SchedulerName string `json:"schedulerName"`
// RequiredDuringScheduling affinity is not symmetric, but there is an implicit PreferredDuringScheduling affinity rule
// corresponding to every RequiredDuringScheduling affinity rule.
// HardPodAffinitySymmetricWeight represents the weight of implicit PreferredDuringScheduling affinity rule, in the range 0-100.
HardPodAffinitySymmetricWeight int `json:"hardPodAffinitySymmetricWeight"`
// Indicate the "all topologies" set for empty topologyKey when it's used for PreferredDuringScheduling pod anti-affinity.
FailureDomains string `json:"failureDomains"`
// leaderElection defines the configuration of leader election client.
LeaderElection LeaderElectionConfiguration `json:"leaderElection"`
}
// HairpinMode denotes how the kubelet should configure networking to handle
// hairpin packets.
type HairpinMode string
// Enum settings for different ways to handle hairpin packets.
const (
// Set the hairpin flag on the veth of containers in the respective
// container runtime.
HairpinVeth = "hairpin-veth"
// Make the container bridge promiscuous. This will force it to accept
// hairpin packets, even if the flag isn't set on ports of the bridge.
PromiscuousBridge = "promiscuous-bridge"
// Neither of the above. If the kubelet is started in this hairpin mode
// and kube-proxy is running in iptables mode, hairpin packets will be
// dropped by the container bridge.
HairpinNone = "none"
)
// LeaderElectionConfiguration defines the configuration of leader election
// clients for components that can run with leader election enabled.
type LeaderElectionConfiguration struct {
// leaderElect enables a leader election client to gain leadership
// before executing the main loop. Enable this when running replicated
// components for high availability.
LeaderElect *bool `json:"leaderElect"`
// leaseDuration is the duration that non-leader candidates will wait
// after observing a leadership renewal until attempting to acquire
// leadership of a led but unrenewed leader slot. This is effectively the
// maximum duration that a leader can be stopped before it is replaced
// by another candidate. This is only applicable if leader election is
// enabled.
LeaseDuration unversioned.Duration `json:"leaseDuration"`
// renewDeadline is the interval between attempts by the acting master to
// renew a leadership slot before it stops leading. This must be less
// than or equal to the lease duration. This is only applicable if leader
// election is enabled.
RenewDeadline unversioned.Duration `json:"renewDeadline"`
// retryPeriod is the duration the clients should wait between attempting
// acquisition and renewal of a leadership. This is only applicable if
// leader election is enabled.
RetryPeriod unversioned.Duration `json:"retryPeriod"`
}
type KubeletConfiguration struct {
unversioned.TypeMeta
// podManifestPath is the path to the directory containing pod manifests to
// run, or the path to a single manifest file
PodManifestPath string `json:"podManifestPath"`
// syncFrequency is the max period between synchronizing running
// containers and config
SyncFrequency unversioned.Duration `json:"syncFrequency"`
// fileCheckFrequency is the duration between checking config files for
// new data
FileCheckFrequency unversioned.Duration `json:"fileCheckFrequency"`
// httpCheckFrequency is the duration between checking http for new data
HTTPCheckFrequency unversioned.Duration `json:"httpCheckFrequency"`
// manifestURL is the URL for accessing the container manifest
ManifestURL string `json:"manifestURL"`
// manifestURLHeader is the HTTP header to use when accessing the manifest
// URL, with the key separated from the value with a ':', as in 'key:value'
ManifestURLHeader string `json:"manifestURLHeader"`
// enableServer enables the Kubelet's server
EnableServer *bool `json:"enableServer"`
// address is the IP address for the Kubelet to serve on (set to 0.0.0.0
// for all interfaces)
Address string `json:"address"`
// port is the port for the Kubelet to serve on.
Port int32 `json:"port"`
// readOnlyPort is the read-only port for the Kubelet to serve on with
// no authentication/authorization (set to 0 to disable)
ReadOnlyPort int32 `json:"readOnlyPort"`
// tlsCertFile is the file containing x509 Certificate for HTTPS. (CA cert,
// if any, concatenated after server cert). If tlsCertFile and
// tlsPrivateKeyFile are not provided, a self-signed certificate
// and key are generated for the public address and saved to the directory
// passed to certDir.
TLSCertFile string `json:"tlsCertFile"`
// tlsPrivateKeyFile is the ile containing x509 private key matching
// tlsCertFile.
TLSPrivateKeyFile string `json:"tlsPrivateKeyFile"`
// certDirectory is the directory where the TLS certs are located (by
// default /var/run/kubernetes). If tlsCertFile and tlsPrivateKeyFile
// are provided, this flag will be ignored.
CertDirectory string `json:"certDirectory"`
// authentication specifies how requests to the Kubelet's server are authenticated
Authentication KubeletAuthentication `json:"authentication"`
// authorization specifies how requests to the Kubelet's server are authorized
Authorization KubeletAuthorization `json:"authorization"`
// hostnameOverride is the hostname used to identify the kubelet instead
// of the actual hostname.
HostnameOverride string `json:"hostnameOverride"`
// podInfraContainerImage is the image whose network/ipc namespaces
// containers in each pod will use.
PodInfraContainerImage string `json:"podInfraContainerImage"`
// dockerEndpoint is the path to the docker endpoint to communicate with.
DockerEndpoint string `json:"dockerEndpoint"`
// rootDirectory is the directory path to place kubelet files (volume
// mounts,etc).
RootDirectory string `json:"rootDirectory"`
// seccompProfileRoot is the directory path for seccomp profiles.
SeccompProfileRoot string `json:"seccompProfileRoot"`
// allowPrivileged enables containers to request privileged mode.
// Defaults to false.
AllowPrivileged *bool `json:"allowPrivileged"`
// hostNetworkSources is a comma-separated list of sources from which the
// Kubelet allows pods to use of host network. Defaults to "*". Valid
// options are "file", "http", "api", and "*" (all sources).
HostNetworkSources []string `json:"hostNetworkSources"`
// hostPIDSources is a comma-separated list of sources from which the
// Kubelet allows pods to use the host pid namespace. Defaults to "*".
HostPIDSources []string `json:"hostPIDSources"`
// hostIPCSources is a comma-separated list of sources from which the
// Kubelet allows pods to use the host ipc namespace. Defaults to "*".
HostIPCSources []string `json:"hostIPCSources"`
// registryPullQPS is the limit of registry pulls per second. If 0,
// unlimited. Set to 0 for no limit. Defaults to 5.0.
RegistryPullQPS *int32 `json:"registryPullQPS"`
// registryBurst is the maximum size of a bursty pulls, temporarily allows
// pulls to burst to this number, while still not exceeding registryQps.
// Only used if registryQPS > 0.
RegistryBurst int32 `json:"registryBurst"`
// eventRecordQPS is the maximum event creations per second. If 0, there
// is no limit enforced.
EventRecordQPS *int32 `json:"eventRecordQPS"`
// eventBurst is the maximum size of a bursty event records, temporarily
// allows event records to burst to this number, while still not exceeding
// event-qps. Only used if eventQps > 0
EventBurst int32 `json:"eventBurst"`
// enableDebuggingHandlers enables server endpoints for log collection
// and local running of containers and commands
EnableDebuggingHandlers *bool `json:"enableDebuggingHandlers"`
// minimumGCAge is the minimum age for a finished container before it is
// garbage collected.
MinimumGCAge unversioned.Duration `json:"minimumGCAge"`
// maxPerPodContainerCount is the maximum number of old instances to
// retain per container. Each container takes up some disk space.
MaxPerPodContainerCount int32 `json:"maxPerPodContainerCount"`
// maxContainerCount is the maximum number of old instances of containers
// to retain globally. Each container takes up some disk space.
MaxContainerCount *int32 `json:"maxContainerCount"`
// cAdvisorPort is the port of the localhost cAdvisor endpoint
CAdvisorPort int32 `json:"cAdvisorPort"`
// healthzPort is the port of the localhost healthz endpoint
HealthzPort int32 `json:"healthzPort"`
// healthzBindAddress is the IP address for the healthz server to serve
// on.
HealthzBindAddress string `json:"healthzBindAddress"`
// oomScoreAdj is The oom-score-adj value for kubelet process. Values
// must be within the range [-1000, 1000].
OOMScoreAdj *int32 `json:"oomScoreAdj"`
// registerNode enables automatic registration with the apiserver.
RegisterNode *bool `json:"registerNode"`
// clusterDomain is the DNS domain for this cluster. If set, kubelet will
// configure all containers to search this domain in addition to the
// host's search domains.
ClusterDomain string `json:"clusterDomain"`
// masterServiceNamespace is The namespace from which the kubernetes
// master services should be injected into pods.
MasterServiceNamespace string `json:"masterServiceNamespace"`
// clusterDNS is the IP address for a cluster DNS server. If set, kubelet
// will configure all containers to use this for DNS resolution in
// addition to the host's DNS servers
ClusterDNS string `json:"clusterDNS"`
// streamingConnectionIdleTimeout is the maximum time a streaming connection
// can be idle before the connection is automatically closed.
StreamingConnectionIdleTimeout unversioned.Duration `json:"streamingConnectionIdleTimeout"`
// nodeStatusUpdateFrequency is the frequency that kubelet posts node
// status to master. Note: be cautious when changing the constant, it
// must work with nodeMonitorGracePeriod in nodecontroller.
NodeStatusUpdateFrequency unversioned.Duration `json:"nodeStatusUpdateFrequency"`
// imageMinimumGCAge is the minimum age for an unused image before it is
// garbage collected.
ImageMinimumGCAge unversioned.Duration `json:"imageMinimumGCAge"`
// imageGCHighThresholdPercent is the percent of disk usage after which
// image garbage collection is always run. The percent is calculated as
// this field value out of 100.
ImageGCHighThresholdPercent *int32 `json:"imageGCHighThresholdPercent"`
// imageGCLowThresholdPercent is the percent of disk usage before which
// image garbage collection is never run. Lowest disk usage to garbage
// collect to. The percent is calculated as this field value out of 100.
ImageGCLowThresholdPercent *int32 `json:"imageGCLowThresholdPercent"`
// lowDiskSpaceThresholdMB is the absolute free disk space, in MB, to
// maintain. When disk space falls below this threshold, new pods would
// be rejected.
LowDiskSpaceThresholdMB int32 `json:"lowDiskSpaceThresholdMB"`
// How frequently to calculate and cache volume disk usage for all pods
VolumeStatsAggPeriod unversioned.Duration `json:"volumeStatsAggPeriod"`
// networkPluginName is the name of the network plugin to be invoked for
// various events in kubelet/pod lifecycle
NetworkPluginName string `json:"networkPluginName"`
// networkPluginDir is the full path of the directory in which to search
// for network plugins (and, for backwards-compat, CNI config files)
NetworkPluginDir string `json:"networkPluginDir"`
// CNIConfDir is the full path of the directory in which to search for
// CNI config files
CNIConfDir string `json:"cniConfDir"`
// CNIBinDir is the full path of the directory in which to search for
// CNI plugin binaries
CNIBinDir string `json:"cniBinDir"`
// networkPluginMTU is the MTU to be passed to the network plugin,
// and overrides the default MTU for cases where it cannot be automatically
// computed (such as IPSEC).
NetworkPluginMTU int32 `json:"networkPluginMTU"`
// volumePluginDir is the full path of the directory in which to search
// for additional third party volume plugins
VolumePluginDir string `json:"volumePluginDir"`
// cloudProvider is the provider for cloud services.
CloudProvider string `json:"cloudProvider"`
// cloudConfigFile is the path to the cloud provider configuration file.
CloudConfigFile string `json:"cloudConfigFile"`
// kubeletCgroups is the absolute name of cgroups to isolate the kubelet in.
KubeletCgroups string `json:"kubeletCgroups"`
// runtimeCgroups are cgroups that container runtime is expected to be isolated in.
RuntimeCgroups string `json:"runtimeCgroups"`
// systemCgroups is absolute name of cgroups in which to place
// all non-kernel processes that are not already in a container. Empty
// for no container. Rolling back the flag requires a reboot.
SystemCgroups string `json:"systemCgroups"`
// cgroupRoot is the root cgroup to use for pods. This is handled by the
// container runtime on a best effort basis.
CgroupRoot string `json:"cgroupRoot"`
// Enable QoS based Cgroup hierarchy: top level cgroups for QoS Classes
// And all Burstable and BestEffort pods are brought up under their
// specific top level QoS cgroup.
// +optional
ExperimentalCgroupsPerQOS *bool `json:"experimentalCgroupsPerQOS,omitempty"`
// driver that the kubelet uses to manipulate cgroups on the host (cgroupfs or systemd)
// +optional
CgroupDriver string `json:"cgroupDriver,omitempty"`
// containerRuntime is the container runtime to use.
ContainerRuntime string `json:"containerRuntime"`
// remoteRuntimeEndpoint is the endpoint of remote runtime service
RemoteRuntimeEndpoint string `json:"remoteRuntimeEndpoint"`
// remoteImageEndpoint is the endpoint of remote image service
RemoteImageEndpoint string `json:"remoteImageEndpoint"`
// runtimeRequestTimeout is the timeout for all runtime requests except long running
// requests - pull, logs, exec and attach.
RuntimeRequestTimeout unversioned.Duration `json:"runtimeRequestTimeout"`
// rktPath is the path of rkt binary. Leave empty to use the first rkt in
// $PATH.
