package authority import ( "context" "crypto" "crypto/x509" "encoding/pem" "github.com/pkg/errors" "golang.org/x/crypto/ssh" "go.step.sm/crypto/kms" "github.com/smallstep/certificates/authority/admin" "github.com/smallstep/certificates/authority/config" "github.com/smallstep/certificates/authority/provisioner" "github.com/smallstep/certificates/cas" casapi "github.com/smallstep/certificates/cas/apiv1" "github.com/smallstep/certificates/db" ) // Option sets options to the Authority. type Option func(*Authority) error // WithConfig replaces the current config with the given one. No validation is // performed in the given value. func WithConfig(cfg *config.Config) Option { return func(a *Authority) error { a.config = cfg return nil } } // WithConfigFile reads the given filename as a configuration file and replaces // the current one. No validation is performed in the given configuration. func WithConfigFile(filename string) Option { return func(a *Authority) (err error) { a.config, err = config.LoadConfiguration(filename) return } } // WithPassword set the password to decrypt the intermediate key as well as the // ssh host and user keys if they are not overridden by other options. func WithPassword(password []byte) Option { return func(a *Authority) (err error) { a.password = password return } } // WithSSHHostPassword set the password to decrypt the key used to sign SSH host // certificates. func WithSSHHostPassword(password []byte) Option { return func(a *Authority) (err error) { a.sshHostPassword = password return } } // WithSSHUserPassword set the password to decrypt the key used to sign SSH user // certificates. func WithSSHUserPassword(password []byte) Option { return func(a *Authority) (err error) { a.sshUserPassword = password return } } // WithIssuerPassword set the password to decrypt the certificate issuer private // key used in RA mode. func WithIssuerPassword(password []byte) Option { return func(a *Authority) (err error) { a.issuerPassword = password return } } // WithDatabase sets an already initialized authority database to a new // authority. This option is intended to be use on graceful reloads. func WithDatabase(d db.AuthDB) Option { return func(a *Authority) error { a.db = d return nil } } // WithGetIdentityFunc sets a custom function to retrieve the identity from // an external resource. func WithGetIdentityFunc(fn func(ctx context.Context, p provisioner.Interface, email string) (*provisioner.Identity, error)) Option { return func(a *Authority) error { a.getIdentityFunc = fn return nil } } // WithAuthorizeRenewFunc sets a custom function that authorizes the renewal of // an X.509 certificate. func WithAuthorizeRenewFunc(fn func(ctx context.Context, p *provisioner.Controller, cert *x509.Certificate) error) Option { return func(a *Authority) error { a.authorizeRenewFunc = fn return nil } } // WithAuthorizeSSHRenewFunc sets a custom function that authorizes the renewal // of a SSH certificate. func WithAuthorizeSSHRenewFunc(fn func(ctx context.Context, p *provisioner.Controller, cert *ssh.Certificate) error) Option { return func(a *Authority) error { a.authorizeSSHRenewFunc = fn return nil } } // WithSSHBastionFunc sets a custom function to get the bastion for a // given user-host pair. func WithSSHBastionFunc(fn func(ctx context.Context, user, host string) (*config.Bastion, error)) Option { return func(a *Authority) error { a.sshBastionFunc = fn return nil } } // WithSSHGetHosts sets a custom function to return a list of step ssh enabled // hosts. func WithSSHGetHosts(fn func(ctx context.Context, cert *x509.Certificate) ([]config.Host, error)) Option { return func(a *Authority) error { a.sshGetHostsFunc = fn return nil } } // WithSSHCheckHost sets a custom function to check whether a given host is // step ssh enabled. The token is used to validate the request, while the roots // are used to validate the token. func WithSSHCheckHost(fn func(ctx context.Context, principal string, tok string, roots []*x509.Certificate) (bool, error)) Option { return func(a *Authority) error { a.sshCheckHostFunc = fn return nil } } // WithKeyManager defines the key manager used to get and create keys, and sign // certificates. func WithKeyManager(k kms.KeyManager) Option { return func(a *Authority) error { a.keyManager = k return nil } } // WithX509Signer defines the signer used to sign X509 certificates. func WithX509Signer(crt *x509.Certificate, s crypto.Signer) Option { return WithX509SignerChain([]*x509.Certificate{crt}, s) } // WithX509SignerChain defines the signer used to sign X509 certificates. This // option is similar to WithX509Signer but it supports a chain of intermediates. func WithX509SignerChain(issuerChain []*x509.Certificate, s crypto.Signer) Option { return func(a *Authority) error { srv, err := cas.New(context.Background(), casapi.Options{ Type: casapi.SoftCAS, Signer: s, CertificateChain: issuerChain, }) if err != nil { return err } a.x509CAService = srv a.intermediateX509Certs = append(a.intermediateX509Certs, issuerChain...) return nil } } // WithX509SignerFunc defines the function used to