kube_runtime/controller/mod.rs
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//! Runs a user-supplied reconciler function on objects when they (or related objects) are updated
use self::runner::Runner;
use crate::{
reflector::{
self, reflector,
store::{Store, Writer},
ObjectRef,
},
scheduler::{debounced_scheduler, ScheduleRequest},
utils::{trystream_try_via, CancelableJoinHandle, KubeRuntimeStreamExt, StreamBackoff, WatchStreamExt},
watcher::{self, metadata_watcher, watcher, DefaultBackoff},
};
use backoff::backoff::Backoff;
use educe::Educe;
use futures::{
channel,
future::{self, BoxFuture},
stream, FutureExt, Stream, StreamExt, TryFuture, TryFutureExt, TryStream, TryStreamExt,
};
use kube_client::api::{Api, DynamicObject, Resource};
use pin_project::pin_project;
use serde::de::DeserializeOwned;
use std::{
fmt::{Debug, Display},
future::Future,
hash::Hash,
sync::Arc,
task::{ready, Poll},
time::Duration,
};
use stream::BoxStream;
use thiserror::Error;
use tokio::{runtime::Handle, time::Instant};
use tracing::{info_span, Instrument};
mod future_hash_map;
mod runner;
pub type RunnerError = runner::Error<reflector::store::WriterDropped>;
#[derive(Debug, Error)]
pub enum Error<ReconcilerErr: 'static, QueueErr: 'static> {
#[error("tried to reconcile object {0} that was not found in local store")]
ObjectNotFound(ObjectRef<DynamicObject>),
#[error("reconciler for object {1} failed")]
ReconcilerFailed(#[source] ReconcilerErr, ObjectRef<DynamicObject>),
#[error("event queue error")]
QueueError(#[source] QueueErr),
#[error("runner error")]
RunnerError(#[source] RunnerError),
}
/// Results of the reconciliation attempt
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct Action {
/// Whether (and when) to next trigger the reconciliation if no external watch triggers hit
///
/// For example, use this to query external systems for updates, expire time-limited resources, or
/// (in your `error_policy`) retry after errors.
requeue_after: Option<Duration>,
}
impl Action {
/// Action to the reconciliation at this time even if no external watch triggers hit
///
/// This is the best-practice action that ensures eventual consistency of your controller
/// even in the case of missed changes (which can happen).
///
/// Watch events are not normally missed, so running this once per hour (`Default`) as a fallback is reasonable.
#[must_use]
pub fn requeue(duration: Duration) -> Self {
Self {
requeue_after: Some(duration),
}
}
/// Do nothing until a change is detected
///
/// This stops the controller periodically reconciling this object until a relevant watch event
/// was **detected**.
///
/// **Warning**: If you have watch desyncs, it is possible to miss changes entirely.
/// It is therefore not recommended to disable requeuing this way, unless you have
/// frequent changes to the underlying object, or some other hook to retain eventual consistency.
#[must_use]
pub fn await_change() -> Self {
Self { requeue_after: None }
}
}
/// Helper for building custom trigger filters, see the implementations of [`trigger_self`] and [`trigger_owners`] for some examples.
pub fn trigger_with<T, K, I, S>(
stream: S,
mapper: impl Fn(T) -> I,
) -> impl Stream<Item = Result<ReconcileRequest<K>, S::Error>>
where
S: TryStream<Ok = T>,
I: IntoIterator,
I::Item: Into<ReconcileRequest<K>>,
K: Resource,
{
stream
.map_ok(move |obj| stream::iter(mapper(obj).into_iter().map(Into::into).map(Ok)))
.try_flatten()
}
/// Enqueues the object itself for reconciliation
pub fn trigger_self<K, S>(
stream: S,
dyntype: K::DynamicType,
) -> impl Stream<Item = Result<ReconcileRequest<K>, S::Error>>
where
S: TryStream<Ok = K>,
K: Resource,
K::DynamicType: Clone,
{
trigger_with(stream, move |obj| {
Some(ReconcileRequest {
obj_ref: ObjectRef::from_obj_with(&obj, dyntype.clone()),
reason: ReconcileReason::ObjectUpdated,
})
})
}
/// Enqueues the object itself for reconciliation when the object is behind a
/// shared pointer
#[cfg(feature = "unstable-runtime-subscribe")]
fn trigger_self_shared<K, S>(
stream: S,
dyntype: K::DynamicType,
) -> impl Stream<Item = Result<ReconcileRequest<K>, S::Error>>
where
// Input stream has item as some Arc'd Resource (via
// Controller::for_shared_stream)
S: TryStream<Ok = Arc<K>>,
K: Resource,
K::DynamicType: Clone,
{
trigger_with(stream, move |obj| {
Some(ReconcileRequest {
obj_ref: ObjectRef::from_obj_with(obj.as_ref(), dyntype.clone()),
reason: ReconcileReason::ObjectUpdated,
})
})
}
/// Enqueues any mapper returned `K` types for reconciliation
fn trigger_others<S, K, I>(
stream: S,
mapper: impl Fn(S::Ok) -> I + Sync + Send + 'static,
dyntype: <S::Ok as Resource>::DynamicType,
) -> impl Stream<Item = Result<ReconcileRequest<K>, S::Error>>
where
// Input stream has items as some Resource (via Controller::watches)
S: TryStream,
S::Ok: Resource,
<S::Ok as Resource>::DynamicType: Clone,
// Output stream is requests for the root type K
K: Resource,
K::DynamicType: Clone,
// but the mapper can produce many of them
I: 'static + IntoIterator<Item = ObjectRef<K>>,
I::IntoIter: Send,
{
trigger_with(stream, move |obj| {
let watch_ref = ObjectRef::from_obj_with(&obj, dyntype.clone()).erase();
mapper(obj)
.into_iter()
.map(move |mapped_obj_ref| ReconcileRequest {
obj_ref: mapped_obj_ref,
reason: ReconcileReason::RelatedObjectUpdated {
obj_ref: Box::new(watch_ref.clone()),
},
})
})
}
/// Enqueues any mapper returned `Arc<K>` types for reconciliation
#[cfg(feature = "unstable-runtime-subscribe")]
fn trigger_others_shared<S, O, K, I>(
stream: S,
mapper: impl Fn(S::Ok) -> I + Sync + Send + 'static,
dyntype: O::DynamicType,
) -> impl Stream<Item = Result<ReconcileRequest<K>, S::Error>>
where
// Input is some shared resource (`Arc<O>`) obtained via `reflect`
S: TryStream<Ok = Arc<O>>,
O: Resource,
O::DynamicType: Clone,
// Output stream is requests for the root type K
K: Resource,
K::DynamicType: Clone,
// but the mapper can produce many of them
I: 'static + IntoIterator<Item = ObjectRef<K>>,
I::IntoIter: Send,
{
trigger_with(stream, move |obj| {
let watch_ref = ObjectRef::from_obj_with(obj.as_ref(), dyntype.clone()).erase();
mapper(obj)
.into_iter()
.map(move |mapped_obj_ref| ReconcileRequest {
obj_ref: mapped_obj_ref,
reason: ReconcileReason::RelatedObjectUpdated {
obj_ref: Box::new(watch_ref.clone()),
},
})
})
}
/// Enqueues any owners of type `KOwner` for reconciliation
pub fn trigger_owners<KOwner, S>(
stream: S,
owner_type: KOwner::DynamicType,
child_type: <S::Ok as Resource>::DynamicType,
) -> impl Stream<Item = Result<ReconcileRequest<KOwner>, S::Error>>
where
S: TryStream,
S::Ok: Resource,
<S::Ok as Resource>::DynamicType: Clone,
KOwner: Resource,
KOwner::DynamicType: Clone,
{
let mapper = move |obj: S::Ok| {
let meta = obj.meta().clone();
let ns = meta.namespace;
let owner_type = owner_type.clone();
meta.owner_references
.into_iter()
.flatten()
.filter_map(move |owner| ObjectRef::from_owner_ref(ns.as_deref(), &owner, owner_type.clone()))
};
trigger_others(stream, mapper, child_type)
}
// TODO: do we really need to deal with a trystream? can we simplify this at
// all?
/// Enqueues any owners of type `KOwner` for reconciliation based on a stream of
/// owned `K` objects
#[cfg(feature = "unstable-runtime-subscribe")]
fn trigger_owners_shared<KOwner, S, K>(
stream: S,
owner_type: KOwner::DynamicType,
child_type: K::DynamicType,
) -> impl Stream<Item = Result<ReconcileRequest<KOwner>, S::Error>>
where
S: TryStream<Ok = Arc<K>>,
K: Resource,
K::DynamicType: Clone,
KOwner: Resource,
KOwner::DynamicType: Clone,
{
let mapper = move |obj: S::Ok| {
let meta = obj.meta().clone();
let ns = meta.namespace;
let owner_type = owner_type.clone();
meta.owner_references
.into_iter()
.flatten()
.filter_map(move |owner| ObjectRef::from_owner_ref(ns.as_deref(), &owner, owner_type.clone()))
};
trigger_others_shared(stream, mapper, child_type)
}
/// A request to reconcile an object, annotated with why that request was made.
