package autoconf import ( "context" "fmt" "net" "github.com/hashicorp/consul/agent/cache" cachetype "github.com/hashicorp/consul/agent/cache-types" "github.com/hashicorp/consul/agent/connect" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/proto/pbautoconf" ) const ( // ID of the roots watch rootsWatchID = "roots" // ID of the leaf watch leafWatchID = "leaf" unknownTrustDomain = "unknown" ) var ( defaultDNSSANs = []string{"localhost"} defaultIPSANs = []net.IP{{127, 0, 0, 1}, net.ParseIP("::1")} ) func extractPEMs(roots *structs.IndexedCARoots) []string { var pems []string for _, root := range roots.Roots { pems = append(pems, root.RootCert) } return pems } // updateTLSFromResponse will update the TLS certificate and roots in the shared // TLS configurator. func (ac *AutoConfig) updateTLSFromResponse(resp *pbautoconf.AutoConfigResponse) error { var pems []string for _, root := range resp.GetCARoots().GetRoots() { pems = append(pems, root.RootCert) } err := ac.acConfig.TLSConfigurator.UpdateAutoTLS( resp.ExtraCACertificates, pems, resp.Certificate.GetCertPEM(), resp.Certificate.GetPrivateKeyPEM(), resp.Config.GetTLS().GetVerifyServerHostname(), ) if err != nil { return fmt.Errorf("Failed to update the TLS configurator with new certificates: %w", err) } return nil } func (ac *AutoConfig) setInitialTLSCertificates(certs *structs.SignedResponse) error { if certs == nil { return nil } if err := ac.populateCertificateCache(certs); err != nil { return fmt.Errorf("error populating cache with certificates: %w", err) } connectCAPems := extractPEMs(&certs.ConnectCARoots) err := ac.acConfig.TLSConfigurator.UpdateAutoTLS( certs.ManualCARoots, connectCAPems, certs.IssuedCert.CertPEM, certs.IssuedCert.PrivateKeyPEM, certs.VerifyServerHostname, ) if err != nil { return fmt.Errorf("error updating TLS configurator with certificates: %w", err) } return nil } func (ac *AutoConfig) populateCertificateCache(certs *structs.SignedResponse) error { cert, err := connect.ParseCert(certs.IssuedCert.CertPEM) if err != nil { return fmt.Errorf("Failed to parse certificate: %w", err) } // prepolutate roots cache rootRes := cache.FetchResult{Value: &certs.ConnectCARoots, Index: certs.ConnectCARoots.QueryMeta.Index} rootsReq := ac.caRootsRequest() // getting the roots doesn't require a token so in order to potentially share the cache with another if err := ac.acConfig.Cache.Prepopulate(cachetype.ConnectCARootName, rootRes, ac.config.Datacenter, "", rootsReq.CacheInfo().Key); err != nil { return err } leafReq := ac.leafCertRequest() // prepolutate leaf cache certRes := cache.FetchResult{ Value: &certs.IssuedCert, Index: certs.IssuedCert.RaftIndex.ModifyIndex, State: cachetype.ConnectCALeafSuccess(connect.EncodeSigningKeyID(cert.AuthorityKeyId)), } if err := ac.acConfig.Cache.Prepopulate(cachetype.ConnectCALeafName, certRes, leafReq.Datacenter, leafReq.Token, leafReq.Key()); err != nil { return err } return nil } func (ac *AutoConfig) setupCertificateCacheWatches(ctx context.Context) (context.CancelFunc, error) { notificationCtx, cancel := context.WithCancel(ctx) rootsReq := ac.caRootsRequest() err := ac.acConfig.Cache.Notify(notificationCtx, cachetype.ConnectCARootName, &rootsReq, rootsWatchID, ac.cacheUpdates) if err != nil { cancel() return nil, err } leafReq := ac.leafCertRequest() err = ac.acConfig.Cache.Notify(notificationCtx, cachetype.ConnectCALeafName, &leafReq, leafWatchID, ac.cacheUpdates) if err != nil { cancel() return nil, err } return cancel, nil } func (ac *AutoConfig) updateCARoots(roots *structs.IndexedCARoots) error { switch { case ac.config.AutoConfig.Enabled: ac.Lock() defer ac.Unlock() var err error ac.autoConfigResponse.CARoots, err = translateCARootsToProtobuf(roots) if err != nil { return err } if err := ac.updateTLSFromResponse(ac.autoConfigResponse); err != nil { return err } return ac.persistAutoConfig(ac.autoConfigResponse) case ac.config.AutoEncryptTLS: pems := extractPEMs(roots) if err := ac.acConfig.TLSConfigurator.UpdateAutoTLSCA(pems); err != nil { return fmt.Errorf("failed to update Connect CA certificates: %w", err) } return nil default: return nil } } func (ac *AutoConfig) updateLeafCert(cert *structs.IssuedCert) error { switch { case ac.config.AutoConfig.Enabled: ac.Lock() defer ac.Unlock() var err error ac.autoConfigResponse.Certificate, err = translateIssuedCertToProtobuf(cert) if err != nil { return err } if err := ac.updateTLSFromResponse(ac.autoConfigResponse); err != nil { return err } return ac.persistAutoConfig(ac.autoConfigResponse) case ac.config.AutoEncryptTLS: if err := ac.acConfig.TLSConfigurator.UpdateAutoTLSCert(cert.CertPEM, cert.PrivateKeyPEM); err != nil { return fmt.Errorf("failed to update the agent leaf cert: %w", err) } return nil default: return nil } } func (ac *AutoConfig) caRootsRequest() structs.DCSpecificRequest { return structs.DCSpecificRequest{Datacenter: ac.config.Datacenter} } func (ac *AutoConfig) leafCertRequest() cachetype.ConnectCALeafRequest { return cachetype.ConnectCALeafRequest{ Datacenter: ac.config.Datacenter, Agent: ac.config.NodeName, DNSSAN: ac.getDNSSANs(), IPSAN: ac.getIPSANs(), Token: ac.acConfig.Tokens.AgentToken(), } } // generateCSR will generate a CSR for an Agent certificate. This should // be sent along with the AutoConfig.InitialConfiguration RPC or the // AutoEncrypt.Sign RPC. The generated CSR does NOT have a real trust domain // as when generating this we do not yet have the CA roots. The server will // update the trust domain for us though. func (ac *AutoConfig) generateCSR() (csr string, key string, err error) { // We don't provide the correct host here, because we don't know any // better at this point. Apart from the domain, we would need the // ClusterID, which we don't have. This is why we go with // unknownTrustDomain the first time. Subsequent CSRs will have the // correct TrustDomain. id := &connect.SpiffeIDAgent{ // will be replaced Host: unknownTrustDomain, Datacenter: ac.config.Datacenter, Agent: ac.config.NodeName, } caConfig, err := ac.config.ConnectCAConfiguration() if err != nil { return "", "", fmt.Errorf("Cannot generate CSR: %w", err) } conf, err := caConfig.GetCommonConfig() if err != nil { return "", "", fmt.Errorf("Failed to load common CA configuration: %w", err) } if conf.PrivateKeyType == "" { conf.PrivateKeyType = connect.DefaultPrivateKeyType } if conf.PrivateKeyBits == 0 { conf.PrivateKeyBits = connect.DefaultPrivateKeyBits } // Create a new private key pk, pkPEM, err := connect.GeneratePrivateKeyWithConfig(conf.PrivateKeyType, conf.PrivateKeyBits) if err != nil { return "", "", fmt.Errorf("Failed to generate private key: %w", err) } dnsNames := ac.getDNSSANs() ipAddresses := ac.getIPSANs() // Create a CSR. csr, err = connect.CreateCSR(id, pk, dnsNames, ipAddresses) if err != nil { return "", "", err } return csr, pkPEM, nil } func (ac *AutoConfig) getDNSSANs() []string { sans := defaultDNSSANs switch { case ac.config.AutoConfig.Enabled: sans = append(sans, ac.config.AutoConfig.DNSSANs...) case ac.config.AutoEncryptTLS: sans = append(sans, ac.config.AutoEncryptDNSSAN...) } return sans } func (ac *AutoConfig) getIPSANs() []net.IP { sans := defaultIPSANs switch { case ac.config.AutoConfig.Enabled: sans = append(sans, ac.config.AutoConfig.IPSANs...) case ac.config.AutoEncryptTLS: sans = append(sans, ac.config.AutoEncryptIPSAN...) } return sans }