Пример #1
0
// IssueCertificate attempts to convert a CSR into a signed Certificate, while
// enforcing all policies.
func (ca *CertificateAuthorityImpl) IssueCertificate(csr x509.CertificateRequest, regID int64) (core.Certificate, error) {
	emptyCert := core.Certificate{}
	var err error
	key, ok := csr.PublicKey.(crypto.PublicKey)
	if !ok {
		err = fmt.Errorf("Invalid public key in CSR.")
		// AUDIT[ Certificate Requests ] 11917fa4-10ef-4e0d-9105-bacbe7836a3c
		ca.log.AuditErr(err)
		return emptyCert, err
	}
	if err = core.GoodKey(key); err != nil {
		err = fmt.Errorf("Invalid public key in CSR: %s", err.Error())
		// AUDIT[ Certificate Requests ] 11917fa4-10ef-4e0d-9105-bacbe7836a3c
		ca.log.AuditErr(err)
		return emptyCert, err
	}
	if badSignatureAlgorithms[csr.SignatureAlgorithm] {
		err = fmt.Errorf("Invalid signature algorithm in CSR")
		// AUDIT[ Certificate Requests ] 11917fa4-10ef-4e0d-9105-bacbe7836a3c
		ca.log.AuditErr(err)
		return emptyCert, err
	}

	// Pull hostnames from CSR
	// Authorization is checked by the RA
	commonName := ""
	hostNames := make([]string, len(csr.DNSNames))
	copy(hostNames, csr.DNSNames)
	if len(csr.Subject.CommonName) > 0 {
		commonName = csr.Subject.CommonName
		hostNames = append(hostNames, csr.Subject.CommonName)
	} else if len(hostNames) > 0 {
		commonName = hostNames[0]
	} else {
		err = fmt.Errorf("Cannot issue a certificate without a hostname.")
		// AUDIT[ Certificate Requests ] 11917fa4-10ef-4e0d-9105-bacbe7836a3c
		ca.log.AuditErr(err)
		return emptyCert, err
	}

	// Collapse any duplicate names.  Note that this operation may re-order the names
	hostNames = core.UniqueNames(hostNames)
	if ca.MaxNames > 0 && len(hostNames) > ca.MaxNames {
		err = fmt.Errorf("Certificate request has %d > %d names", len(hostNames), ca.MaxNames)
		ca.log.WarningErr(err)
		return emptyCert, err
	}

	// Verify that names are allowed by policy
	identifier := core.AcmeIdentifier{Type: core.IdentifierDNS, Value: commonName}
	if err = ca.PA.WillingToIssue(identifier); err != nil {
		err = fmt.Errorf("Policy forbids issuing for name %s", commonName)
		// AUDIT[ Certificate Requests ] 11917fa4-10ef-4e0d-9105-bacbe7836a3c
		ca.log.AuditErr(err)
		return emptyCert, err
	}
	for _, name := range hostNames {
		identifier = core.AcmeIdentifier{Type: core.IdentifierDNS, Value: name}
		if err = ca.PA.WillingToIssue(identifier); err != nil {
			err = fmt.Errorf("Policy forbids issuing for name %s", name)
			// AUDIT[ Certificate Requests ] 11917fa4-10ef-4e0d-9105-bacbe7836a3c
			ca.log.AuditErr(err)
			return emptyCert, err
		}
	}

	notAfter := ca.Clk.Now().Add(ca.ValidityPeriod)

	if ca.NotAfter.Before(notAfter) {
		// AUDIT[ Certificate Requests ] 11917fa4-10ef-4e0d-9105-bacbe7836a3c
		err = errors.New("Cannot issue a certificate that expires after the intermediate certificate.")
		ca.log.AuditErr(err)
		return emptyCert, err
	}

	// Convert the CSR to PEM
	csrPEM := string(pem.EncodeToMemory(&pem.Block{
		Type:  "CERTIFICATE REQUEST",
		Bytes: csr.Raw,
	}))

