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Merge pull request #120716 from xrstf/fix-typos

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Fix typos
This commit is contained in:
Kubernetes Prow Robot
2023-09-30 00:25:56 -07:00
committed by GitHub
parent 3e9f2f4d65 b59d4afd14
commit 622509830c
38 changed files with 68 additions and 68 deletions
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8
api/openapi-spec/swagger.json generated
View File

@@ -11094,7 +11094,7 @@
"type": "string" "type": "string"
}, },
"name": { "name": {
"description": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", "description": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
"type": "string" "type": "string"
}, },
"port": { "port": {
@@ -11558,7 +11558,7 @@
"description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n - How are requests for this priority level limited?\n - What should be done with requests that exceed the limit?", "description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n - How are requests for this priority level limited?\n - What should be done with requests that exceed the limit?",
"properties": { "properties": {
"assuredConcurrencyShares": { "assuredConcurrencyShares": {
"description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.", "description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },
@@ -14640,7 +14640,7 @@
"type": "string" "type": "string"
}, },
"podInfoOnMount": { "podInfoOnMount": {
"description": "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.", "description": "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeContext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.",
"type": "boolean" "type": "boolean"
}, },
"requiresRepublish": { "requiresRepublish": {
@@ -17270,7 +17270,7 @@
"type": "string" "type": "string"
}, },
"groupPriorityMinimum": { "groupPriorityMinimum": {
"description": "GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s", "description": "GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },

2
api/openapi-spec/v3/apis__apiregistration.k8s.io__v1_openapi.json
View File

@@ -1259,7 +1259,7 @@
}, },
"groupPriorityMinimum": { "groupPriorityMinimum": {
"default": 0, "default": 0,
"description": "GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s", "description": "GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },

2
api/openapi-spec/v3/apis__discovery.k8s.io__v1_openapi.json
View File

@@ -144,7 +144,7 @@
"type": "string" "type": "string"
}, },
"name": { "name": {
"description": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", "description": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
"type": "string" "type": "string"
}, },
"port": { "port": {

2
api/openapi-spec/v3/apis__flowcontrol.apiserver.k8s.io__v1beta2_openapi.json
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@@ -271,7 +271,7 @@
"properties": { "properties": {
"assuredConcurrencyShares": { "assuredConcurrencyShares": {
"default": 0, "default": 0,
"description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.", "description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },

2
api/openapi-spec/v3/apis__storage.k8s.io__v1_openapi.json
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@@ -1273,7 +1273,7 @@
"type": "string" "type": "string"
}, },
"podInfoOnMount": { "podInfoOnMount": {
"description": "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.", "description": "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeContext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.",
"type": "boolean" "type": "boolean"
}, },
"requiresRepublish": { "requiresRepublish": {

4
pkg/api/pod/util_test.go
View File

@@ -585,8 +585,8 @@ func TestDropFSGroupFields(t *testing.T) {
t.Errorf("for %s, expected fsGroupChangepolicy found none", podInfo.description) t.Errorf("for %s, expected fsGroupChangepolicy found none", podInfo.description)
} }
} else { } else {
secConext := newPod.Spec.SecurityContext secContext := newPod.Spec.SecurityContext
if secConext != nil && secConext.FSGroupChangePolicy != nil { if secContext != nil && secContext.FSGroupChangePolicy != nil {
t.Errorf("for %s, unexpected fsGroupChangepolicy set", podInfo.description) t.Errorf("for %s, unexpected fsGroupChangepolicy set", podInfo.description)
} }
} }

2
pkg/apis/storage/types.go
View File

@@ -303,7 +303,7 @@ type CSIDriverSpec struct {
// NodePublishVolume() calls. // NodePublishVolume() calls.
// The CSI driver is responsible for parsing and validating the information // The CSI driver is responsible for parsing and validating the information
// passed in as VolumeContext. // passed in as VolumeContext.
// The following VolumeConext will be passed if podInfoOnMount is set to true. // The following VolumeContext will be passed if podInfoOnMount is set to true.
// This list might grow, but the prefix will be used. // This list might grow, but the prefix will be used.
// "csi.storage.k8s.io/pod.name": pod.Name // "csi.storage.k8s.io/pod.name": pod.Name
// "csi.storage.k8s.io/pod.namespace": pod.Namespace // "csi.storage.k8s.io/pod.namespace": pod.Namespace

2
pkg/controller/endpointslice/endpointslice_controller.go
View File

@@ -60,7 +60,7 @@ const (
// 1s, 2s, 4s, 8s, 16s, 32s, 64s, 128s, 256s, 512s, 1000s (max) // 1s, 2s, 4s, 8s, 16s, 32s, 64s, 128s, 256s, 512s, 1000s (max)
maxRetries = 15 maxRetries = 15
// endpointSliceChangeMinSyncDelay indicates the mininum delay before // endpointSliceChangeMinSyncDelay indicates the minimum delay before
// queuing a syncService call after an EndpointSlice changes. If // queuing a syncService call after an EndpointSlice changes. If
// endpointUpdatesBatchPeriod is greater than this value, it will be used // endpointUpdatesBatchPeriod is greater than this value, it will be used
// instead. This helps batch processing of changes to multiple // instead. This helps batch processing of changes to multiple