RktPath string `json:"rktPath"`
// experimentalMounterPath is the path to mounter binary. If not set, kubelet will attempt to use mount
// binary that is available via $PATH,
ExperimentalMounterPath string `json:"experimentalMounterPath,omitempty"`
// rktApiEndpoint is the endpoint of the rkt API service to communicate with.
RktAPIEndpoint string `json:"rktAPIEndpoint"`
// rktStage1Image is the image to use as stage1. Local paths and
// http/https URLs are supported.
RktStage1Image string `json:"rktStage1Image"`
// lockFilePath is the path that kubelet will use to as a lock file.
// It uses this file as a lock to synchronize with other kubelet processes
// that may be running.
LockFilePath *string `json:"lockFilePath"`
// ExitOnLockContention is a flag that signifies to the kubelet that it is running
// in "bootstrap" mode. This requires that 'LockFilePath' has been set.
// This will cause the kubelet to listen to inotify events on the lock file,
// releasing it and exiting when another process tries to open that file.
ExitOnLockContention bool `json:"exitOnLockContention"`
// How should the kubelet configure the container bridge for hairpin packets.
// Setting this flag allows endpoints in a Service to loadbalance back to
// themselves if they should try to access their own Service. Values:
// "promiscuous-bridge": make the container bridge promiscuous.
// "hairpin-veth": set the hairpin flag on container veth interfaces.
// "none": do nothing.
// Generally, one must set --hairpin-mode=veth-flag to achieve hairpin NAT,
// because promiscous-bridge assumes the existence of a container bridge named cbr0.
HairpinMode string `json:"hairpinMode"`
// The node has babysitter process monitoring docker and kubelet.
BabysitDaemons bool `json:"babysitDaemons"`
// maxPods is the number of pods that can run on this Kubelet.
MaxPods int32 `json:"maxPods"`
// nvidiaGPUs is the number of NVIDIA GPU devices on this node.
NvidiaGPUs int32 `json:"nvidiaGPUs"`
// dockerExecHandlerName is the handler to use when executing a command
// in a container. Valid values are 'native' and 'nsenter'. Defaults to
// 'native'.
DockerExecHandlerName string `json:"dockerExecHandlerName"`
// The CIDR to use for pod IP addresses, only used in standalone mode.
// In cluster mode, this is obtained from the master.
PodCIDR string `json:"podCIDR"`
// ResolverConfig is the resolver configuration file used as the basis
// for the container DNS resolution configuration."), []
ResolverConfig string `json:"resolvConf"`
// cpuCFSQuota is Enable CPU CFS quota enforcement for containers that
// specify CPU limits
CPUCFSQuota *bool `json:"cpuCFSQuota"`
// containerized should be set to true if kubelet is running in a container.
Containerized *bool `json:"containerized"`
// maxOpenFiles is Number of files that can be opened by Kubelet process.
MaxOpenFiles int64 `json:"maxOpenFiles"`
// reconcileCIDR is Reconcile node CIDR with the CIDR specified by the
// API server. Won't have any effect if register-node is false.
ReconcileCIDR *bool `json:"reconcileCIDR"`
// registerSchedulable tells the kubelet to register the node as
// schedulable. Won't have any effect if register-node is false.
RegisterSchedulable *bool `json:"registerSchedulable"`
// contentType is contentType of requests sent to apiserver.
ContentType string `json:"contentType"`
// kubeAPIQPS is the QPS to use while talking with kubernetes apiserver
KubeAPIQPS *int32 `json:"kubeAPIQPS"`
// kubeAPIBurst is the burst to allow while talking with kubernetes
// apiserver
KubeAPIBurst int32 `json:"kubeAPIBurst"`
// serializeImagePulls when enabled, tells the Kubelet to pull images one
// at a time. We recommend *not* changing the default value on nodes that
// run docker daemon with version < 1.9 or an Aufs storage backend.
// Issue #10959 has more details.
SerializeImagePulls *bool `json:"serializeImagePulls"`
// outOfDiskTransitionFrequency is duration for which the kubelet has to
// wait before transitioning out of out-of-disk node condition status.
OutOfDiskTransitionFrequency unversioned.Duration `json:"outOfDiskTransitionFrequency"`
// nodeIP is IP address of the node. If set, kubelet will use this IP
// address for the node.
NodeIP string `json:"nodeIP"`
// nodeLabels to add when registering the node in the cluster.
NodeLabels map[string]string `json:"nodeLabels"`
// nonMasqueradeCIDR configures masquerading: traffic to IPs outside this range will use IP masquerade.
NonMasqueradeCIDR string `json:"nonMasqueradeCIDR"`
// enable gathering custom metrics.
EnableCustomMetrics bool `json:"enableCustomMetrics"`
// Comma-delimited list of hard eviction expressions. For example, 'memory.available<300Mi'.
EvictionHard *string `json:"evictionHard"`
// Comma-delimited list of soft eviction expressions. For example, 'memory.available<300Mi'.
EvictionSoft string `json:"evictionSoft"`
// Comma-delimeted list of grace periods for each soft eviction signal. For example, 'memory.available=30s'.
EvictionSoftGracePeriod string `json:"evictionSoftGracePeriod"`
// Duration for which the kubelet has to wait before transitioning out of an eviction pressure condition.
EvictionPressureTransitionPeriod unversioned.Duration `json:"evictionPressureTransitionPeriod"`
// Maximum allowed grace period (in seconds) to use when terminating pods in response to a soft eviction threshold being met.
EvictionMaxPodGracePeriod int32 `json:"evictionMaxPodGracePeriod"`
// Comma-delimited list of minimum reclaims (e.g. imagefs.available=2Gi) that describes the minimum amount of resource the kubelet will reclaim when performing a pod eviction if that resource is under pressure.
EvictionMinimumReclaim string `json:"evictionMinimumReclaim"`
// If enabled, the kubelet will integrate with the kernel memcg notification to determine if memory eviction thresholds are crossed rather than polling.
ExperimentalKernelMemcgNotification *bool `json:"experimentalKernelMemcgNotification"`
// Maximum number of pods per core. Cannot exceed MaxPods
PodsPerCore int32 `json:"podsPerCore"`
// enableControllerAttachDetach enables the Attach/Detach controller to
// manage attachment/detachment of volumes scheduled to this node, and
// disables kubelet from executing any attach/detach operations
EnableControllerAttachDetach *bool `json:"enableControllerAttachDetach"`
// A set of ResourceName=ResourceQuantity (e.g. cpu=200m,memory=150G) pairs
// that describe resources reserved for non-kubernetes components.
// Currently only cpu and memory are supported. [default=none]
// See http://kubernetes.io/docs/user-guide/compute-resources for more detail.
SystemReserved map[string]string `json:"systemReserved"`
// A set of ResourceName=ResourceQuantity (e.g. cpu=200m,memory=150G) pairs
// that describe resources reserved for kubernetes system components.
// Currently only cpu and memory are supported. [default=none]
// See http://kubernetes.io/docs/user-guide/compute-resources for more detail.
KubeReserved map[string]string `json:"kubeReserved"`
// Default behaviour for kernel tuning
ProtectKernelDefaults bool `json:"protectKernelDefaults"`
// If true, Kubelet ensures a set of iptables rules are present on host.
// These rules will serve as utility rules for various components, e.g. KubeProxy.
// The rules will be created based on IPTablesMasqueradeBit and IPTablesDropBit.
MakeIPTablesUtilChains *bool `json:"makeIPTablesUtilChains"`
// iptablesMasqueradeBit is the bit of the iptables fwmark space to mark for SNAT
// Values must be within the range [0, 31]. Must be different from other mark bits.
// Warning: Please match the value of corresponding parameter in kube-proxy
// TODO: clean up IPTablesMasqueradeBit in kube-proxy
IPTablesMasqueradeBit *int32 `json:"iptablesMasqueradeBit"`
// iptablesDropBit is the bit of the iptables fwmark space to mark for dropping packets.
// Values must be within the range [0, 31]. Must be different from other mark bits.
IPTablesDropBit *int32 `json:"iptablesDropBit"`
// Whitelist of unsafe sysctls or sysctl patterns (ending in *). Use these at your own risk.
// Resource isolation might be lacking and pod might influence each other on the same node.
// +optional
AllowedUnsafeSysctls []string `json:"allowedUnsafeSysctls,omitempty"`
// featureGates is a string of comma-separated key=value pairs that describe feature
// gates for alpha/experimental features.
FeatureGates string `json:"featureGates,omitempty"`
// Enable Container Runtime Interface (CRI) integration.
// +optional
EnableCRI bool `json:"enableCRI,omitempty"`
// TODO(#34726:1.8.0): Remove the opt-in for failing when swap is enabled.
// Tells the Kubelet to fail to start if swap is enabled on the node.
ExperimentalFailSwapOn bool `json:"experimentalFailSwapOn,omitempty"`
// This flag, if set, enables a check prior to mount operations to verify that the required components
// (binaries, etc.) to mount the volume are available on the underlying node. If the check is enabled
// and fails the mount operation fails.
ExperimentalCheckNodeCapabilitiesBeforeMount bool `json:"ExperimentalCheckNodeCapabilitiesBeforeMount,omitempty"`
}
type KubeletAuthorizationMode string
const (
// KubeletAuthorizationModeAlwaysAllow authorizes all authenticated requests
KubeletAuthorizationModeAlwaysAllow KubeletAuthorizationMode = "AlwaysAllow"
// KubeletAuthorizationModeWebhook uses the SubjectAccessReview API to determine authorization
KubeletAuthorizationModeWebhook KubeletAuthorizationMode = "Webhook"
)
type KubeletAuthorization struct {
// mode is the authorization mode to apply to requests to the kubelet server.
// Valid values are AlwaysAllow and Webhook.
// Webhook mode uses the SubjectAccessReview API to determine authorization.
Mode KubeletAuthorizationMode `json:"mode"`
// webhook contains settings related to Webhook authorization.
Webhook KubeletWebhookAuthorization `json:"webhook"`
}
type KubeletWebhookAuthorization struct {
// cacheAuthorizedTTL is the duration to cache 'authorized' responses from the webhook authorizer.
CacheAuthorizedTTL unversioned.Duration `json:"cacheAuthorizedTTL"`
// cacheUnauthorizedTTL is the duration to cache 'unauthorized' responses from the webhook authorizer.
CacheUnauthorizedTTL unversioned.Duration `json:"cacheUnauthorizedTTL"`
}
type KubeletAuthentication struct {
// x509 contains settings related to x509 client certificate authentication
X509 KubeletX509Authentication `json:"x509"`
// webhook contains settings related to webhook bearer token authentication
Webhook KubeletWebhookAuthentication `json:"webhook"`
// anonymous contains settings related to anonymous authentication
Anonymous KubeletAnonymousAuthentication `json:"anonymous"`
}
type KubeletX509Authentication struct {
// clientCAFile is the path to a PEM-encoded certificate bundle. If set, any request presenting a client certificate
// signed by one of the authorities in the bundle is authenticated with a username corresponding to the CommonName,
// and groups corresponding to the Organization in the client certificate.
ClientCAFile string `json:"clientCAFile"`
}
type KubeletWebhookAuthentication struct {
// enabled allows bearer token authentication backed by the tokenreviews.authentication.k8s.io API
Enabled *bool `json:"enabled"`
// cacheTTL enables caching of authentication results
CacheTTL unversioned.Duration `json:"cacheTTL"`
}
type KubeletAnonymousAuthentication struct {
// enabled allows anonymous requests to the kubelet server.
// Requests that are not rejected by another authentication method are treated as anonymous requests.
// Anonymous requests have a username of system:anonymous, and a group name of system:unauthenticated.
Enabled *bool `json:"enabled"`
}

681
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/v1alpha1/zz_generated.conversion.go generated vendored
View file

@ -1,681 +0,0 @@
// +build !ignore_autogenerated
/*
Copyright 2016 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.
*/
// This file was autogenerated by conversion-gen. Do not edit it manually!
package v1alpha1
import (
api "k8s.io/kubernetes/pkg/api"
componentconfig "k8s.io/kubernetes/pkg/apis/componentconfig"
conversion "k8s.io/kubernetes/pkg/conversion"
runtime "k8s.io/kubernetes/pkg/runtime"
config "k8s.io/kubernetes/pkg/util/config"
unsafe "unsafe"
)
func init() {
SchemeBuilder.Register(RegisterConversions)
}
// RegisterConversions adds conversion functions to the given scheme.