	// Get the next serial number
	tx, err := ca.DB.Begin()
	if err != nil {
		// AUDIT[ Error Conditions ] 9cc4d537-8534-4970-8665-4b382abe82f3
		ca.log.AuditErr(err)
		return emptyCert, err
	}

	serialDec, err := ca.DB.IncrementAndGetSerial(tx)
	if err != nil {
		// AUDIT[ Error Conditions ] 9cc4d537-8534-4970-8665-4b382abe82f3
		ca.log.Audit(fmt.Sprintf("Serial increment failed, rolling back: err=[%v]", err))
		tx.Rollback()
		return emptyCert, err
	}
	serialHex := fmt.Sprintf("%02X%014X", ca.Prefix, serialDec)

	// Send the cert off for signing
	req := signer.SignRequest{
		Request: csrPEM,
		Profile: ca.profile,
		Hosts:   hostNames,
		Subject: &signer.Subject{
			CN: commonName,
		},
		SerialSeq: serialHex,
	}

	certPEM, err := ca.Signer.Sign(req)
	if err != nil {
		// AUDIT[ Error Conditions ] 9cc4d537-8534-4970-8665-4b382abe82f3
		ca.log.Audit(fmt.Sprintf("Signer failed, rolling back: serial=[%s] err=[%v]", serialHex, err))
		tx.Rollback()
		return emptyCert, err
	}

	if len(certPEM) == 0 {
		err = fmt.Errorf("No certificate returned by server")
		// AUDIT[ Error Conditions ] 9cc4d537-8534-4970-8665-4b382abe82f3
		ca.log.Audit(fmt.Sprintf("PEM empty from Signer, rolling back: serial=[%s] err=[%v]", serialHex, err))
		tx.Rollback()
		return emptyCert, err
	}

	block, _ := pem.Decode(certPEM)
	if block == nil || block.Type != "CERTIFICATE" {
		err = fmt.Errorf("Invalid certificate value returned")

		// AUDIT[ Error Conditions ] 9cc4d537-8534-4970-8665-4b382abe82f3
		ca.log.Audit(fmt.Sprintf("PEM decode error, aborting and rolling back issuance: pem=[%s] err=[%v]", certPEM, err))
		tx.Rollback()
		return emptyCert, err
	}
	certDER := block.Bytes

	cert := core.Certificate{
		DER: certDER,
	}

	// This is one last check for uncaught errors
	if err != nil {
		// AUDIT[ Error Conditions ] 9cc4d537-8534-4970-8665-4b382abe82f3
		ca.log.Audit(fmt.Sprintf("Uncaught error, aborting and rolling back issuance: pem=[%s] err=[%v]", certPEM, err))
		tx.Rollback()
		return emptyCert, err
	}

	// Store the cert with the certificate authority, if provided
	_, err = ca.SA.AddCertificate(certDER, regID)
	if err != nil {
		// AUDIT[ Error Conditions ] 9cc4d537-8534-4970-8665-4b382abe82f3
		ca.log.Audit(fmt.Sprintf("Failed RPC to store at SA, orphaning certificate: pem=[%s] err=[%v]", certPEM, err))
		tx.Rollback()
		return emptyCert, err
	}

	if err = tx.Commit(); err != nil {
		// AUDIT[ Error Conditions ] 9cc4d537-8534-4970-8665-4b382abe82f3
		ca.log.Audit(fmt.Sprintf("Failed to commit, orphaning certificate: pem=[%s] err=[%v]", certPEM, err))
		return emptyCert, err
	}

	// Attempt to generate the OCSP Response now. If this raises an error, it is
	// logged but is not returned to the caller, as an error at this point does
	// not constitute an issuance failure.

	certObj, err := x509.ParseCertificate(certDER)
	if err != nil {
		ca.log.Warning(fmt.Sprintf("Post-Issuance OCSP failed parsing Certificate: %s", err))
		return cert, nil
	}

	serial := core.SerialToString(certObj.SerialNumber)

	signRequest := ocsp.SignRequest{
		Certificate: certObj,
		Status:      string(core.OCSPStatusGood),
	}

	ocspResponse, err := ca.OCSPSigner.Sign(signRequest)
	if err != nil {
		ca.log.Warning(fmt.Sprintf("Post-Issuance OCSP failed signing: %s", err))
		return cert, nil
	}

	err = ca.SA.UpdateOCSP(serial, ocspResponse)
	if err != nil {
		ca.log.Warning(fmt.Sprintf("Post-Issuance OCSP failed storing: %s", err))
		return cert, nil
	}

