// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: MPL-2.0 package autoconf import ( "context" "fmt" "time" "github.com/hashicorp/consul/agent/cache" "github.com/hashicorp/consul/agent/structs" ) // handleCacheEvent is used to handle event notifications from the cache for the roots // or leaf cert watches. func (ac *AutoConfig) handleCacheEvent(u cache.UpdateEvent) error { switch u.CorrelationID { case rootsWatchID: ac.logger.Debug("roots watch fired - updating CA certificates") if u.Err != nil { return fmt.Errorf("root watch returned an error: %w", u.Err) } roots, ok := u.Result.(*structs.IndexedCARoots) if !ok { return fmt.Errorf("invalid type for roots watch response: %T", u.Result) } return ac.updateCARoots(roots) case leafWatchID: ac.logger.Debug("leaf certificate watch fired - updating TLS certificate") if u.Err != nil { return fmt.Errorf("leaf watch returned an error: %w", u.Err) } leaf, ok := u.Result.(*structs.IssuedCert) if !ok { return fmt.Errorf("invalid type for agent leaf cert watch response: %T", u.Result) } return ac.updateLeafCert(leaf) } return nil } // handleTokenUpdate is used when a notification about the agent token being updated // is received and various watches need cancelling/restarting to use the new token. func (ac *AutoConfig) handleTokenUpdate(ctx context.Context) error { ac.logger.Debug("Agent token updated - resetting watches") // TODO (autoencrypt) Prepopulate the cache with the new token with // the existing cache entry with the old token. The certificate doesn't // need to change just because the token has. However there isn't a // good way to make that happen and this behavior is benign enough // that I am going to push off implementing it. // the agent token has been updated so we must update our leaf cert watch. // this cancels the current watches before setting up new ones ac.cancelWatches() // recreate the chan for cache updates. This is a precautionary measure to ensure // that we don't accidentally get notified for the new watches being setup before // a blocking query in the cache returns and sends data to the old chan. In theory // the code in agent/cache/watch.go should prevent this where we specifically check // for context cancellation prior to sending the event. However we could cancel // it after that check and finish setting up the new watches before getting the old // events. Both the go routine scheduler and the OS thread scheduler would have to // be acting up for this to happen. Regardless the way to ensure we don't get events // for the old watches is to simply replace the chan we are expecting them from. close(ac.cacheUpdates) ac.cacheUpdates = make(chan cache.UpdateEvent, 10) // restart watches - this will be done with the correct token cancelWatches, err := ac.setupCertificateCacheWatches(ctx) if err != nil { return fmt.Errorf("failed to restart watches after agent token update: %w", err) } ac.cancelWatches = cancelWatches return nil } // handleFallback is used when the current TLS certificate has expired and the normal // updating mechanisms have failed to renew it quickly enough. This function will // use the configured fallback mechanism to retrieve a new cert and start monitoring // that one. func (ac *AutoConfig) handleFallback(ctx context.Context) error { ac.logger.Warn("agent's client certificate has expired") // Background because the context is mainly useful when the agent is first starting up. switch { case ac.config.AutoConfig.Enabled: resp, err := ac.getInitialConfiguration(ctx) if err != nil { return fmt.Errorf("error while retrieving new agent certificates via auto-config: %w", err) } return ac.recordInitialConfiguration(resp) case ac.config.AutoEncryptTLS: reply, err := ac.autoEncryptInitialCerts(ctx) if err != nil { return fmt.Errorf("error while retrieving new agent certificate via auto-encrypt: %w", err) } return ac.setInitialTLSCertificates(reply) default: return fmt.Errorf("logic error: either auto-encrypt or auto-config must be enabled") } } // run is the private method to be spawn by the Start method for // executing the main monitoring loop. func (ac *AutoConfig) run(ctx context.Context, exit chan struct{}) { // The fallbackTimer is used to notify AFTER the agents // leaf certificate has expired and where we need // to fall back to the less secure RPC endpoint just like // if the agent was starting up new. // // Check 10sec (fallback leeway duration) after cert // expires. The agent cache should be handling the expiration // and renew it before then. // // If there is no cert, use a value which immediately triggers the // renew, but this case shouldn't happen because at // this point, auto_encrypt was just being setup // successfully. calcFallbackInterval := func() time.Duration { cert := ac.acConfig.TLSConfigurator.AutoEncryptCert() if cert == nil { return -1 } expiry := cert.NotAfter.Add(ac.acConfig.FallbackLeeway) return expiry.Sub(time.Now()) } fallbackTimer := time.NewTimer(calcFallbackInterval()) // cleanup for once we are stopped defer func() { // cancel the go routines performing the cache watches ac.cancelWatches() // ensure we don't leak the timers go routine fallbackTimer.Stop() // stop receiving notifications for token updates ac.acConfig.Tokens.StopNotify(ac.tokenUpdates) ac.logger.Debug("auto-config has been stopped") ac.Lock() ac.cancel = nil ac.running = false // this should be the final cleanup task as its what notifies // the rest of the world that this go routine has exited. close(exit) ac.Unlock() }() for { select { case <-ctx.Done(): ac.logger.Debug("stopping auto-config") return case <-ac.tokenUpdates.Ch: ac.logger.Debug("handling a token update event") if err := ac.handleTokenUpdate(ctx); err != nil { ac.logger.Error("error in handling token update event", "error", err) } case u := <-ac.cacheUpdates: ac.logger.Debug("handling a cache update event", "correlation_id", u.CorrelationID) if err := ac.handleCacheEvent(u); err != nil { ac.logger.Error("error in handling cache update event", "error", err) } // reset the fallback timer as the certificate may have been updated fallbackTimer.Stop() fallbackTimer = time.NewTimer(calcFallbackInterval()) case <-fallbackTimer.C: // This is a safety net in case the cert doesn't get renewed // in time. The agent would be stuck in that case because the watches // never use the AutoEncrypt.Sign endpoint. // check auto encrypt client cert expiration cert := ac.acConfig.TLSConfigurator.AutoEncryptCert() if cert == nil || cert.NotAfter.Before(time.Now()) { if err := ac.handleFallback(ctx); err != nil { ac.logger.Error("error when handling a certificate expiry event", "error", err) fallbackTimer = time.NewTimer(ac.acConfig.FallbackRetry) } else { fallbackTimer = time.NewTimer(calcFallbackInterval()) } } else { // this shouldn't be possible. We calculate the timer duration to be the certificate // expiration time + some leeway (10s default). So whenever we get here the certificate // should be expired. Regardless its probably worth resetting the timer. fallbackTimer = time.NewTimer(calcFallbackInterval()) } } } }