package scep import ( "context" "crypto/subtle" "crypto/x509" "net/url" "github.com/smallstep/certificates/authority/provisioner" microx509util "github.com/micromdm/scep/v2/cryptoutil/x509util" microscep "github.com/micromdm/scep/v2/scep" "github.com/pkg/errors" "go.mozilla.org/pkcs7" "go.step.sm/crypto/x509util" ) // Interface is the SCEP authority interface. type Interface interface { LoadProvisionerByID(string) (provisioner.Interface, error) GetLinkExplicit(provName string, absoluteLink bool, baseURL *url.URL, inputs ...string) string GetCACertificates() ([]*x509.Certificate, error) DecryptPKIEnvelope(ctx context.Context, msg *PKIMessage) error SignCSR(ctx context.Context, csr *x509.CertificateRequest, msg *PKIMessage) (*PKIMessage, error) CreateFailureResponse(ctx context.Context, csr *x509.CertificateRequest, msg *PKIMessage, info FailInfoName, infoText string) (*PKIMessage, error) MatchChallengePassword(ctx context.Context, password string) (bool, error) GetCACaps(ctx context.Context) []string } // Authority is the layer that handles all SCEP interactions. type Authority struct { prefix string dns string intermediateCertificate *x509.Certificate service *Service signAuth SignAuthority } // AuthorityOptions required to create a new SCEP Authority. type AuthorityOptions struct { // Service provides the certificate chain, the signer and the decrypter to the Authority Service *Service // DNS is the host used to generate accurate SCEP links. By default the authority // will use the Host from the request, so this value will only be used if // request.Host is empty. DNS string // Prefix is a URL path prefix under which the SCEP api is served. This // prefix is required to generate accurate SCEP links. Prefix string } // SignAuthority is the interface for a signing authority type SignAuthority interface { Sign(cr *x509.CertificateRequest, opts provisioner.SignOptions, signOpts ...provisioner.SignOption) ([]*x509.Certificate, error) LoadProvisionerByID(string) (provisioner.Interface, error) } // New returns a new Authority that implements the SCEP interface. func New(signAuth SignAuthority, ops AuthorityOptions) (*Authority, error) { authority := &Authority{ prefix: ops.Prefix, dns: ops.DNS, signAuth: signAuth, } // TODO: this is not really nice to do; the Service should be removed // in its entirety to make this more interoperable with the rest of // step-ca, I think. if ops.Service != nil { authority.intermediateCertificate = ops.Service.certificateChain[0] authority.service = ops.Service } return authority, nil } var ( // TODO: check the default capabilities; https://tools.ietf.org/html/rfc8894#section-3.5.2 defaultCapabilities = []string{ "Renewal", "SHA-1", "SHA-256", "AES", "DES3", "SCEPStandard", "POSTPKIOperation", } ) // LoadProvisionerByID calls out to the SignAuthority interface to load a // provisioner by ID. func (a *Authority) LoadProvisionerByID(id string) (provisioner.Interface, error) { return a.signAuth.LoadProvisionerByID(id) } // GetLinkExplicit returns the requested link from the directory. func (a *Authority) GetLinkExplicit(provName string, abs bool, baseURL *url.URL, inputs ...string) string { // TODO: taken from ACME; move it to directory (if we need a directory in SCEP)? return a.getLinkExplicit(provName, abs, baseURL, inputs...) } // getLinkExplicit returns an absolute or partial path to the given resource and a base // URL dynamically obtained from the request for which the link is being calculated. func (a *Authority) getLinkExplicit(provisionerName string, abs bool, baseURL *url.URL, inputs ...string) string { // TODO: do we need to provide a way to provide a different suffix? // Like "/cgi-bin/pkiclient.exe"? Or would it be enough to have that as the name? link := "/" + provisionerName if abs { // Copy the baseURL value from the pointer. https://github.com/golang/go/issues/38351 u := url.URL{} if baseURL != nil { u = *baseURL } // If no Scheme is set, then default to http (in case of SCEP) if u.Scheme == "" { u.Scheme = "http" } // If no Host is set, then use the default (first DNS attr in the ca.json). if u.Host == "" { u.Host = a.dns } u.Path = a.prefix + link return u.String() } return link } // GetCACertificates returns the certificate (chain) for the CA func (a *Authority) GetCACertificates() ([]*x509.Certificate, error) { // TODO: this should return: the "SCEP Server (RA)" certificate, the issuing CA up to and excl. the root // Some clients do need the root certificate however; also see: https://github.com/openxpki/openxpki/issues/73 // // This means we might need to think about if we should use the