	// Do not return an err at this point; caller must know that the Certificate
	// was issued. (Also, it should be impossible for err to be non-nil here)
	return cert, nil
}
// MatchesCSR tests the contents of a generated certificate to make sure
// that the PublicKey, CommonName, and DNSNames match those provided in
// the CSR that was used to generate the certificate. It also checks the
// following fields for:
//		* notBefore is not more than 24 hours ago
//		* BasicConstraintsValid is true
//		* IsCA is false
//		* ExtKeyUsage only contains ExtKeyUsageServerAuth & ExtKeyUsageClientAuth
//		* Subject only contains CommonName & Names
func (ra *RegistrationAuthorityImpl) MatchesCSR(
	cert core.Certificate,
	csr *x509.CertificateRequest) (err error) {
	parsedCertificate, err := x509.ParseCertificate([]byte(cert.DER))
	if err != nil {
		return
	}

	// Check issued certificate matches what was expected from the CSR
	hostNames := make([]string, len(csr.DNSNames))
	copy(hostNames, csr.DNSNames)
	if len(csr.Subject.CommonName) > 0 {
		hostNames = append(hostNames, csr.Subject.CommonName)
	}
	hostNames = core.UniqueNames(hostNames)

	if !core.KeyDigestEquals(parsedCertificate.PublicKey, csr.PublicKey) {
		err = core.InternalServerError("Generated certificate public key doesn't match CSR public key")
		return
	}
	if len(csr.Subject.CommonName) > 0 && parsedCertificate.Subject.CommonName != csr.Subject.CommonName {
		err = core.InternalServerError("Generated certificate CommonName doesn't match CSR CommonName")
		return
	}
	// Sort both slices of names before comparison.
	parsedNames := parsedCertificate.DNSNames
	sort.Strings(parsedNames)
	sort.Strings(hostNames)
	if !reflect.DeepEqual(parsedNames, hostNames) {
		err = core.InternalServerError("Generated certificate DNSNames don't match CSR DNSNames")
		return
	}
	if !reflect.DeepEqual(parsedCertificate.IPAddresses, csr.IPAddresses) {
		err = core.InternalServerError("Generated certificate IPAddresses don't match CSR IPAddresses")
		return
	}
	if !reflect.DeepEqual(parsedCertificate.EmailAddresses, csr.EmailAddresses) {
		err = core.InternalServerError("Generated certificate EmailAddresses don't match CSR EmailAddresses")
		return
	}
	if len(parsedCertificate.Subject.Country) > 0 || len(parsedCertificate.Subject.Organization) > 0 ||
		len(parsedCertificate.Subject.OrganizationalUnit) > 0 || len(parsedCertificate.Subject.Locality) > 0 ||
		len(parsedCertificate.Subject.Province) > 0 || len(parsedCertificate.Subject.StreetAddress) > 0 ||
		len(parsedCertificate.Subject.PostalCode) > 0 || len(parsedCertificate.Subject.SerialNumber) > 0 {
		err = core.InternalServerError("Generated certificate Subject contains fields other than CommonName or Names")
		return
	}
	now := ra.clk.Now()
	if now.Sub(parsedCertificate.NotBefore) > time.Hour*24 {
		err = core.InternalServerError(fmt.Sprintf("Generated certificate is back dated %s", now.Sub(parsedCertificate.NotBefore)))
		return
	}
	if !parsedCertificate.BasicConstraintsValid {
		err = core.InternalServerError("Generated certificate doesn't have basic constraints set")
		return
	}
	if parsedCertificate.IsCA {
		err = core.InternalServerError("Generated certificate can sign other certificates")
		return
	}
	if !reflect.DeepEqual(parsedCertificate.ExtKeyUsage, []x509.ExtKeyUsage{x509.ExtKeyUsageServerAuth, x509.ExtKeyUsageClientAuth}) {
		err = core.InternalServerError("Generated certificate doesn't have correct key usage extensions")
		return
	}

	return
}