Crate k8s_openapi
source · [−]Expand description
Bindings for the Kubernetes client API, generated from the OpenAPI spec.
Each supported version of Kubernetes is represented by a feature name (like v1_9). Only one such feature can be enabled at a time.
These docs have been generated with the v1_23 feature enabled. To see docs for one of the other supported versions, please generate the docs locally with cargo doc --features 'v1_<>'
Examples
Resources
This example creates an instance of api::core::v1::PodSpec with no other properties set, and pretty-prints it.
use k8s_openapi::api::core::v1 as api;
fn main() {
let pod_spec: api::PodSpec = Default::default();
println!("{:#?}", pod_spec);
}Client API
(This requires the api feature to be enabled. The feature is enabled by default. See “Crate features” below for more details.)
This example executes the api::core::v1::Pod::list_namespaced_pod API operation to list all pods inside a namespace.
It demonstrates the common patterns implemented by all API operation functions in this crate:
-
The API function has required parameters and optional parameters. All optional parameters are taken as a single struct with optional fields.
Specifically for the
api::core::v1::Pod::list_namespaced_podoperation, thenamespaceparameter is required and taken by the function itself, while other optional parameters likefield_selectorare fields of theListOptionalstruct. An instance of this struct is taken as the last parameter ofPod::list_namespaced_pod. This struct implsDefaultso that you can just pass inDefault::default()if you don’t want to specify values for any of the optional parameters.Some API operations have a single common type for optional parameters:
- All create API take optional parameters using the
CreateOptionalstruct. - All delete API take optional parameters using the
DeleteOptionalstruct. - All list API take optional parameters using the
ListOptionalstruct. - All patch API take optional parameters using the
PatchOptionalstruct. - All replace API take optional parameters using the
ReplaceOptionalstruct. - All watch API take optional parameters using the
WatchOptionalstruct. - All delete-collection API take optional parameters using the
DeleteOptionalstruct for delete options and theListOptionalstruct for list options.
Other API functions have their own
Optionalstructs with fields corresponding to the specific parameters for those functions, such asapi::core::v1::ReadNamespacedPodOptionalforapi::core::v1::Pod::read_namespaced_pod - All create API take optional parameters using the
-
The function returns an
http::Requestvalue with the URL path, query string, and request body filled out according to the parameters given to the function. The function does not execute this request. You can execute thishttp::Requestusing any HTTP client library you want to use. It does not matter whether you use a synchronous client likereqwest, or an asynchronous client likehyper, or a mock client that returns bytes read from a test file. -
For each API operation function, there is a corresponding response type. For
Pod::list_namespaced_podthis isListResponse<api::core::v1::Pod>. This is an enum with variants for each of the possible HTTP status codes that the operation can return, and contains the data that the API server would return corresponding to that status code. For example, the list-namespaced-pod operation returns a pod list with HTTP 200 OK, so one of the variants of that type isOk(List<api::core::v1::Pod>) -
The response types impl the
Responsetrait, which contains a singleResponse::try_from_partsfunction. This function takes anhttp::StatusCodeand a&u8byte buffer, and tries to parse the byte buffer as the response type. For example, if you executed the request and received an HTTP 200 OK response with some bytes, you could call<ListResponse<Pod> as Response>::try_from_parts(status_code, buf)and expect to getOk(ListResponse::<Pod>::Ok(pod_list))from it.Once again, this design ensures that the crate is not tied to a specific HTTP client library or interface. It does not matter how you execute the HTTP request, nor whether your library is synchronous or asynchronous, since every HTTP client library gives you a way to get the HTTP response status code and the bytes of the response body.