///
/// NOTE: The reason is ignored for comparison purposes. This means that, for example,
/// an object can only occupy one scheduler slot, even if it has been scheduled for multiple reasons.
/// In this case, only *the first* reason is stored.
#[derive(Educe)]
#[educe(
Debug(bound("K::DynamicType: Debug")),
Clone(bound("K::DynamicType: Clone")),
PartialEq(bound("K::DynamicType: PartialEq")),
Hash(bound("K::DynamicType: Hash"))
)]
pub struct ReconcileRequest<K: Resource> {
pub obj_ref: ObjectRef<K>,
#[educe(PartialEq(ignore), Hash(ignore))]
pub reason: ReconcileReason,
}
impl<K: Resource> Eq for ReconcileRequest<K> where K::DynamicType: Eq {}
impl<K: Resource> From<ObjectRef<K>> for ReconcileRequest<K> {
fn from(obj_ref: ObjectRef<K>) -> Self {
ReconcileRequest {
obj_ref,
reason: ReconcileReason::Unknown,
}
}
}
#[derive(Debug, Clone)]
pub enum ReconcileReason {
Unknown,
ObjectUpdated,
RelatedObjectUpdated { obj_ref: Box<ObjectRef<DynamicObject>> },
ReconcilerRequestedRetry,
ErrorPolicyRequestedRetry,
BulkReconcile,
Custom { reason: String },
}
impl Display for ReconcileReason {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
ReconcileReason::Unknown => f.write_str("unknown"),
ReconcileReason::ObjectUpdated => f.write_str("object updated"),
ReconcileReason::RelatedObjectUpdated { obj_ref: object } => {
f.write_fmt(format_args!("related object updated: {object}"))
}
ReconcileReason::BulkReconcile => f.write_str("bulk reconcile requested"),
ReconcileReason::ReconcilerRequestedRetry => f.write_str("reconciler requested retry"),
ReconcileReason::ErrorPolicyRequestedRetry => f.write_str("error policy requested retry"),
ReconcileReason::Custom { reason } => f.write_str(reason),
}
}
}
const APPLIER_REQUEUE_BUF_SIZE: usize = 100;
/// Apply a reconciler to an input stream, with a given retry policy
///
/// Takes a `store` parameter for the core objects, which should usually be updated by a [`reflector()`].
///
/// The `queue` indicates which objects should be reconciled. For the core objects this will usually be
/// the [`reflector()`] (piped through [`trigger_self`]). If your core objects own any subobjects then you
/// can also make them trigger reconciliations by [merging](`futures::stream::select`) the [`reflector()`]
/// with a [`watcher()`] or [`reflector()`] for the subobject.
///
/// This is the "hard-mode" version of [`Controller`], which allows you some more customization
/// (such as triggering from arbitrary [`Stream`]s), at the cost of being a bit more verbose.
#[allow(clippy::needless_pass_by_value)]
#[allow(clippy::type_complexity)]
pub fn applier<K, QueueStream, ReconcilerFut, Ctx>(
mut reconciler: impl FnMut(Arc<K>, Arc<Ctx>) -> ReconcilerFut,
error_policy: impl Fn(Arc<K>, &ReconcilerFut::Error, Arc<Ctx>) -> Action,
context: Arc<Ctx>,
store: Store<K>,
queue: QueueStream,
config: Config,
) -> impl Stream<Item = Result<(ObjectRef<K>, Action), Error<ReconcilerFut::Error, QueueStream::Error>>>
where
K: Clone + Resource + 'static,
K::DynamicType: Debug + Eq + Hash + Clone + Unpin,
ReconcilerFut: TryFuture<Ok = Action> + Unpin,
ReconcilerFut::Error: std::error::Error + 'static,
QueueStream: TryStream,
QueueStream::Ok: Into<ReconcileRequest<K>>,
QueueStream::Error: std::error::Error + 'static,
{
let (scheduler_shutdown_tx, scheduler_shutdown_rx) = channel::oneshot::channel();
let (scheduler_tx, scheduler_rx) =
channel::mpsc::channel::<ScheduleRequest<ReconcileRequest<K>>>(APPLIER_REQUEUE_BUF_SIZE);
let error_policy = Arc::new(error_policy);
let delay_store = store.clone();
// Create a stream of ObjectRefs that need to be reconciled
trystream_try_via(
// input: stream combining scheduled tasks and user specified inputs event
Box::pin(stream::select(
// 1. inputs from users queue stream
queue
.map_err(Error::QueueError)
.map_ok(|request| ScheduleRequest {
message: request.into(),
run_at: Instant::now(),
})
.on_complete(async move {
// On error: scheduler has already been shut down and there is nothing for us to do
let _ = scheduler_shutdown_tx.send(());
tracing::debug!("applier queue terminated, starting graceful shutdown")
}),
// 2. requests sent to scheduler_tx
scheduler_rx
.map(Ok)
.take_until(scheduler_shutdown_rx)
.on_complete(async { tracing::debug!("applier scheduler consumer terminated") }),
)),
// all the Oks from the select gets passed through the scheduler stream, and are then executed
move |s| {
Runner::new(
debounced_scheduler(s, config.debounce),
config.concurrency,
move |request| {
let request = request.clone();
match store.get(&request.obj_ref) {
Some(obj) => {
let scheduler_tx = scheduler_tx.clone();
let error_policy_ctx = context.clone();
let error_policy = error_policy.clone();
let reconciler_span = info_span!(
"reconciling object",
"object.ref" = %request.obj_ref,
object.reason = %request.reason
);
reconciler_span
.in_scope(|| reconciler(Arc::clone(&obj), context.clone()))
.into_future()
.then(move |res| {
let error_policy = error_policy;
RescheduleReconciliation::new(
res,
|err| error_policy(obj, err, error_policy_ctx),
request.obj_ref.clone(),
scheduler_tx,
)
// Reconciler errors are OK from the applier's PoV, we need to apply the error policy
// to them separately
.map(|res| Ok((request.obj_ref, res)))
})
.instrument(reconciler_span)
.left_future()
}
None => std::future::ready(Err(Error::ObjectNotFound(request.obj_ref.erase())))
.right_future(),
}
},
)
.delay_tasks_until(async move {
tracing::debug!("applier runner held until store is ready");
let res = delay_store.wait_until_ready().await;
tracing::debug!("store is ready, starting runner");
res
})
.map(|runner_res| runner_res.unwrap_or_else(|err| Err(Error::RunnerError(err))))
.on_complete(async { tracing::debug!("applier runner terminated") })
},
)
.on_complete(async { tracing::debug!("applier runner-merge terminated") })
// finally, for each completed reconcile call:
.and_then(move |(obj_ref, reconciler_result)| async move {
match reconciler_result {
Ok(action) => Ok((obj_ref, action)),
Err(err) => Err(Error::ReconcilerFailed(err, obj_ref.erase())),
}
})
.on_complete(async { tracing::debug!("applier terminated") })
}
/// Internal helper [`Future`] that reschedules reconciliation of objects (if required), in the scheduled context of the reconciler
///
/// This could be an `async fn`, but isn't because we want it to be [`Unpin`]
#[pin_project]
#[must_use]
struct RescheduleReconciliation<K: Resource, ReconcilerErr> {
reschedule_tx: channel::mpsc::Sender<ScheduleRequest<ReconcileRequest<K>>>,
reschedule_request: Option<ScheduleRequest<ReconcileRequest<K>>>,
result: Option<Result<Action, ReconcilerErr>>,
}
impl<K, ReconcilerErr> RescheduleReconciliation<K, ReconcilerErr>
where
K: Resource,
{
fn new(
result: Result<Action, ReconcilerErr>,
error_policy: impl FnOnce(&ReconcilerErr) -> Action,
obj_ref: ObjectRef<K>,
reschedule_tx: channel::mpsc::Sender<ScheduleRequest<ReconcileRequest<K>>>,
) -> Self {
let reconciler_finished_at = Instant::now();
let (action, reschedule_reason) = result.as_ref().map_or_else(
|err| (error_policy(err), ReconcileReason::ErrorPolicyRequestedRetry),
|action| (action.clone(), ReconcileReason::ReconcilerRequestedRetry),
);
Self {
reschedule_tx,
reschedule_request: action.requeue_after.map(|requeue_after| ScheduleRequest {
message: ReconcileRequest {
obj_ref,
reason: reschedule_reason,
},
run_at: reconciler_finished_at
.checked_add(requeue_after)
.unwrap_or_else(crate::scheduler::far_future),
}),
result: Some(result),
}
}
}
impl<K, ReconcilerErr> Future for RescheduleReconciliation<K, ReconcilerErr>
where
K: Resource,
{
type Output = Result<Action, ReconcilerErr>;
fn poll(self: std::pin::Pin<&mut Self>, cx: &mut std::task::Context<'_>) -> Poll<Self::Output> {
let this = self.get_mut();
if this.reschedule_request.is_some() {
let rescheduler_ready = ready!(this.reschedule_tx.poll_ready(cx));
let reschedule_request = this
.reschedule_request
.take()
.expect("PostReconciler::reschedule_request was taken during processing");
// Failure to schedule item = in graceful shutdown mode, ignore
if let Ok(()) = rescheduler_ready {
let _ = this.reschedule_tx.start_send(reschedule_request);
}
}
Poll::Ready(
this.result
.take()
.expect("PostReconciler::result was already taken"),
)
}
}
/// Accumulates all options that can be used on a [`Controller`] invocation.
