kube_core/resource.rs
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pub use k8s_openapi::apimachinery::pkg::apis::meta::v1::ObjectMeta;
use k8s_openapi::{
api::core::v1::ObjectReference,
apimachinery::pkg::apis::meta::v1::{ManagedFieldsEntry, OwnerReference, Time},
};
use std::{borrow::Cow, collections::BTreeMap};
pub use k8s_openapi::{ClusterResourceScope, NamespaceResourceScope, ResourceScope, SubResourceScope};
/// Indicates that a [`Resource`] is of an indeterminate dynamic scope.
pub struct DynamicResourceScope {}
impl ResourceScope for DynamicResourceScope {}
/// An accessor trait for a kubernetes Resource.
///
/// This is for a subset of Kubernetes type that do not end in `List`.
/// These types, using [`ObjectMeta`], SHOULD all have required properties:
/// - `.metadata`
/// - `.metadata.name`
///
/// And these optional properties:
/// - `.metadata.namespace`
/// - `.metadata.resource_version`
///
/// This avoids a bunch of the unnecessary unwrap mechanics for apps.
pub trait Resource {
/// Type information for types that do not know their resource information at compile time.
///
/// Types that know their metadata at compile time should select `DynamicType = ()`.
/// Types that require some information at runtime should select `DynamicType`
/// as type of this information.
///
/// See [`DynamicObject`](crate::dynamic::DynamicObject) for a valid implementation of non-k8s-openapi resources.
type DynamicType: Send + Sync + 'static;
/// Type information for the api scope of the resource when known at compile time
///
/// Types from k8s_openapi come with an explicit k8s_openapi::ResourceScope
/// Dynamic types should select `Scope = DynamicResourceScope`
type Scope;
/// Returns kind of this object
fn kind(dt: &Self::DynamicType) -> Cow<'_, str>;
/// Returns group of this object
fn group(dt: &Self::DynamicType) -> Cow<'_, str>;
/// Returns version of this object
fn version(dt: &Self::DynamicType) -> Cow<'_, str>;
/// Returns apiVersion of this object
fn api_version(dt: &Self::DynamicType) -> Cow<'_, str> {
api_version_from_group_version(Self::group(dt), Self::version(dt))
}
/// Returns the plural name of the kind
///
/// This is known as the resource in apimachinery, we rename it for disambiguation.
fn plural(dt: &Self::DynamicType) -> Cow<'_, str>;
/// Creates a url path for http requests for this resource
fn url_path(dt: &Self::DynamicType, namespace: Option<&str>) -> String {
let n = if let Some(ns) = namespace {
format!("namespaces/{ns}/")
} else {
"".into()
};
let group = Self::group(dt);
let api_version = Self::api_version(dt);
let plural = Self::plural(dt);
format!(
"/{group}/{api_version}/{namespaces}{plural}",
group = if group.is_empty() { "api" } else { "apis" },
api_version = api_version,
namespaces = n,
plural = plural
)
}
/// Metadata that all persisted resources must have
fn meta(&self) -> &ObjectMeta;
/// Metadata that all persisted resources must have
fn meta_mut(&mut self) -> &mut ObjectMeta;
/// Generates an object reference for the resource
fn object_ref(&self, dt: &Self::DynamicType) -> ObjectReference {
let meta = self.meta();
ObjectReference {
name: meta.name.clone(),
namespace: meta.namespace.clone(),
uid: meta.uid.clone(),
api_version: Some(Self::api_version(dt).to_string()),
kind: Some(Self::kind(dt).to_string()),
..Default::default()
}
}
/// Generates a controller owner reference pointing to this resource
///
/// Note: this returns an `Option`, but for objects populated from the apiserver,
/// this Option can be safely unwrapped.