-
The API operation function also returns another value next to the
http::Request. This value is a function that takes anhttp::StatusCodeand returns aResponseBody<ListResponse<Pod>>. As mentioned above,Response::try_from_partsrequires you to maintain a byte buffer for the response body.ResponseBodyis a helper that maintains such a buffer internally. It provides anappend_slice()function to append slices to this internal buffer, and aparse()function to parse the buffer as the expected type (ListResponse<Pod>in this case).It is not necessary to use the
ResponseBodyreturned by the API operation function to parse the response. TheResponseBody::parsefunction is only a wrapper around the underlyingResponse::try_from_partsfunction, and handles growing and shrinking its inner buffer as necessary. It also helps ensure that the response body is parsed as the correct type for the operation,ListResponse<Pod>in this case, and not some other type. However, you can instead use your own byte buffer instead of theResponseBodyvalue and callListResponse<Pod>::try_from_partsyourself. -
The response types are enums with variants corresponding to HTTP status codes. For example, the
ListResponse<Pod>::Okvariant corresponds to the HTTP 200 response of the list-namespaced-pod API.Each response enum also has an
Othervariant, that is yielded when the response status code does not match any of the other variants. This variant has aResult<Option<serde_json::Value>,serde_json::Error>value.If the response body is empty, this value will be
Ok(None).If the response body is not empty, this value will be an
Ok(Some(value))orErr(err)from attempting to parse that body as aserde_json::Value. If you expect the response body to be a specific JSON type such asapimachinery::pkg::apis::meta::v1::Status, you can use theserde_json::Valueas aserde::Deserializerlikelet status = <Status as Deserialize>::deserialize(value)?;. On the other hand, if you expect the response body to not be a JSON value, then ignore theErr(err)and parse the raw bytes of the response into the appropriate type.
Also see the get_single_value and get_multiple_values functions in
the k8s-openapi-tests directory in the repository
for examples of how to use a synchronous client with this style of API.
// Re-export of the http crate since it's used in the public API
use k8s_openapi::http;
use k8s_openapi::api::core::v1 as api;
// Assume `execute` is some function that takes an `http::Request` and
// executes it synchronously or asynchronously to get a response. This is
// provided by your HTTP client library.
//
// Note that the `http::Request` values returned by API operation functions
// only have a URL path, query string and request body filled out. That is,
// they do *not* have a URL host. So the real `execute` implementation
// would first mutate the URL of the request to an absolute URL with
// the API server's authority, add authorization headers, etc before
// actually executing it.
fn execute(req: http::Request<Vec<u8>>) -> Response { unimplemented!(); }
fn main() -> Result<(), Box<dyn std::error::Error>> {
// Create a `http::Request` to list all the pods in the
// "kube-system" namespace.
let (request, response_body) =
api::Pod::list_namespaced_pod("kube-system", Default::default())?;
// Execute the request and get a response.
// If this is an asynchronous operation, you would await
// or otherwise yield to the event loop here.
let response = execute(request);
// Got a status code from executing the request.
let status_code: http::StatusCode = response.status_code();
// Construct the `ResponseBody<ListResponse<Pod>>` using the
// constructor returned by the API function.
let mut response_body = response_body(status_code);
// Buffer used for each read from the HTTP response.
let mut buf = Box::new([0u8; 4096]);
let pod_list = loop {
// Read some bytes from the HTTP response into the buffer.
// If this is an asynchronous operation, you would await or
// yield to the event loop here.
let read = response.read_into(&mut *buf)?;
// `buf` now contains some data read from the response. Append it
// to the `ResponseBody` and try to parse it into
// the response type.
response_body.append_slice(&buf[..read]);
let response = response_body.parse();
match response {
// Successful response (HTTP 200 and parsed successfully)
Ok(k8s_openapi::ListResponse::Ok(pod_list)) =>
break pod_list,
// Some unexpected response
// (not HTTP 200, but still parsed successfully)
Ok(other) => return Err(format!(
"expected Ok but got {} {:?}",
status_code, other).into()),
// Need more response data.
// Read more bytes from the response into the `ResponseBody`
Err(k8s_openapi::ResponseError::NeedMoreData) => continue,
// Some other error, like the response body being
// malformed JSON or invalid UTF-8.
Err(err) => return Err(format!(
"error: {} {:?}",
status_code, err).into()),
}
};
for pod in pod_list.items {
println!("{:#?}", pod);
}
Ok(())
}Crate features
-
This crate contains several
v1_*features. Enabling one of thev1_*features selects which version of the Kubernetes API server this crate should target. For example, enabling thev1_16feature means the crate will only contain the API exposed by Kubernetes 1.16. It will not expose API that were removed in 1.16 or earlier, nor any API added in 1.17 or later. -
The crate also contains a feature named
api. If this feature is disabled, the library will only contain the resource types likeapi::core::v1::Pod, and not the associated operation functions likeapi::core::v1::Pod::read_namespaced_pod. TheResponseandOptionaltypes for the operation functions will also not be accessible.This feature is enabled by default, but can be disabled if your crate does not need the operation functions to save on compile time and resources.