#[derive(Clone, Debug, Default)]
pub struct Config {
debounce: Duration,
concurrency: u16,
}
impl Config {
/// The debounce duration used to deduplicate reconciliation requests.
///
/// When set to a non-zero duration, debouncing is enabled in the [`scheduler`](crate::scheduler())
/// resulting in __trailing edge debouncing__ of reconciler requests.
/// This option can help to reduce the amount of unnecessary reconciler calls
/// when using multiple controller relations, or during rapid phase transitions.
///
/// ## Warning
/// This option delays (and keeps delaying) reconcile requests for objects while
/// the object is updated. It can **permanently hide** updates from your reconciler
/// if set too high on objects that are updated frequently (like nodes).
#[must_use]
pub fn debounce(mut self, debounce: Duration) -> Self {
self.debounce = debounce;
self
}
/// The number of concurrent reconciliations of that are allowed to run at an given moment.
///
/// This can be adjusted to the controller's needs to increase
/// performance and/or make performance predictable. By default, its 0 meaning
/// the controller runs with unbounded concurrency.
///
/// Note that despite concurrency, a controller never schedules concurrent reconciles
/// on the same object.
#[must_use]
pub fn concurrency(mut self, concurrency: u16) -> Self {
self.concurrency = concurrency;
self
}
}
/// Controller for a Resource `K`
///
/// A controller is an infinite stream of objects to be reconciled.
///
/// Once `run` and continuously awaited, it continuously calls out to user provided
/// `reconcile` and `error_policy` callbacks whenever relevant changes are detected
/// or if errors are seen from `reconcile`.
///
/// Reconciles are generally requested for all changes on your root objects.
/// Changes to managed child resources will also trigger the reconciler for the
/// managing object by traversing owner references (for `Controller::owns`),
/// or traverse a custom mapping (for `Controller::watches`).
///
/// This mapping mechanism ultimately hides the reason for the reconciliation request,
/// and forces you to write an idempotent reconciler.
///
/// General setup:
/// ```no_run
/// use kube::{Api, Client, CustomResource};
/// use kube::runtime::{controller::{Controller, Action}, watcher};
/// # use serde::{Deserialize, Serialize};
/// # use tokio::time::Duration;
/// use futures::StreamExt;
/// use k8s_openapi::api::core::v1::ConfigMap;
/// use schemars::JsonSchema;
/// # use std::sync::Arc;
/// use thiserror::Error;
///
/// #[derive(Debug, Error)]
/// enum Error {}
///
/// /// A custom resource
/// #[derive(CustomResource, Debug, Clone, Deserialize, Serialize, JsonSchema)]
/// #[kube(group = "nullable.se", version = "v1", kind = "ConfigMapGenerator", namespaced)]
/// struct ConfigMapGeneratorSpec {
/// content: String,
/// }
///
/// /// The reconciler that will be called when either object change
/// async fn reconcile(g: Arc<ConfigMapGenerator>, _ctx: Arc<()>) -> Result<Action, Error> {
/// // .. use api here to reconcile a child ConfigMap with ownerreferences
/// // see configmapgen_controller example for full info
/// Ok(Action::requeue(Duration::from_secs(300)))
/// }
/// /// an error handler that will be called when the reconciler fails with access to both the
/// /// object that caused the failure and the actual error
/// fn error_policy(obj: Arc<ConfigMapGenerator>, _error: &Error, _ctx: Arc<()>) -> Action {
/// Action::requeue(Duration::from_secs(60))
/// }
///
/// /// something to drive the controller
/// #[tokio::main]
/// async fn main() -> Result<(), Box<dyn std::error::Error>> {
/// let client = Client::try_default().await?;
/// let context = Arc::new(()); // bad empty context - put client in here
/// let cmgs = Api::<ConfigMapGenerator>::all(client.clone());
/// let cms = Api::<ConfigMap>::all(client.clone());
/// Controller::new(cmgs, watcher::Config::default())
/// .owns(cms, watcher::Config::default())
/// .run(reconcile, error_policy, context)
/// .for_each(|res| async move {
/// match res {
/// Ok(o) => println!("reconciled {:?}", o),
/// Err(e) => println!("reconcile failed: {:?}", e),
/// }
/// })
/// .await; // controller does nothing unless polled
/// Ok(())
/// }
/// ```
pub struct Controller<K>
where
K: Clone + Resource + Debug + 'static,
K::DynamicType: Eq + Hash,
{
// NB: Need to Unpin for stream::select_all
trigger_selector: stream::SelectAll<BoxStream<'static, Result<ReconcileRequest<K>, watcher::Error>>>,
trigger_backoff: Box<dyn Backoff + Send>,
/// [`run`](crate::Controller::run) starts a graceful shutdown when any of these [`Future`]s complete,
/// refusing to start any new reconciliations but letting any existing ones finish.
graceful_shutdown_selector: Vec<BoxFuture<'static, ()>>,
/// [`run`](crate::Controller::run) terminates immediately when any of these [`Future`]s complete,
/// requesting that all running reconciliations be aborted.
/// However, note that they *will* keep running until their next yield point (`.await`),
/// blocking [`tokio::runtime::Runtime`] destruction (unless you follow up by calling [`std::process::exit`] after `run`).
forceful_shutdown_selector: Vec<BoxFuture<'static, ()>>,
dyntype: K::DynamicType,
reader: Store<K>,
config: Config,
}
impl<K> Controller<K>
where
K: Clone + Resource + DeserializeOwned + Debug + Send + Sync + 'static,
K::DynamicType: Eq + Hash + Clone,
{
/// Create a Controller for a resource `K`
///
/// Takes an [`Api`] object that determines how the `Controller` listens for changes to the `K`.
///
/// The [`watcher::Config`] controls to the possible subset of objects of `K` that you want to manage
/// and receive reconcile events for.
/// For the full set of objects `K` in the given `Api` scope, you can use [`watcher::Config::default`].
#[must_use]
pub fn new(main_api: Api<K>, wc: watcher::Config) -> Self
where
K::DynamicType: Default,
{
Self::new_with(main_api, wc, Default::default())
}
/// Create a Controller for a resource `K`
///
/// Takes an [`Api`] object that determines how the `Controller` listens for changes to the `K`.
///
/// The [`watcher::Config`] lets you define a possible subset of objects of `K` that you want the [`Api`]
/// to watch - in the Api's configured scope - and receive reconcile events for.
/// For the full set of objects `K` in the given `Api` scope, you can use [`Config::default`].
///
/// This variant constructor is for [`dynamic`] types found through discovery. Prefer [`Controller::new`] for static types.
///
/// [`watcher::Config`]: crate::watcher::Config
/// [`Api`]: kube_client::Api
/// [`dynamic`]: kube_client::core::dynamic
/// [`Config::default`]: crate::watcher::Config::default
pub fn new_with(main_api: Api<K>, wc: watcher::Config, dyntype: K::DynamicType) -> Self {
let writer = Writer::<K>::new(dyntype.clone());
let reader = writer.as_reader();
let mut trigger_selector = stream::SelectAll::new();
let self_watcher = trigger_self(
reflector(writer, watcher(main_api, wc)).applied_objects(),
dyntype.clone(),
)
.boxed();
trigger_selector.push(self_watcher);
Self {
trigger_selector,
trigger_backoff: Box::<DefaultBackoff>::default(),
graceful_shutdown_selector: vec![
// Fallback future, ensuring that we never terminate if no additional futures are added to the selector
future::pending().boxed(),
],
forceful_shutdown_selector: vec![
// Fallback future, ensuring that we never terminate if no additional futures are added to the selector
future::pending().boxed(),
],
dyntype,
reader,
config: Default::default(),
}
}
/// Create a Controller for a resource `K` from a stream of `K` objects
///
/// Same as [`Controller::new`], but instead of an `Api`, a stream of resources is used.