// Public to allow building arbitrary schemes.
func RegisterConversions(scheme *runtime.Scheme) error {
return scheme.AddGeneratedConversionFuncs(
Convert_v1alpha1_KubeProxyConfiguration_To_componentconfig_KubeProxyConfiguration,
Convert_componentconfig_KubeProxyConfiguration_To_v1alpha1_KubeProxyConfiguration,
Convert_v1alpha1_KubeSchedulerConfiguration_To_componentconfig_KubeSchedulerConfiguration,
Convert_componentconfig_KubeSchedulerConfiguration_To_v1alpha1_KubeSchedulerConfiguration,
Convert_v1alpha1_KubeletAnonymousAuthentication_To_componentconfig_KubeletAnonymousAuthentication,
Convert_componentconfig_KubeletAnonymousAuthentication_To_v1alpha1_KubeletAnonymousAuthentication,
Convert_v1alpha1_KubeletAuthentication_To_componentconfig_KubeletAuthentication,
Convert_componentconfig_KubeletAuthentication_To_v1alpha1_KubeletAuthentication,
Convert_v1alpha1_KubeletAuthorization_To_componentconfig_KubeletAuthorization,
Convert_componentconfig_KubeletAuthorization_To_v1alpha1_KubeletAuthorization,
Convert_v1alpha1_KubeletConfiguration_To_componentconfig_KubeletConfiguration,
Convert_componentconfig_KubeletConfiguration_To_v1alpha1_KubeletConfiguration,
Convert_v1alpha1_KubeletWebhookAuthentication_To_componentconfig_KubeletWebhookAuthentication,
Convert_componentconfig_KubeletWebhookAuthentication_To_v1alpha1_KubeletWebhookAuthentication,
Convert_v1alpha1_KubeletWebhookAuthorization_To_componentconfig_KubeletWebhookAuthorization,
Convert_componentconfig_KubeletWebhookAuthorization_To_v1alpha1_KubeletWebhookAuthorization,
Convert_v1alpha1_KubeletX509Authentication_To_componentconfig_KubeletX509Authentication,
Convert_componentconfig_KubeletX509Authentication_To_v1alpha1_KubeletX509Authentication,
Convert_v1alpha1_LeaderElectionConfiguration_To_componentconfig_LeaderElectionConfiguration,
Convert_componentconfig_LeaderElectionConfiguration_To_v1alpha1_LeaderElectionConfiguration,
)
}
func autoConvert_v1alpha1_KubeProxyConfiguration_To_componentconfig_KubeProxyConfiguration(in *KubeProxyConfiguration, out *componentconfig.KubeProxyConfiguration, s conversion.Scope) error {
out.BindAddress = in.BindAddress
out.ClusterCIDR = in.ClusterCIDR
out.HealthzBindAddress = in.HealthzBindAddress
out.HealthzPort = in.HealthzPort
out.HostnameOverride = in.HostnameOverride
out.IPTablesMasqueradeBit = (*int32)(unsafe.Pointer(in.IPTablesMasqueradeBit))
out.IPTablesSyncPeriod = in.IPTablesSyncPeriod
out.IPTablesMinSyncPeriod = in.IPTablesMinSyncPeriod
out.KubeconfigPath = in.KubeconfigPath
out.MasqueradeAll = in.MasqueradeAll
out.Master = in.Master
out.OOMScoreAdj = (*int32)(unsafe.Pointer(in.OOMScoreAdj))
out.Mode = componentconfig.ProxyMode(in.Mode)
out.PortRange = in.PortRange
out.ResourceContainer = in.ResourceContainer
out.UDPIdleTimeout = in.UDPIdleTimeout
out.ConntrackMax = in.ConntrackMax
out.ConntrackMaxPerCore = in.ConntrackMaxPerCore
out.ConntrackMin = in.ConntrackMin
out.ConntrackTCPEstablishedTimeout = in.ConntrackTCPEstablishedTimeout
out.ConntrackTCPCloseWaitTimeout = in.ConntrackTCPCloseWaitTimeout
return nil
}
func Convert_v1alpha1_KubeProxyConfiguration_To_componentconfig_KubeProxyConfiguration(in *KubeProxyConfiguration, out *componentconfig.KubeProxyConfiguration, s conversion.Scope) error {
return autoConvert_v1alpha1_KubeProxyConfiguration_To_componentconfig_KubeProxyConfiguration(in, out, s)
}
func autoConvert_componentconfig_KubeProxyConfiguration_To_v1alpha1_KubeProxyConfiguration(in *componentconfig.KubeProxyConfiguration, out *KubeProxyConfiguration, s conversion.Scope) error {
out.BindAddress = in.BindAddress
out.ClusterCIDR = in.ClusterCIDR
out.HealthzBindAddress = in.HealthzBindAddress
out.HealthzPort = in.HealthzPort
out.HostnameOverride = in.HostnameOverride
out.IPTablesMasqueradeBit = (*int32)(unsafe.Pointer(in.IPTablesMasqueradeBit))
out.IPTablesSyncPeriod = in.IPTablesSyncPeriod
out.IPTablesMinSyncPeriod = in.IPTablesMinSyncPeriod
out.KubeconfigPath = in.KubeconfigPath
out.MasqueradeAll = in.MasqueradeAll
out.Master = in.Master
out.OOMScoreAdj = (*int32)(unsafe.Pointer(in.OOMScoreAdj))
out.Mode = ProxyMode(in.Mode)
out.PortRange = in.PortRange
out.ResourceContainer = in.ResourceContainer
out.UDPIdleTimeout = in.UDPIdleTimeout
out.ConntrackMax = in.ConntrackMax
out.ConntrackMaxPerCore = in.ConntrackMaxPerCore
out.ConntrackMin = in.ConntrackMin
out.ConntrackTCPEstablishedTimeout = in.ConntrackTCPEstablishedTimeout
out.ConntrackTCPCloseWaitTimeout = in.ConntrackTCPCloseWaitTimeout
return nil
}
func Convert_componentconfig_KubeProxyConfiguration_To_v1alpha1_KubeProxyConfiguration(in *componentconfig.KubeProxyConfiguration, out *KubeProxyConfiguration, s conversion.Scope) error {
return autoConvert_componentconfig_KubeProxyConfiguration_To_v1alpha1_KubeProxyConfiguration(in, out, s)
}
func autoConvert_v1alpha1_KubeSchedulerConfiguration_To_componentconfig_KubeSchedulerConfiguration(in *KubeSchedulerConfiguration, out *componentconfig.KubeSchedulerConfiguration, s conversion.Scope) error {
out.Port = int32(in.Port)
out.Address = in.Address
out.AlgorithmProvider = in.AlgorithmProvider
out.PolicyConfigFile = in.PolicyConfigFile
if err := api.Convert_Pointer_bool_To_bool(&in.EnableProfiling, &out.EnableProfiling, s); err != nil {
return err
}
out.ContentType = in.ContentType
out.KubeAPIQPS = in.KubeAPIQPS
out.KubeAPIBurst = int32(in.KubeAPIBurst)
out.SchedulerName = in.SchedulerName
out.HardPodAffinitySymmetricWeight = in.HardPodAffinitySymmetricWeight
out.FailureDomains = in.FailureDomains
if err := Convert_v1alpha1_LeaderElectionConfiguration_To_componentconfig_LeaderElectionConfiguration(&in.LeaderElection, &out.LeaderElection, s); err != nil {
return err
}
return nil
}
func Convert_v1alpha1_KubeSchedulerConfiguration_To_componentconfig_KubeSchedulerConfiguration(in *KubeSchedulerConfiguration, out *componentconfig.KubeSchedulerConfiguration, s conversion.Scope) error {
return autoConvert_v1alpha1_KubeSchedulerConfiguration_To_componentconfig_KubeSchedulerConfiguration(in, out, s)
}
func autoConvert_componentconfig_KubeSchedulerConfiguration_To_v1alpha1_KubeSchedulerConfiguration(in *componentconfig.KubeSchedulerConfiguration, out *KubeSchedulerConfiguration, s conversion.Scope) error {
out.Port = int(in.Port)
out.Address = in.Address
out.AlgorithmProvider = in.AlgorithmProvider
out.PolicyConfigFile = in.PolicyConfigFile
if err := api.Convert_bool_To_Pointer_bool(&in.EnableProfiling, &out.EnableProfiling, s); err != nil {
return err
}
out.ContentType = in.ContentType
out.KubeAPIQPS = in.KubeAPIQPS
out.KubeAPIBurst = int(in.KubeAPIBurst)
out.SchedulerName = in.SchedulerName
out.HardPodAffinitySymmetricWeight = in.HardPodAffinitySymmetricWeight
out.FailureDomains = in.FailureDomains
if err := Convert_componentconfig_LeaderElectionConfiguration_To_v1alpha1_LeaderElectionConfiguration(&in.LeaderElection, &out.LeaderElection, s); err != nil {
return err
}
return nil
}
func Convert_componentconfig_KubeSchedulerConfiguration_To_v1alpha1_KubeSchedulerConfiguration(in *componentconfig.KubeSchedulerConfiguration, out *KubeSchedulerConfiguration, s conversion.Scope) error {
return autoConvert_componentconfig_KubeSchedulerConfiguration_To_v1alpha1_KubeSchedulerConfiguration(in, out, s)
}
func autoConvert_v1alpha1_KubeletAnonymousAuthentication_To_componentconfig_KubeletAnonymousAuthentication(in *KubeletAnonymousAuthentication, out *componentconfig.KubeletAnonymousAuthentication, s conversion.Scope) error {
if err := api.Convert_Pointer_bool_To_bool(&in.Enabled, &out.Enabled, s); err != nil {
return err
}
return nil
}
func Convert_v1alpha1_KubeletAnonymousAuthentication_To_componentconfig_KubeletAnonymousAuthentication(in *KubeletAnonymousAuthentication, out *componentconfig.KubeletAnonymousAuthentication, s conversion.Scope) error {
return autoConvert_v1alpha1_KubeletAnonymousAuthentication_To_componentconfig_KubeletAnonymousAuthentication(in, out, s)
}
func autoConvert_componentconfig_KubeletAnonymousAuthentication_To_v1alpha1_KubeletAnonymousAuthentication(in *componentconfig.KubeletAnonymousAuthentication, out *KubeletAnonymousAuthentication, s conversion.Scope) error {
if err := api.Convert_bool_To_Pointer_bool(&in.Enabled, &out.Enabled, s); err != nil {
return err
}
return nil
}
func Convert_componentconfig_KubeletAnonymousAuthentication_To_v1alpha1_KubeletAnonymousAuthentication(in *componentconfig.KubeletAnonymousAuthentication, out *KubeletAnonymousAuthentication, s conversion.Scope) error {
return autoConvert_componentconfig_KubeletAnonymousAuthentication_To_v1alpha1_KubeletAnonymousAuthentication(in, out, s)
}
func autoConvert_v1alpha1_KubeletAuthentication_To_componentconfig_KubeletAuthentication(in *KubeletAuthentication, out *componentconfig.KubeletAuthentication, s conversion.Scope) error {
if err := Convert_v1alpha1_KubeletX509Authentication_To_componentconfig_KubeletX509Authentication(&in.X509, &out.X509, s); err != nil {
return err
}
if err := Convert_v1alpha1_KubeletWebhookAuthentication_To_componentconfig_KubeletWebhookAuthentication(&in.Webhook, &out.Webhook, s); err != nil {
return err
}
if err := Convert_v1alpha1_KubeletAnonymousAuthentication_To_componentconfig_KubeletAnonymousAuthentication(&in.Anonymous, &out.Anonymous, s); err != nil {
return err
}
return nil
}
func Convert_v1alpha1_KubeletAuthentication_To_componentconfig_KubeletAuthentication(in *KubeletAuthentication, out *componentconfig.KubeletAuthentication, s conversion.Scope) error {
return autoConvert_v1alpha1_KubeletAuthentication_To_componentconfig_KubeletAuthentication(in, out, s)
}
func autoConvert_componentconfig_KubeletAuthentication_To_v1alpha1_KubeletAuthentication(in *componentconfig.KubeletAuthentication, out *KubeletAuthentication, s conversion.Scope) error {
if err := Convert_componentconfig_KubeletX509Authentication_To_v1alpha1_KubeletX509Authentication(&in.X509, &out.X509, s); err != nil {
return err
}
if err := Convert_componentconfig_KubeletWebhookAuthentication_To_v1alpha1_KubeletWebhookAuthentication(&in.Webhook, &out.Webhook, s); err != nil {
return err
}
if err := Convert_componentconfig_KubeletAnonymousAuthentication_To_v1alpha1_KubeletAnonymousAuthentication(&in.Anonymous, &out.Anonymous, s); err != nil {
return err
}
return nil
}
func Convert_componentconfig_KubeletAuthentication_To_v1alpha1_KubeletAuthentication(in *componentconfig.KubeletAuthentication, out *KubeletAuthentication, s conversion.Scope) error {
return autoConvert_componentconfig_KubeletAuthentication_To_v1alpha1_KubeletAuthentication(in, out, s)
}
func autoConvert_v1alpha1_KubeletAuthorization_To_componentconfig_KubeletAuthorization(in *KubeletAuthorization, out *componentconfig.KubeletAuthorization, s conversion.Scope) error {
out.Mode = componentconfig.KubeletAuthorizationMode(in.Mode)
if err := Convert_v1alpha1_KubeletWebhookAuthorization_To_componentconfig_KubeletWebhookAuthorization(&in.Webhook, &out.Webhook, s); err != nil {
return err
