def __setattr__(self, attr, value): if attr in self.nid: assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_set_by_nid(self.x509_name, self.nid[attr], value) self.__dict__[attr] = value
def __init__(self, x509_name=None, _pyfree=0): if x509_name is not None: assert m2.x509_name_type_check(x509_name), "'x509_name' type error" self.x509_name = x509_name self._pyfree = _pyfree else: self.x509_name = m2.x509_name_new() self._pyfree = 1
def __init__(self, x509_name=None, _pyfree=0): if x509_name is not None: assert m2.x509_name_type_check(x509_name), "'x509_name' type error" self.x509_name = x509_name self._pyfree = _pyfree else: self.x509_name = m2.x509_name_new() self._pyfree = 1
def __setattr__(self, attr, value): if attr in self.nid: assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_set_by_nid(self.x509_name, self.nid[attr], value) self.__dict__[attr] = value
def __getattr__(self, attr): if attr in self.nid: assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_by_nid(self.x509_name, self.nid[attr]) if attr in self.__dict__: return self.__dict__[attr] raise AttributeError(self, attr)
def __getattr__(self, attr): if attr in self.nid: assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_by_nid(self.x509_name, self.nid[attr]) if attr in self.__dict__: return self.__dict__[attr] raise AttributeError(self, attr)
def __getattr__(self, attr): # type: (str) -> str if attr in self.nid: assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return six.ensure_text(m2.x509_name_by_nid(self.x509_name, self.nid[attr])) if attr in self.__dict__: return self.__dict__[attr] raise AttributeError(self, attr)
def __getattr__(self, attr): # type: (str) -> str if attr in self.nid: assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return six.ensure_text(m2.x509_name_by_nid(self.x509_name, self.nid[attr])) if attr in self.__dict__: return self.__dict__[attr] raise AttributeError(self, attr)
def __setattr__(self, attr, value): # type: (str, AnyStr) -> int """ :return: 1 for success of 0 if an error occurred. """ if attr in self.nid: assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_set_by_nid(self.x509_name, self.nid[attr], six.ensure_binary(value)) self.__dict__[attr] = value
def __setattr__(self, attr, value): # type: (str, AnyStr) -> int """ :return: 1 for success of 0 if an error occurred. """ if attr in self.nid: assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_set_by_nid(self.x509_name, self.nid[attr], util.py3bytes(value)) self.__dict__[attr] = value
def as_text(self, indent=0, flags=m2.XN_FLAG_COMPAT): """ as_text returns the name as a string. @param indent: Each line in multiline format is indented by this many spaces. @param flags: Flags that control how the output should be formatted. """ assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" buf = BIO.MemoryBuffer() m2.x509_name_print_ex(buf.bio_ptr(), self.x509_name, indent, flags) return buf.read_all()
def __init__(self, x509_name=None, _pyfree=0): # type: (bytes, int) -> None """ :param x509_name: this should be OpenSSL X509_NAME binary :param _pyfree: """ if x509_name is not None: assert m2.x509_name_type_check(x509_name), "'x509_name' type error" self.x509_name = x509_name self._pyfree = _pyfree else: self.x509_name = m2.x509_name_new() self._pyfree = 1
def as_text(self, indent=0, flags=m2.XN_FLAG_COMPAT): """ as_text returns the name as a string. @param indent: Each line in multiline format is indented by this many spaces. @param flags: Flags that control how the output should be formatted. """ assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" buf = BIO.MemoryBuffer() m2.x509_name_print_ex(buf.bio_ptr(), self.x509_name, indent, flags) return buf.read_all()
def __init__(self, x509_name=None, _pyfree=0): # type: (bytes, int) -> None """ :param x509_name: this should be OpenSSL X509_NAME binary :param _pyfree: """ if x509_name is not None: assert m2.x509_name_type_check(x509_name), "'x509_name' type error" self.x509_name = x509_name self._pyfree = _pyfree else: self.x509_name = m2.x509_name_new() self._pyfree = 1
def as_hash(self): # type: () -> int assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_hash(self.x509_name)
def as_der(self): # type: () -> bytes assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_get_der(self.x509_name)
def _ptr(self): assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return self.x509_name
def __str__(self): # type: () -> bytes assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_oneline(self.x509_name)
def __str__(self): # type: () -> bytes assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_oneline(self.x509_name)
def _ptr(self): assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return self.x509_name
def as_der(self): # type: () -> bytes assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_get_der(self.x509_name)
def as_hash(self): # type: () -> int assert m2.x509_name_type_check(self.x509_name), \ "'x509_name' type error" return m2.x509_name_hash(self.x509_name)