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consul/internal/controller/runner.go

345 lines
10 KiB

// 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/controller/cache"
"github.com/hashicorp/consul/internal/protoutil"
"github.com/hashicorp/consul/internal/resource"
"github.com/hashicorp/consul/internal/storage"
"github.com/hashicorp/consul/proto-public/pbresource"
)
// Runtime contains the dependencies required by reconcilers.
type Runtime struct {
Client pbresource.ResourceServiceClient
Logger hclog.Logger
Cache cache.ReadOnlyCache
}
// controllerRunner contains the actual implementation of running a controller
// including creating watches, calling the reconciler, handling retries, etc.
type controllerRunner struct {
ctrl *Controller
// watchClient will be used by the controller infrastructure internally to
// perform watches and maintain the cache. On servers, this client will use
// the in-memory gRPC clients which DO NOT cause cloning of data returned by
// the resource service. This is desirable so that our cache doesn't incur
// the overhead of duplicating all resources that are watched. Generally
// dependency mappers and reconcilers should not be given this client so
// that they can be free to modify the data they are returned.
watchClient pbresource.ResourceServiceClient
// runtimeClient will be used by dependency mappers and reconcilers to
// access the resource service. On servers, this client will use the in-memory
// gRPC client wrapped with the cloning client to force cloning of protobuf
// messages as they pass through the client. This is desirable so that
// controllers and their mappers can be free to modify the data returned
// to them without having to think about the fact that the data should
// be immutable as it is shared with the controllers cache as well as the
// resource service itself.
runtimeClient pbresource.ResourceServiceClient
logger hclog.Logger
cache cache.Cache
}
func newControllerRunner(c *Controller, client pbresource.ResourceServiceClient, defaultLogger hclog.Logger) *controllerRunner {
return &controllerRunner{
ctrl: c,
watchClient: client,
runtimeClient: pbresource.NewCloningResourceServiceClient(client),
logger: c.buildLogger(defaultLogger),
// Do not build the cache here. If we build/set it when the controller runs
// then if a controller is restarted it will invalidate the previous cache automatically.
}
}
func (c *controllerRunner) run(ctx context.Context) error {
c.logger.Debug("controller running")
defer c.logger.Debug("controller stopping")
// Initialize the controller if required
if c.ctrl.initializer != nil {
c.logger.Debug("controller initializing")
err := c.ctrl.initializer.Initialize(ctx, c.runtime(c.logger))
if err != nil {
return err
}
c.logger.Debug("controller initialized")
}
c.cache = c.ctrl.buildCache()
defer func() {
// once no longer running we should nil out the cache
// so that we don't hold pointers to resources which may
// become out of date in the future.
c.cache = nil
}()
if c.ctrl.startCb != nil {
c.ctrl.startCb(ctx, c.runtime(c.logger))
}
if c.ctrl.stopCb != nil {
defer c.ctrl.stopCb(ctx, c.runtime(c.logger))
}
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.managedTypeWatch.watchedType, func(res *pbresource.Resource) {
recQueue.Add(Request{ID: res.Id})
})
})
for _, w := range c.ctrl.watches {
mapQueue := runQueue[mapperRequest](groupCtx, c.ctrl)
watcher := w
// Watched Type Events → Mapper Queue
group.Go(func() error {
return c.watch(groupCtx, watcher.watchedType, func(res *pbresource.Resource) {
mapQueue.Add(mapperRequest{res: res})
})
})
// Mapper Queue → Mapper → Reconciliation Queue
group.Go(func() error {
return c.runMapper(groupCtx, watcher, mapQueue, recQueue, func(ctx context.Context, runtime Runtime, itemType queue.ItemType) ([]Request, error) {
return watcher.mapper(ctx, runtime, itemType.(mapperRequest).res)
})
})
}
for _, cw := range c.ctrl.customWatches {
customMapQueue := runQueue[Event](groupCtx, c.ctrl)
watcher := cw
// Custom Events → Mapper Queue
group.Go(func() error {
return watcher.source.Watch(groupCtx, func(e Event) {
customMapQueue.Add(e)
})
})
// Mapper Queue → Mapper → Reconciliation Queue
group.Go(func() error {
return c.runCustomMapper(groupCtx, watcher, customMapQueue, recQueue, func(ctx context.Context, runtime Runtime, itemType queue.ItemType) ([]Request, error) {
return watcher.mapper(ctx, runtime, itemType.(Event))
})
})
}
// 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 {
wl, err := c.watchClient.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 := wl.Recv()
if err != nil {
c.logger.Warn("error received from watch", "error", err)
return err
}
// Keep the cache up to date. There main reason to do this here is
// to ensure that any mapper/reconciliation queue deduping wont
// hide events from being observed and updating the cache state.