One and only one of the v1_* features must be enabled at the same time, otherwise the crate will not compile. This ensures that all crates in the crate graph
use the same types. If it was possible for one library crate to use api::core::v1::Pod corresponding to v1.15 and another to use the type
corresponding to v1.16, an application would not be able to use the same Pod value with both.
Thus, it is recommended that only application crates must enable one of the v1_* features, corresponding to the version of Kubernetes
that the application wants to support.
[dependencies]
k8s-openapi = { version = "...", features = ["v1_14"] }If you’re writing a library crate, your crate must not enable any features of k8s-openapi directly. The choice of which feature to enable
must be left to any application crates that use your library. This ensures that all k8s-openapi-using dependencies in that application crate’s dependency graph
use the same set of k8s-openapi types and are interoperable.
If your library crate has tests or examples, you should also add a dev-dependency on k8s-openapi in addition to the direct dependency,
and enable a version feature only for that dev-dependency.
[dependencies]
k8s-openapi = "..."
[dev-dependencies]
k8s-openapi = { version = "...", features = ["v1_14"] }Conditional compilation
As the previous section explained, library crates must not enable any version features in their k8s-openapi dependency. However, your library crate may
need to know about which version gets selected eventually.
For example:
-
Your crate creates a custom resource definition using the apiextensions v1 API. This API is only available in Kubernetes 1.16+, so your crate would fail to compile if a lower feature was enabled.
-
Your crate creates a custom resource definition. If the
v1_16or later feature is enabled, your crate wants to use the apiextensions v1 API, otherwise it falls back to the v1beta1 API.
There are two ways for your crate to determine which feature of k8s-openapi is enabled:
-
The
k8s-openapicrate exportsk8s_if_*macros, which either expand to their contents or don’t. See the docs of the macros for more details.With these macros, the two cases above would be solved like this:
-
ⓘ
#[macro_use] extern crate k8s_openapi; // The compile_error!() is only emitted if 1.15 or lower is selected. k8s_if_le_1_15! { compile_error!("This crate requires the v1_16 (or higher) feature to be enabled on the k8s-openapi crate."); } -
ⓘ
#[macro_use] extern crate k8s_openapi; k8s_if_le_1_15! { use k8s_openapi::apiextensions_apiserver::pkg::apis::apiextensions::v1beta1 as apiextensions; } k8s_if_ge_1_16! { use k8s_openapi::apiextensions_apiserver::pkg::apis::apiextensions::v1 as apiextensions; } // Common fields regardless of the apiextensions version let custom_resource_definition_spec = apiextensions::CustomResourceDefinitionSpec { group: ..., names: ..., scope: ..., ..Default::default() }; // Set v1beta1 `version` and `validation` fields on v1.15 and earlier. k8s_if_le_1_15! { let custom_resource_definition_spec = apiextensions::CustomResourceDefinitionSpec { version: <FooBar as k8s_openapi::Resource>::VERSION.to_owned().into(), validation: Some(custom_resource_validation), ..custom_resource_definition_spec }; } // Set v1 `versions` field on v1.16 and later. k8s_if_ge_1_16! { let custom_resource_definition_spec = apiextensions::CustomResourceDefinitionSpec { versions: vec![ apiextensions::CustomResourceDefinitionVersion { name: <FooBar as k8s_openapi::Resource>::VERSION.to_owned(), schema: Some(custom_resource_validation), served: true, storage: true, ..Default::default() }, ].into(), ..custom_resource_definition_spec }; }
-
-
The