/// This allows for customized and pre-filtered watch streams to be used as a trigger,
/// as well as sharing input streams between multiple controllers.
///
/// **NB**: This is constructor requires an [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21) feature.
///
/// # Example:
///
/// ```no_run
/// # use futures::StreamExt;
/// # use k8s_openapi::api::apps::v1::Deployment;
/// # use kube::runtime::controller::{Action, Controller};
/// # use kube::runtime::{predicates, watcher, reflector, WatchStreamExt};
/// # use kube::{Api, Client, Error, ResourceExt};
/// # use std::sync::Arc;
/// # async fn reconcile(_: Arc<Deployment>, _: Arc<()>) -> Result<Action, Error> { Ok(Action::await_change()) }
/// # fn error_policy(_: Arc<Deployment>, _: &kube::Error, _: Arc<()>) -> Action { Action::await_change() }
/// # async fn doc(client: kube::Client) {
/// let api: Api<Deployment> = Api::default_namespaced(client);
/// let (reader, writer) = reflector::store();
/// let deploys = watcher(api, watcher::Config::default())
/// .default_backoff()
/// .reflect(writer)
/// .applied_objects()
/// .predicate_filter(predicates::generation);
///
/// Controller::for_stream(deploys, reader)
/// .run(reconcile, error_policy, Arc::new(()))
/// .for_each(|_| std::future::ready(()))
/// .await;
/// # }
/// ```
///
/// Prefer [`Controller::new`] if you do not need to share the stream, or do not need pre-filtering.
#[cfg(feature = "unstable-runtime-stream-control")]
pub fn for_stream(
trigger: impl Stream<Item = Result<K, watcher::Error>> + Send + 'static,
reader: Store<K>,
) -> Self
where
K::DynamicType: Default,
{
Self::for_stream_with(trigger, reader, Default::default())
}
/// Create a Controller for a resource `K` from a stream of `K` objects
///
/// Same as [`Controller::new`], but instead of an `Api`, a stream of resources is used.
/// This allows for customized and pre-filtered watch streams to be used as a trigger,
/// as well as sharing input streams between multiple controllers.
///
/// **NB**: This is constructor requires an [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21) feature.
///
/// Prefer [`Controller::new`] if you do not need to share the stream, or do not need pre-filtering.
///
/// This variant constructor is for [`dynamic`] types found through discovery. Prefer [`Controller::for_stream`] for static types.
///
/// [`dynamic`]: kube_client::core::dynamic
#[cfg(feature = "unstable-runtime-stream-control")]
pub fn for_stream_with(
trigger: impl Stream<Item = Result<K, watcher::Error>> + Send + 'static,
reader: Store<K>,
dyntype: K::DynamicType,
) -> Self {
let mut trigger_selector = stream::SelectAll::new();
let self_watcher = trigger_self(trigger, dyntype.clone()).boxed();
trigger_selector.push(self_watcher);
Self {
trigger_selector,
trigger_backoff: Box::<DefaultBackoff>::default(),
graceful_shutdown_selector: vec![
// Fallback future, ensuring that we never terminate if no additional futures are added to the selector
future::pending().boxed(),
],
forceful_shutdown_selector: vec![
// Fallback future, ensuring that we never terminate if no additional futures are added to the selector
future::pending().boxed(),
],
dyntype,
reader,
config: Default::default(),
}
}
/// This is the same as [`Controller::for_stream`]. Instead of taking an
/// `Api` (e.g. [`Controller::new`]), a stream of resources is used. Shared
/// streams can be created out-of-band by subscribing on a store `Writer`.
/// Through this interface, multiple controllers can use the same root
/// (shared) input stream of resources to keep memory overheads smaller.
///
/// **N.B**: This constructor requires an
/// [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21)
/// feature.
///
/// Prefer [`Controller::new`] or [`Controller::for_stream`] if you do not
/// need to share the stream.
///
/// ## Warning:
///
/// You **must** ensure the root stream (i.e. stream created through a `reflector()`)
/// is driven to readiness independently of this controller to ensure the
/// watcher never deadlocks.
///
/// # Example:
///
/// ```no_run
/// # use futures::StreamExt;
/// # use k8s_openapi::api::apps::v1::Deployment;
/// # use kube::runtime::controller::{Action, Controller};
/// # use kube::runtime::{predicates, watcher, reflector, WatchStreamExt};
/// # use kube::{Api, Client, Error, ResourceExt};
/// # use std::sync::Arc;
/// # async fn reconcile(_: Arc<Deployment>, _: Arc<()>) -> Result<Action, Error> { Ok(Action::await_change()) }
/// # fn error_policy(_: Arc<Deployment>, _: &kube::Error, _: Arc<()>) -> Action { Action::await_change() }
/// # async fn doc(client: kube::Client) {
/// let api: Api<Deployment> = Api::default_namespaced(client);
/// let (reader, writer) = reflector::store_shared(128);
/// let subscriber = writer
/// .subscribe()
/// .expect("subscribers can only be created from shared stores");
/// let deploys = watcher(api, watcher::Config::default())
/// .default_backoff()
/// .reflect(writer)
/// .applied_objects()
/// .for_each(|ev| async move {
/// match ev {
/// Ok(obj) => tracing::info!("got obj {obj:?}"),
/// Err(error) => tracing::error!(%error, "received error")
/// }
/// });
///
/// let controller = Controller::for_shared_stream(subscriber, reader)
/// .run(reconcile, error_policy, Arc::new(()))
/// .for_each(|ev| async move {
/// tracing::info!("reconciled {ev:?}")
/// });
///
/// // Drive streams using a select statement
/// tokio::select! {
/// _ = deploys => {},
/// _ = controller => {},
/// }
/// # }
#[cfg(feature = "unstable-runtime-subscribe")]
pub fn for_shared_stream(trigger: impl Stream<Item = Arc<K>> + Send + 'static, reader: Store<K>) -> Self
where
K::DynamicType: Default,
{
Self::for_shared_stream_with(trigger, reader, Default::default())
}
/// This is the same as [`Controller::for_stream`]. Instead of taking an
/// `Api` (e.g. [`Controller::new`]), a stream of resources is used. Shared
/// streams can be created out-of-band by subscribing on a store `Writer`.
/// Through this interface, multiple controllers can use the same root
/// (shared) input stream of resources to keep memory overheads smaller.
///
/// **N.B**: This constructor requires an
/// [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21)
/// feature.
///
/// Prefer [`Controller::new`] or [`Controller::for_stream`] if you do not
/// need to share the stream.
///
/// This variant constructor is used for [`dynamic`] types found through
/// discovery. Prefer [`Controller::for_shared_stream`] for static types (i.e.
/// known at compile time).
///
/// [`dynamic`]: kube_client::core::dynamic
#[cfg(feature = "unstable-runtime-subscribe")]
pub fn for_shared_stream_with(
trigger: impl Stream<Item = Arc<K>> + Send + 'static,
reader: Store<K>,
dyntype: K::DynamicType,
) -> Self {
let mut trigger_selector = stream::SelectAll::new();
let self_watcher = trigger_self_shared(trigger.map(Ok), dyntype.clone()).boxed();
trigger_selector.push(self_watcher);
Self {
trigger_selector,
trigger_backoff: Box::<DefaultBackoff>::default(),
graceful_shutdown_selector: vec![
// Fallback future, ensuring that we never terminate if no additional futures are added to the selector
future::pending().boxed(),
],
forceful_shutdown_selector: vec![
// Fallback future, ensuring that we never terminate if no additional futures are added to the selector
future::pending().boxed(),
],
dyntype,
reader,
config: Default::default(),
}
}
/// Specify the configuration for the controller's behavior.
#[must_use]
pub fn with_config(mut self, config: Config) -> Self {
self.config = config;
self
}
/// Specify the backoff policy for "trigger" watches
///
/// This includes the core watch, as well as auxilary watches introduced by [`Self::owns`] and [`Self::watches`].
///
/// The [`default_backoff`](crate::watcher::default_backoff) follows client-go conventions,
/// but can be overridden by calling this method.
#[must_use]
pub fn trigger_backoff(mut self, backoff: impl Backoff + Send + 'static) -> Self {
self.trigger_backoff = Box::new(backoff);
self
}
/// Retrieve a copy of the reader before starting the controller
pub fn store(&self) -> Store<K> {
self.reader.clone()
}
/// Specify `Child` objects which `K` owns and should be watched
///
/// Takes an [`Api`] object that determines how the `Controller` listens for changes to the `Child`.
