Beispiel #1
0
    def insert_ca_certs_into_systemwide_ca_store(self, ca_certs):
        new_cacert_path = paths.SYSTEMWIDE_IPA_CA_CRT

        if os.path.exists(new_cacert_path):
            try:
                os.remove(new_cacert_path)
            except OSError as e:
                root_logger.error(
                    "Could not remove %s: %s", new_cacert_path, e)
                return False

        new_cacert_path = paths.IPA_P11_KIT

        try:
            f = open(new_cacert_path, 'w')
        except IOError as e:
            root_logger.info("Failed to open %s: %s" % (new_cacert_path, e))
            return False

        f.write("# This file was created by IPA. Do not edit.\n"
                "\n")

        has_eku = set()
        for cert, nickname, trusted, ext_key_usage in ca_certs:
            try:
                subject = x509.get_der_subject(cert, x509.DER)
                issuer = x509.get_der_issuer(cert, x509.DER)
                serial_number = x509.get_der_serial_number(cert, x509.DER)
                public_key_info = x509.get_der_public_key_info(cert, x509.DER)
            except (NSPRError, PyAsn1Error, ValueError) as e:
                root_logger.warning(
                    "Failed to decode certificate \"%s\": %s", nickname, e)
                continue

            label = urllib.parse.quote(nickname)
            subject = urllib.parse.quote(subject)
            issuer = urllib.parse.quote(issuer)
            serial_number = urllib.parse.quote(serial_number)
            public_key_info = urllib.parse.quote(public_key_info)

            cert = base64.b64encode(cert)
            cert = x509.make_pem(cert)

            obj = ("[p11-kit-object-v1]\n"
                   "class: certificate\n"
                   "certificate-type: x-509\n"
                   "certificate-category: authority\n"
                   "label: \"%(label)s\"\n"
                   "subject: \"%(subject)s\"\n"
                   "issuer: \"%(issuer)s\"\n"
                   "serial-number: \"%(serial_number)s\"\n"
                   "x-public-key-info: \"%(public_key_info)s\"\n" %
                   dict(label=label,
                        subject=subject,
                        issuer=issuer,
                        serial_number=serial_number,
                        public_key_info=public_key_info))
            if trusted is True:
                obj += "trusted: true\n"
            elif trusted is False:
                obj += "x-distrusted: true\n"
            obj += "%s\n\n" % cert
            f.write(obj)

            if ext_key_usage is not None and public_key_info not in has_eku:
                if not ext_key_usage:
                    ext_key_usage = {x509.EKU_PLACEHOLDER}
                try:
                    ext_key_usage = x509.encode_ext_key_usage(ext_key_usage)
                except PyAsn1Error as e:
                    root_logger.warning(
                        "Failed to encode extended key usage for \"%s\": %s",
                        nickname, e)
                    continue
                value = urllib.parse.quote(ext_key_usage)
                obj = ("[p11-kit-object-v1]\n"
                       "class: x-certificate-extension\n"
                       "label: \"ExtendedKeyUsage for %(label)s\"\n"
                       "x-public-key-info: \"%(public_key_info)s\"\n"
                       "object-id: 2.5.29.37\n"
                       "value: \"%(value)s\"\n\n" %
                       dict(label=label,
                            public_key_info=public_key_info,
                            value=value))
                f.write(obj)
                has_eku.add(public_key_info)

        f.close()

        # Add the CA to the systemwide CA trust database
        if not self.reload_systemwide_ca_store():
            return False

        return True
Beispiel #2
0
        try:
            f = open(new_cacert_path, 'w')
        except IOError, e:
            root_logger.info("Failed to open %s: %s" % (new_cacert_path, e))
            return False

        f.write("# This file was created by IPA. Do not edit.\n"
                "\n")

        has_eku = set()
        for cert, nickname, trusted, ext_key_usage in ca_certs:
            try:
                subject = x509.get_der_subject(cert, x509.DER)
                issuer = x509.get_der_issuer(cert, x509.DER)
                serial_number = x509.get_der_serial_number(cert, x509.DER)
                public_key_info = x509.get_der_public_key_info(cert, x509.DER)
            except (NSPRError, PyAsn1Error), e:
                root_logger.warning(
                    "Failed to decode certificate \"%s\": %s", nickname, e)
                continue

            label = urllib.quote(nickname)
            subject = urllib.quote(subject)
            issuer = urllib.quote(issuer)
            serial_number = urllib.quote(serial_number)
            public_key_info = urllib.quote(public_key_info)

            cert = base64.b64encode(cert)
            cert = x509.make_pem(cert)
Beispiel #3
0
    def insert_ca_certs_into_systemwide_ca_store(self, ca_certs):
        # pylint: disable=ipa-forbidden-import
        from ipalib import x509  # FixMe: break import cycle
        from ipalib.errors import CertificateError
        # pylint: enable=ipa-forbidden-import