}
return nil
}
func Convert_v1alpha1_KubeletAuthorization_To_componentconfig_KubeletAuthorization(in *KubeletAuthorization, out *componentconfig.KubeletAuthorization, s conversion.Scope) error {
return autoConvert_v1alpha1_KubeletAuthorization_To_componentconfig_KubeletAuthorization(in, out, s)
}
func autoConvert_componentconfig_KubeletAuthorization_To_v1alpha1_KubeletAuthorization(in *componentconfig.KubeletAuthorization, out *KubeletAuthorization, s conversion.Scope) error {
out.Mode = KubeletAuthorizationMode(in.Mode)
if err := Convert_componentconfig_KubeletWebhookAuthorization_To_v1alpha1_KubeletWebhookAuthorization(&in.Webhook, &out.Webhook, s); err != nil {
return err
}
return nil
}
func Convert_componentconfig_KubeletAuthorization_To_v1alpha1_KubeletAuthorization(in *componentconfig.KubeletAuthorization, out *KubeletAuthorization, s conversion.Scope) error {
return autoConvert_componentconfig_KubeletAuthorization_To_v1alpha1_KubeletAuthorization(in, out, s)
}
func autoConvert_v1alpha1_KubeletConfiguration_To_componentconfig_KubeletConfiguration(in *KubeletConfiguration, out *componentconfig.KubeletConfiguration, s conversion.Scope) error {
out.PodManifestPath = in.PodManifestPath
out.SyncFrequency = in.SyncFrequency
out.FileCheckFrequency = in.FileCheckFrequency
out.HTTPCheckFrequency = in.HTTPCheckFrequency
out.ManifestURL = in.ManifestURL
out.ManifestURLHeader = in.ManifestURLHeader
if err := api.Convert_Pointer_bool_To_bool(&in.EnableServer, &out.EnableServer, s); err != nil {
return err
}
out.Address = in.Address
out.Port = in.Port
out.ReadOnlyPort = in.ReadOnlyPort
out.TLSCertFile = in.TLSCertFile
out.TLSPrivateKeyFile = in.TLSPrivateKeyFile
out.CertDirectory = in.CertDirectory
if err := Convert_v1alpha1_KubeletAuthentication_To_componentconfig_KubeletAuthentication(&in.Authentication, &out.Authentication, s); err != nil {
return err
}
if err := Convert_v1alpha1_KubeletAuthorization_To_componentconfig_KubeletAuthorization(&in.Authorization, &out.Authorization, s); err != nil {
return err
}
out.HostnameOverride = in.HostnameOverride
out.PodInfraContainerImage = in.PodInfraContainerImage
out.DockerEndpoint = in.DockerEndpoint
out.RootDirectory = in.RootDirectory
out.SeccompProfileRoot = in.SeccompProfileRoot
if err := api.Convert_Pointer_bool_To_bool(&in.AllowPrivileged, &out.AllowPrivileged, s); err != nil {
return err
}
out.HostNetworkSources = *(*[]string)(unsafe.Pointer(&in.HostNetworkSources))
out.HostPIDSources = *(*[]string)(unsafe.Pointer(&in.HostPIDSources))
out.HostIPCSources = *(*[]string)(unsafe.Pointer(&in.HostIPCSources))
if err := api.Convert_Pointer_int32_To_int32(&in.RegistryPullQPS, &out.RegistryPullQPS, s); err != nil {
return err
}
out.RegistryBurst = in.RegistryBurst
if err := api.Convert_Pointer_int32_To_int32(&in.EventRecordQPS, &out.EventRecordQPS, s); err != nil {
return err
}
out.EventBurst = in.EventBurst
if err := api.Convert_Pointer_bool_To_bool(&in.EnableDebuggingHandlers, &out.EnableDebuggingHandlers, s); err != nil {
return err
}
out.MinimumGCAge = in.MinimumGCAge
out.MaxPerPodContainerCount = in.MaxPerPodContainerCount
if err := api.Convert_Pointer_int32_To_int32(&in.MaxContainerCount, &out.MaxContainerCount, s); err != nil {
return err
}
out.CAdvisorPort = in.CAdvisorPort
out.HealthzPort = in.HealthzPort
out.HealthzBindAddress = in.HealthzBindAddress
if err := api.Convert_Pointer_int32_To_int32(&in.OOMScoreAdj, &out.OOMScoreAdj, s); err != nil {
return err
}
if err := api.Convert_Pointer_bool_To_bool(&in.RegisterNode, &out.RegisterNode, s); err != nil {
return err
}
out.ClusterDomain = in.ClusterDomain
out.MasterServiceNamespace = in.MasterServiceNamespace
out.ClusterDNS = in.ClusterDNS
out.StreamingConnectionIdleTimeout = in.StreamingConnectionIdleTimeout
out.NodeStatusUpdateFrequency = in.NodeStatusUpdateFrequency
out.ImageMinimumGCAge = in.ImageMinimumGCAge
if err := api.Convert_Pointer_int32_To_int32(&in.ImageGCHighThresholdPercent, &out.ImageGCHighThresholdPercent, s); err != nil {
return err
}
if err := api.Convert_Pointer_int32_To_int32(&in.ImageGCLowThresholdPercent, &out.ImageGCLowThresholdPercent, s); err != nil {
return err
}
out.LowDiskSpaceThresholdMB = in.LowDiskSpaceThresholdMB
out.VolumeStatsAggPeriod = in.VolumeStatsAggPeriod
out.NetworkPluginName = in.NetworkPluginName
out.NetworkPluginDir = in.NetworkPluginDir
out.CNIConfDir = in.CNIConfDir
out.CNIBinDir = in.CNIBinDir
out.NetworkPluginMTU = in.NetworkPluginMTU
out.VolumePluginDir = in.VolumePluginDir
out.CloudProvider = in.CloudProvider
out.CloudConfigFile = in.CloudConfigFile
out.KubeletCgroups = in.KubeletCgroups
out.RuntimeCgroups = in.RuntimeCgroups
out.SystemCgroups = in.SystemCgroups
out.CgroupRoot = in.CgroupRoot
if err := api.Convert_Pointer_bool_To_bool(&in.ExperimentalCgroupsPerQOS, &out.ExperimentalCgroupsPerQOS, s); err != nil {
return err
}
out.CgroupDriver = in.CgroupDriver
out.ContainerRuntime = in.ContainerRuntime
out.RemoteRuntimeEndpoint = in.RemoteRuntimeEndpoint
out.RemoteImageEndpoint = in.RemoteImageEndpoint
out.RuntimeRequestTimeout = in.RuntimeRequestTimeout
out.RktPath = in.RktPath
out.ExperimentalMounterPath = in.ExperimentalMounterPath
out.RktAPIEndpoint = in.RktAPIEndpoint
out.RktStage1Image = in.RktStage1Image
if err := api.Convert_Pointer_string_To_string(&in.LockFilePath, &out.LockFilePath, s); err != nil {
return err
}
out.ExitOnLockContention = in.ExitOnLockContention
out.HairpinMode = in.HairpinMode
out.BabysitDaemons = in.BabysitDaemons
out.MaxPods = in.MaxPods
out.NvidiaGPUs = in.NvidiaGPUs
out.DockerExecHandlerName = in.DockerExecHandlerName
out.PodCIDR = in.PodCIDR
out.ResolverConfig = in.ResolverConfig
if err := api.Convert_Pointer_bool_To_bool(&in.CPUCFSQuota, &out.CPUCFSQuota, s); err != nil {
return err
}
if err := api.Convert_Pointer_bool_To_bool(&in.Containerized, &out.Containerized, s); err != nil {
return err
}
out.MaxOpenFiles = in.MaxOpenFiles
if err := api.Convert_Pointer_bool_To_bool(&in.ReconcileCIDR, &out.ReconcileCIDR, s); err != nil {
return err
}
if err := api.Convert_Pointer_bool_To_bool(&in.RegisterSchedulable, &out.RegisterSchedulable, s); err != nil {
return err
}
out.ContentType = in.ContentType
if err := api.Convert_Pointer_int32_To_int32(&in.KubeAPIQPS, &out.KubeAPIQPS, s); err != nil {
return err
}
out.KubeAPIBurst = in.KubeAPIBurst
if err := api.Convert_Pointer_bool_To_bool(&in.SerializeImagePulls, &out.SerializeImagePulls, s); err != nil {
return err
}
out.OutOfDiskTransitionFrequency = in.OutOfDiskTransitionFrequency
out.NodeIP = in.NodeIP
out.NodeLabels = *(*map[string]string)(unsafe.Pointer(&in.NodeLabels))
out.NonMasqueradeCIDR = in.NonMasqueradeCIDR
out.EnableCustomMetrics = in.EnableCustomMetrics
if err := api.Convert_Pointer_string_To_string(&in.EvictionHard, &out.EvictionHard, s); err != nil {
return err
}
out.EvictionSoft = in.EvictionSoft
out.EvictionSoftGracePeriod = in.EvictionSoftGracePeriod
out.EvictionPressureTransitionPeriod = in.EvictionPressureTransitionPeriod
out.EvictionMaxPodGracePeriod = in.EvictionMaxPodGracePeriod
out.EvictionMinimumReclaim = in.EvictionMinimumReclaim
if err := api.Convert_Pointer_bool_To_bool(&in.ExperimentalKernelMemcgNotification, &out.ExperimentalKernelMemcgNotification, s); err != nil {
return err
}
out.PodsPerCore = in.PodsPerCore
if err := api.Convert_Pointer_bool_To_bool(&in.EnableControllerAttachDetach, &out.EnableControllerAttachDetach, s); err != nil {
return err
}
out.SystemReserved = *(*config.ConfigurationMap)(unsafe.Pointer(&in.SystemReserved))
out.KubeReserved = *(*config.ConfigurationMap)(unsafe.Pointer(&in.KubeReserved))
out.ProtectKernelDefaults = in.ProtectKernelDefaults
if err := api.Convert_Pointer_bool_To_bool(&in.MakeIPTablesUtilChains, &out.MakeIPTablesUtilChains, s); err != nil {
return err
}
if err := api.Convert_Pointer_int32_To_int32(&in.IPTablesMasqueradeBit, &out.IPTablesMasqueradeBit, s); err != nil {
return err
}
if err := api.Convert_Pointer_int32_To_int32(&in.IPTablesDropBit, &out.IPTablesDropBit, s); err != nil {
return err
}
out.AllowedUnsafeSysctls = *(*[]string)(unsafe.Pointer(&in.AllowedUnsafeSysctls))
out.FeatureGates = in.FeatureGates
out.EnableCRI = in.EnableCRI
out.ExperimentalFailSwapOn = in.ExperimentalFailSwapOn
out.ExperimentalCheckNodeCapabilitiesBeforeMount = in.ExperimentalCheckNodeCapabilitiesBeforeMount
return nil
}
func Convert_v1alpha1_KubeletConfiguration_To_componentconfig_KubeletConfiguration(in *KubeletConfiguration, out *componentconfig.KubeletConfiguration, s conversion.Scope) error {
return autoConvert_v1alpha1_KubeletConfiguration_To_componentconfig_KubeletConfiguration(in, out, s)
}
func autoConvert_componentconfig_KubeletConfiguration_To_v1alpha1_KubeletConfiguration(in *componentconfig.KubeletConfiguration, out *KubeletConfiguration, s conversion.Scope) error {
out.PodManifestPath = in.PodManifestPath
out.SyncFrequency = in.SyncFrequency
out.FileCheckFrequency = in.FileCheckFrequency
out.HTTPCheckFrequency = in.HTTPCheckFrequency
out.ManifestURL = in.ManifestURL
out.ManifestURLHeader = in.ManifestURLHeader
if err := api.Convert_bool_To_Pointer_bool(&in.EnableServer, &out.EnableServer, s); err != nil {
return err
}
out.Address = in.Address
out.Port = in.Port
out.ReadOnlyPort = in.ReadOnlyPort
out.TLSCertFile = in.TLSCertFile
out.TLSPrivateKeyFile = in.TLSPrivateKeyFile
out.CertDirectory = in.CertDirectory
if err := Convert_componentconfig_KubeletAuthentication_To_v1alpha1_KubeletAuthentication(&in.Authentication, &out.Authentication, s); err != nil {
return err
}
if err := Convert_componentconfig_KubeletAuthorization_To_v1alpha1_KubeletAuthorization(&in.Authorization, &out.Authorization, s); err != nil {
return err
}
out.HostnameOverride = in.HostnameOverride
out.PodInfraContainerImage = in.PodInfraContainerImage
out.DockerEndpoint = in.DockerEndpoint
out.RootDirectory = in.RootDirectory
out.SeccompProfileRoot = in.SeccompProfileRoot
if err := api.Convert_bool_To_Pointer_bool(&in.AllowPrivileged, &out.AllowPrivileged, s); err != nil {
return err
}
out.HostNetworkSources = *(*[]string)(unsafe.Pointer(&in.HostNetworkSources))
out.HostPIDSources = *(*[]string)(unsafe.Pointer(&in.HostPIDSources))
out.HostIPCSources = *(*[]string)(unsafe.Pointer(&in.HostIPCSources))
if err := api.Convert_int32_To_Pointer_int32(&in.RegistryPullQPS, &out.RegistryPullQPS, s); err != nil {
return err
}
out.RegistryBurst = in.RegistryBurst
if err := api.Convert_int32_To_Pointer_int32(&in.EventRecordQPS, &out.EventRecordQPS, s); err != nil {
return err
}
out.EventBurst = in.EventBurst
if err := api.Convert_bool_To_Pointer_bool(&in.EnableDebuggingHandlers, &out.EnableDebuggingHandlers, s); err != nil {
return err
}
out.MinimumGCAge = in.MinimumGCAge
out.MaxPerPodContainerCount = in.MaxPerPodContainerCount
if err := api.Convert_int32_To_Pointer_int32(&in.MaxContainerCount, &out.MaxContainerCount, s); err != nil {
return err
}
out.CAdvisorPort = in.CAdvisorPort