///
/// ```
/// use k8s_openapi::api::core::v1::ConfigMap;
/// use k8s_openapi::api::core::v1::Pod;
/// use k8s_openapi::apimachinery::pkg::apis::meta::v1::ObjectMeta;
/// use kube_core::Resource;
///
/// let p = Pod::default();
/// let controller_ref = p.controller_owner_ref(&());
/// let cm = ConfigMap {
/// metadata: ObjectMeta {
/// name: Some("pod-configmap".to_string()),
/// owner_references: Some(controller_ref.into_iter().collect()),
/// ..ObjectMeta::default()
/// },
/// ..Default::default()
/// };
/// ```
fn controller_owner_ref(&self, dt: &Self::DynamicType) -> Option<OwnerReference> {
Some(OwnerReference {
controller: Some(true),
..self.owner_ref(dt)?
})
}
/// Generates an owner reference pointing to this resource
///
/// Note: this returns an `Option`, but for objects populated from the apiserver,
/// this Option can be safely unwrapped.
///
/// ```
/// use k8s_openapi::api::core::v1::ConfigMap;
/// use k8s_openapi::api::core::v1::Pod;
/// use k8s_openapi::apimachinery::pkg::apis::meta::v1::ObjectMeta;
/// use kube_core::Resource;
///
/// let p = Pod::default();
/// let owner_ref = p.owner_ref(&());
/// let cm = ConfigMap {
/// metadata: ObjectMeta {
/// name: Some("pod-configmap".to_string()),
/// owner_references: Some(owner_ref.into_iter().collect()),
/// ..ObjectMeta::default()
/// },
/// ..Default::default()
/// };
/// ```
fn owner_ref(&self, dt: &Self::DynamicType) -> Option<OwnerReference> {
let meta = self.meta();
Some(OwnerReference {
api_version: Self::api_version(dt).to_string(),
kind: Self::kind(dt).to_string(),
name: meta.name.clone()?,
uid: meta.uid.clone()?,
..OwnerReference::default()
})
}
}
/// Helper function that creates the `apiVersion` field from the group and version strings.
pub fn api_version_from_group_version<'a>(group: Cow<'a, str>, version: Cow<'a, str>) -> Cow<'a, str> {
if group.is_empty() {
return version;
}
let mut output = group;
output.to_mut().push('/');
output.to_mut().push_str(&version);
output
}
/// Implement accessor trait for any ObjectMeta-using Kubernetes Resource
impl<K, S> Resource for K
where
K: k8s_openapi::Metadata<Ty = ObjectMeta>,
K: k8s_openapi::Resource<Scope = S>,
{
type DynamicType = ();
type Scope = S;
fn kind(_: &()) -> Cow<'_, str> {
K::KIND.into()
}
fn group(_: &()) -> Cow<'_, str> {
K::GROUP.into()
}
fn version(_: &()) -> Cow<'_, str> {
K::VERSION.into()
}
fn api_version(_: &()) -> Cow<'_, str> {
K::API_VERSION.into()
}
fn plural(_: &()) -> Cow<'_, str> {
K::URL_PATH_SEGMENT.into()
}
fn meta(&self) -> &ObjectMeta {
self.metadata()
}
fn meta_mut(&mut self) -> &mut ObjectMeta {
self.metadata_mut()
}
}
/// Helper methods for resources.
pub trait ResourceExt: Resource {
/// Returns the name of the resource, panicking if it is unset
///
/// Only use this function if you know that name is set; for example when
/// the resource was received from the apiserver (post-admission),
/// or if you constructed the resource with the name.
///
/// At admission, `.metadata.generateName` can be set instead of name
/// and in those cases this function can panic.
///
/// Prefer using `.meta().name` or [`name_any`](ResourceExt::name_any)
/// for the more general cases.
fn name_unchecked(&self) -> String;
/// Returns the most useful name identifier available
///
/// This is tries `name`, then `generateName`, and falls back on an empty string when neither is set.
/// Generally you always have one of the two unless you are creating the object locally.
///
/// This is intended to provide something quick and simple for standard logging purposes.