16
pkg/generated/openapi/zz_generated.openapi.go generated
View File

@@ -29755,7 +29755,7 @@ func schema_k8sio_api_discovery_v1_EndpointPort(ref common.ReferenceCallback) co
Properties: map[string]spec.Schema{ Properties: map[string]spec.Schema{
"name": { "name": {
SchemaProps: spec.SchemaProps{ SchemaProps: spec.SchemaProps{
Description: "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", Description: "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
Type: []string{"string"}, Type: []string{"string"},
Format: "", Format: "",
}, },
@@ -30112,7 +30112,7 @@ func schema_k8sio_api_discovery_v1beta1_EndpointPort(ref common.ReferenceCallbac
Properties: map[string]spec.Schema{ Properties: map[string]spec.Schema{
"name": { "name": {
SchemaProps: spec.SchemaProps{ SchemaProps: spec.SchemaProps{
Description: "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", Description: "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
Type: []string{"string"}, Type: []string{"string"},
Format: "", Format: "",
}, },
@@ -33149,7 +33149,7 @@ func schema_k8sio_api_flowcontrol_v1beta1_LimitedPriorityLevelConfiguration(ref
Properties: map[string]spec.Schema{ Properties: map[string]spec.Schema{
"assuredConcurrencyShares": { "assuredConcurrencyShares": {
SchemaProps: spec.SchemaProps{ SchemaProps: spec.SchemaProps{
Description: "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.", Description: "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.",
Default: 0, Default: 0,
Type: []string{"integer"}, Type: []string{"integer"},
Format: "int32", Format: "int32",
@@ -34182,7 +34182,7 @@ func schema_k8sio_api_flowcontrol_v1beta2_LimitedPriorityLevelConfiguration(ref
Properties: map[string]spec.Schema{ Properties: map[string]spec.Schema{
"assuredConcurrencyShares": { "assuredConcurrencyShares": {
SchemaProps: spec.SchemaProps{ SchemaProps: spec.SchemaProps{
Description: "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.", Description: "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.",
Default: 0, Default: 0,
Type: []string{"integer"}, Type: []string{"integer"},
Format: "int32", Format: "int32",
@@ -42446,7 +42446,7 @@ func schema_k8sio_api_storage_v1_CSIDriverSpec(ref common.ReferenceCallback) com
}, },
"podInfoOnMount": { "podInfoOnMount": {
SchemaProps: spec.SchemaProps{ SchemaProps: spec.SchemaProps{
Description: "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.", Description: "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeContext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.",
Type: []string{"boolean"}, Type: []string{"boolean"},
Format: "", Format: "",
}, },
@@ -43783,7 +43783,7 @@ func schema_k8sio_api_storage_v1beta1_CSIDriverSpec(ref common.ReferenceCallback
}, },
"podInfoOnMount": { "podInfoOnMount": {
SchemaProps: spec.SchemaProps{ SchemaProps: spec.SchemaProps{
Description: "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.", Description: "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeContext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.",
Type: []string{"boolean"}, Type: []string{"boolean"},
Format: "", Format: "",
}, },
@@ -51585,7 +51585,7 @@ func schema_pkg_apis_apiregistration_v1_APIServiceSpec(ref common.ReferenceCallb
}, },
"groupPriorityMinimum": { "groupPriorityMinimum": {
SchemaProps: spec.SchemaProps{ SchemaProps: spec.SchemaProps{
Description: "GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s", Description: "GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s",
Default: 0, Default: 0,
Type: []string{"integer"}, Type: []string{"integer"},
Format: "int32", Format: "int32",
@@ -51883,7 +51883,7 @@ func schema_pkg_apis_apiregistration_v1beta1_APIServiceSpec(ref common.Reference
}, },
"groupPriorityMinimum": { "groupPriorityMinimum": {
SchemaProps: spec.SchemaProps{ SchemaProps: spec.SchemaProps{
Description: "GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s", Description: "GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s",
Default: 0, Default: 0,
Type: []string{"integer"}, Type: []string{"integer"},
Format: "int32", Format: "int32",

2
pkg/kubelet/stats/pidlimit/pidlimit_linux.go
View File

@@ -36,7 +36,7 @@ func Stats() (*statsapi.RlimitStats, error) {
rlimit := &statsapi.RlimitStats{} rlimit := &statsapi.RlimitStats{}
taskMax := int64(-1) taskMax := int64(-1)
// Calculate the mininum of kernel.pid_max and kernel.threads-max as they both specify the // Calculate the minimum of kernel.pid_max and kernel.threads-max as they both specify the
// system-wide limit on the number of tasks. // system-wide limit on the number of tasks.
for _, file := range []string{"/proc/sys/kernel/pid_max", "/proc/sys/kernel/threads-max"} { for _, file := range []string{"/proc/sys/kernel/pid_max", "/proc/sys/kernel/threads-max"} {
if content, err := os.ReadFile(file); err == nil { if content, err := os.ReadFile(file); err == nil {

2
staging/src/k8s.io/api/discovery/v1/generated.proto
View File

@@ -118,7 +118,7 @@ message EndpointHints {
// +structType=atomic // +structType=atomic
message EndpointPort { message EndpointPort {
// name represents the name of this port. All ports in an EndpointSlice must have a unique name. // name represents the name of this port. All ports in an EndpointSlice must have a unique name.
// If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. // If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name.
// Name must either be an empty string or pass DNS_LABEL validation: // Name must either be an empty string or pass DNS_LABEL validation:
// * must be no more than 63 characters long. // * must be no more than 63 characters long.
// * must consist of lower case alphanumeric characters or '-'. // * must consist of lower case alphanumeric characters or '-'.

2
staging/src/k8s.io/api/discovery/v1/types.go
View File

@@ -168,7 +168,7 @@ type ForZone struct {
// +structType=atomic // +structType=atomic
type EndpointPort struct { type EndpointPort struct {
// name represents the name of this port. All ports in an EndpointSlice must have a unique name. // name represents the name of this port. All ports in an EndpointSlice must have a unique name.
// If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. // If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name.
// Name must either be an empty string or pass DNS_LABEL validation: // Name must either be an empty string or pass DNS_LABEL validation:
// * must be no more than 63 characters long. // * must be no more than 63 characters long.
// * must consist of lower case alphanumeric characters or '-'. // * must consist of lower case alphanumeric characters or '-'.

2
staging/src/k8s.io/api/discovery/v1/types_swagger_doc_generated.go generated
View File