k8s-openapicrate emits the selected version number as metadata that your crate can read in a build script from theDEP_K8S_OPENAPI_*_VERSIONenv var.// Your crate's build.rs fn main() { let k8s_openapi_version: u32 = std::env::vars_os() .find_map(|(key, value)| { let key = key.into_string().ok()?; if key.starts_with("DEP_K8S_OPENAPI_") && key.ends_with("_VERSION") { let value = value.into_string().ok()?; Some(value) } else { None } }).expect("DEP_K8S_OPENAPI_*_VERSION must have been set by k8s-openapi") .parse().expect("DEP_K8S_OPENAPI_*_VERSION is malformed"); // k8s_openapi_version has the format 0x00_MM_NN_00. // // - MM is the major version. // - NN is the minor version. // // Thus, if the v1_16 feature was enabled, k8s_openapi_version would be 0x00_01_10_00 // The build script can now do arbitrary things with the information. // For example, it could define custom cfgs: if k8s_openapi_version >= 0x00_01_10_00 { println!(r#"cargo:rustc-cfg=k8s_apiextensions="v1""#); } else { println!(r#"cargo:rustc-cfg=k8s_apiextensions="v1beta1""#); } // or emit new source code files under OUT_DIR, or anything else a build script can do. }With these cfgs, the two cases above would be solved like this:
-
ⓘ
// Your crate's src/lib.rs #[cfg(not(k8s_apiextensions = "v1"))] compile_error!("This crate requires the v1_16 (or higher) feature to be enabled on the k8s-openapi crate."); -
ⓘ
#[cfg(k8s_apiextensions = "v1beta1")] use k8s_openapi::apiextensions_apiserver::pkg::apis::apiextensions::v1beta1 as apiextensions; #[cfg(k8s_apiextensions = "v1")] use k8s_openapi::apiextensions_apiserver::pkg::apis::apiextensions::v1 as apiextensions; // Common fields regardless of the apiextensions version let custom_resource_definition_spec = apiextensions::CustomResourceDefinitionSpec { group: ..., names: ..., scope: ..., ..Default::default() }; // Set v1beta1 `version` and `validation` fields on v1.15 and earlier. #[cfg(k8s_apiextensions = "v1beta1")] let custom_resource_definition_spec = apiextensions::CustomResourceDefinitionSpec { version: <FooBar as k8s_openapi::Resource>::VERSION.to_owned().into(), validation: Some(custom_resource_validation), ..custom_resource_definition_spec }; // Set v1 `versions` field on v1.16 and later. #[cfg(k8s_apiextensions = "v1")] let custom_resource_definition_spec = apiextensions::CustomResourceDefinitionSpec { versions: vec![ apiextensions::CustomResourceDefinitionVersion { name: <FooBar as k8s_openapi::Resource>::VERSION.to_owned(), schema: Some(custom_resource_validation), served: true, storage: true, ..Default::default() }, ].into(), ..custom_resource_definition_spec };
-
Note that both approaches require your crate to have a direct dependency on the k8s-openapi crate. Neither approach is available if your crate
only has a transitive dependency on the k8s-openapi crate.
The macros approach is easier to use since it doesn’t require a build script.
The build script method lets you emit arbitrary cfgs, emit arbitrary source code, and generally gives you more options, at the cost of needing a build script.
For example, cfg()s can be used in places where macros cannot, such as this example for conditionally setting attrs using cfg_attr:
#[derive(
Clone, Debug, PartialEq,
k8s_openapi_derive::CustomResourceDefinition,
serde_derive::Deserialize, serde_derive::Serialize,
)]
#[custom_resource_definition(
group = "k8s-openapi-tests-custom-resource-definition.com",
version = "v1",
plural = "foobars",
namespaced,
)]
#[cfg_attr(k8s_apiextensions = "v1beta1", custom_resource_definition(has_subresources = "v1beta1"))]
#[cfg_attr(k8s_apiextensions = "v1", custom_resource_definition(has_subresources = "v1"))]
struct FooBarSpec {
prop1: String,
prop2: Vec<bool>,
#[serde(skip_serializing_if = "Option::is_none")]
prop3: Option<i32>,
}It isn’t possible to conditionally set attributes using macros, so the entire struct FooBarSpec declaration would have to be duplicated and wrapped inside
k8s_if_le_1_15! { } and k8s_if_ge_1_16! { } respectively.