/// All owned `Child` objects **must** contain an [`OwnerReference`] pointing back to a `K`.
///
/// The [`watcher::Config`] controls the subset of `Child` objects that you want the [`Api`]
/// to watch - in the Api's configured scope - and receive reconcile events for.
/// To watch the full set of `Child` objects in the given `Api` scope, you can use [`watcher::Config::default`].
///
/// [`OwnerReference`]: k8s_openapi::apimachinery::pkg::apis::meta::v1::OwnerReference
#[must_use]
pub fn owns<Child: Clone + Resource<DynamicType = ()> + DeserializeOwned + Debug + Send + 'static>(
self,
api: Api<Child>,
wc: watcher::Config,
) -> Self {
self.owns_with(api, (), wc)
}
/// Specify `Child` objects which `K` owns and should be watched
///
/// Same as [`Controller::owns`], but accepts a `DynamicType` so it can be used with dynamic resources.
#[must_use]
pub fn owns_with<Child: Clone + Resource + DeserializeOwned + Debug + Send + 'static>(
mut self,
api: Api<Child>,
dyntype: Child::DynamicType,
wc: watcher::Config,
) -> Self
where
Child::DynamicType: Debug + Eq + Hash + Clone,
{
// TODO: call owns_stream_with when it's stable
let child_watcher = trigger_owners(
metadata_watcher(api, wc).touched_objects(),
self.dyntype.clone(),
dyntype,
);
self.trigger_selector.push(child_watcher.boxed());
self
}
/// Trigger the reconciliation process for a stream of `Child` objects of the owner `K`
///
/// Same as [`Controller::owns`], but instead of an `Api`, a stream of resources is used.
/// This allows for customized and pre-filtered watch streams to be used as a trigger,
/// as well as sharing input streams between multiple controllers.
///
/// **NB**: This is constructor requires an [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21) feature.
///
/// Watcher streams passed in here should be filtered first through `touched_objects`.
///
/// # Example:
///
/// ```no_run
/// # use futures::StreamExt;
/// # use k8s_openapi::api::core::v1::ConfigMap;
/// # use k8s_openapi::api::apps::v1::StatefulSet;
/// # use kube::runtime::controller::Action;
/// # use kube::runtime::{predicates, metadata_watcher, watcher, Controller, WatchStreamExt};
/// # use kube::{Api, Client, Error, ResourceExt};
/// # use std::sync::Arc;
/// # type CustomResource = ConfigMap;
/// # async fn reconcile(_: Arc<CustomResource>, _: Arc<()>) -> Result<Action, Error> { Ok(Action::await_change()) }
/// # fn error_policy(_: Arc<CustomResource>, _: &kube::Error, _: Arc<()>) -> Action { Action::await_change() }
/// # async fn doc(client: kube::Client) {
/// let sts_stream = metadata_watcher(Api::<StatefulSet>::all(client.clone()), watcher::Config::default())
/// .touched_objects()
/// .predicate_filter(predicates::generation);
///
/// Controller::new(Api::<CustomResource>::all(client), watcher::Config::default())
/// .owns_stream(sts_stream)
/// .run(reconcile, error_policy, Arc::new(()))
/// .for_each(|_| std::future::ready(()))
/// .await;
/// # }
/// ```
#[cfg(feature = "unstable-runtime-stream-control")]
#[must_use]
pub fn owns_stream<Child: Resource<DynamicType = ()> + Send + 'static>(
self,
trigger: impl Stream<Item = Result<Child, watcher::Error>> + Send + 'static,
) -> Self {
self.owns_stream_with(trigger, ())
}
/// Trigger the reconciliation process for a stream of `Child` objects of the owner `K`
///
/// Same as [`Controller::owns`], but instead of an `Api`, a stream of resources is used.
/// This allows for customized and pre-filtered watch streams to be used as a trigger,
/// as well as sharing input streams between multiple controllers.
///
/// **NB**: This is constructor requires an [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21) feature.
///
/// Same as [`Controller::owns_stream`], but accepts a `DynamicType` so it can be used with dynamic resources.
#[cfg(feature = "unstable-runtime-stream-control")]
#[must_use]
pub fn owns_stream_with<Child: Resource + Send + 'static>(
mut self,
trigger: impl Stream<Item = Result<Child, watcher::Error>> + Send + 'static,
dyntype: Child::DynamicType,
) -> Self
where
Child::DynamicType: Debug + Eq + Hash + Clone,
{
let child_watcher = trigger_owners(trigger, self.dyntype.clone(), dyntype);
self.trigger_selector.push(child_watcher.boxed());
self
}
/// This is the same as [`Controller::for_stream`]. Instead of taking an
/// `Api` (e.g. [`Controller::new`]), a stream of resources is used. Shared
/// streams can be created out-of-band by subscribing on a store `Writer`.
/// Through this interface, multiple controllers can use the same root
/// (shared) input stream of resources to keep memory overheads smaller.
///
/// **N.B**: This constructor requires an
/// [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21)
/// feature.
///
/// Prefer [`Controller::new`] or [`Controller::for_stream`] if you do not
/// need to share the stream.
///
/// ## Warning:
///
/// You **must** ensure the root stream (i.e. stream created through a `reflector()`)
/// is driven to readiness independently of this controller to ensure the
/// watcher never deadlocks.
///
///
/// Trigger the reconciliation process for a shared stream of `Child`
/// objects of the owner `K`
///
/// Conceptually the same as [`Controller::owns`], but a stream is used
/// instead of an `Api`. This interface behaves similarly to its non-shared
/// counterpart [`Controller::owns_stream`].
///
/// **NB**: This is constructor requires an [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21) feature.
///
/// # Example:
///
/// ```no_run
/// # use futures::StreamExt;
/// # use k8s_openapi::api::{apps::v1::Deployment, core::v1::Pod};
/// # use kube::runtime::controller::{Action, Controller};
/// # use kube::runtime::{predicates, watcher, reflector, WatchStreamExt};
/// # use kube::{Api, Client, Error, ResourceExt};
/// # use std::sync::Arc;
/// # async fn reconcile(_: Arc<Deployment>, _: Arc<()>) -> Result<Action, Error> { Ok(Action::await_change()) }
/// # fn error_policy(_: Arc<Deployment>, _: &kube::Error, _: Arc<()>) -> Action { Action::await_change() }
/// # async fn doc(client: kube::Client) {
/// let deploys: Api<Deployment> = Api::default_namespaced(client.clone());
/// let pod_api: Api<Pod> = Api::default_namespaced(client);
///
/// let (reader, writer) = reflector::store_shared(128);
/// let subscriber = writer
/// .subscribe()
/// .expect("subscribers can only be created from shared stores");
/// let pods = watcher(pod_api, watcher::Config::default())
/// .default_backoff()
/// .reflect(writer)
/// .applied_objects()
/// .for_each(|ev| async move {
/// match ev {
/// Ok(obj) => tracing::info!("got obj {obj:?}"),
/// Err(error) => tracing::error!(%error, "received error")
/// }
/// });
///
/// let controller = Controller::new(deploys, Default::default())
/// .owns_shared_stream(subscriber)
/// .run(reconcile, error_policy, Arc::new(()))
/// .for_each(|ev| async move {
/// tracing::info!("reconciled {ev:?}")
/// });
///
/// // Drive streams using a select statement
/// tokio::select! {
/// _ = pods => {},
/// _ = controller => {},
/// }
/// # }
#[cfg(feature = "unstable-runtime-subscribe")]
#[must_use]
pub fn owns_shared_stream<Child: Resource<DynamicType = ()> + Send + 'static>(
self,
trigger: impl Stream<Item = Arc<Child>> + Send + 'static,
) -> Self {
self.owns_shared_stream_with(trigger, ())
}
/// Trigger the reconciliation process for a shared stream of `Child` objects of the owner `K`
///
/// Same as [`Controller::owns`], but instead of an `Api`, a shared stream of resources is used.
/// The source stream can be shared between multiple controllers, optimising
/// resource usage.
///
/// **NB**: This is constructor requires an [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21) feature.
///
/// Same as [`Controller::owns_shared_stream`], but accepts a `DynamicType` so it can be used with dynamic resources.
#[cfg(feature = "unstable-runtime-subscribe")]
#[must_use]
pub fn owns_shared_stream_with<Child: Resource<DynamicType = ()> + Send + 'static>(
mut self,
trigger: impl Stream<Item = Arc<Child>> + Send + 'static,
dyntype: Child::DynamicType,
) -> Self
where
Child::DynamicType: Debug + Eq + Hash + Clone,
{
let child_watcher = trigger_owners_shared(trigger.map(Ok), self.dyntype.clone(), dyntype);
self.trigger_selector.push(child_watcher.boxed());
self
}
/// Specify `Watched` object which `K` has a custom relation to and should be watched
///
/// To define the `Watched` relation with `K`, you **must** define a custom relation mapper, which,
/// when given a `Watched` object, returns an option or iterator of relevant `ObjectRef<K>` to reconcile.