out.HealthzPort = in.HealthzPort
out.HealthzBindAddress = in.HealthzBindAddress
if err := api.Convert_int32_To_Pointer_int32(&in.OOMScoreAdj, &out.OOMScoreAdj, s); err != nil {
return err
}
if err := api.Convert_bool_To_Pointer_bool(&in.RegisterNode, &out.RegisterNode, s); err != nil {
return err
}
out.ClusterDomain = in.ClusterDomain
out.MasterServiceNamespace = in.MasterServiceNamespace
out.ClusterDNS = in.ClusterDNS
out.StreamingConnectionIdleTimeout = in.StreamingConnectionIdleTimeout
out.NodeStatusUpdateFrequency = in.NodeStatusUpdateFrequency
out.ImageMinimumGCAge = in.ImageMinimumGCAge
if err := api.Convert_int32_To_Pointer_int32(&in.ImageGCHighThresholdPercent, &out.ImageGCHighThresholdPercent, s); err != nil {
return err
}
if err := api.Convert_int32_To_Pointer_int32(&in.ImageGCLowThresholdPercent, &out.ImageGCLowThresholdPercent, s); err != nil {
return err
}
out.LowDiskSpaceThresholdMB = in.LowDiskSpaceThresholdMB
out.VolumeStatsAggPeriod = in.VolumeStatsAggPeriod
out.NetworkPluginName = in.NetworkPluginName
out.NetworkPluginMTU = in.NetworkPluginMTU
out.NetworkPluginDir = in.NetworkPluginDir
out.CNIConfDir = in.CNIConfDir
out.CNIBinDir = in.CNIBinDir
out.VolumePluginDir = in.VolumePluginDir
out.CloudProvider = in.CloudProvider
out.CloudConfigFile = in.CloudConfigFile
out.KubeletCgroups = in.KubeletCgroups
if err := api.Convert_bool_To_Pointer_bool(&in.ExperimentalCgroupsPerQOS, &out.ExperimentalCgroupsPerQOS, s); err != nil {
return err
}
out.CgroupDriver = in.CgroupDriver
out.RuntimeCgroups = in.RuntimeCgroups
out.SystemCgroups = in.SystemCgroups
out.CgroupRoot = in.CgroupRoot
out.ContainerRuntime = in.ContainerRuntime
out.RemoteRuntimeEndpoint = in.RemoteRuntimeEndpoint
out.RemoteImageEndpoint = in.RemoteImageEndpoint
out.RuntimeRequestTimeout = in.RuntimeRequestTimeout
out.RktPath = in.RktPath
out.ExperimentalMounterPath = in.ExperimentalMounterPath
out.RktAPIEndpoint = in.RktAPIEndpoint
out.RktStage1Image = in.RktStage1Image
if err := api.Convert_string_To_Pointer_string(&in.LockFilePath, &out.LockFilePath, s); err != nil {
return err
}
out.ExitOnLockContention = in.ExitOnLockContention
out.HairpinMode = in.HairpinMode
out.BabysitDaemons = in.BabysitDaemons
out.MaxPods = in.MaxPods
out.NvidiaGPUs = in.NvidiaGPUs
out.DockerExecHandlerName = in.DockerExecHandlerName
out.PodCIDR = in.PodCIDR
out.ResolverConfig = in.ResolverConfig
if err := api.Convert_bool_To_Pointer_bool(&in.CPUCFSQuota, &out.CPUCFSQuota, s); err != nil {
return err
}
if err := api.Convert_bool_To_Pointer_bool(&in.Containerized, &out.Containerized, s); err != nil {
return err
}
out.MaxOpenFiles = in.MaxOpenFiles
if err := api.Convert_bool_To_Pointer_bool(&in.ReconcileCIDR, &out.ReconcileCIDR, s); err != nil {
return err
}
if err := api.Convert_bool_To_Pointer_bool(&in.RegisterSchedulable, &out.RegisterSchedulable, s); err != nil {
return err
}
out.ContentType = in.ContentType
if err := api.Convert_int32_To_Pointer_int32(&in.KubeAPIQPS, &out.KubeAPIQPS, s); err != nil {
return err
}
out.KubeAPIBurst = in.KubeAPIBurst
if err := api.Convert_bool_To_Pointer_bool(&in.SerializeImagePulls, &out.SerializeImagePulls, s); err != nil {
return err
}
out.OutOfDiskTransitionFrequency = in.OutOfDiskTransitionFrequency
out.NodeIP = in.NodeIP
out.NodeLabels = *(*map[string]string)(unsafe.Pointer(&in.NodeLabels))
out.NonMasqueradeCIDR = in.NonMasqueradeCIDR
out.EnableCustomMetrics = in.EnableCustomMetrics
if err := api.Convert_string_To_Pointer_string(&in.EvictionHard, &out.EvictionHard, s); err != nil {
return err
}
out.EvictionSoft = in.EvictionSoft
out.EvictionSoftGracePeriod = in.EvictionSoftGracePeriod
out.EvictionPressureTransitionPeriod = in.EvictionPressureTransitionPeriod
out.EvictionMaxPodGracePeriod = in.EvictionMaxPodGracePeriod
out.EvictionMinimumReclaim = in.EvictionMinimumReclaim
if err := api.Convert_bool_To_Pointer_bool(&in.ExperimentalKernelMemcgNotification, &out.ExperimentalKernelMemcgNotification, s); err != nil {
return err
}
out.PodsPerCore = in.PodsPerCore
if err := api.Convert_bool_To_Pointer_bool(&in.EnableControllerAttachDetach, &out.EnableControllerAttachDetach, s); err != nil {
return err
}
out.SystemReserved = *(*map[string]string)(unsafe.Pointer(&in.SystemReserved))
out.KubeReserved = *(*map[string]string)(unsafe.Pointer(&in.KubeReserved))
out.ProtectKernelDefaults = in.ProtectKernelDefaults
if err := api.Convert_bool_To_Pointer_bool(&in.MakeIPTablesUtilChains, &out.MakeIPTablesUtilChains, s); err != nil {
return err
}
if err := api.Convert_int32_To_Pointer_int32(&in.IPTablesMasqueradeBit, &out.IPTablesMasqueradeBit, s); err != nil {
return err
}
if err := api.Convert_int32_To_Pointer_int32(&in.IPTablesDropBit, &out.IPTablesDropBit, s); err != nil {
return err
}
out.AllowedUnsafeSysctls = *(*[]string)(unsafe.Pointer(&in.AllowedUnsafeSysctls))
out.FeatureGates = in.FeatureGates
out.EnableCRI = in.EnableCRI
out.ExperimentalFailSwapOn = in.ExperimentalFailSwapOn
out.ExperimentalCheckNodeCapabilitiesBeforeMount = in.ExperimentalCheckNodeCapabilitiesBeforeMount
return nil
}
func Convert_componentconfig_KubeletConfiguration_To_v1alpha1_KubeletConfiguration(in *componentconfig.KubeletConfiguration, out *KubeletConfiguration, s conversion.Scope) error {
return autoConvert_componentconfig_KubeletConfiguration_To_v1alpha1_KubeletConfiguration(in, out, s)
}
func autoConvert_v1alpha1_KubeletWebhookAuthentication_To_componentconfig_KubeletWebhookAuthentication(in *KubeletWebhookAuthentication, out *componentconfig.KubeletWebhookAuthentication, s conversion.Scope) error {
if err := api.Convert_Pointer_bool_To_bool(&in.Enabled, &out.Enabled, s); err != nil {
return err
}
out.CacheTTL = in.CacheTTL
return nil
}
func Convert_v1alpha1_KubeletWebhookAuthentication_To_componentconfig_KubeletWebhookAuthentication(in *KubeletWebhookAuthentication, out *componentconfig.KubeletWebhookAuthentication, s conversion.Scope) error {
return autoConvert_v1alpha1_KubeletWebhookAuthentication_To_componentconfig_KubeletWebhookAuthentication(in, out, s)
}
func autoConvert_componentconfig_KubeletWebhookAuthentication_To_v1alpha1_KubeletWebhookAuthentication(in *componentconfig.KubeletWebhookAuthentication, out *KubeletWebhookAuthentication, s conversion.Scope) error {
if err := api.Convert_bool_To_Pointer_bool(&in.Enabled, &out.Enabled, s); err != nil {
return err
}
out.CacheTTL = in.CacheTTL
return nil
}
func Convert_componentconfig_KubeletWebhookAuthentication_To_v1alpha1_KubeletWebhookAuthentication(in *componentconfig.KubeletWebhookAuthentication, out *KubeletWebhookAuthentication, s conversion.Scope) error {
return autoConvert_componentconfig_KubeletWebhookAuthentication_To_v1alpha1_KubeletWebhookAuthentication(in, out, s)
}
func autoConvert_v1alpha1_KubeletWebhookAuthorization_To_componentconfig_KubeletWebhookAuthorization(in *KubeletWebhookAuthorization, out *componentconfig.KubeletWebhookAuthorization, s conversion.Scope) error {
out.CacheAuthorizedTTL = in.CacheAuthorizedTTL
out.CacheUnauthorizedTTL = in.CacheUnauthorizedTTL
return nil
}
func Convert_v1alpha1_KubeletWebhookAuthorization_To_componentconfig_KubeletWebhookAuthorization(in *KubeletWebhookAuthorization, out *componentconfig.KubeletWebhookAuthorization, s conversion.Scope) error {
return autoConvert_v1alpha1_KubeletWebhookAuthorization_To_componentconfig_KubeletWebhookAuthorization(in, out, s)
}
func autoConvert_componentconfig_KubeletWebhookAuthorization_To_v1alpha1_KubeletWebhookAuthorization(in *componentconfig.KubeletWebhookAuthorization, out *KubeletWebhookAuthorization, s conversion.Scope) error {
out.CacheAuthorizedTTL = in.CacheAuthorizedTTL
out.CacheUnauthorizedTTL = in.CacheUnauthorizedTTL
return nil
}
func Convert_componentconfig_KubeletWebhookAuthorization_To_v1alpha1_KubeletWebhookAuthorization(in *componentconfig.KubeletWebhookAuthorization, out *KubeletWebhookAuthorization, s conversion.Scope) error {
return autoConvert_componentconfig_KubeletWebhookAuthorization_To_v1alpha1_KubeletWebhookAuthorization(in, out, s)
}
func autoConvert_v1alpha1_KubeletX509Authentication_To_componentconfig_KubeletX509Authentication(in *KubeletX509Authentication, out *componentconfig.KubeletX509Authentication, s conversion.Scope) error {
out.ClientCAFile = in.ClientCAFile
return nil
}
func Convert_v1alpha1_KubeletX509Authentication_To_componentconfig_KubeletX509Authentication(in *KubeletX509Authentication, out *componentconfig.KubeletX509Authentication, s conversion.Scope) error {
return autoConvert_v1alpha1_KubeletX509Authentication_To_componentconfig_KubeletX509Authentication(in, out, s)
}
func autoConvert_componentconfig_KubeletX509Authentication_To_v1alpha1_KubeletX509Authentication(in *componentconfig.KubeletX509Authentication, out *KubeletX509Authentication, s conversion.Scope) error {
out.ClientCAFile = in.ClientCAFile
return nil
}
func Convert_componentconfig_KubeletX509Authentication_To_v1alpha1_KubeletX509Authentication(in *componentconfig.KubeletX509Authentication, out *KubeletX509Authentication, s conversion.Scope) error {
return autoConvert_componentconfig_KubeletX509Authentication_To_v1alpha1_KubeletX509Authentication(in, out, s)
}
func autoConvert_v1alpha1_LeaderElectionConfiguration_To_componentconfig_LeaderElectionConfiguration(in *LeaderElectionConfiguration, out *componentconfig.LeaderElectionConfiguration, s conversion.Scope) error {
if err := api.Convert_Pointer_bool_To_bool(&in.LeaderElect, &out.LeaderElect, s); err != nil {
return err
}
out.LeaseDuration = in.LeaseDuration
out.RenewDeadline = in.RenewDeadline
out.RetryPeriod = in.RetryPeriod
return nil
}
func Convert_v1alpha1_LeaderElectionConfiguration_To_componentconfig_LeaderElectionConfiguration(in *LeaderElectionConfiguration, out *componentconfig.LeaderElectionConfiguration, s conversion.Scope) error {
return autoConvert_v1alpha1_LeaderElectionConfiguration_To_componentconfig_LeaderElectionConfiguration(in, out, s)
}
func autoConvert_componentconfig_LeaderElectionConfiguration_To_v1alpha1_LeaderElectionConfiguration(in *componentconfig.LeaderElectionConfiguration, out *LeaderElectionConfiguration, s conversion.Scope) error {
if err := api.Convert_bool_To_Pointer_bool(&in.LeaderElect, &out.LeaderElect, s); err != nil {
return err
}
out.LeaseDuration = in.LeaseDuration
out.RenewDeadline = in.RenewDeadline
out.RetryPeriod = in.RetryPeriod
return nil
}
func Convert_componentconfig_LeaderElectionConfiguration_To_v1alpha1_LeaderElectionConfiguration(in *componentconfig.LeaderElectionConfiguration, out *LeaderElectionConfiguration, s conversion.Scope) error {
return autoConvert_componentconfig_LeaderElectionConfiguration_To_v1alpha1_LeaderElectionConfiguration(in, out, s)
}

527
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/v1alpha1/zz_generated.deepcopy.go generated vendored
View file

@ -1,527 +0,0 @@
// +build !ignore_autogenerated
/*
Copyright 2016 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.