get the chain of certificates // and signer used when we sign X.509 certificates. func WithX509SignerFunc(fn func() ([]*x509.Certificate, crypto.Signer, error)) Option { return func(a *Authority) error { srv, err := cas.New(context.Background(), casapi.Options{ Type: casapi.SoftCAS, CertificateSigner: fn, }) if err != nil { return err } a.x509CAService = srv return nil } } // WithSSHUserSigner defines the signer used to sign SSH user certificates. func WithSSHUserSigner(s crypto.Signer) Option { return func(a *Authority) error { signer, err := ssh.NewSignerFromSigner(s) if err != nil { return errors.Wrap(err, "error creating ssh user signer") } a.sshCAUserCertSignKey = signer // Append public key to list of user certs pub := signer.PublicKey() a.sshCAUserCerts = append(a.sshCAUserCerts, pub) a.sshCAUserFederatedCerts = append(a.sshCAUserFederatedCerts, pub) return nil } } // WithSSHHostSigner defines the signer used to sign SSH host certificates. func WithSSHHostSigner(s crypto.Signer) Option { return func(a *Authority) error { signer, err := ssh.NewSignerFromSigner(s) if err != nil { return errors.Wrap(err, "error creating ssh host signer") } a.sshCAHostCertSignKey = signer // Append public key to list of host certs pub := signer.PublicKey() a.sshCAHostCerts = append(a.sshCAHostCerts, pub) a.sshCAHostFederatedCerts = append(a.sshCAHostFederatedCerts, pub) return nil } } // WithX509RootCerts is an option that allows to define the list of root // certificates to use. This option will replace any root certificate defined // before. func WithX509RootCerts(rootCerts ...*x509.Certificate) Option { return func(a *Authority) error { a.rootX509Certs = rootCerts return nil } } // WithX509FederatedCerts is an option that allows to define the list of // federated certificates. This option will replace any federated certificate // defined before. func WithX509FederatedCerts(certs ...*x509.Certificate) Option { return func(a *Authority) error { a.federatedX509Certs = certs return nil } } // WithX509IntermediateCerts is an option that allows to define the list of // intermediate certificates that the CA will be using. This option will replace // any intermediate certificate defined before. // // Note that these certificates will not be bundled with the certificates signed // by the CA, the CAS service will take care of that, although they should // match, this is not guaranteed. These certificates will be mainly used for // constraint purposes. // // This option should only be used on specific configurations, for example when // WithX509SignerFunc is used, as we don't know the list of intermediates on // advance. func WithX509IntermediateCerts(intermediateCerts ...*x509.Certificate) Option { return func(a *Authority) error { a.intermediateX509Certs = intermediateCerts return nil } } // WithX509RootBundle is an option that allows to define the list of root // certificates. This option will replace any root certificate defined before. func WithX509RootBundle(pemCerts []byte) Option { return func(a *Authority) error { certs, err := readCertificateBundle(pemCerts) if err != nil { return err } a.rootX509Certs = certs return nil } } // WithX509FederatedBundle is an option that allows to define the list of // federated certificates. This option will replace any federated certificate // defined before. func WithX509FederatedBundle(pemCerts []byte) Option { return func(a *Authority) error { certs, err := readCertificateBundle(pemCerts) if err != nil { return err } a.federatedX509Certs = certs return nil } } // WithAdminDB is an option to set the database backing the admin APIs. func WithAdminDB(d admin.DB) Option { return func(a *Authority) error { a.adminDB = d return nil } } // WithProvisioners is an option to set the provisioner collection. // // Deprecated: provisioner collections will likely change func WithProvisioners(ps *provisioner.Collection) Option { return func(a *Authority) error { a.provisioners = ps return nil } } // WithLinkedCAToken is an option to set the authentication token used to enable // linked ca. func WithLinkedCAToken(token string) Option { return func(a *Authority) error { a.linkedCAToken = token return nil } } // WithX509Enforcers is an option that allows to define custom certificate // modifiers that will be processed just before the signing of the certificate. func WithX509Enforcers(ces ...provisioner.CertificateEnforcer) Option { return func(a *Authority) error { a.x509Enforcers = ces return nil } } // WithSkipInit is an option that allows the constructor to skip initializtion // of the authority. func WithSkipInit() Option { return func(a *Authority) error { a.skipInit = true return nil } } func readCertificateBundle(pemCerts []byte) ([]*x509.Certificate, error) { var block *pem.Block var certs []*x509.Certificate for len(pemCerts) > 0 { block, pemCerts = pem.Decode(pemCerts) if block == nil { break } if block.Type != "CERTIFICATE" || len(block.Headers) != 0 { continue } cert, err := x509.ParseCertificate(block.Bytes) if err != nil { return nil, err } certs = append(certs, cert) } return certs, nil }