current intermediate CA // certificate as the "SCEP Server (RA)" certificate. It might be better to have a distinct // RA certificate, with a corresponding rsa.PrivateKey, just for SCEP usage, which is signed by // the intermediate CA. Will need to look how we can provide this nicely within step-ca. // // This might also mean that we might want to use a distinct instance of KMS for doing the key operations, // so that we can use RSA just for SCEP. // // Using an RA does not seem to exist in https://tools.ietf.org/html/rfc8894, but is mentioned in // https://tools.ietf.org/id/draft-nourse-scep-21.html. Will continue using the CA directly for now. // // The certificate to use should probably depend on the (configured) Provisioner and may // use a distinct certificate, apart from the intermediate. if a.intermediateCertificate == nil { return nil, errors.New("no intermediate certificate available in SCEP authority") } return []*x509.Certificate{a.intermediateCertificate}, nil } // DecryptPKIEnvelope decrypts an enveloped message func (a *Authority) DecryptPKIEnvelope(ctx context.Context, msg *PKIMessage) error { p7c, err := pkcs7.Parse(msg.P7.Content) if err != nil { return errors.Wrap(err, "error parsing pkcs7 content") } envelope, err := p7c.Decrypt(a.intermediateCertificate, a.service.decrypter) if err != nil { return errors.Wrap(err, "error decrypting encrypted pkcs7 content") } msg.pkiEnvelope = envelope switch msg.MessageType { case microscep.CertRep: certs, err := microscep.CACerts(msg.pkiEnvelope) if err != nil { return errors.Wrap(err, "error extracting CA certs from pkcs7 degenerate data") } msg.CertRepMessage.Certificate = certs[0] return nil case microscep.PKCSReq, microscep.UpdateReq, microscep.RenewalReq: csr, err := x509.ParseCertificateRequest(msg.pkiEnvelope) if err != nil { return errors.Wrap(err, "parse CSR from pkiEnvelope") } // check for challengePassword cp, err := microx509util.ParseChallengePassword(msg.pkiEnvelope) if err != nil { return errors.Wrap(err, "parse challenge password in pkiEnvelope") } msg.CSRReqMessage = µscep.CSRReqMessage{ RawDecrypted: msg.pkiEnvelope, CSR: csr, ChallengePassword: cp, } return nil case microscep.GetCRL, microscep.GetCert, microscep.CertPoll: return errors.Errorf("not implemented") } return nil } // SignCSR creates an x509.Certificate based on a CSR template and Cert Authority credentials // returns a new PKIMessage with CertRep data //func (msg *PKIMessage) SignCSR(crtAuth *x509.Certificate, keyAuth *rsa.PrivateKey, template *x509.Certificate) (*PKIMessage, error) { //func (a *Authority) SignCSR(ctx context.Context, msg *PKIMessage, template *x509.Certificate) (*PKIMessage, error) { func (a *Authority) SignCSR(ctx context.Context, csr *x509.CertificateRequest, msg *PKIMessage) (*PKIMessage, error) { // TODO: intermediate storage of the request? In SCEP it's possible to request a csr/certificate // to be signed, which can be performed asynchronously / out-of-band. In that case a client can // poll for the status. It seems to be similar as what can happen in ACME, so might want to model // the implementation after the one in the ACME authority. Requires storage, etc. p, err := ProvisionerFromContext(ctx) if err != nil { return nil, err } // check if CSRReqMessage has already been decrypted if msg.CSRReqMessage.CSR == nil { if err := a.DecryptPKIEnvelope(ctx, msg); err != nil { return nil, err } csr = msg.CSRReqMessage.CSR } // Template data sans := []string{} sans = append(sans, csr.DNSNames...) sans = append(sans, csr.EmailAddresses...) for _, v := range csr.IPAddresses { sans = append(sans, v.String()) } for _, v := range csr.URIs { sans = append(sans, v.String()) } if len(sans) == 0 { sans = append(sans, csr.Subject.CommonName) } data := x509util.CreateTemplateData(csr.Subject.CommonName, sans) data.SetCertificateRequest(csr) data.SetSubject(x509util.Subject{ Country: csr.Subject.Country, Organization: csr.Subject.Organization, OrganizationalUnit: csr.Subject.OrganizationalUnit, Locality: csr.Subject.Locality, Province: csr.Subject.Province, StreetAddress: csr.Subject.StreetAddress, PostalCode: csr.Subject.PostalCode, SerialNumber: csr.Subject.SerialNumber, CommonName: csr.Subject.CommonName, }) // Get authorizations from the SCEP provisioner. ctx = provisioner.NewContextWithMethod(ctx, provisioner.SignMethod) signOps, err := p.AuthorizeSign(ctx, "") if err != nil { return nil, errors.Wrap(err, "error retrieving authorization options from SCEP provisioner") } opts := provisioner.SignOptions{ // NotBefore: provisioner.NewTimeDuration(o.NotBefore), // NotAfter: provisioner.NewTimeDuration(o.NotAfter), } templateOptions, err := provisioner.TemplateOptions(p.GetOptions(), data) if err != nil { return nil, errors.Wrap(err, "error creating template options from SCEP provisioner") } signOps = append(signOps, templateOptions) certChain, err := a.signAuth.Sign(csr, opts, signOps...) if err != nil { return nil, errors.Wrap(err, "error generating certificate for order") } // take the issued certificate (only); https://tools.ietf.org/html/rfc8894#section-3.3.2 cert := certChain[0] // and create a degenerate cert structure deg, err := microscep.DegenerateCertificates([]*x509.Certificate{cert}) if err != nil { return nil, err } e7, err := pkcs7.Encrypt(deg, msg.P7.Certificates) if err != nil { return nil, err } // PKIMessageAttributes to be signed config := pkcs7.SignerInfoConfig{ ExtraSignedAttributes: []pkcs7.Attribute{ { Type: oidSCEPtransactionID, Value: msg.TransactionID, }, { Type: oidSCEPpkiStatus, Value: microscep.SUCCESS, }, { Type: oidSCEPmessageType, Value: microscep.CertRep, }, { Type: oidSCEPrecipientNonce, Value: msg.SenderNonce, }, { Type: oidSCEPsenderNonce, Value: msg.SenderNonce, }, }, } signedData, err := pkcs7.NewSignedData(e7) if err != nil { return nil, err } // add the certificate into the signed data type // this cert must be added before the signedData because the recipient will expect it // as the first certificate in the array signedData.AddCertificate(cert) authCert := a.intermediateCertificate // sign the attributes if err := signedData.AddSigner(authCert, a.service.signer, config); err != nil { return nil, err } certRepBytes, err := signedData.Finish() if err != nil { return nil, err } cr := &CertRepMessage{ PKIStatus: microscep.SUCCESS, RecipientNonce: microscep.RecipientNonce(msg.SenderNonce), Certificate: cert, degenerate: deg, } // create a CertRep message from the original crepMsg := &PKIMessage{ Raw: certRepBytes, TransactionID: msg.TransactionID, MessageType: microscep.CertRep, CertRepMessage: cr, } return crepMsg, nil } // CreateFailureResponse creates an appropriately signed reply for PKI operations func (a *Authority) CreateFailureResponse(ctx context.Context, csr *x509.CertificateRequest, msg *PKIMessage, info FailInfoName, infoText string) (*PKIMessage, error) { config := pkcs7.SignerInfoConfig{ ExtraSignedAttributes: []pkcs7.Attribute{ { Type: oidSCEPtransactionID, Value: msg.TransactionID, }, { Type: oidSCEPpkiStatus, Value: microscep.FAILURE, }, { Type: oidSCEPfailInfo, Value: info, }, { Type: oidSCEPfailInfoText, Value: infoText, }, { Type: oidSCEPmessageType, Value: microscep.CertRep, }, { Type: oidSCEPsenderNonce, Value: msg.SenderNonce, }, { Type: oidSCEPrecipientNonce, Value: msg.SenderNonce, }, }, } signedData, err := pkcs7.NewSignedData(nil) if err != nil { return nil, err } // sign the attributes if err := signedData.AddSigner(a.intermediateCertificate, a.service.signer, config); err != nil { return nil, err } certRepBytes, err := signedData.Finish() if err != nil { return nil, err } cr := &CertRepMessage{ PKIStatus: microscep.FAILURE, FailInfo: microscep.FailInfo(info), RecipientNonce: microscep.RecipientNonce(msg.SenderNonce), } // create a CertRep message from the original crepMsg := &PKIMessage{ Raw: certRepBytes, TransactionID: msg.TransactionID, MessageType: microscep.CertRep, CertRepMessage: cr, } return crepMsg, nil } // MatchChallengePassword verifies a SCEP challenge password func (a *Authority) MatchChallengePassword(ctx context.Context, password string) (bool, error) { p, err := ProvisionerFromContext(ctx) if err != nil { return false, err } if subtle.ConstantTimeCompare([]byte(p.GetChallengePassword()), []byte(password)) == 1 { return true, nil } // TODO: support dynamic challenges, i.e. a list of challenges instead of one? // That's probably a bit harder to configure, though; likely requires some data store // that can be interacted with more easily, via some internal API, for example. return false, nil } // GetCACaps returns the CA capabilities func (a *Authority) GetCACaps(ctx context.Context) []string { p, err := ProvisionerFromContext(ctx) if err != nil { return defaultCapabilities } caps := p.GetCapabilities() if len(caps) == 0 { return defaultCapabilities } // TODO: validate the caps? Ensure they are the right format according to RFC? // TODO: ensure that the capabilities are actually "enforced"/"verified" in code too: // check that only parts of the spec are used in the implementation belonging to the capabilities. // For example for renewals, which we could disable in the provisioner, should then also // not be reported in cacaps operation. return caps }