///
/// If the relation `K` has to `Watched` is that `K` owns `Watched`, consider using [`Controller::owns`].
///
/// Takes an [`Api`] object that determines how the `Controller` listens for changes to the `Watched`.
///
/// The [`watcher::Config`] controls the subset of `Watched` objects that you want the [`Api`]
/// to watch - in the Api's configured scope - and run through the custom mapper.
/// To watch the full set of `Watched` objects in given the `Api` scope, you can use [`watcher::Config::default`].
///
/// # Example
///
/// Tracking cross cluster references using the [Operator-SDK] annotations.
///
/// ```
/// # use kube::runtime::{Controller, controller::Action, reflector::ObjectRef, watcher};
/// # use kube::{Api, ResourceExt};
/// # use k8s_openapi::api::core::v1::{ConfigMap, Namespace};
/// # use futures::StreamExt;
/// # use std::sync::Arc;
/// # type WatchedResource = Namespace;
/// # struct Context;
/// # async fn reconcile(_: Arc<ConfigMap>, _: Arc<Context>) -> Result<Action, kube::Error> {
/// # Ok(Action::await_change())
/// # };
/// # fn error_policy(_: Arc<ConfigMap>, _: &kube::Error, _: Arc<Context>) -> Action {
/// # Action::await_change()
/// # }
/// # async fn doc(client: kube::Client) -> Result<(), Box<dyn std::error::Error>> {
/// # let memcached = Api::<ConfigMap>::all(client.clone());
/// # let context = Arc::new(Context);
/// Controller::new(memcached, watcher::Config::default())
/// .watches(
/// Api::<WatchedResource>::all(client.clone()),
/// watcher::Config::default(),
/// |ar| {
/// let prt = ar
/// .annotations()
/// .get("operator-sdk/primary-resource-type")
/// .map(String::as_str);
///
/// if prt != Some("Memcached.cache.example.com") {
/// return None;
/// }
///
/// let (namespace, name) = ar
/// .annotations()
/// .get("operator-sdk/primary-resource")?
/// .split_once('/')?;
///
/// Some(ObjectRef::new(name).within(namespace))
/// }
/// )
/// .run(reconcile, error_policy, context)
/// .for_each(|_| futures::future::ready(()))
/// .await;
/// # Ok(())
/// # }
/// ```
///
/// [Operator-SDK]: https://sdk.operatorframework.io/docs/building-operators/ansible/reference/retroactively-owned-resources/
#[must_use]
pub fn watches<Other, I>(
self,
api: Api<Other>,
wc: watcher::Config,
mapper: impl Fn(Other) -> I + Sync + Send + 'static,
) -> Self
where
Other: Clone + Resource + DeserializeOwned + Debug + Send + 'static,
Other::DynamicType: Default + Debug + Clone + Eq + Hash,
I: 'static + IntoIterator<Item = ObjectRef<K>>,
I::IntoIter: Send,
{
self.watches_with(api, Default::default(), wc, mapper)
}
/// Specify `Watched` object which `K` has a custom relation to and should be watched
///
/// Same as [`Controller::watches`], but accepts a `DynamicType` so it can be used with dynamic resources.
#[must_use]
pub fn watches_with<Other, I>(
mut self,
api: Api<Other>,
dyntype: Other::DynamicType,
wc: watcher::Config,
mapper: impl Fn(Other) -> I + Sync + Send + 'static,
) -> Self
where
Other: Clone + Resource + DeserializeOwned + Debug + Send + 'static,
I: 'static + IntoIterator<Item = ObjectRef<K>>,
I::IntoIter: Send,
Other::DynamicType: Debug + Clone + Eq + Hash,
{
let other_watcher = trigger_others(watcher(api, wc).touched_objects(), mapper, dyntype);
self.trigger_selector.push(other_watcher.boxed());
self
}
/// Trigger the reconciliation process for a stream of `Other` objects related to a `K`
///
/// Same as [`Controller::watches`], but instead of an `Api`, a stream of resources is used.
/// This allows for customized and pre-filtered watch streams to be used as a trigger,
/// as well as sharing input streams between multiple controllers.
///
/// **NB**: This is constructor requires an [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21) feature.
///
/// Watcher streams passed in here should be filtered first through `touched_objects`.
///
/// # Example:
///
/// ```no_run
/// # use futures::StreamExt;
/// # use k8s_openapi::api::core::v1::ConfigMap;
/// # use k8s_openapi::api::apps::v1::DaemonSet;
/// # use kube::runtime::controller::Action;
/// # use kube::runtime::{predicates, reflector::ObjectRef, watcher, Controller, WatchStreamExt};
/// # use kube::{Api, Client, Error, ResourceExt};
/// # use std::sync::Arc;
/// # type CustomResource = ConfigMap;
/// # async fn reconcile(_: Arc<CustomResource>, _: Arc<()>) -> Result<Action, Error> { Ok(Action::await_change()) }
/// # fn error_policy(_: Arc<CustomResource>, _: &kube::Error, _: Arc<()>) -> Action { Action::await_change() }
/// fn mapper(_: DaemonSet) -> Option<ObjectRef<CustomResource>> { todo!() }
/// # async fn doc(client: kube::Client) {
/// let api: Api<DaemonSet> = Api::all(client.clone());
/// let cr: Api<CustomResource> = Api::all(client.clone());
/// let daemons = watcher(api, watcher::Config::default())
/// .touched_objects()
/// .predicate_filter(predicates::generation);
///
/// Controller::new(cr, watcher::Config::default())
/// .watches_stream(daemons, mapper)
/// .run(reconcile, error_policy, Arc::new(()))
/// .for_each(|_| std::future::ready(()))
/// .await;
/// # }
/// ```
#[cfg(feature = "unstable-runtime-stream-control")]
#[must_use]
pub fn watches_stream<Other, I>(
self,
trigger: impl Stream<Item = Result<Other, watcher::Error>> + Send + 'static,
mapper: impl Fn(Other) -> I + Sync + Send + 'static,
) -> Self
where
Other: Clone + Resource + DeserializeOwned + Debug + Send + 'static,
Other::DynamicType: Default + Debug + Clone,
I: 'static + IntoIterator<Item = ObjectRef<K>>,
I::IntoIter: Send,
{
self.watches_stream_with(trigger, mapper, Default::default())
}
/// Trigger the reconciliation process for a stream of `Other` objects related to a `K`
///
/// Same as [`Controller::watches`], but instead of an `Api`, a stream of resources is used.
/// This allows for customized and pre-filtered watch streams to be used as a trigger,
/// as well as sharing input streams between multiple controllers.
///
/// **NB**: This is constructor requires an [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21) feature.
///
/// Same as [`Controller::watches_stream`], but accepts a `DynamicType` so it can be used with dynamic resources.
#[cfg(feature = "unstable-runtime-stream-control")]
#[must_use]
pub fn watches_stream_with<Other, I>(
mut self,
trigger: impl Stream<Item = Result<Other, watcher::Error>> + Send + 'static,
mapper: impl Fn(Other) -> I + Sync + Send + 'static,
dyntype: Other::DynamicType,
) -> Self
where
Other: Clone + Resource + DeserializeOwned + Debug + Send + 'static,
Other::DynamicType: Debug + Clone,
I: 'static + IntoIterator<Item = ObjectRef<K>>,
I::IntoIter: Send,
{
let other_watcher = trigger_others(trigger, mapper, dyntype);
self.trigger_selector.push(other_watcher.boxed());
self
}
/// Trigger the reconciliation process for a shared stream of `Other`
/// objects related to a `K`
///
/// Same as [`Controller::watches`], but instead of an `Api`, a shared
/// stream of resources is used. This allows for sharing input streams
/// between multiple controllers.
///
/// **NB**: This is constructor requires an [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21) feature.
///
/// Watcher streams passed in here should be filtered first through `touched_objects`.