*/
// This file was autogenerated by deepcopy-gen. Do not edit it manually!
package v1alpha1
import (
conversion "k8s.io/kubernetes/pkg/conversion"
runtime "k8s.io/kubernetes/pkg/runtime"
reflect "reflect"
)
func init() {
SchemeBuilder.Register(RegisterDeepCopies)
}
// RegisterDeepCopies adds deep-copy functions to the given scheme. Public
// to allow building arbitrary schemes.
func RegisterDeepCopies(scheme *runtime.Scheme) error {
return scheme.AddGeneratedDeepCopyFuncs(
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_v1alpha1_KubeProxyConfiguration, InType: reflect.TypeOf(&KubeProxyConfiguration{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_v1alpha1_KubeSchedulerConfiguration, InType: reflect.TypeOf(&KubeSchedulerConfiguration{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_v1alpha1_KubeletAnonymousAuthentication, InType: reflect.TypeOf(&KubeletAnonymousAuthentication{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_v1alpha1_KubeletAuthentication, InType: reflect.TypeOf(&KubeletAuthentication{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_v1alpha1_KubeletAuthorization, InType: reflect.TypeOf(&KubeletAuthorization{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_v1alpha1_KubeletConfiguration, InType: reflect.TypeOf(&KubeletConfiguration{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_v1alpha1_KubeletWebhookAuthentication, InType: reflect.TypeOf(&KubeletWebhookAuthentication{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_v1alpha1_KubeletWebhookAuthorization, InType: reflect.TypeOf(&KubeletWebhookAuthorization{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_v1alpha1_KubeletX509Authentication, InType: reflect.TypeOf(&KubeletX509Authentication{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_v1alpha1_LeaderElectionConfiguration, InType: reflect.TypeOf(&LeaderElectionConfiguration{})},
)
}
func DeepCopy_v1alpha1_KubeProxyConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeProxyConfiguration)
out := out.(*KubeProxyConfiguration)
out.TypeMeta = in.TypeMeta
out.BindAddress = in.BindAddress
out.ClusterCIDR = in.ClusterCIDR
out.HealthzBindAddress = in.HealthzBindAddress
out.HealthzPort = in.HealthzPort
out.HostnameOverride = in.HostnameOverride
if in.IPTablesMasqueradeBit != nil {
in, out := &in.IPTablesMasqueradeBit, &out.IPTablesMasqueradeBit
*out = new(int32)
**out = **in
} else {
out.IPTablesMasqueradeBit = nil
}
out.IPTablesSyncPeriod = in.IPTablesSyncPeriod
out.IPTablesMinSyncPeriod = in.IPTablesMinSyncPeriod
out.KubeconfigPath = in.KubeconfigPath
out.MasqueradeAll = in.MasqueradeAll
out.Master = in.Master
if in.OOMScoreAdj != nil {
in, out := &in.OOMScoreAdj, &out.OOMScoreAdj
*out = new(int32)
**out = **in
} else {
out.OOMScoreAdj = nil
}
out.Mode = in.Mode
out.PortRange = in.PortRange
out.ResourceContainer = in.ResourceContainer
out.UDPIdleTimeout = in.UDPIdleTimeout
out.ConntrackMax = in.ConntrackMax
out.ConntrackMaxPerCore = in.ConntrackMaxPerCore
out.ConntrackMin = in.ConntrackMin
out.ConntrackTCPEstablishedTimeout = in.ConntrackTCPEstablishedTimeout
out.ConntrackTCPCloseWaitTimeout = in.ConntrackTCPCloseWaitTimeout
return nil
}
}
func DeepCopy_v1alpha1_KubeSchedulerConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeSchedulerConfiguration)
out := out.(*KubeSchedulerConfiguration)
out.TypeMeta = in.TypeMeta
out.Port = in.Port
out.Address = in.Address
out.AlgorithmProvider = in.AlgorithmProvider
out.PolicyConfigFile = in.PolicyConfigFile
if in.EnableProfiling != nil {
in, out := &in.EnableProfiling, &out.EnableProfiling
*out = new(bool)
**out = **in
} else {
out.EnableProfiling = nil
}
out.ContentType = in.ContentType
out.KubeAPIQPS = in.KubeAPIQPS
out.KubeAPIBurst = in.KubeAPIBurst
out.SchedulerName = in.SchedulerName
out.HardPodAffinitySymmetricWeight = in.HardPodAffinitySymmetricWeight
out.FailureDomains = in.FailureDomains
if err := DeepCopy_v1alpha1_LeaderElectionConfiguration(&in.LeaderElection, &out.LeaderElection, c); err != nil {
return err
}
return nil
}
}
func DeepCopy_v1alpha1_KubeletAnonymousAuthentication(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletAnonymousAuthentication)
out := out.(*KubeletAnonymousAuthentication)
if in.Enabled != nil {
in, out := &in.Enabled, &out.Enabled
*out = new(bool)
**out = **in
} else {
out.Enabled = nil
}
return nil
}
}
func DeepCopy_v1alpha1_KubeletAuthentication(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletAuthentication)
out := out.(*KubeletAuthentication)
out.X509 = in.X509
if err := DeepCopy_v1alpha1_KubeletWebhookAuthentication(&in.Webhook, &out.Webhook, c); err != nil {
return err
}
if err := DeepCopy_v1alpha1_KubeletAnonymousAuthentication(&in.Anonymous, &out.Anonymous, c); err != nil {
return err
}
return nil
}
}
func DeepCopy_v1alpha1_KubeletAuthorization(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletAuthorization)
out := out.(*KubeletAuthorization)
out.Mode = in.Mode
out.Webhook = in.Webhook
return nil
}
}
func DeepCopy_v1alpha1_KubeletConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletConfiguration)
out := out.(*KubeletConfiguration)
out.TypeMeta = in.TypeMeta
out.PodManifestPath = in.PodManifestPath
out.SyncFrequency = in.SyncFrequency
out.FileCheckFrequency = in.FileCheckFrequency
out.HTTPCheckFrequency = in.HTTPCheckFrequency
out.ManifestURL = in.ManifestURL
out.ManifestURLHeader = in.ManifestURLHeader
if in.EnableServer != nil {
in, out := &in.EnableServer, &out.EnableServer
*out = new(bool)
**out = **in
} else {
out.EnableServer = nil
}
out.Address = in.Address
out.Port = in.Port
out.ReadOnlyPort = in.ReadOnlyPort
out.TLSCertFile = in.TLSCertFile
out.TLSPrivateKeyFile = in.TLSPrivateKeyFile
out.CertDirectory = in.CertDirectory
if err := DeepCopy_v1alpha1_KubeletAuthentication(&in.Authentication, &out.Authentication, c); err != nil {
return err
}
out.Authorization = in.Authorization
out.HostnameOverride = in.HostnameOverride
out.PodInfraContainerImage = in.PodInfraContainerImage
out.DockerEndpoint = in.DockerEndpoint
out.RootDirectory = in.RootDirectory
out.SeccompProfileRoot = in.SeccompProfileRoot
if in.AllowPrivileged != nil {
in, out := &in.AllowPrivileged, &out.AllowPrivileged
*out = new(bool)
**out = **in
} else {
out.AllowPrivileged = nil
}
if in.HostNetworkSources != nil {
in, out := &in.HostNetworkSources, &out.HostNetworkSources
*out = make([]string, len(*in))
copy(*out, *in)
} else {
out.HostNetworkSources = nil
}
if in.HostPIDSources != nil {
in, out := &in.HostPIDSources, &out.HostPIDSources
*out = make([]string, len(*in))
copy(*out, *in)
} else {
out.HostPIDSources = nil
}
if in.HostIPCSources != nil {
in, out := &in.HostIPCSources, &out.HostIPCSources
*out = make([]string, len(*in))
copy(*out, *in)
} else {
out.HostIPCSources = nil
}
if in.RegistryPullQPS != nil {
in, out := &in.RegistryPullQPS, &out.RegistryPullQPS
*out = new(int32)
**out = **in
} else {
out.RegistryPullQPS = nil
}
out.RegistryBurst = in.RegistryBurst
if in.EventRecordQPS != nil {
in, out := &in.EventRecordQPS, &out.EventRecordQPS
*out = new(int32)
**out = **in
} else {
out.EventRecordQPS = nil
}
out.EventBurst = in.EventBurst
if in.EnableDebuggingHandlers != nil {
in, out := &in.EnableDebuggingHandlers, &out.EnableDebuggingHandlers
*out = new(bool)
**out = **in
} else {
out.EnableDebuggingHandlers = nil
}
out.MinimumGCAge = in.MinimumGCAge
out.MaxPerPodContainerCount = in.MaxPerPodContainerCount
if in.MaxContainerCount != nil {
in, out := &in.MaxContainerCount, &out.MaxContainerCount
*out = new(int32)
**out = **in
} else {
out.MaxContainerCount = nil
}
out.CAdvisorPort = in.CAdvisorPort
out.HealthzPort = in.HealthzPort
out.HealthzBindAddress = in.HealthzBindAddress
if in.OOMScoreAdj != nil {
in, out := &in.OOMScoreAdj, &out.OOMScoreAdj
*out = new(int32)
**out = **in
} else {
out.OOMScoreAdj = nil
}
if in.RegisterNode != nil {
in, out := &in.RegisterNode, &out.RegisterNode
*out = new(bool)
**out = **in
} else {
out.RegisterNode = nil
}
out.ClusterDomain = in.ClusterDomain
out.MasterServiceNamespace = in.MasterServiceNamespace
out.ClusterDNS = in.ClusterDNS
out.StreamingConnectionIdleTimeout = in.StreamingConnectionIdleTimeout
out.NodeStatusUpdateFrequency = in.NodeStatusUpdateFrequency
out.ImageMinimumGCAge = in.ImageMinimumGCAge
if in.ImageGCHighThresholdPercent != nil {
in, out := &in.ImageGCHighThresholdPercent, &out.ImageGCHighThresholdPercent
*out = new(int32)
**out = **in
} else {
out.ImageGCHighThresholdPercent = nil
}
if in.ImageGCLowThresholdPercent != nil {
in, out := &in.ImageGCLowThresholdPercent, &out.ImageGCLowThresholdPercent
*out = new(int32)
**out = **in
} else {
out.ImageGCLowThresholdPercent = nil
}
out.LowDiskSpaceThresholdMB = in.LowDiskSpaceThresholdMB
out.VolumeStatsAggPeriod = in.VolumeStatsAggPeriod
out.NetworkPluginName = in.NetworkPluginName
out.NetworkPluginDir = in.NetworkPluginDir
out.CNIConfDir = in.CNIConfDir
out.CNIBinDir = in.CNIBinDir
out.NetworkPluginMTU = in.NetworkPluginMTU
out.VolumePluginDir = in.VolumePluginDir
out.CloudProvider = in.CloudProvider
out.CloudConfigFile = in.CloudConfigFile
out.KubeletCgroups = in.KubeletCgroups
out.RuntimeCgroups = in.RuntimeCgroups
out.SystemCgroups = in.SystemCgroups
out.CgroupRoot = in.CgroupRoot
if in.ExperimentalCgroupsPerQOS != nil {
in, out := &in.ExperimentalCgroupsPerQOS, &out.ExperimentalCgroupsPerQOS
*out = new(bool)
**out = **in
} else {
out.ExperimentalCgroupsPerQOS = nil
}
out.CgroupDriver = in.CgroupDriver
out.ContainerRuntime = in.ContainerRuntime
out.RemoteRuntimeEndpoint = in.RemoteRuntimeEndpoint
out.RemoteImageEndpoint = in.RemoteImageEndpoint
out.RuntimeRequestTimeout = in.RuntimeRequestTimeout
out.RktPath = in.RktPath
out.ExperimentalMounterPath = in.ExperimentalMounterPath
out.RktAPIEndpoint = in.RktAPIEndpoint
out.RktStage1Image = in.RktStage1Image
if in.LockFilePath != nil {
in, out := &in.LockFilePath, &out.LockFilePath
*out = new(string)
**out = **in
} else {
out.LockFilePath = nil
}
out.ExitOnLockContention = in.ExitOnLockContention
out.HairpinMode = in.HairpinMode
out.BabysitDaemons = in.BabysitDaemons
out.MaxPods = in.MaxPods
out.NvidiaGPUs = in.NvidiaGPUs
out.DockerExecHandlerName = in.DockerExecHandlerName
out.PodCIDR = in.PodCIDR
out.ResolverConfig = in.ResolverConfig
if in.CPUCFSQuota != nil {
in, out := &in.CPUCFSQuota, &out.CPUCFSQuota
*out = new(bool)
**out = **in
} else {
out.CPUCFSQuota = nil
}
if in.Containerized != nil {
in, out := &in.Containerized, &out.Containerized
*out = new(bool)
**out = **in
} else {
out.Containerized = nil
}
out.MaxOpenFiles = in.MaxOpenFiles
if in.ReconcileCIDR != nil {
in, out := &in.ReconcileCIDR, &out.ReconcileCIDR
*out = new(bool)
**out = **in
} else {
out.ReconcileCIDR = nil
}
if in.RegisterSchedulable != nil {
in, out := &in.RegisterSchedulable, &out.RegisterSchedulable
*out = new(bool)
**out = **in
} else {
out.RegisterSchedulable = nil
}
out.ContentType = in.ContentType
if in.KubeAPIQPS != nil {
in, out := &in.KubeAPIQPS, &out.KubeAPIQPS
*out = new(int32)
**out = **in
} else {
out.KubeAPIQPS = nil
}
out.KubeAPIBurst = in.KubeAPIBurst
if in.SerializeImagePulls != nil {
in, out := &in.SerializeImagePulls, &out.SerializeImagePulls
*out = new(bool)
**out = **in
} else {
out.SerializeImagePulls = nil
}
out.OutOfDiskTransitionFrequency = in.OutOfDiskTransitionFrequency