@@ -65,7 +65,7 @@ func (EndpointHints) SwaggerDoc() map[string]string {
var map_EndpointPort = map[string]string{ var map_EndpointPort = map[string]string{
"": "EndpointPort represents a Port used by an EndpointSlice", "": "EndpointPort represents a Port used by an EndpointSlice",
"name": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", "name": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
"protocol": "protocol represents the IP protocol for this port. Must be UDP, TCP, or SCTP. Default is TCP.", "protocol": "protocol represents the IP protocol for this port. Must be UDP, TCP, or SCTP. Default is TCP.",
"port": "port represents the port number of the endpoint. If this is not specified, ports are not restricted and must be interpreted in the context of the specific consumer.", "port": "port represents the port number of the endpoint. If this is not specified, ports are not restricted and must be interpreted in the context of the specific consumer.",
"appProtocol": "The application protocol for this port. This is used as a hint for implementations to offer richer behavior for protocols that they understand. This field follows standard Kubernetes label syntax. Valid values are either:\n\n* Un-prefixed protocol names - reserved for IANA standard service names (as per RFC-6335 and https://www.iana.org/assignments/service-names).\n\n* Kubernetes-defined prefixed names:\n * 'kubernetes.io/h2c' - HTTP/2 over cleartext as described in https://www.rfc-editor.org/rfc/rfc7540\n * 'kubernetes.io/ws' - WebSocket over cleartext as described in https://www.rfc-editor.org/rfc/rfc6455\n * 'kubernetes.io/wss' - WebSocket over TLS as described in https://www.rfc-editor.org/rfc/rfc6455\n\n* Other protocols should use implementation-defined prefixed names such as mycompany.com/my-custom-protocol.", "appProtocol": "The application protocol for this port. This is used as a hint for implementations to offer richer behavior for protocols that they understand. This field follows standard Kubernetes label syntax. Valid values are either:\n\n* Un-prefixed protocol names - reserved for IANA standard service names (as per RFC-6335 and https://www.iana.org/assignments/service-names).\n\n* Kubernetes-defined prefixed names:\n * 'kubernetes.io/h2c' - HTTP/2 over cleartext as described in https://www.rfc-editor.org/rfc/rfc7540\n * 'kubernetes.io/ws' - WebSocket over cleartext as described in https://www.rfc-editor.org/rfc/rfc6455\n * 'kubernetes.io/wss' - WebSocket over TLS as described in https://www.rfc-editor.org/rfc/rfc6455\n\n* Other protocols should use implementation-defined prefixed names such as mycompany.com/my-custom-protocol.",

2
staging/src/k8s.io/api/discovery/v1beta1/generated.proto
View File

@@ -119,7 +119,7 @@ message EndpointHints {
// EndpointPort represents a Port used by an EndpointSlice // EndpointPort represents a Port used by an EndpointSlice
message EndpointPort { message EndpointPort {
// name represents the name of this port. All ports in an EndpointSlice must have a unique name. // name represents the name of this port. All ports in an EndpointSlice must have a unique name.
// If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. // If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name.
// Name must either be an empty string or pass DNS_LABEL validation: // Name must either be an empty string or pass DNS_LABEL validation:
// * must be no more than 63 characters long. // * must be no more than 63 characters long.
// * must consist of lower case alphanumeric characters or '-'. // * must consist of lower case alphanumeric characters or '-'.

2
staging/src/k8s.io/api/discovery/v1beta1/types.go
View File

@@ -172,7 +172,7 @@ type ForZone struct {
// EndpointPort represents a Port used by an EndpointSlice // EndpointPort represents a Port used by an EndpointSlice
type EndpointPort struct { type EndpointPort struct {
// name represents the name of this port. All ports in an EndpointSlice must have a unique name. // name represents the name of this port. All ports in an EndpointSlice must have a unique name.
// If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. // If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name.
// Name must either be an empty string or pass DNS_LABEL validation: // Name must either be an empty string or pass DNS_LABEL validation:
// * must be no more than 63 characters long. // * must be no more than 63 characters long.
// * must consist of lower case alphanumeric characters or '-'. // * must consist of lower case alphanumeric characters or '-'.

2
staging/src/k8s.io/api/discovery/v1beta1/types_swagger_doc_generated.go generated
View File

@@ -64,7 +64,7 @@ func (EndpointHints) SwaggerDoc() map[string]string {
var map_EndpointPort = map[string]string{ var map_EndpointPort = map[string]string{
"": "EndpointPort represents a Port used by an EndpointSlice", "": "EndpointPort represents a Port used by an EndpointSlice",
"name": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", "name": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
"protocol": "protocol represents the IP protocol for this port. Must be UDP, TCP, or SCTP. Default is TCP.", "protocol": "protocol represents the IP protocol for this port. Must be UDP, TCP, or SCTP. Default is TCP.",
"port": "port represents the port number of the endpoint. If this is not specified, ports are not restricted and must be interpreted in the context of the specific consumer.", "port": "port represents the port number of the endpoint. If this is not specified, ports are not restricted and must be interpreted in the context of the specific consumer.",
"appProtocol": "appProtocol represents the application protocol for this port. This field follows standard Kubernetes label syntax. Un-prefixed names are reserved for IANA standard service names (as per RFC-6335 and https://www.iana.org/assignments/service-names). Non-standard protocols should use prefixed names such as mycompany.com/my-custom-protocol.", "appProtocol": "appProtocol represents the application protocol for this port. This field follows standard Kubernetes label syntax. Un-prefixed names are reserved for IANA standard service names (as per RFC-6335 and https://www.iana.org/assignments/service-names). Non-standard protocols should use prefixed names such as mycompany.com/my-custom-protocol.",

2
staging/src/k8s.io/api/flowcontrol/v1beta1/generated.proto
View File

@@ -192,7 +192,7 @@ message LimitResponse {
message LimitedPriorityLevelConfiguration { message LimitedPriorityLevelConfiguration {
// `assuredConcurrencyShares` (ACS) configures the execution // `assuredConcurrencyShares` (ACS) configures the execution
// limit, which is a limit on the number of requests of this // limit, which is a limit on the number of requests of this
// priority level that may be exeucting at a given time. ACS must // priority level that may be executing at a given time. ACS must
// be a positive number. The server's concurrency limit (SCL) is // be a positive number. The server's concurrency limit (SCL) is
// divided among the concurrency-controlled priority levels in // divided among the concurrency-controlled priority levels in
// proportion to their assured concurrency shares. This produces // proportion to their assured concurrency shares. This produces

2
staging/src/k8s.io/api/flowcontrol/v1beta1/types.go
View File

@@ -466,7 +466,7 @@ const (
type LimitedPriorityLevelConfiguration struct { type LimitedPriorityLevelConfiguration struct {
// `assuredConcurrencyShares` (ACS) configures the execution // `assuredConcurrencyShares` (ACS) configures the execution
// limit, which is a limit on the number of requests of this // limit, which is a limit on the number of requests of this
// priority level that may be exeucting at a given time. ACS must // priority level that may be executing at a given time. ACS must
// be a positive number. The server's concurrency limit (SCL) is // be a positive number. The server's concurrency limit (SCL) is
// divided among the concurrency-controlled priority levels in // divided among the concurrency-controlled priority levels in
// proportion to their assured concurrency shares. This produces // proportion to their assured concurrency shares. This produces

2
staging/src/k8s.io/api/flowcontrol/v1beta1/types_swagger_doc_generated.go generated
View File