///
/// # Example:
///
/// ```no_run
/// # use futures::StreamExt;
/// # use k8s_openapi::api::core::v1::ConfigMap;
/// # use k8s_openapi::api::apps::v1::DaemonSet;
/// # use kube::runtime::controller::Action;
/// # use kube::runtime::{predicates, reflector::ObjectRef, watcher, Controller, WatchStreamExt};
/// # use kube::{Api, Client, Error, ResourceExt};
/// # use std::sync::Arc;
/// # type CustomResource = ConfigMap;
/// # async fn reconcile(_: Arc<CustomResource>, _: Arc<()>) -> Result<Action, Error> { Ok(Action::await_change()) }
/// # fn error_policy(_: Arc<CustomResource>, _: &kube::Error, _: Arc<()>) -> Action { Action::await_change() }
/// fn mapper(_: Arc<DaemonSet>) -> Option<ObjectRef<CustomResource>> { todo!() }
/// # async fn doc(client: kube::Client) {
/// let api: Api<DaemonSet> = Api::all(client.clone());
/// let cr: Api<CustomResource> = Api::all(client.clone());
/// let (reader, writer) = kube_runtime::reflector::store_shared(128);
/// let subscriber = writer
/// .subscribe()
/// .expect("subscribers can only be created from shared stores");
/// let daemons = watcher(api, watcher::Config::default())
/// .reflect(writer)
/// .touched_objects()
/// .for_each(|ev| async move {
/// match ev {
/// Ok(obj) => {},
/// Err(error) => tracing::error!(%error, "received err")
/// }
/// });
///
/// let controller = Controller::new(cr, watcher::Config::default())
/// .watches_shared_stream(subscriber, mapper)
/// .run(reconcile, error_policy, Arc::new(()))
/// .for_each(|_| std::future::ready(()));
///
/// // Drive streams using a select statement
/// tokio::select! {
/// _ = daemons => {},
/// _ = controller => {},
/// }
/// # }
/// ```
#[cfg(feature = "unstable-runtime-subscribe")]
#[must_use]
pub fn watches_shared_stream<Other, I>(
self,
trigger: impl Stream<Item = Arc<Other>> + Send + 'static,
mapper: impl Fn(Arc<Other>) -> I + Sync + Send + 'static,
) -> Self
where
Other: Clone + Resource + DeserializeOwned + Debug + Send + 'static,
Other::DynamicType: Default + Debug + Clone,
I: 'static + IntoIterator<Item = ObjectRef<K>>,
I::IntoIter: Send,
{
self.watches_shared_stream_with(trigger, mapper, Default::default())
}
/// Trigger the reconciliation process for a shared stream of `Other` objects related to a `K`
///
/// Same as [`Controller::watches`], but instead of an `Api`, a shared
/// stream of resources is used. This allows for sharing of streams between
/// multiple controllers.
///
/// **NB**: This is constructor requires an [`unstable`](https://github.com/kube-rs/kube/blob/main/kube-runtime/Cargo.toml#L17-L21) feature.
///
/// Same as [`Controller::watches_shared_stream`], but accepts a `DynamicType` so it can be used with dynamic resources.
#[cfg(feature = "unstable-runtime-subscribe")]
#[must_use]
pub fn watches_shared_stream_with<Other, I>(
mut self,
trigger: impl Stream<Item = Arc<Other>> + Send + 'static,
mapper: impl Fn(Arc<Other>) -> I + Sync + Send + 'static,
dyntype: Other::DynamicType,
) -> Self
where
Other: Clone + Resource + DeserializeOwned + Debug + Send + 'static,
Other::DynamicType: Debug + Clone,
I: 'static + IntoIterator<Item = ObjectRef<K>>,
I::IntoIter: Send,
{
let other_watcher = trigger_others_shared(trigger.map(Ok), mapper, dyntype);
self.trigger_selector.push(other_watcher.boxed());
self
}
/// Trigger a reconciliation for all managed objects whenever `trigger` emits a value
///
/// For example, this can be used to reconcile all objects whenever the controller's configuration changes.
///
/// To reconcile all objects when a new line is entered:
///
/// ```
/// # async {
/// use futures::stream::StreamExt;
/// use k8s_openapi::api::core::v1::ConfigMap;
/// use kube::{
/// Client,
/// api::{Api, ResourceExt},
/// runtime::{
/// controller::{Controller, Action},
/// watcher,
/// },
/// };
/// use std::{convert::Infallible, io::BufRead, sync::Arc};
/// let (mut reload_tx, reload_rx) = futures::channel::mpsc::channel(0);
/// // Using a regular background thread since tokio::io::stdin() doesn't allow aborting reads,
/// // and its worker prevents the Tokio runtime from shutting down.
/// std::thread::spawn(move || {
/// for _ in std::io::BufReader::new(std::io::stdin()).lines() {
/// let _ = reload_tx.try_send(());
/// }
/// });
/// Controller::new(
/// Api::<ConfigMap>::all(Client::try_default().await.unwrap()),
/// watcher::Config::default(),
/// )
/// .reconcile_all_on(reload_rx.map(|_| ()))
/// .run(
/// |o, _| async move {
/// println!("Reconciling {}", o.name_any());
/// Ok(Action::await_change())
/// },
/// |_object: Arc<ConfigMap>, err: &Infallible, _| Err(err).unwrap(),
/// Arc::new(()),
/// );
/// # };
/// ```
///
/// This can be called multiple times, in which case they are additive; reconciles are scheduled whenever *any* [`Stream`] emits a new item.
///
/// If a [`Stream`] is terminated (by emitting [`None`]) then the [`Controller`] keeps running, but the [`Stream`] stops being polled.
#[must_use]
pub fn reconcile_all_on(mut self, trigger: impl Stream<Item = ()> + Send + Sync + 'static) -> Self {
let store = self.store();
let dyntype = self.dyntype.clone();
self.trigger_selector.push(
trigger
.flat_map(move |()| {
let dyntype = dyntype.clone();
stream::iter(store.state().into_iter().map(move |obj| {
Ok(ReconcileRequest {
obj_ref: ObjectRef::from_obj_with(&*obj, dyntype.clone()),
reason: ReconcileReason::BulkReconcile,
})
}))
})
.boxed(),
);
self
}
/// Trigger the reconciliation process for a managed object `ObjectRef<K>` whenever `trigger` emits a value
///
/// This can be used to inject reconciliations for specific objects from an external resource.
///
/// # Example:
///
/// ```no_run
/// # async {
/// # use futures::{StreamExt, Stream, stream, TryStreamExt};
/// # use k8s_openapi::api::core::v1::{ConfigMap};
/// # use kube::api::Api;
/// # use kube::runtime::controller::Action;
/// # use kube::runtime::reflector::{ObjectRef, Store};
/// # use kube::runtime::{reflector, watcher, Controller, WatchStreamExt};
/// # use kube::runtime::watcher::Config;
/// # use kube::{Client, Error, ResourceExt};
/// # use std::future;
/// # use std::sync::Arc;
/// #
/// # let client: Client = todo!();
/// # async fn reconcile(_: Arc<ConfigMap>, _: Arc<()>) -> Result<Action, Error> { Ok(Action::await_change()) }
/// # fn error_policy(_: Arc<ConfigMap>, _: &kube::Error, _: Arc<()>) -> Action { Action::await_change() }
/// # fn watch_external_objects() -> impl Stream<Item = ExternalObject> { stream::iter(vec![]) }
/// # let ns = "controller-ns".to_string();
/// struct ExternalObject {
/// name: String,
/// }
/// let external_stream = watch_external_objects().map(|ext| {
/// ObjectRef::new(&format!("{}-cm", ext.name)).within(&ns)
/// });
///
/// Controller::new(Api::<ConfigMap>::namespaced(client, &ns), Config::default())
/// .reconcile_on(external_stream)
/// .run(reconcile, error_policy, Arc::new(()))
/// .for_each(|_| future::ready(()))
/// .await;
/// # };
/// ```
#[cfg(feature = "unstable-runtime-reconcile-on")]
#[must_use]
pub fn reconcile_on(mut self, trigger: impl Stream<Item = ObjectRef<K>> + Send + 'static) -> Self {
self.trigger_selector.push(
trigger
.map(move |obj| {
Ok(ReconcileRequest {
obj_ref: obj,
reason: ReconcileReason::Unknown,
})
})
.boxed(),
);
self
}
/// Start a graceful shutdown when `trigger` resolves. Once a graceful shutdown has been initiated:
///
/// - No new reconciliations are started from the scheduler
/// - The underlying Kubernetes watch is terminated
/// - All running reconciliations are allowed to finish
/// - [`Controller::run`]'s [`Stream`] terminates once all running reconciliations are done.
///
/// For example, to stop the reconciler whenever the user presses Ctrl+C:
///
/// ```rust
/// # async {
/// use futures::future::FutureExt;
/// use k8s_openapi::api::core::v1::ConfigMap;
/// use kube::{Api, Client, ResourceExt};
/// use kube_runtime::{
/// controller::{Controller, Action},
/// watcher,
/// };
/// use std::{convert::Infallible, sync::Arc};
/// Controller::new(
/// Api::<ConfigMap>::all(Client::try_default().await.unwrap()),
/// watcher::Config::default(),
/// )
/// .graceful_shutdown_on(tokio::signal::ctrl_c().map(|_| ()))
/// .run(
/// |o, _| async move {
/// println!("Reconciling {}", o.name_any());
/// Ok(Action::await_change())
/// },
/// |_, err: &Infallible, _| Err(err).unwrap(),
/// Arc::new(()),
/// );
/// # };
/// ```
///
/// This can be called multiple times, in which case they are additive; the [`Controller`] starts to terminate
/// as soon as *any* [`Future`] resolves.