out.NodeIP = in.NodeIP
if in.NodeLabels != nil {
in, out := &in.NodeLabels, &out.NodeLabels
*out = make(map[string]string)
for key, val := range *in {
(*out)[key] = val
}
} else {
out.NodeLabels = nil
}
out.NonMasqueradeCIDR = in.NonMasqueradeCIDR
out.EnableCustomMetrics = in.EnableCustomMetrics
if in.EvictionHard != nil {
in, out := &in.EvictionHard, &out.EvictionHard
*out = new(string)
**out = **in
} else {
out.EvictionHard = nil
}
out.EvictionSoft = in.EvictionSoft
out.EvictionSoftGracePeriod = in.EvictionSoftGracePeriod
out.EvictionPressureTransitionPeriod = in.EvictionPressureTransitionPeriod
out.EvictionMaxPodGracePeriod = in.EvictionMaxPodGracePeriod
out.EvictionMinimumReclaim = in.EvictionMinimumReclaim
if in.ExperimentalKernelMemcgNotification != nil {
in, out := &in.ExperimentalKernelMemcgNotification, &out.ExperimentalKernelMemcgNotification
*out = new(bool)
**out = **in
} else {
out.ExperimentalKernelMemcgNotification = nil
}
out.PodsPerCore = in.PodsPerCore
if in.EnableControllerAttachDetach != nil {
in, out := &in.EnableControllerAttachDetach, &out.EnableControllerAttachDetach
*out = new(bool)
**out = **in
} else {
out.EnableControllerAttachDetach = nil
}
if in.SystemReserved != nil {
in, out := &in.SystemReserved, &out.SystemReserved
*out = make(map[string]string)
for key, val := range *in {
(*out)[key] = val
}
} else {
out.SystemReserved = nil
}
if in.KubeReserved != nil {
in, out := &in.KubeReserved, &out.KubeReserved
*out = make(map[string]string)
for key, val := range *in {
(*out)[key] = val
}
} else {
out.KubeReserved = nil
}
out.ProtectKernelDefaults = in.ProtectKernelDefaults
if in.MakeIPTablesUtilChains != nil {
in, out := &in.MakeIPTablesUtilChains, &out.MakeIPTablesUtilChains
*out = new(bool)
**out = **in
} else {
out.MakeIPTablesUtilChains = nil
}
if in.IPTablesMasqueradeBit != nil {
in, out := &in.IPTablesMasqueradeBit, &out.IPTablesMasqueradeBit
*out = new(int32)
**out = **in
} else {
out.IPTablesMasqueradeBit = nil
}
if in.IPTablesDropBit != nil {
in, out := &in.IPTablesDropBit, &out.IPTablesDropBit
*out = new(int32)
**out = **in
} else {
out.IPTablesDropBit = nil
}
if in.AllowedUnsafeSysctls != nil {
in, out := &in.AllowedUnsafeSysctls, &out.AllowedUnsafeSysctls
*out = make([]string, len(*in))
copy(*out, *in)
} else {
out.AllowedUnsafeSysctls = nil
}
out.FeatureGates = in.FeatureGates
out.EnableCRI = in.EnableCRI
out.ExperimentalFailSwapOn = in.ExperimentalFailSwapOn
out.ExperimentalCheckNodeCapabilitiesBeforeMount = in.ExperimentalCheckNodeCapabilitiesBeforeMount
return nil
}
}
func DeepCopy_v1alpha1_KubeletWebhookAuthentication(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletWebhookAuthentication)
out := out.(*KubeletWebhookAuthentication)
if in.Enabled != nil {
in, out := &in.Enabled, &out.Enabled
*out = new(bool)
**out = **in
} else {
out.Enabled = nil
}
out.CacheTTL = in.CacheTTL
return nil
}
}
func DeepCopy_v1alpha1_KubeletWebhookAuthorization(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletWebhookAuthorization)
out := out.(*KubeletWebhookAuthorization)
out.CacheAuthorizedTTL = in.CacheAuthorizedTTL
out.CacheUnauthorizedTTL = in.CacheUnauthorizedTTL
return nil
}
}
func DeepCopy_v1alpha1_KubeletX509Authentication(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletX509Authentication)
out := out.(*KubeletX509Authentication)
out.ClientCAFile = in.ClientCAFile
return nil
}
}
func DeepCopy_v1alpha1_LeaderElectionConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*LeaderElectionConfiguration)
out := out.(*LeaderElectionConfiguration)
if in.LeaderElect != nil {
in, out := &in.LeaderElect, &out.LeaderElect
*out = new(bool)
**out = **in
} else {
out.LeaderElect = nil
}
out.LeaseDuration = in.LeaseDuration
out.RenewDeadline = in.RenewDeadline
out.RetryPeriod = in.RetryPeriod
return nil
}
}

48
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/v1alpha1/zz_generated.defaults.go generated vendored
View file

@ -1,48 +0,0 @@
// +build !ignore_autogenerated
/*
Copyright 2016 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.
*/
// This file was autogenerated by defaulter-gen. Do not edit it manually!
package v1alpha1
import (
runtime "k8s.io/kubernetes/pkg/runtime"
)
// RegisterDefaults adds defaulters functions to the given scheme.
// Public to allow building arbitrary schemes.
// All generated defaulters are covering - they call all nested defaulters.
func RegisterDefaults(scheme *runtime.Scheme) error {
scheme.AddTypeDefaultingFunc(&KubeProxyConfiguration{}, func(obj interface{}) { SetObjectDefaults_KubeProxyConfiguration(obj.(*KubeProxyConfiguration)) })
scheme.AddTypeDefaultingFunc(&KubeSchedulerConfiguration{}, func(obj interface{}) { SetObjectDefaults_KubeSchedulerConfiguration(obj.(*KubeSchedulerConfiguration)) })
scheme.AddTypeDefaultingFunc(&KubeletConfiguration{}, func(obj interface{}) { SetObjectDefaults_KubeletConfiguration(obj.(*KubeletConfiguration)) })
return nil
}
func SetObjectDefaults_KubeProxyConfiguration(in *KubeProxyConfiguration) {
SetDefaults_KubeProxyConfiguration(in)
}
func SetObjectDefaults_KubeSchedulerConfiguration(in *KubeSchedulerConfiguration) {
SetDefaults_KubeSchedulerConfiguration(in)
SetDefaults_LeaderElectionConfiguration(&in.LeaderElection)
}
func SetObjectDefaults_KubeletConfiguration(in *KubeletConfiguration) {
SetDefaults_KubeletConfiguration(in)
}

482
vendor/k8s.io/kubernetes/pkg/apis/componentconfig/zz_generated.deepcopy.go generated vendored
View file

@ -1,482 +0,0 @@
// +build !ignore_autogenerated
/*
Copyright 2016 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.
*/
// This file was autogenerated by deepcopy-gen. Do not edit it manually!
package componentconfig
import (
conversion "k8s.io/kubernetes/pkg/conversion"
runtime "k8s.io/kubernetes/pkg/runtime"
config "k8s.io/kubernetes/pkg/util/config"
reflect "reflect"
)
func init() {
SchemeBuilder.Register(RegisterDeepCopies)
}
// RegisterDeepCopies adds deep-copy functions to the given scheme. Public
// to allow building arbitrary schemes.
func RegisterDeepCopies(scheme *runtime.Scheme) error {
return scheme.AddGeneratedDeepCopyFuncs(
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_IPVar, InType: reflect.TypeOf(&IPVar{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_KubeControllerManagerConfiguration, InType: reflect.TypeOf(&KubeControllerManagerConfiguration{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_KubeProxyConfiguration, InType: reflect.TypeOf(&KubeProxyConfiguration{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_KubeSchedulerConfiguration, InType: reflect.TypeOf(&KubeSchedulerConfiguration{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_KubeletAnonymousAuthentication, InType: reflect.TypeOf(&KubeletAnonymousAuthentication{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_KubeletAuthentication, InType: reflect.TypeOf(&KubeletAuthentication{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_KubeletAuthorization, InType: reflect.TypeOf(&KubeletAuthorization{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_KubeletConfiguration, InType: reflect.TypeOf(&KubeletConfiguration{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_KubeletWebhookAuthentication, InType: reflect.TypeOf(&KubeletWebhookAuthentication{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_KubeletWebhookAuthorization, InType: reflect.TypeOf(&KubeletWebhookAuthorization{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_KubeletX509Authentication, InType: reflect.TypeOf(&KubeletX509Authentication{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_LeaderElectionConfiguration, InType: reflect.TypeOf(&LeaderElectionConfiguration{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_PersistentVolumeRecyclerConfiguration, InType: reflect.TypeOf(&PersistentVolumeRecyclerConfiguration{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_PortRangeVar, InType: reflect.TypeOf(&PortRangeVar{})},
conversion.GeneratedDeepCopyFunc{Fn: DeepCopy_componentconfig_VolumeConfiguration, InType: reflect.TypeOf(&VolumeConfiguration{})},
)
}
func DeepCopy_componentconfig_IPVar(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*IPVar)
out := out.(*IPVar)
if in.Val != nil {
in, out := &in.Val, &out.Val
*out = new(string)
**out = **in
} else {
out.Val = nil
}
return nil
}
}
func DeepCopy_componentconfig_KubeControllerManagerConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeControllerManagerConfiguration)
out := out.(*KubeControllerManagerConfiguration)
out.TypeMeta = in.TypeMeta
out.Port = in.Port
out.Address = in.Address
out.UseServiceAccountCredentials = in.UseServiceAccountCredentials
out.CloudProvider = in.CloudProvider
out.CloudConfigFile = in.CloudConfigFile
out.ConcurrentEndpointSyncs = in.ConcurrentEndpointSyncs
out.ConcurrentRSSyncs = in.ConcurrentRSSyncs
out.ConcurrentRCSyncs = in.ConcurrentRCSyncs
out.ConcurrentServiceSyncs = in.ConcurrentServiceSyncs
out.ConcurrentResourceQuotaSyncs = in.ConcurrentResourceQuotaSyncs
out.ConcurrentDeploymentSyncs = in.ConcurrentDeploymentSyncs
out.ConcurrentDaemonSetSyncs = in.ConcurrentDaemonSetSyncs
out.ConcurrentJobSyncs = in.ConcurrentJobSyncs
out.ConcurrentNamespaceSyncs = in.ConcurrentNamespaceSyncs
out.ConcurrentSATokenSyncs = in.ConcurrentSATokenSyncs
out.LookupCacheSizeForRC = in.LookupCacheSizeForRC
out.LookupCacheSizeForRS = in.LookupCacheSizeForRS
out.LookupCacheSizeForDaemonSet = in.LookupCacheSizeForDaemonSet
out.ServiceSyncPeriod = in.ServiceSyncPeriod
out.NodeSyncPeriod = in.NodeSyncPeriod
out.RouteReconciliationPeriod = in.RouteReconciliationPeriod
out.ResourceQuotaSyncPeriod = in.ResourceQuotaSyncPeriod
out.NamespaceSyncPeriod = in.NamespaceSyncPeriod
out.PVClaimBinderSyncPeriod = in.PVClaimBinderSyncPeriod
out.MinResyncPeriod = in.MinResyncPeriod
out.TerminatedPodGCThreshold = in.TerminatedPodGCThreshold
out.HorizontalPodAutoscalerSyncPeriod = in.HorizontalPodAutoscalerSyncPeriod
out.DeploymentControllerSyncPeriod = in.DeploymentControllerSyncPeriod
out.PodEvictionTimeout = in.PodEvictionTimeout
out.DeletingPodsQps = in.DeletingPodsQps
out.DeletingPodsBurst = in.DeletingPodsBurst
out.NodeMonitorGracePeriod = in.NodeMonitorGracePeriod
out.RegisterRetryCount = in.RegisterRetryCount
out.NodeStartupGracePeriod = in.NodeStartupGracePeriod
out.NodeMonitorPeriod = in.NodeMonitorPeriod
out.ServiceAccountKeyFile = in.ServiceAccountKeyFile
out.ClusterSigningCertFile = in.ClusterSigningCertFile
out.ClusterSigningKeyFile = in.ClusterSigningKeyFile
out.ApproveAllKubeletCSRsForGroup = in.ApproveAllKubeletCSRsForGroup
out.EnableProfiling = in.EnableProfiling
out.ClusterName = in.ClusterName
out.ClusterCIDR = in.ClusterCIDR
out.ServiceCIDR = in.ServiceCIDR
out.NodeCIDRMaskSize = in.NodeCIDRMaskSize
out.AllocateNodeCIDRs = in.AllocateNodeCIDRs
out.ConfigureCloudRoutes = in.ConfigureCloudRoutes
out.RootCAFile = in.RootCAFile
out.ContentType = in.ContentType
out.KubeAPIQPS = in.KubeAPIQPS
out.KubeAPIBurst = in.KubeAPIBurst
out.LeaderElection = in.LeaderElection
out.VolumeConfiguration = in.VolumeConfiguration
out.ControllerStartInterval = in.ControllerStartInterval
out.EnableGarbageCollector = in.EnableGarbageCollector
out.ConcurrentGCSyncs = in.ConcurrentGCSyncs
out.NodeEvictionRate = in.NodeEvictionRate