Custom resource definitions
The k8s-openapi-derive crate provides a custom derive for generating clientsets
for custom resources. See that crate’s docs for more information.
Re-exports
pub use chrono;pub use http;pub use percent_encoding;pub use serde;pub use serde_json;pub use serde_value;pub use url;Modules
Extensions to the percent-encoding crate
Macros
This macro evaluates to its contents if the v1_16 feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_17 feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_18 feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_19 feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_20 feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_21 feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_22 feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_23 feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_16 or higher feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_17 or higher feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_18 or higher feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_19 or higher feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_20 or higher feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_21 or higher feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_22 or higher feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_23 or higher feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_16 or lower feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_17 or lower feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_18 or lower feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_19 or lower feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_20 or lower feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_21 or lower feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_22 or lower feature is enabled, otherwise it evaluates to nothing.
This macro evaluates to its contents if the v1_23 or lower feature is enabled, otherwise it evaluates to nothing.
A macro that emits a match expr with the given test expression and arms.
The match arms can be annotated with the other conditional compilation macros in this crate so that they’re only emitted
if the predicate is true.
Structs
A wrapper around a list of bytes.
Indicates that a Resource is cluster-scoped.
Common parameters for all create operations.
Common parameters for all delete and delete-collection operations.
List is a list of resources.
Common parameters for all list operations.
Indicates that a Resource is namespace-scoped.
Common parameters for all patch operations.
Common parameters for all replace operations.
This struct provides an easy way to parse a byte buffer into a Kubernetes API function’s response.
Indicates that a Resource is neither cluster-scoped nor namespace-scoped.
Common parameters for all watch operations.
Enums
The common response type for all create API operations.
The common response type for all delete API operations and delete-collection API operations.
Use <GetAPIVersionsResponse as Response>::try_from_parts to parse the HTTP response body of get_api_versions
Use <GetAdmissionregistrationAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_admissionregistration_api_group
Use <GetAdmissionregistrationV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_admissionregistration_v1_api_resources
Use <GetApiextensionsAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_apiextensions_api_group
Use <GetApiextensionsV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_apiextensions_v1_api_resources
Use <GetApiregistrationAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_apiregistration_api_group
Use <GetApiregistrationV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_apiregistration_v1_api_resources
Use <GetAppsAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_apps_api_group
Use <GetAppsV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_apps_v1_api_resources
Use <GetAuthenticationAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_authentication_api_group
Use <GetAuthenticationV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_authentication_v1_api_resources
Use <GetAuthorizationAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_authorization_api_group
Use <GetAuthorizationV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_authorization_v1_api_resources
Use <GetAutoscalingAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_autoscaling_api_group
Use <GetAutoscalingV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_autoscaling_v1_api_resources
Use <GetAutoscalingV2APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_autoscaling_v2_api_resources
Use <GetAutoscalingV2beta1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_autoscaling_v2beta1_api_resources
Use <GetAutoscalingV2beta2APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_autoscaling_v2beta2_api_resources
Use <GetBatchAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_batch_api_group
Use <GetBatchV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_batch_v1_api_resources
Use <GetBatchV1beta1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_batch_v1beta1_api_resources
Use <GetCertificatesAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_certificates_api_group
Use <GetCertificatesV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_certificates_v1_api_resources
Use <GetCodeVersionResponse as Response>::try_from_parts to parse the HTTP response body of get_code_version
Use <GetCoordinationAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_coordination_api_group
Use <GetCoordinationV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_coordination_v1_api_resources
Use <GetCoreAPIVersionsResponse as Response>::try_from_parts to parse the HTTP response body of get_core_api_versions
Use <GetCoreV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_core_v1_api_resources
Use <GetDiscoveryAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_discovery_api_group
Use <GetDiscoveryV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_discovery_v1_api_resources