@@ -122,7 +122,7 @@ func (LimitResponse) SwaggerDoc() map[string]string {
var map_LimitedPriorityLevelConfiguration = map[string]string{ var map_LimitedPriorityLevelConfiguration = map[string]string{
"": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n - How are requests for this priority level limited?\n - What should be done with requests that exceed the limit?", "": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n - How are requests for this priority level limited?\n - What should be done with requests that exceed the limit?",
"assuredConcurrencyShares": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) ", "assuredConcurrencyShares": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) ",
"limitResponse": "`limitResponse` indicates what to do with requests that can not be executed right now", "limitResponse": "`limitResponse` indicates what to do with requests that can not be executed right now",
"lendablePercent": "`lendablePercent` prescribes the fraction of the level's NominalCL that can be borrowed by other priority levels. The value of this field must be between 0 and 100, inclusive, and it defaults to 0. The number of seats that other levels can borrow from this level, known as this level's LendableConcurrencyLimit (LendableCL), is defined as follows.\n\nLendableCL(i) = round( NominalCL(i) * lendablePercent(i)/100.0 )", "lendablePercent": "`lendablePercent` prescribes the fraction of the level's NominalCL that can be borrowed by other priority levels. The value of this field must be between 0 and 100, inclusive, and it defaults to 0. The number of seats that other levels can borrow from this level, known as this level's LendableConcurrencyLimit (LendableCL), is defined as follows.\n\nLendableCL(i) = round( NominalCL(i) * lendablePercent(i)/100.0 )",
"borrowingLimitPercent": "`borrowingLimitPercent`, if present, configures a limit on how many seats this priority level can borrow from other priority levels. The limit is known as this level's BorrowingConcurrencyLimit (BorrowingCL) and is a limit on the total number of seats that this level may borrow at any one time. This field holds the ratio of that limit to the level's nominal concurrency limit. When this field is non-nil, it must hold a non-negative integer and the limit is calculated as follows.\n\nBorrowingCL(i) = round( NominalCL(i) * borrowingLimitPercent(i)/100.0 )\n\nThe value of this field can be more than 100, implying that this priority level can borrow a number of seats that is greater than its own nominal concurrency limit (NominalCL). When this field is left `nil`, the limit is effectively infinite.", "borrowingLimitPercent": "`borrowingLimitPercent`, if present, configures a limit on how many seats this priority level can borrow from other priority levels. The limit is known as this level's BorrowingConcurrencyLimit (BorrowingCL) and is a limit on the total number of seats that this level may borrow at any one time. This field holds the ratio of that limit to the level's nominal concurrency limit. When this field is non-nil, it must hold a non-negative integer and the limit is calculated as follows.\n\nBorrowingCL(i) = round( NominalCL(i) * borrowingLimitPercent(i)/100.0 )\n\nThe value of this field can be more than 100, implying that this priority level can borrow a number of seats that is greater than its own nominal concurrency limit (NominalCL). When this field is left `nil`, the limit is effectively infinite.",

2
staging/src/k8s.io/api/flowcontrol/v1beta2/generated.proto
View File

@@ -192,7 +192,7 @@ message LimitResponse {
message LimitedPriorityLevelConfiguration { message LimitedPriorityLevelConfiguration {
// `assuredConcurrencyShares` (ACS) configures the execution // `assuredConcurrencyShares` (ACS) configures the execution
// limit, which is a limit on the number of requests of this // limit, which is a limit on the number of requests of this
// priority level that may be exeucting at a given time. ACS must // priority level that may be executing at a given time. ACS must
// be a positive number. The server's concurrency limit (SCL) is // be a positive number. The server's concurrency limit (SCL) is
// divided among the concurrency-controlled priority levels in // divided among the concurrency-controlled priority levels in
// proportion to their assured concurrency shares. This produces // proportion to their assured concurrency shares. This produces

2
staging/src/k8s.io/api/flowcontrol/v1beta2/types.go
View File

@@ -466,7 +466,7 @@ const (
type LimitedPriorityLevelConfiguration struct { type LimitedPriorityLevelConfiguration struct {
// `assuredConcurrencyShares` (ACS) configures the execution // `assuredConcurrencyShares` (ACS) configures the execution
// limit, which is a limit on the number of requests of this // limit, which is a limit on the number of requests of this
// priority level that may be exeucting at a given time. ACS must // priority level that may be executing at a given time. ACS must
// be a positive number. The server's concurrency limit (SCL) is // be a positive number. The server's concurrency limit (SCL) is
// divided among the concurrency-controlled priority levels in // divided among the concurrency-controlled priority levels in
// proportion to their assured concurrency shares. This produces // proportion to their assured concurrency shares. This produces

2
staging/src/k8s.io/api/flowcontrol/v1beta2/types_swagger_doc_generated.go generated
View File

@@ -122,7 +122,7 @@ func (LimitResponse) SwaggerDoc() map[string]string {
var map_LimitedPriorityLevelConfiguration = map[string]string{ var map_LimitedPriorityLevelConfiguration = map[string]string{
"": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n - How are requests for this priority level limited?\n - What should be done with requests that exceed the limit?", "": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n - How are requests for this priority level limited?\n - What should be done with requests that exceed the limit?",
"assuredConcurrencyShares": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) ", "assuredConcurrencyShares": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) ",
"limitResponse": "`limitResponse` indicates what to do with requests that can not be executed right now", "limitResponse": "`limitResponse` indicates what to do with requests that can not be executed right now",
"lendablePercent": "`lendablePercent` prescribes the fraction of the level's NominalCL that can be borrowed by other priority levels. The value of this field must be between 0 and 100, inclusive, and it defaults to 0. The number of seats that other levels can borrow from this level, known as this level's LendableConcurrencyLimit (LendableCL), is defined as follows.\n\nLendableCL(i) = round( NominalCL(i) * lendablePercent(i)/100.0 )", "lendablePercent": "`lendablePercent` prescribes the fraction of the level's NominalCL that can be borrowed by other priority levels. The value of this field must be between 0 and 100, inclusive, and it defaults to 0. The number of seats that other levels can borrow from this level, known as this level's LendableConcurrencyLimit (LendableCL), is defined as follows.\n\nLendableCL(i) = round( NominalCL(i) * lendablePercent(i)/100.0 )",
"borrowingLimitPercent": "`borrowingLimitPercent`, if present, configures a limit on how many seats this priority level can borrow from other priority levels. The limit is known as this level's BorrowingConcurrencyLimit (BorrowingCL) and is a limit on the total number of seats that this level may borrow at any one time. This field holds the ratio of that limit to the level's nominal concurrency limit. When this field is non-nil, it must hold a non-negative integer and the limit is calculated as follows.\n\nBorrowingCL(i) = round( NominalCL(i) * borrowingLimitPercent(i)/100.0 )\n\nThe value of this field can be more than 100, implying that this priority level can borrow a number of seats that is greater than its own nominal concurrency limit (NominalCL). When this field is left `nil`, the limit is effectively infinite.", "borrowingLimitPercent": "`borrowingLimitPercent`, if present, configures a limit on how many seats this priority level can borrow from other priority levels. The limit is known as this level's BorrowingConcurrencyLimit (BorrowingCL) and is a limit on the total number of seats that this level may borrow at any one time. This field holds the ratio of that limit to the level's nominal concurrency limit. When this field is non-nil, it must hold a non-negative integer and the limit is calculated as follows.\n\nBorrowingCL(i) = round( NominalCL(i) * borrowingLimitPercent(i)/100.0 )\n\nThe value of this field can be more than 100, implying that this priority level can borrow a number of seats that is greater than its own nominal concurrency limit (NominalCL). When this field is left `nil`, the limit is effectively infinite.",