// Therefore we should do this before any queueing.
switch event.Operation {
case pbresource.WatchEvent_OPERATION_UPSERT:
c.cache.Insert(event.Resource)
case pbresource.WatchEvent_OPERATION_DELETE:
c.cache.Delete(event.Resource)
}
// Before adding the resource into the queue we must clone it.
// While we want the cache to not have duplicate copies of all the
// data, we do want downstream consumers like dependency mappers and
// controllers to be able to freely modify the data they are given.
// Therefore we clone the resource here to prevent any accidental
// mutation of data held by the cache (and presumably by the resource
// service assuming that the regular client we were given is the inmem
// variant)
add(protoutil.Clone(event.Resource))
}
}
func (c *controllerRunner) runMapper(
ctx context.Context,
w *watch,
from queue.WorkQueue[mapperRequest],
to queue.WorkQueue[Request],
mapper func(ctx context.Context, runtime Runtime, itemType queue.ItemType) ([]Request, error),
) error {
logger := c.logger.With("watched_resource_type", resource.ToGVK(w.watchedType))
for {
item, shutdown := from.Get()
if shutdown {
return nil
}
if err := c.doMap(ctx, mapper, to, item, logger); err != nil {
from.AddRateLimited(item)
from.Done(item)
continue
}
from.Forget(item)
from.Done(item)
}
}
func (c *controllerRunner) runCustomMapper(
ctx context.Context,
cw customWatch,
from queue.WorkQueue[Event],
to queue.WorkQueue[Request],
mapper func(ctx context.Context, runtime Runtime, itemType queue.ItemType) ([]Request, error),
) error {
logger := c.logger.With("watched_event", cw.source)
for {
item, shutdown := from.Get()
if shutdown {
return nil
}
if err := c.doMap(ctx, mapper, to, item, logger); err != nil {
from.AddRateLimited(item)
from.Done(item)
continue
}
from.Forget(item)
from.Done(item)
}
}
func (c *controllerRunner) doMap(ctx context.Context, mapper func(ctx context.Context, runtime Runtime, itemType queue.ItemType) ([]Request, error), to queue.WorkQueue[Request], item queue.ItemType, logger hclog.Logger) error {
var reqs []Request
if err := c.handlePanic(func() error {
var err error
reqs, err = mapper(ctx, c.runtime(logger.With("map-request-key", item.Key())), item)
return err
}); err != nil {
return err
}
for _, r := range reqs {
if !resource.EqualType(r.ID.Type, c.ctrl.managedTypeWatch.watchedType) {
logger.Error("dependency mapper returned request for a resource of the wrong type",
"type_expected", resource.ToGVK(c.ctrl.managedTypeWatch.watchedType),
"type_got", resource.ToGVK(r.ID.Type),
)
continue
}
to.Add(r)
}
return nil
}
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(c.logger.With("resource-id", req.ID.String())), 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(logger hclog.Logger) Runtime {
return Runtime{
// dependency mappers and controllers are always given the cloning client
// so that they do not have to care about mutating values that they read
// through the client.
Client: c.runtimeClient,
Logger: logger,
// ensure that resources queried via the cache get cloned so that the
// dependency mapper or reconciler is free to modify them.
Cache: cache.NewCloningReadOnlyCache(c.cache),
}
}
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,
)
}