consul/internal/controller/api.go

261 lines
7.3 KiB
Go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: BUSL-1.1
package controller
import (
"context"
"fmt"
"strings"
"time"
"github.com/hashicorp/go-hclog"
"github.com/hashicorp/consul/agent/consul/controller/queue"
"github.com/hashicorp/consul/internal/resource"
"github.com/hashicorp/consul/proto-public/pbresource"
)
// ForType begins building a Controller for the given resource type.
func ForType(managedType *pbresource.Type) Controller {
return Controller{managedType: managedType}
}
// WithReconciler changes the controller's reconciler.
func (c Controller) WithReconciler(reconciler Reconciler) Controller {
if reconciler == nil {
panic("reconciler must not be nil")
}
c.reconciler = reconciler
return c
}
// WithWatch adds a watch on the given type/dependency to the controller. mapper
// will be called to determine which resources must be reconciled as a result of
// a watched resource changing.
func (c Controller) WithWatch(watchedType *pbresource.Type, mapper DependencyMapper) Controller {
if watchedType == nil {
panic("watchedType must not be nil")
}
if mapper == nil {
panic("mapper must not be nil")
}
c.watches = append(c.watches, watch{watchedType, mapper})
return c
}
// WithCustomWatch adds a custom watch on the given dependency to the controller. Custom mapper
// will be called to map events produced by source to the controller's watched type.
func (c Controller) WithCustomWatch(source *Source, mapper CustomDependencyMapper) Controller {
if source == nil {
panic("source must not be nil")
}
if mapper == nil {
panic("mapper must not be nil")
}
c.customWatches = append(c.customWatches, customWatch{source, mapper})
return c
}
// WithLogger changes the controller's logger.
func (c Controller) WithLogger(logger hclog.Logger) Controller {
if logger == nil {
panic("logger must not be nil")
}
c.logger = logger
return c
}
// WithBackoff changes the base and maximum backoff values for the controller's
// retry rate limiter.
func (c Controller) WithBackoff(base, max time.Duration) Controller {
c.baseBackoff = base
c.maxBackoff = max
return c
}
// WithPlacement changes where and how many replicas of the controller will run.
// In the majority of cases, the default placement (one leader elected instance
// per cluster) is the most appropriate and you shouldn't need to override it.
func (c Controller) WithPlacement(placement Placement) Controller {
c.placement = placement
return c
}
// String returns a textual description of the controller, useful for debugging.
func (c Controller) String() string {
watchedTypes := make([]string, len(c.watches))
for idx, w := range c.watches {
watchedTypes[idx] = fmt.Sprintf("%q", resource.ToGVK(w.watchedType))
}
base, max := c.backoff()
return fmt.Sprintf(
"<Controller managed_type=%q, watched_types=[%s], backoff=<base=%q, max=%q>, placement=%q>",
resource.ToGVK(c.managedType),
strings.Join(watchedTypes, ", "),
base, max,
c.placement,
)
}
func (c Controller) backoff() (time.Duration, time.Duration) {
base := c.baseBackoff
if base == 0 {
base = 5 * time.Millisecond
}
max := c.maxBackoff
if max == 0 {
max = 1000 * time.Second
}
return base, max
}
// Controller runs a reconciliation loop to respond to changes in resources and
// their dependencies. It is heavily inspired by Kubernetes' controller pattern:
// https://kubernetes.io/docs/concepts/architecture/controller/
//
// Use the builder methods in this package (starting with ForType) to construct
// a controller, and then pass it to a Manager to be executed.
type Controller struct {
managedType *pbresource.Type
reconciler Reconciler
logger hclog.Logger
watches []watch
customWatches []customWatch
baseBackoff time.Duration
maxBackoff time.Duration
placement Placement
}
type watch struct {
watchedType *pbresource.Type
mapper DependencyMapper
}
// Watch is responsible for watching for custom events from source and adding them to
// the event queue.
func (s *Source) Watch(ctx context.Context, add func(e Event)) error {
for {
select {
case <-ctx.Done():
return nil
case evt, ok := <-s.Source:
if !ok {
return nil
}
add(evt)
}
}
}
// Source is used as a generic source of events. This can be used when events aren't coming from resources
// stored by the resource API.
type Source struct {
Source <-chan Event
}
// Event captures an event in the system which the API can choose to respond to.
type Event struct {
Obj queue.ItemType
}
// Key returns a string that will be used to de-duplicate items in the queue.
func (e Event) Key() string {
return e.Obj.Key()
}
// customWatch represent a Watch on a custom Event source and a Mapper to map said
// Events into Requests that the controller can respond to.
type customWatch struct {
source *Source
mapper CustomDependencyMapper
}
// Request represents a request to reconcile the resource with the given ID.
type Request struct {
// ID of the resource that needs to be reconciled.
ID *pbresource.ID
}
// Key satisfies the queue.ItemType interface. It returns a string which will be
// used to de-duplicate requests in the queue.
func (r Request) Key() string {
return fmt.Sprintf(
"part=%q,peer=%q,ns=%q,name=%q,uid=%q",
r.ID.Tenancy.Partition,
r.ID.Tenancy.PeerName,
r.ID.Tenancy.Namespace,
r.ID.Name,
r.ID.Uid,
)
}
// Runtime contains the dependencies required by reconcilers.
type Runtime struct {
Client pbresource.ResourceServiceClient
Logger hclog.Logger
}
// Reconciler implements the business logic of a controller.
type Reconciler interface {
// Reconcile the resource identified by req.ID.
Reconcile(ctx context.Context, rt Runtime, req Request) error
}
// Placement determines where and how many replicas of the controller will run.
type Placement int
const (
// PlacementSingleton ensures there is a single, leader-elected, instance of
// the controller running in the cluster at any time. It's the default and is
// suitable for most use-cases.
PlacementSingleton Placement = iota
// PlacementEachServer ensures there is a replica of the controller running on
// each server in the cluster. It is useful for cases where the controller is
// responsible for applying some configuration resource to the server whenever
// it changes (e.g. rate-limit configuration). Generally, controllers in this
// placement mode should not modify resources.
PlacementEachServer
)
// String satisfies the fmt.Stringer interface.
func (p Placement) String() string {
switch p {
case PlacementSingleton:
return "singleton"
case PlacementEachServer:
return "each-server"
}
panic(fmt.Sprintf("unknown placement %d", p))
}
// RequeueAfterError is an error that allows a Reconciler to override the
// exponential backoff behavior of the Controller, rather than applying
// the backoff algorithm, returning a RequeueAfterError will cause the
// Controller to reschedule the Request at a given time in the future.
type RequeueAfterError time.Duration
// Error implements the error interface.
func (r RequeueAfterError) Error() string {
return fmt.Sprintf("requeue at %s", time.Duration(r))
}
// RequeueAfter constructs a RequeueAfterError with the given duration
// setting.
func RequeueAfter(after time.Duration) error {
return RequeueAfterError(after)
}
// RequeueNow constructs a RequeueAfterError that reschedules the Request
// immediately.
func RequeueNow() error {
return RequeueAfterError(0)
}