Use <GetDiscoveryV1beta1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_discovery_v1beta1_api_resources
Use <GetEventsAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_events_api_group
Use <GetEventsV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_events_v1_api_resources
Use <GetEventsV1beta1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_events_v1beta1_api_resources
Use <GetFlowcontrolApiserverAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_flowcontrol_apiserver_api_group
Use <GetFlowcontrolApiserverV1beta1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_flowcontrol_apiserver_v1beta1_api_resources
Use <GetFlowcontrolApiserverV1beta2APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_flowcontrol_apiserver_v1beta2_api_resources
Use <GetInternalApiserverAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_internal_apiserver_api_group
Use <GetInternalApiserverV1alpha1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_internal_apiserver_v1alpha1_api_resources
Use <GetNetworkingAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_networking_api_group
Use <GetNetworkingV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_networking_v1_api_resources
Use <GetNodeAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_node_api_group
Use <GetNodeV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_node_v1_api_resources
Use <GetNodeV1alpha1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_node_v1alpha1_api_resources
Use <GetNodeV1beta1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_node_v1beta1_api_resources
Use <GetPolicyAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_policy_api_group
Use <GetPolicyV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_policy_v1_api_resources
Use <GetPolicyV1beta1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_policy_v1beta1_api_resources
Use <GetRbacAuthorizationAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_rbac_authorization_api_group
Use <GetRbacAuthorizationV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_rbac_authorization_v1_api_resources
Use <GetSchedulingAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_scheduling_api_group
Use <GetSchedulingV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_scheduling_v1_api_resources
Use <GetServiceAccountIssuerOpenIDConfigurationResponse as Response>::try_from_parts to parse the HTTP response body of get_service_account_issuer_open_id_configuration
Use <GetServiceAccountIssuerOpenIDKeysetResponse as Response>::try_from_parts to parse the HTTP response body of get_service_account_issuer_open_id_keyset
Use <GetStorageAPIGroupResponse as Response>::try_from_parts to parse the HTTP response body of get_storage_api_group
Use <GetStorageV1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_storage_v1_api_resources
Use <GetStorageV1alpha1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_storage_v1alpha1_api_resources
Use <GetStorageV1beta1APIResourcesResponse as Response>::try_from_parts to parse the HTTP response body of get_storage_v1beta1_api_resources
The common response type for all list API operations.
Use <LogFileHandlerResponse as Response>::try_from_parts to parse the HTTP response body of log_file_handler
Use <LogFileListHandlerResponse as Response>::try_from_parts to parse the HTTP response body of log_file_list_handler
The common response type for all patch API operations.
The common response type for all replace API operations.
The type of errors returned by the Kubernetes API functions that prepare the HTTP request.
The type of errors from parsing an HTTP response as one of the Kubernetes API functions’ response types.
The common response type for all watch API operations.
Traits
A trait applied to all Kubernetes resources that can be part of a corresponding list.
A trait applied to all Kubernetes resources that have metadata.
A trait applied to all Kubernetes resources.
The scope of a Resource.
A trait implemented by all response types corresponding to Kubernetes API functions.
Functions
Extracts the API version of the given resource value.
get information of a group
get available resources
get available API versions
get information of a group
get available resources
get information of a group
get available resources
get information of a group
get available resources
get information of a group
get available resources
get information of a group
get available resources
get information of a group
get available resources
get available resources
get available resources
get available resources
get information of a group
get available resources
get available resources
get information of a group
get available resources
get the code version
get information of a group
get available resources
get available API versions
get available resources
get information of a group
get available resources
get available resources
get information of a group
get available resources
get available resources
get information of a group
get available resources
get available resources
get information of a group
get available resources
get information of a group
get available resources
get information of a group
get available resources
get available resources
get available resources
get information of a group
get available resources
get available resources
get information of a group
get available resources
get information of a group
get available resources
get service account issuer OpenID configuration, also known as the ‘OIDC discovery doc’
get service account issuer OpenID JSON Web Key Set (contains public token verification keys)
get information of a group
get available resources
get available resources
get available resources
Extracts the group of the given resource value.
Extracts the kind of the given resource value.
Use the returned crate::ResponseBody<LogFileHandlerResponse> constructor, or LogFileHandlerResponse directly, to parse the HTTP response.
Use the returned crate::ResponseBody<LogFileListHandlerResponse> constructor, or LogFileListHandlerResponse directly, to parse the HTTP response.
Extracts the version of the given resource value.