2
staging/src/k8s.io/api/storage/v1/generated.proto
View File

@@ -88,7 +88,7 @@ message CSIDriverSpec {
// If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. // If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls.
// The CSI driver is responsible for parsing and validating the information passed in as VolumeContext. // The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.
// //
// The following VolumeConext will be passed if podInfoOnMount is set to true. // The following VolumeContext will be passed if podInfoOnMount is set to true.
// This list might grow, but the prefix will be used. // This list might grow, but the prefix will be used.
// "csi.storage.k8s.io/pod.name": pod.Name // "csi.storage.k8s.io/pod.name": pod.Name
// "csi.storage.k8s.io/pod.namespace": pod.Namespace // "csi.storage.k8s.io/pod.namespace": pod.Namespace

2
staging/src/k8s.io/api/storage/v1/types.go
View File

@@ -291,7 +291,7 @@ type CSIDriverSpec struct {
// If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. // If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls.
// The CSI driver is responsible for parsing and validating the information passed in as VolumeContext. // The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.
// //
// The following VolumeConext will be passed if podInfoOnMount is set to true. // The following VolumeContext will be passed if podInfoOnMount is set to true.
// This list might grow, but the prefix will be used. // This list might grow, but the prefix will be used.
// "csi.storage.k8s.io/pod.name": pod.Name // "csi.storage.k8s.io/pod.name": pod.Name
// "csi.storage.k8s.io/pod.namespace": pod.Namespace // "csi.storage.k8s.io/pod.namespace": pod.Namespace

2
staging/src/k8s.io/api/storage/v1/types_swagger_doc_generated.go generated
View File

@@ -50,7 +50,7 @@ func (CSIDriverList) SwaggerDoc() map[string]string {
var map_CSIDriverSpec = map[string]string{ var map_CSIDriverSpec = map[string]string{
"": "CSIDriverSpec is the specification of a CSIDriver.", "": "CSIDriverSpec is the specification of a CSIDriver.",
"attachRequired": "attachRequired indicates this CSI volume driver requires an attach operation (because it implements the CSI ControllerPublishVolume() method), and that the Kubernetes attach detach controller should call the attach volume interface which checks the volumeattachment status and waits until the volume is attached before proceeding to mounting. The CSI external-attacher coordinates with CSI volume driver and updates the volumeattachment status when the attach operation is complete. If the CSIDriverRegistry feature gate is enabled and the value is specified to false, the attach operation will be skipped. Otherwise the attach operation will be called.\n\nThis field is immutable.", "attachRequired": "attachRequired indicates this CSI volume driver requires an attach operation (because it implements the CSI ControllerPublishVolume() method), and that the Kubernetes attach detach controller should call the attach volume interface which checks the volumeattachment status and waits until the volume is attached before proceeding to mounting. The CSI external-attacher coordinates with CSI volume driver and updates the volumeattachment status when the attach operation is complete. If the CSIDriverRegistry feature gate is enabled and the value is specified to false, the attach operation will be skipped. Otherwise the attach operation will be called.\n\nThis field is immutable.",
"podInfoOnMount": "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.", "podInfoOnMount": "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeContext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.",
"volumeLifecycleModes": "volumeLifecycleModes defines what kind of volumes this CSI volume driver supports. The default if the list is empty is \"Persistent\", which is the usage defined by the CSI specification and implemented in Kubernetes via the usual PV/PVC mechanism.\n\nThe other mode is \"Ephemeral\". In this mode, volumes are defined inline inside the pod spec with CSIVolumeSource and their lifecycle is tied to the lifecycle of that pod. A driver has to be aware of this because it is only going to get a NodePublishVolume call for such a volume.\n\nFor more information about implementing this mode, see https://kubernetes-csi.github.io/docs/ephemeral-local-volumes.html A driver can support one or more of these modes and more modes may be added in the future.\n\nThis field is beta. This field is immutable.", "volumeLifecycleModes": "volumeLifecycleModes defines what kind of volumes this CSI volume driver supports. The default if the list is empty is \"Persistent\", which is the usage defined by the CSI specification and implemented in Kubernetes via the usual PV/PVC mechanism.\n\nThe other mode is \"Ephemeral\". In this mode, volumes are defined inline inside the pod spec with CSIVolumeSource and their lifecycle is tied to the lifecycle of that pod. A driver has to be aware of this because it is only going to get a NodePublishVolume call for such a volume.\n\nFor more information about implementing this mode, see https://kubernetes-csi.github.io/docs/ephemeral-local-volumes.html A driver can support one or more of these modes and more modes may be added in the future.\n\nThis field is beta. This field is immutable.",
"storageCapacity": "storageCapacity indicates that the CSI volume driver wants pod scheduling to consider the storage capacity that the driver deployment will report by creating CSIStorageCapacity objects with capacity information, if set to true.\n\nThe check can be enabled immediately when deploying a driver. In that case, provisioning new volumes with late binding will pause until the driver deployment has published some suitable CSIStorageCapacity object.\n\nAlternatively, the driver can be deployed with the field unset or false and it can be flipped later when storage capacity information has been published.\n\nThis field was immutable in Kubernetes <= 1.22 and now is mutable.", "storageCapacity": "storageCapacity indicates that the CSI volume driver wants pod scheduling to consider the storage capacity that the driver deployment will report by creating CSIStorageCapacity objects with capacity information, if set to true.\n\nThe check can be enabled immediately when deploying a driver. In that case, provisioning new volumes with late binding will pause until the driver deployment has published some suitable CSIStorageCapacity object.\n\nAlternatively, the driver can be deployed with the field unset or false and it can be flipped later when storage capacity information has been published.\n\nThis field was immutable in Kubernetes <= 1.22 and now is mutable.",
"fsGroupPolicy": "fsGroupPolicy defines if the underlying volume supports changing ownership and permission of the volume before being mounted. Refer to the specific FSGroupPolicy values for additional details.\n\nThis field is immutable.\n\nDefaults to ReadWriteOnceWithFSType, which will examine each volume to determine if Kubernetes should modify ownership and permissions of the volume. With the default policy the defined fsGroup will only be applied if a fstype is defined and the volume's access mode contains ReadWriteOnce.", "fsGroupPolicy": "fsGroupPolicy defines if the underlying volume supports changing ownership and permission of the volume before being mounted. Refer to the specific FSGroupPolicy values for additional details.\n\nThis field is immutable.\n\nDefaults to ReadWriteOnceWithFSType, which will examine each volume to determine if Kubernetes should modify ownership and permissions of the volume. With the default policy the defined fsGroup will only be applied if a fstype is defined and the volume's access mode contains ReadWriteOnce.",