#[must_use]
pub fn graceful_shutdown_on(mut self, trigger: impl Future<Output = ()> + Send + Sync + 'static) -> Self {
self.graceful_shutdown_selector.push(trigger.boxed());
self
}
/// Initiate graceful shutdown on Ctrl+C or SIGTERM (on Unix), waiting for all reconcilers to finish.
///
/// Once a graceful shutdown has been initiated, Ctrl+C (or SIGTERM) can be sent again
/// to request a forceful shutdown (requesting that all reconcilers abort on the next yield point).
///
/// NOTE: On Unix this leaves the default handlers for SIGINT and SIGTERM disabled after the [`Controller`] has
/// terminated. If you run this in a process containing more tasks than just the [`Controller`], ensure that
/// all other tasks either terminate when the [`Controller`] does, that they have their own signal handlers,
/// or use [`Controller::graceful_shutdown_on`] to manage your own shutdown strategy.
///
/// NOTE: If developing a Windows service then you need to listen to its lifecycle events instead, and hook that into
/// [`Controller::graceful_shutdown_on`].
///
/// NOTE: [`Controller::run`] terminates as soon as a forceful shutdown is requested, but leaves the reconcilers running
/// in the background while they terminate. This will block [`tokio::runtime::Runtime`] termination until they actually terminate,
/// unless you run [`std::process::exit`] afterwards.
#[must_use]
pub fn shutdown_on_signal(mut self) -> Self {
async fn shutdown_signal() {
futures::future::select(
tokio::signal::ctrl_c().map(|_| ()).boxed(),
#[cfg(unix)]
tokio::signal::unix::signal(tokio::signal::unix::SignalKind::terminate())
.unwrap()
.recv()
.map(|_| ())
.boxed(),
// Assume that ctrl_c is enough on non-Unix platforms (such as Windows)
#[cfg(not(unix))]
futures::future::pending::<()>(),
)
.await;
}
let (graceful_tx, graceful_rx) = channel::oneshot::channel();
self.graceful_shutdown_selector
.push(graceful_rx.map(|_| ()).boxed());
self.forceful_shutdown_selector.push(
async {
tracing::info!("press ctrl+c to shut down gracefully");
shutdown_signal().await;
if let Ok(()) = graceful_tx.send(()) {
tracing::info!("graceful shutdown requested, press ctrl+c again to force shutdown");
} else {
tracing::info!(
"graceful shutdown already requested, press ctrl+c again to force shutdown"
);
}
shutdown_signal().await;
tracing::info!("forced shutdown requested");
}
.boxed(),
);
self
}
/// Consume all the parameters of the Controller and start the applier stream
///
/// This creates a stream from all builder calls and starts an applier with
/// a specified `reconciler` and `error_policy` callbacks. Each of these will be called
/// with a configurable `context`.
pub fn run<ReconcilerFut, Ctx>(
self,
mut reconciler: impl FnMut(Arc<K>, Arc<Ctx>) -> ReconcilerFut,
error_policy: impl Fn(Arc<K>, &ReconcilerFut::Error, Arc<Ctx>) -> Action,
context: Arc<Ctx>,
) -> impl Stream<Item = Result<(ObjectRef<K>, Action), Error<ReconcilerFut::Error, watcher::Error>>>
where
K::DynamicType: Debug + Unpin,
ReconcilerFut: TryFuture<Ok = Action> + Send + 'static,
ReconcilerFut::Error: std::error::Error + Send + 'static,
{
applier(
move |obj, ctx| {
CancelableJoinHandle::spawn(
reconciler(obj, ctx).into_future().in_current_span(),
&Handle::current(),
)
},
error_policy,
context,
self.reader,
StreamBackoff::new(self.trigger_selector, self.trigger_backoff)
.take_until(future::select_all(self.graceful_shutdown_selector)),
self.config,
)
.take_until(futures::future::select_all(self.forceful_shutdown_selector))
}
}
#[cfg(test)]
mod tests {
use std::{convert::Infallible, pin::pin, sync::Arc, time::Duration};
use super::{Action, APPLIER_REQUEUE_BUF_SIZE};
use crate::{
applier,
reflector::{self, ObjectRef},
watcher::{self, metadata_watcher, watcher, Event},
Config, Controller,
};
use futures::{Stream, StreamExt, TryStreamExt};
use k8s_openapi::api::core::v1::ConfigMap;
use kube_client::{core::ObjectMeta, Api, Resource};
use serde::de::DeserializeOwned;
use tokio::time::timeout;
fn assert_send<T: Send>(x: T) -> T {
x
}
// Used to typecheck that a type T is a generic type that implements Stream
// and returns a WatchEvent generic over a resource `K`
fn assert_stream<T, K>(x: T) -> T
where
T: Stream<Item = watcher::Result<Event<K>>> + Send,
K: Resource + Clone + DeserializeOwned + std::fmt::Debug + Send + 'static,
{
x
}
fn mock_type<T>() -> T {
unimplemented!(
"mock_type is not supposed to be called, only used for filling holes in type assertions"
)
}
// not #[test] because we don't want to actually run it, we just want to assert that it typechecks
#[allow(dead_code, unused_must_use)]
fn test_controller_should_be_send() {
assert_send(
Controller::new(mock_type::<Api<ConfigMap>>(), Default::default()).run(
|_, _| async { Ok(mock_type::<Action>()) },
|_: Arc<ConfigMap>, _: &std::io::Error, _| mock_type::<Action>(),
Arc::new(()),
),
);
}
// not #[test] because we don't want to actually run it, we just want to
// assert that it typechecks
//
// will check return types for `watcher` and `watch_metadata` do not drift
// given an arbitrary K that implements `Resource` (e.g ConfigMap)
#[allow(dead_code, unused_must_use)]
fn test_watcher_stream_type_drift() {
assert_stream(watcher(mock_type::<Api<ConfigMap>>(), Default::default()));
assert_stream(metadata_watcher(
mock_type::<Api<ConfigMap>>(),
Default::default(),
));
}
#[tokio::test]
async fn applier_must_not_deadlock_if_reschedule_buffer_fills() {
// This tests that `applier` handles reschedule queue backpressure correctly, by trying to flood it with no-op reconciles
// This is intended to avoid regressing on https://github.com/kube-rs/kube/issues/926
// Assume that we can keep APPLIER_REQUEUE_BUF_SIZE flooded if we have 100x the number of objects "in rotation"
// On my (@nightkr)'s 3900X I can reliably trigger this with 10x, but let's have some safety margin to avoid false negatives
let items = APPLIER_REQUEUE_BUF_SIZE * 50;
// Assume that everything's OK if we can reconcile every object 3 times on average
let reconciles = items * 3;
let (queue_tx, queue_rx) = futures::channel::mpsc::unbounded::<ObjectRef<ConfigMap>>();
let (store_rx, mut store_tx) = reflector::store();
let mut applier = pin!(applier(
|_obj, _| {
Box::pin(async move {
// Try to flood the rescheduling buffer buffer by just putting it back in the queue immediately
//println!("reconciling {:?}", obj.metadata.name);
Ok(Action::requeue(Duration::ZERO))
})
},
|_: Arc<ConfigMap>, _: &Infallible, _| todo!(),
Arc::new(()),
store_rx,
queue_rx.map(Result::<_, Infallible>::Ok),
Config::default(),
));
store_tx.apply_watcher_event(&watcher::Event::InitDone);
for i in 0..items {
let obj = ConfigMap {
metadata: ObjectMeta {
name: Some(format!("cm-{i}")),
namespace: Some("default".to_string()),
..Default::default()
},
..Default::default()
};
store_tx.apply_watcher_event(&watcher::Event::Apply(obj.clone()));
queue_tx.unbounded_send(ObjectRef::from_obj(&obj)).unwrap();
}
timeout(
Duration::from_secs(10),
applier
.as_mut()
.take(reconciles)
.try_for_each(|_| async { Ok(()) }),
)
.await
.expect("test timeout expired, applier likely deadlocked")
.unwrap();
// Do an orderly shutdown to ensure that no individual reconcilers are stuck
drop(queue_tx);
timeout(
Duration::from_secs(10),
applier.try_for_each(|_| async { Ok(()) }),
)
.await
.expect("applier cleanup timeout expired, individual reconciler likely deadlocked?")
.unwrap();
}
}