out.SecondaryNodeEvictionRate = in.SecondaryNodeEvictionRate
out.LargeClusterSizeThreshold = in.LargeClusterSizeThreshold
out.UnhealthyZoneThreshold = in.UnhealthyZoneThreshold
return nil
}
}
func DeepCopy_componentconfig_KubeProxyConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeProxyConfiguration)
out := out.(*KubeProxyConfiguration)
out.TypeMeta = in.TypeMeta
out.BindAddress = in.BindAddress
out.ClusterCIDR = in.ClusterCIDR
out.HealthzBindAddress = in.HealthzBindAddress
out.HealthzPort = in.HealthzPort
out.HostnameOverride = in.HostnameOverride
if in.IPTablesMasqueradeBit != nil {
in, out := &in.IPTablesMasqueradeBit, &out.IPTablesMasqueradeBit
*out = new(int32)
**out = **in
} else {
out.IPTablesMasqueradeBit = nil
}
out.IPTablesSyncPeriod = in.IPTablesSyncPeriod
out.IPTablesMinSyncPeriod = in.IPTablesMinSyncPeriod
out.KubeconfigPath = in.KubeconfigPath
out.MasqueradeAll = in.MasqueradeAll
out.Master = in.Master
if in.OOMScoreAdj != nil {
in, out := &in.OOMScoreAdj, &out.OOMScoreAdj
*out = new(int32)
**out = **in
} else {
out.OOMScoreAdj = nil
}
out.Mode = in.Mode
out.PortRange = in.PortRange
out.ResourceContainer = in.ResourceContainer
out.UDPIdleTimeout = in.UDPIdleTimeout
out.ConntrackMax = in.ConntrackMax
out.ConntrackMaxPerCore = in.ConntrackMaxPerCore
out.ConntrackMin = in.ConntrackMin
out.ConntrackTCPEstablishedTimeout = in.ConntrackTCPEstablishedTimeout
out.ConntrackTCPCloseWaitTimeout = in.ConntrackTCPCloseWaitTimeout
return nil
}
}
func DeepCopy_componentconfig_KubeSchedulerConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeSchedulerConfiguration)
out := out.(*KubeSchedulerConfiguration)
out.TypeMeta = in.TypeMeta
out.Port = in.Port
out.Address = in.Address
out.AlgorithmProvider = in.AlgorithmProvider
out.PolicyConfigFile = in.PolicyConfigFile
out.EnableProfiling = in.EnableProfiling
out.ContentType = in.ContentType
out.KubeAPIQPS = in.KubeAPIQPS
out.KubeAPIBurst = in.KubeAPIBurst
out.SchedulerName = in.SchedulerName
out.HardPodAffinitySymmetricWeight = in.HardPodAffinitySymmetricWeight
out.FailureDomains = in.FailureDomains
out.LeaderElection = in.LeaderElection
return nil
}
}
func DeepCopy_componentconfig_KubeletAnonymousAuthentication(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletAnonymousAuthentication)
out := out.(*KubeletAnonymousAuthentication)
out.Enabled = in.Enabled
return nil
}
}
func DeepCopy_componentconfig_KubeletAuthentication(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletAuthentication)
out := out.(*KubeletAuthentication)
out.X509 = in.X509
out.Webhook = in.Webhook
out.Anonymous = in.Anonymous
return nil
}
}
func DeepCopy_componentconfig_KubeletAuthorization(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletAuthorization)
out := out.(*KubeletAuthorization)
out.Mode = in.Mode
out.Webhook = in.Webhook
return nil
}
}
func DeepCopy_componentconfig_KubeletConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletConfiguration)
out := out.(*KubeletConfiguration)
out.TypeMeta = in.TypeMeta
out.PodManifestPath = in.PodManifestPath
out.SyncFrequency = in.SyncFrequency
out.FileCheckFrequency = in.FileCheckFrequency
out.HTTPCheckFrequency = in.HTTPCheckFrequency
out.ManifestURL = in.ManifestURL
out.ManifestURLHeader = in.ManifestURLHeader
out.EnableServer = in.EnableServer
out.Address = in.Address
out.Port = in.Port
out.ReadOnlyPort = in.ReadOnlyPort
out.TLSCertFile = in.TLSCertFile
out.TLSPrivateKeyFile = in.TLSPrivateKeyFile
out.CertDirectory = in.CertDirectory
out.Authentication = in.Authentication
out.Authorization = in.Authorization
out.HostnameOverride = in.HostnameOverride
out.PodInfraContainerImage = in.PodInfraContainerImage
out.DockerEndpoint = in.DockerEndpoint
out.RootDirectory = in.RootDirectory
out.SeccompProfileRoot = in.SeccompProfileRoot
out.AllowPrivileged = in.AllowPrivileged
if in.HostNetworkSources != nil {
in, out := &in.HostNetworkSources, &out.HostNetworkSources
*out = make([]string, len(*in))
copy(*out, *in)
} else {
out.HostNetworkSources = nil
}
if in.HostPIDSources != nil {
in, out := &in.HostPIDSources, &out.HostPIDSources
*out = make([]string, len(*in))
copy(*out, *in)
} else {
out.HostPIDSources = nil
}
if in.HostIPCSources != nil {
in, out := &in.HostIPCSources, &out.HostIPCSources
*out = make([]string, len(*in))
copy(*out, *in)
} else {
out.HostIPCSources = nil
}
out.RegistryPullQPS = in.RegistryPullQPS
out.RegistryBurst = in.RegistryBurst
out.EventRecordQPS = in.EventRecordQPS
out.EventBurst = in.EventBurst
out.EnableDebuggingHandlers = in.EnableDebuggingHandlers
out.MinimumGCAge = in.MinimumGCAge
out.MaxPerPodContainerCount = in.MaxPerPodContainerCount
out.MaxContainerCount = in.MaxContainerCount
out.CAdvisorPort = in.CAdvisorPort
out.HealthzPort = in.HealthzPort
out.HealthzBindAddress = in.HealthzBindAddress
out.OOMScoreAdj = in.OOMScoreAdj
out.RegisterNode = in.RegisterNode
out.ClusterDomain = in.ClusterDomain
out.MasterServiceNamespace = in.MasterServiceNamespace
out.ClusterDNS = in.ClusterDNS
out.StreamingConnectionIdleTimeout = in.StreamingConnectionIdleTimeout
out.NodeStatusUpdateFrequency = in.NodeStatusUpdateFrequency
out.ImageMinimumGCAge = in.ImageMinimumGCAge
out.ImageGCHighThresholdPercent = in.ImageGCHighThresholdPercent
out.ImageGCLowThresholdPercent = in.ImageGCLowThresholdPercent
out.LowDiskSpaceThresholdMB = in.LowDiskSpaceThresholdMB
out.VolumeStatsAggPeriod = in.VolumeStatsAggPeriod
out.NetworkPluginName = in.NetworkPluginName
out.NetworkPluginMTU = in.NetworkPluginMTU
out.NetworkPluginDir = in.NetworkPluginDir
out.CNIConfDir = in.CNIConfDir
out.CNIBinDir = in.CNIBinDir
out.VolumePluginDir = in.VolumePluginDir
out.CloudProvider = in.CloudProvider
out.CloudConfigFile = in.CloudConfigFile
out.KubeletCgroups = in.KubeletCgroups
out.ExperimentalCgroupsPerQOS = in.ExperimentalCgroupsPerQOS
out.CgroupDriver = in.CgroupDriver
out.RuntimeCgroups = in.RuntimeCgroups
out.SystemCgroups = in.SystemCgroups
out.CgroupRoot = in.CgroupRoot
out.ContainerRuntime = in.ContainerRuntime
out.RemoteRuntimeEndpoint = in.RemoteRuntimeEndpoint
out.RemoteImageEndpoint = in.RemoteImageEndpoint
out.RuntimeRequestTimeout = in.RuntimeRequestTimeout
out.RktPath = in.RktPath
out.ExperimentalMounterPath = in.ExperimentalMounterPath
out.RktAPIEndpoint = in.RktAPIEndpoint
out.RktStage1Image = in.RktStage1Image
out.LockFilePath = in.LockFilePath
out.ExitOnLockContention = in.ExitOnLockContention
out.HairpinMode = in.HairpinMode
out.BabysitDaemons = in.BabysitDaemons
out.MaxPods = in.MaxPods
out.NvidiaGPUs = in.NvidiaGPUs
out.DockerExecHandlerName = in.DockerExecHandlerName
out.PodCIDR = in.PodCIDR
out.ResolverConfig = in.ResolverConfig
out.CPUCFSQuota = in.CPUCFSQuota
out.Containerized = in.Containerized
out.MaxOpenFiles = in.MaxOpenFiles
out.ReconcileCIDR = in.ReconcileCIDR
out.RegisterSchedulable = in.RegisterSchedulable
out.ContentType = in.ContentType
out.KubeAPIQPS = in.KubeAPIQPS
out.KubeAPIBurst = in.KubeAPIBurst
out.SerializeImagePulls = in.SerializeImagePulls
out.OutOfDiskTransitionFrequency = in.OutOfDiskTransitionFrequency
out.NodeIP = in.NodeIP
if in.NodeLabels != nil {
in, out := &in.NodeLabels, &out.NodeLabels
*out = make(map[string]string)
for key, val := range *in {
(*out)[key] = val
}
} else {
out.NodeLabels = nil
}
out.NonMasqueradeCIDR = in.NonMasqueradeCIDR
out.EnableCustomMetrics = in.EnableCustomMetrics
out.EvictionHard = in.EvictionHard
out.EvictionSoft = in.EvictionSoft
out.EvictionSoftGracePeriod = in.EvictionSoftGracePeriod
out.EvictionPressureTransitionPeriod = in.EvictionPressureTransitionPeriod
out.EvictionMaxPodGracePeriod = in.EvictionMaxPodGracePeriod
out.EvictionMinimumReclaim = in.EvictionMinimumReclaim
out.ExperimentalKernelMemcgNotification = in.ExperimentalKernelMemcgNotification
out.PodsPerCore = in.PodsPerCore
out.EnableControllerAttachDetach = in.EnableControllerAttachDetach
if in.SystemReserved != nil {
in, out := &in.SystemReserved, &out.SystemReserved
*out = make(config.ConfigurationMap)
for key, val := range *in {
(*out)[key] = val
}
} else {
out.SystemReserved = nil
}
if in.KubeReserved != nil {
in, out := &in.KubeReserved, &out.KubeReserved
*out = make(config.ConfigurationMap)
for key, val := range *in {
(*out)[key] = val
}
} else {
out.KubeReserved = nil
}
out.ProtectKernelDefaults = in.ProtectKernelDefaults
out.MakeIPTablesUtilChains = in.MakeIPTablesUtilChains
out.IPTablesMasqueradeBit = in.IPTablesMasqueradeBit
out.IPTablesDropBit = in.IPTablesDropBit
if in.AllowedUnsafeSysctls != nil {
in, out := &in.AllowedUnsafeSysctls, &out.AllowedUnsafeSysctls
*out = make([]string, len(*in))
copy(*out, *in)
} else {
out.AllowedUnsafeSysctls = nil
}
out.FeatureGates = in.FeatureGates
out.EnableCRI = in.EnableCRI
out.ExperimentalFailSwapOn = in.ExperimentalFailSwapOn
out.ExperimentalCheckNodeCapabilitiesBeforeMount = in.ExperimentalCheckNodeCapabilitiesBeforeMount
return nil
}
}
func DeepCopy_componentconfig_KubeletWebhookAuthentication(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletWebhookAuthentication)
out := out.(*KubeletWebhookAuthentication)
out.Enabled = in.Enabled
out.CacheTTL = in.CacheTTL
return nil
}
}
func DeepCopy_componentconfig_KubeletWebhookAuthorization(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletWebhookAuthorization)
out := out.(*KubeletWebhookAuthorization)
out.CacheAuthorizedTTL = in.CacheAuthorizedTTL
out.CacheUnauthorizedTTL = in.CacheUnauthorizedTTL
return nil
}
}
func DeepCopy_componentconfig_KubeletX509Authentication(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*KubeletX509Authentication)
out := out.(*KubeletX509Authentication)
out.ClientCAFile = in.ClientCAFile
return nil
}
}
func DeepCopy_componentconfig_LeaderElectionConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*LeaderElectionConfiguration)
out := out.(*LeaderElectionConfiguration)
out.LeaderElect = in.LeaderElect
out.LeaseDuration = in.LeaseDuration
out.RenewDeadline = in.RenewDeadline
out.RetryPeriod = in.RetryPeriod
return nil
}
}
func DeepCopy_componentconfig_PersistentVolumeRecyclerConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*PersistentVolumeRecyclerConfiguration)
out := out.(*PersistentVolumeRecyclerConfiguration)
out.MaximumRetry = in.MaximumRetry
out.MinimumTimeoutNFS = in.MinimumTimeoutNFS
out.PodTemplateFilePathNFS = in.PodTemplateFilePathNFS
out.IncrementTimeoutNFS = in.IncrementTimeoutNFS
out.PodTemplateFilePathHostPath = in.PodTemplateFilePathHostPath
out.MinimumTimeoutHostPath = in.MinimumTimeoutHostPath
out.IncrementTimeoutHostPath = in.IncrementTimeoutHostPath
return nil
}
}
func DeepCopy_componentconfig_PortRangeVar(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*PortRangeVar)
out := out.(*PortRangeVar)
if in.Val != nil {
in, out := &in.Val, &out.Val
*out = new(string)
**out = **in
} else {
out.Val = nil
}
return nil
}
}
func DeepCopy_componentconfig_VolumeConfiguration(in interface{}, out interface{}, c *conversion.Cloner) error {
{
in := in.(*VolumeConfiguration)
out := out.(*VolumeConfiguration)
out.EnableHostPathProvisioning = in.EnableHostPathProvisioning
out.EnableDynamicProvisioning = in.EnableDynamicProvisioning
out.PersistentVolumeRecyclerConfiguration = in.PersistentVolumeRecyclerConfiguration
out.FlexVolumePluginDir = in.FlexVolumePluginDir
return nil
}
}