2
staging/src/k8s.io/api/storage/v1beta1/generated.proto
View File

@@ -91,7 +91,7 @@ message CSIDriverSpec {
// If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. // If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls.
// The CSI driver is responsible for parsing and validating the information passed in as VolumeContext. // The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.
// //
// The following VolumeConext will be passed if podInfoOnMount is set to true. // The following VolumeContext will be passed if podInfoOnMount is set to true.
// This list might grow, but the prefix will be used. // This list might grow, but the prefix will be used.
// "csi.storage.k8s.io/pod.name": pod.Name // "csi.storage.k8s.io/pod.name": pod.Name
// "csi.storage.k8s.io/pod.namespace": pod.Namespace // "csi.storage.k8s.io/pod.namespace": pod.Namespace

2
staging/src/k8s.io/api/storage/v1beta1/types.go
View File

@@ -311,7 +311,7 @@ type CSIDriverSpec struct {
// If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. // If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls.
// The CSI driver is responsible for parsing and validating the information passed in as VolumeContext. // The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.
// //
// The following VolumeConext will be passed if podInfoOnMount is set to true. // The following VolumeContext will be passed if podInfoOnMount is set to true.
// This list might grow, but the prefix will be used. // This list might grow, but the prefix will be used.
// "csi.storage.k8s.io/pod.name": pod.Name // "csi.storage.k8s.io/pod.name": pod.Name
// "csi.storage.k8s.io/pod.namespace": pod.Namespace // "csi.storage.k8s.io/pod.namespace": pod.Namespace

2
staging/src/k8s.io/api/storage/v1beta1/types_swagger_doc_generated.go generated
View File

@@ -50,7 +50,7 @@ func (CSIDriverList) SwaggerDoc() map[string]string {
var map_CSIDriverSpec = map[string]string{ var map_CSIDriverSpec = map[string]string{
"": "CSIDriverSpec is the specification of a CSIDriver.", "": "CSIDriverSpec is the specification of a CSIDriver.",
"attachRequired": "attachRequired indicates this CSI volume driver requires an attach operation (because it implements the CSI ControllerPublishVolume() method), and that the Kubernetes attach detach controller should call the attach volume interface which checks the volumeattachment status and waits until the volume is attached before proceeding to mounting. The CSI external-attacher coordinates with CSI volume driver and updates the volumeattachment status when the attach operation is complete. If the CSIDriverRegistry feature gate is enabled and the value is specified to false, the attach operation will be skipped. Otherwise the attach operation will be called.\n\nThis field is immutable.", "attachRequired": "attachRequired indicates this CSI volume driver requires an attach operation (because it implements the CSI ControllerPublishVolume() method), and that the Kubernetes attach detach controller should call the attach volume interface which checks the volumeattachment status and waits until the volume is attached before proceeding to mounting. The CSI external-attacher coordinates with CSI volume driver and updates the volumeattachment status when the attach operation is complete. If the CSIDriverRegistry feature gate is enabled and the value is specified to false, the attach operation will be skipped. Otherwise the attach operation will be called.\n\nThis field is immutable.",
"podInfoOnMount": "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.", "podInfoOnMount": "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeContext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.",
"volumeLifecycleModes": "volumeLifecycleModes defines what kind of volumes this CSI volume driver supports. The default if the list is empty is \"Persistent\", which is the usage defined by the CSI specification and implemented in Kubernetes via the usual PV/PVC mechanism.\n\nThe other mode is \"Ephemeral\". In this mode, volumes are defined inline inside the pod spec with CSIVolumeSource and their lifecycle is tied to the lifecycle of that pod. A driver has to be aware of this because it is only going to get a NodePublishVolume call for such a volume.\n\nFor more information about implementing this mode, see https://kubernetes-csi.github.io/docs/ephemeral-local-volumes.html A driver can support one or more of these modes and more modes may be added in the future.\n\nThis field is immutable.", "volumeLifecycleModes": "volumeLifecycleModes defines what kind of volumes this CSI volume driver supports. The default if the list is empty is \"Persistent\", which is the usage defined by the CSI specification and implemented in Kubernetes via the usual PV/PVC mechanism.\n\nThe other mode is \"Ephemeral\". In this mode, volumes are defined inline inside the pod spec with CSIVolumeSource and their lifecycle is tied to the lifecycle of that pod. A driver has to be aware of this because it is only going to get a NodePublishVolume call for such a volume.\n\nFor more information about implementing this mode, see https://kubernetes-csi.github.io/docs/ephemeral-local-volumes.html A driver can support one or more of these modes and more modes may be added in the future.\n\nThis field is immutable.",
"storageCapacity": "storageCapacity indicates that the CSI volume driver wants pod scheduling to consider the storage capacity that the driver deployment will report by creating CSIStorageCapacity objects with capacity information, if set to true.\n\nThe check can be enabled immediately when deploying a driver. In that case, provisioning new volumes with late binding will pause until the driver deployment has published some suitable CSIStorageCapacity object.\n\nAlternatively, the driver can be deployed with the field unset or false and it can be flipped later when storage capacity information has been published.\n\nThis field was immutable in Kubernetes <= 1.22 and now is mutable.", "storageCapacity": "storageCapacity indicates that the CSI volume driver wants pod scheduling to consider the storage capacity that the driver deployment will report by creating CSIStorageCapacity objects with capacity information, if set to true.\n\nThe check can be enabled immediately when deploying a driver. In that case, provisioning new volumes with late binding will pause until the driver deployment has published some suitable CSIStorageCapacity object.\n\nAlternatively, the driver can be deployed with the field unset or false and it can be flipped later when storage capacity information has been published.\n\nThis field was immutable in Kubernetes <= 1.22 and now is mutable.",
"fsGroupPolicy": "fsGroupPolicy defines if the underlying volume supports changing ownership and permission of the volume before being mounted. Refer to the specific FSGroupPolicy values for additional details.\n\nThis field is immutable.\n\nDefaults to ReadWriteOnceWithFSType, which will examine each volume to determine if Kubernetes should modify ownership and permissions of the volume. With the default policy the defined fsGroup will only be applied if a fstype is defined and the volume's access mode contains ReadWriteOnce.", "fsGroupPolicy": "fsGroupPolicy defines if the underlying volume supports changing ownership and permission of the volume before being mounted. Refer to the specific FSGroupPolicy values for additional details.\n\nThis field is immutable.\n\nDefaults to ReadWriteOnceWithFSType, which will examine each volume to determine if Kubernetes should modify ownership and permissions of the volume. With the default policy the defined fsGroup will only be applied if a fstype is defined and the volume's access mode contains ReadWriteOnce.",

