// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: BUSL-1.1 package controller import ( "context" "errors" "fmt" "time" "github.com/hashicorp/go-hclog" "golang.org/x/sync/errgroup" "github.com/hashicorp/consul/agent/consul/controller/queue" "github.com/hashicorp/consul/internal/resource" "github.com/hashicorp/consul/internal/storage" "github.com/hashicorp/consul/proto-public/pbresource" ) // controllerRunner contains the actual implementation of running a controller // including creating watches, calling the reconciler, handling retries, etc. type controllerRunner struct { ctrl Controller client pbresource.ResourceServiceClient logger hclog.Logger } func (c *controllerRunner) run(ctx context.Context) error { c.logger.Debug("controller running") defer c.logger.Debug("controller stopping") group, groupCtx := errgroup.WithContext(ctx) recQueue := runQueue[Request](groupCtx, c.ctrl) // Managed Type Events → Reconciliation Queue group.Go(func() error { return c.watch(groupCtx, c.ctrl.managedType, func(res *pbresource.Resource) { recQueue.Add(Request{ID: res.Id}) }) }) for _, watch := range c.ctrl.watches { watch := watch mapQueue := runQueue[mapperRequest](groupCtx, c.ctrl) // Watched Type Events → Mapper Queue group.Go(func() error { return c.watch(groupCtx, watch.watchedType, func(res *pbresource.Resource) { mapQueue.Add(mapperRequest{res: res}) }) }) // Mapper Queue → Mapper → Reconciliation Queue group.Go(func() error { return c.runMapper(groupCtx, watch, mapQueue, recQueue) }) } // Reconciliation Queue → Reconciler group.Go(func() error { return c.runReconciler(groupCtx, recQueue) }) return group.Wait() } func runQueue[T queue.ItemType](ctx context.Context, ctrl Controller) queue.WorkQueue[T] { base, max := ctrl.backoff() return queue.RunWorkQueue[T](ctx, base, max) } func (c *controllerRunner) watch(ctx context.Context, typ *pbresource.Type, add func(*pbresource.Resource)) error { watch, err := c.client.WatchList(ctx, &pbresource.WatchListRequest{ Type: typ, Tenancy: &pbresource.Tenancy{ Partition: storage.Wildcard, PeerName: storage.Wildcard, Namespace: storage.Wildcard, }, }) if err != nil { c.logger.Error("failed to create watch", "error", err) return err } for { event, err := watch.Recv() if err != nil { c.logger.Warn("error received from watch", "error", err) return err } add(event.Resource) } } func (c *controllerRunner) runMapper( ctx context.Context, w watch, from queue.WorkQueue[mapperRequest], to queue.WorkQueue[Request], ) error { logger := c.logger.With("watched_resource_type", resource.ToGVK(w.watchedType)) for { item, shutdown := from.Get() if shutdown { return nil } var reqs []Request err := c.handlePanic(func() error { var err error reqs, err = w.mapper(ctx, c.runtime(), item.res) return err }) if err != nil { from.AddRateLimited(item) from.Done(item) continue } for _, r := range reqs { if !resource.EqualType(r.ID.Type, c.ctrl.managedType) { logger.Error("dependency mapper returned request for a resource of the wrong type", "type_expected", resource.ToGVK(c.ctrl.managedType), "type_got", resource.ToGVK(r.ID.Type), ) continue } to.Add(r) } from.Forget(item) from.Done(item) } } func (c *controllerRunner) runReconciler(ctx context.Context, queue queue.WorkQueue[Request]) error { for { req, shutdown := queue.Get() if shutdown { return nil } c.logger.Trace("handling request", "request", req) err := c.handlePanic(func() error { return c.ctrl.reconciler.Reconcile(ctx, c.runtime(), req) }) if err == nil { queue.Forget(req) } else { var requeueAfter RequeueAfterError if errors.As(err, &requeueAfter) { queue.Forget(req) queue.AddAfter(req, time.Duration(requeueAfter)) } else { queue.AddRateLimited(req) } } queue.Done(req) } } func (c *controllerRunner) handlePanic(fn func() error) (err error) { defer func() { if r := recover(); r != nil { stack := hclog.Stacktrace() c.logger.Error("controller panic", "panic", r, "stack", stack, ) err = fmt.Errorf("panic [recovered]: %v", r) return } }() return fn() } func (c *controllerRunner) runtime() Runtime { return Runtime{ Client: c.client, Logger: c.logger, } } type mapperRequest struct{ res *pbresource.Resource } // Key satisfies the queue.ItemType interface. It returns a string which will be // used to de-duplicate requests in the queue. func (i mapperRequest) Key() string { return fmt.Sprintf( "type=%q,part=%q,peer=%q,ns=%q,name=%q,uid=%q", resource.ToGVK(i.res.Id.Type), i.res.Id.Tenancy.Partition, i.res.Id.Tenancy.PeerName, i.res.Id.Tenancy.Namespace, i.res.Id.Name, i.res.Id.Uid, ) }