        new_cacert_path = paths.SYSTEMWIDE_IPA_CA_CRT

        if os.path.exists(new_cacert_path):
            try:
                os.remove(new_cacert_path)
            except OSError as e:
                root_logger.error("Could not remove %s: %s", new_cacert_path,
                                  e)
                return False

        new_cacert_path = paths.IPA_P11_KIT

        try:
            f = open(new_cacert_path, 'w')
        except IOError as e:
            root_logger.info("Failed to open %s: %s" % (new_cacert_path, e))
            return False

        f.write("# This file was created by IPA. Do not edit.\n" "\n")

        has_eku = set()
        for cert, nickname, trusted, ext_key_usage in ca_certs:
            try:
                subject = x509.get_der_subject(cert, x509.DER)
                issuer = x509.get_der_issuer(cert, x509.DER)
                serial_number = x509.get_der_serial_number(cert, x509.DER)
                public_key_info = x509.get_der_public_key_info(cert, x509.DER)
            except (PyAsn1Error, ValueError, CertificateError) as e:
                root_logger.warning("Failed to decode certificate \"%s\": %s",
                                    nickname, e)
                continue

            label = urllib.parse.quote(nickname)
            subject = urllib.parse.quote(subject)
            issuer = urllib.parse.quote(issuer)
            serial_number = urllib.parse.quote(serial_number)
            public_key_info = urllib.parse.quote(public_key_info)

            cert = base64.b64encode(cert)
            cert = x509.make_pem(cert)

            obj = ("[p11-kit-object-v1]\n"
                   "class: certificate\n"
                   "certificate-type: x-509\n"
                   "certificate-category: authority\n"
                   "label: \"%(label)s\"\n"
                   "subject: \"%(subject)s\"\n"
                   "issuer: \"%(issuer)s\"\n"
                   "serial-number: \"%(serial_number)s\"\n"
                   "x-public-key-info: \"%(public_key_info)s\"\n" %
                   dict(label=label,
                        subject=subject,
                        issuer=issuer,
                        serial_number=serial_number,
                        public_key_info=public_key_info))
            if trusted is True:
                obj += "trusted: true\n"
            elif trusted is False:
                obj += "x-distrusted: true\n"
            obj += "%s\n\n" % cert
            f.write(obj)

            if ext_key_usage is not None and public_key_info not in has_eku:
                if not ext_key_usage:
                    ext_key_usage = {x509.EKU_PLACEHOLDER}
                try:
                    ext_key_usage = x509.encode_ext_key_usage(ext_key_usage)
                except PyAsn1Error as e:
                    root_logger.warning(
                        "Failed to encode extended key usage for \"%s\": %s",
                        nickname, e)
                    continue
                value = urllib.parse.quote(ext_key_usage)
                obj = ("[p11-kit-object-v1]\n"
                       "class: x-certificate-extension\n"
                       "label: \"ExtendedKeyUsage for %(label)s\"\n"
                       "x-public-key-info: \"%(public_key_info)s\"\n"
                       "object-id: 2.5.29.37\n"
                       "value: \"%(value)s\"\n\n" %
                       dict(label=label,
                            public_key_info=public_key_info,
                            value=value))
                f.write(obj)
                has_eku.add(public_key_info)

        f.close()

        # Add the CA to the systemwide CA trust database
        if not self.reload_systemwide_ca_store():
            return False

        return True
Beispiel #4
0
        new_cacert_path = paths.IPA_P11_KIT

        try:
            f = open(new_cacert_path, 'w')
        except IOError, e:
            root_logger.info("Failed to open %s: %s" % (new_cacert_path, e))
            return False

        f.write("# This file was created by IPA. Do not edit.\n" "\n")

        has_eku = set()
        for cert, nickname, trusted, ext_key_usage in ca_certs:
            try:
                subject = x509.get_der_subject(cert, x509.DER)
                issuer = x509.get_der_issuer(cert, x509.DER)
                serial_number = x509.get_der_serial_number(cert, x509.DER)
                public_key_info = x509.get_der_public_key_info(cert, x509.DER)
            except (NSPRError, PyAsn1Error), e:
                root_logger.warning("Failed to decode certificate \"%s\": %s",
                                    nickname, e)
                continue

            label = urllib.quote(nickname)
            subject = urllib.quote(subject)
            issuer = urllib.quote(issuer)
            serial_number = urllib.quote(serial_number)
            public_key_info = urllib.quote(public_key_info)

            cert = base64.b64encode(cert)
            cert = x509.make_pem(cert)