8
staging/src/k8s.io/cli-runtime/artifacts/openapi/swagger-with-shared-parameters.json
View File

@@ -10558,7 +10558,7 @@
"type": "string" "type": "string"
}, },
"name": { "name": {
"description": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", "description": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
"type": "string" "type": "string"
}, },
"port": { "port": {
@@ -11022,7 +11022,7 @@
"description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n - How are requests for this priority level limited?\n - What should be done with requests that exceed the limit?", "description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n - How are requests for this priority level limited?\n - What should be done with requests that exceed the limit?",
"properties": { "properties": {
"assuredConcurrencyShares": { "assuredConcurrencyShares": {
"description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.", "description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },
@@ -14104,7 +14104,7 @@
"type": "string" "type": "string"
}, },
"podInfoOnMount": { "podInfoOnMount": {
"description": "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.", "description": "podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.\n\nThe CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.\n\nThe following VolumeContext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.",
"type": "boolean" "type": "boolean"
}, },
"requiresRepublish": { "requiresRepublish": {
@@ -16736,7 +16736,7 @@
"type": "string" "type": "string"
}, },
"groupPriorityMinimum": { "groupPriorityMinimum": {
"description": "GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s", "description": "GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },

12
staging/src/k8s.io/cli-runtime/artifacts/openapi/swagger.json
View File

@@ -10938,7 +10938,7 @@
"type": "string" "type": "string"
}, },
"name": { "name": {
"description": "The name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", "description": "The name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
"type": "string" "type": "string"
}, },
"port": { "port": {
@@ -11140,7 +11140,7 @@
"type": "string" "type": "string"
}, },
"name": { "name": {
"description": "The name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", "description": "The name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
"type": "string" "type": "string"
}, },
"port": { "port": {
@@ -11726,7 +11726,7 @@
"description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n * How are requests for this priority level limited?\n * What should be done with requests that exceed the limit?", "description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n * How are requests for this priority level limited?\n * What should be done with requests that exceed the limit?",
"properties": { "properties": {
"assuredConcurrencyShares": { "assuredConcurrencyShares": {
"description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.", "description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },
@@ -12275,7 +12275,7 @@
"description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n * How are requests for this priority level limited?\n * What should be done with requests that exceed the limit?", "description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n * How are requests for this priority level limited?\n * What should be done with requests that exceed the limit?",
"properties": { "properties": {
"assuredConcurrencyShares": { "assuredConcurrencyShares": {
"description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.", "description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },
@@ -14264,7 +14264,7 @@
"type": "string" "type": "string"
}, },
"podInfoOnMount": { "podInfoOnMount": {
"description": "If set to true, podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations. If set to false, pod information will not be passed on mount. Default is false. The CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext. The following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.", "description": "If set to true, podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations. If set to false, pod information will not be passed on mount. Default is false. The CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext. The following VolumeContext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.\n\nThis field is immutable.",
"type": "boolean" "type": "boolean"
}, },
"requiresRepublish": { "requiresRepublish": {
@@ -16912,7 +16912,7 @@
"type": "string" "type": "string"
}, },
"groupPriorityMinimum": { "groupPriorityMinimum": {
"description": "GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s", "description": "GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },

2
staging/src/k8s.io/client-go/openapi/openapitest/testdata/apis__discovery.k8s.io__v1_openapi.json vendored
View File

@@ -144,7 +144,7 @@
"type": "string" "type": "string"
}, },
"name": { "name": {
"description": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", "description": "name represents the name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
"type": "string" "type": "string"
}, },
"port": { "port": {

2
staging/src/k8s.io/kube-aggregator/pkg/apis/apiregistration/types.go
View File

@@ -65,7 +65,7 @@ type APIServiceSpec struct {
CABundle []byte CABundle []byte
// GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. // GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones.
// Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. // Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority.
// The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). // The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10).
// The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) // The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo)
// We'd recommend something like: *.k8s.io (except extensions) at 18000 and // We'd recommend something like: *.k8s.io (except extensions) at 18000 and

4
staging/src/k8s.io/kube-aggregator/pkg/apis/apiregistration/v1/generated.proto
View File

@@ -102,8 +102,8 @@ message APIServiceSpec {
// +optional // +optional
optional bytes caBundle = 5; optional bytes caBundle = 5;
// GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. // GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones.
// Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. // Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority.
// The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). // The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10).
// The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) // The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo)
// We'd recommend something like: *.k8s.io (except extensions) at 18000 and // We'd recommend something like: *.k8s.io (except extensions) at 18000 and

4
staging/src/k8s.io/kube-aggregator/pkg/apis/apiregistration/v1/types.go
View File