/// For more precise use cases, prefer doing your own defaulting.
/// For true uniqueness, prefer [`uid`](ResourceExt::uid).
fn name_any(&self) -> String;
/// The namespace the resource is in
fn namespace(&self) -> Option<String>;
/// The resource version
fn resource_version(&self) -> Option<String>;
/// Unique ID (if you delete resource and then create a new
/// resource with the same name, it will have different ID)
fn uid(&self) -> Option<String>;
/// Returns the creation timestamp
///
/// This is guaranteed to exist on resources received by the apiserver.
fn creation_timestamp(&self) -> Option<Time>;
/// Returns resource labels
fn labels(&self) -> &BTreeMap<String, String>;
/// Provides mutable access to the labels
fn labels_mut(&mut self) -> &mut BTreeMap<String, String>;
/// Returns resource annotations
fn annotations(&self) -> &BTreeMap<String, String>;
/// Provider mutable access to the annotations
fn annotations_mut(&mut self) -> &mut BTreeMap<String, String>;
/// Returns resource owner references
fn owner_references(&self) -> &[OwnerReference];
/// Provides mutable access to the owner references
fn owner_references_mut(&mut self) -> &mut Vec<OwnerReference>;
/// Returns resource finalizers
fn finalizers(&self) -> &[String];
/// Provides mutable access to the finalizers
fn finalizers_mut(&mut self) -> &mut Vec<String>;
/// Returns managed fields
fn managed_fields(&self) -> &[ManagedFieldsEntry];
/// Provides mutable access to managed fields
fn managed_fields_mut(&mut self) -> &mut Vec<ManagedFieldsEntry>;
}
static EMPTY_MAP: BTreeMap<String, String> = BTreeMap::new();
impl<K: Resource> ResourceExt for K {
fn name_unchecked(&self) -> String {
self.meta().name.clone().expect(".metadata.name missing")
}
fn name_any(&self) -> String {
self.meta()
.name
.clone()
.or_else(|| self.meta().generate_name.clone())
.unwrap_or_default()
}
fn namespace(&self) -> Option<String> {
self.meta().namespace.clone()
}
fn resource_version(&self) -> Option<String> {
self.meta().resource_version.clone()
}
fn uid(&self) -> Option<String> {
self.meta().uid.clone()
}
fn creation_timestamp(&self) -> Option<Time> {
self.meta().creation_timestamp.clone()
}
fn labels(&self) -> &BTreeMap<String, String> {
self.meta().labels.as_ref().unwrap_or(&EMPTY_MAP)
}
fn labels_mut(&mut self) -> &mut BTreeMap<String, String> {
self.meta_mut().labels.get_or_insert_with(BTreeMap::new)
}
fn annotations(&self) -> &BTreeMap<String, String> {
self.meta().annotations.as_ref().unwrap_or(&EMPTY_MAP)
}
fn annotations_mut(&mut self) -> &mut BTreeMap<String, String> {
self.meta_mut().annotations.get_or_insert_with(BTreeMap::new)
}
fn owner_references(&self) -> &[OwnerReference] {
self.meta().owner_references.as_deref().unwrap_or_default()
}
fn owner_references_mut(&mut self) -> &mut Vec<OwnerReference> {
self.meta_mut().owner_references.get_or_insert_with(Vec::new)
}
fn finalizers(&self) -> &[String] {
self.meta().finalizers.as_deref().unwrap_or_default()
}
fn finalizers_mut(&mut self) -> &mut Vec<String> {
self.meta_mut().finalizers.get_or_insert_with(Vec::new)
}
fn managed_fields(&self) -> &[ManagedFieldsEntry] {
self.meta().managed_fields.as_deref().unwrap_or_default()
}
fn managed_fields_mut(&mut self) -> &mut Vec<ManagedFieldsEntry> {
self.meta_mut().managed_fields.get_or_insert_with(Vec::new)
}
}