@@ -68,8 +68,8 @@ type APIServiceSpec struct {
// +optional // +optional
CABundle []byte `json:"caBundle,omitempty" protobuf:"bytes,5,opt,name=caBundle"` CABundle []byte `json:"caBundle,omitempty" protobuf:"bytes,5,opt,name=caBundle"`
// GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. // GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones.
// Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. // Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority.
// The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). // The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10).
// The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) // The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo)
// We'd recommend something like: *.k8s.io (except extensions) at 18000 and // We'd recommend something like: *.k8s.io (except extensions) at 18000 and

4
staging/src/k8s.io/kube-aggregator/pkg/apis/apiregistration/v1beta1/generated.proto
View File

@@ -102,8 +102,8 @@ message APIServiceSpec {
// +optional // +optional
optional bytes caBundle = 5; optional bytes caBundle = 5;
// GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. // GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones.
// Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. // Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority.
// The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). // The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10).
// The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) // The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo)
// We'd recommend something like: *.k8s.io (except extensions) at 18000 and // We'd recommend something like: *.k8s.io (except extensions) at 18000 and

4
staging/src/k8s.io/kube-aggregator/pkg/apis/apiregistration/v1beta1/types.go
View File

@@ -71,8 +71,8 @@ type APIServiceSpec struct {
// +optional // +optional
CABundle []byte `json:"caBundle,omitempty" protobuf:"bytes,5,opt,name=caBundle"` CABundle []byte `json:"caBundle,omitempty" protobuf:"bytes,5,opt,name=caBundle"`
// GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. // GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones.
// Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. // Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority.
// The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). // The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10).
// The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) // The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo)
// We'd recommend something like: *.k8s.io (except extensions) at 18000 and // We'd recommend something like: *.k8s.io (except extensions) at 18000 and

4
staging/src/k8s.io/kube-aggregator/pkg/generated/openapi/zz_generated.openapi.go generated
View File

@@ -2724,7 +2724,7 @@ func schema_pkg_apis_apiregistration_v1_APIServiceSpec(ref common.ReferenceCallb
}, },
"groupPriorityMinimum": { "groupPriorityMinimum": {
SchemaProps: spec.SchemaProps{ SchemaProps: spec.SchemaProps{
Description: "GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s", Description: "GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s",
Default: 0, Default: 0,
Type: []string{"integer"}, Type: []string{"integer"},
Format: "int32", Format: "int32",
@@ -3022,7 +3022,7 @@ func schema_pkg_apis_apiregistration_v1beta1_APIServiceSpec(ref common.Reference
}, },
"groupPriorityMinimum": { "groupPriorityMinimum": {
SchemaProps: spec.SchemaProps{ SchemaProps: spec.SchemaProps{
Description: "GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s", Description: "GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s",
Default: 0, Default: 0,
Type: []string{"integer"}, Type: []string{"integer"},
Format: "int32", Format: "int32",

14
staging/src/k8s.io/kubectl/testdata/openapi/swagger.json vendored
View File

@@ -11038,7 +11038,7 @@
"type": "string" "type": "string"
}, },
"name": { "name": {
"description": "The name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is dervied from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.", "description": "The name of this port. All ports in an EndpointSlice must have a unique name. If the EndpointSlice is derived from a Kubernetes service, this corresponds to the Service.ports[].name. Name must either be an empty string or pass DNS_LABEL validation: * must be no more than 63 characters long. * must consist of lower case alphanumeric characters or '-'. * must start and end with an alphanumeric character. Default is empty string.",
"type": "string" "type": "string"
}, },
"port": { "port": {
@@ -11802,7 +11802,7 @@
"description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n * How are requests for this priority level limited?\n * What should be done with requests that exceed the limit?", "description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n * How are requests for this priority level limited?\n * What should be done with requests that exceed the limit?",
"properties": { "properties": {
"assuredConcurrencyShares": { "assuredConcurrencyShares": {
"description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.", "description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },
@@ -12348,7 +12348,7 @@
"description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n * How are requests for this priority level limited?\n * What should be done with requests that exceed the limit?", "description": "LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits. It addresses two issues:\n * How are requests for this priority level limited?\n * What should be done with requests that exceed the limit?",
"properties": { "properties": {
"assuredConcurrencyShares": { "assuredConcurrencyShares": {
"description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.", "description": "`assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be executing at a given time. ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:\n\n ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )\n\nbigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },
@@ -15474,7 +15474,7 @@
"type": "string" "type": "string"
}, },
"podInfoOnMount": { "podInfoOnMount": {
"description": "If set to true, podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations. If set to false, pod information will not be passed on mount. Default is false. The CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext. The following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.", "description": "If set to true, podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations. If set to false, pod information will not be passed on mount. Default is false. The CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext. The following VolumeContext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.",
"type": "boolean" "type": "boolean"
}, },
"requiresRepublish": { "requiresRepublish": {
@@ -16205,7 +16205,7 @@
"type": "string" "type": "string"
}, },
"podInfoOnMount": { "podInfoOnMount": {
"description": "If set to true, podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations. If set to false, pod information will not be passed on mount. Default is false. The CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext. The following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.", "description": "If set to true, podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations. If set to false, pod information will not be passed on mount. Default is false. The CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext. The following VolumeContext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. \"csi.storage.k8s.io/pod.name\": pod.Name \"csi.storage.k8s.io/pod.namespace\": pod.Namespace \"csi.storage.k8s.io/pod.uid\": string(pod.UID) \"csi.storage.k8s.io/ephemeral\": \"true\" if the volume is an ephemeral inline volume\n defined by a CSIVolumeSource, otherwise \"false\"\n\n\"csi.storage.k8s.io/ephemeral\" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the \"Persistent\" and \"Ephemeral\" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.",
"type": "boolean" "type": "boolean"
}, },
"requiresRepublish": { "requiresRepublish": {
@@ -19239,7 +19239,7 @@
"type": "string" "type": "string"
}, },
"groupPriorityMinimum": { "groupPriorityMinimum": {
"description": "GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s", "description": "GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },
@@ -19414,7 +19414,7 @@
"type": "string" "type": "string"
}, },
"groupPriorityMinimum": { "groupPriorityMinimum": {
"description": "GroupPriorityMininum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s", "description": "GroupPriorityMinimum is the priority this group should have at least. Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMinimum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object. (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s",
"format": "int32", "format": "int32",
"type": "integer" "type": "integer"
}, },