return l, 1 + octets_num, data[1 + octets_num:]
+LEN0 = len_encode(0)
+LEN1 = len_encode(1)
LEN1K = len_encode(1000)
def _encode(self):
self._assert_ready()
- return b"".join((
- self.tag,
- len_encode(1),
- (b"\xFF" if self._value else b"\x00"),
- ))
+ return b"".join((self.tag, LEN1, (b"\xFF" if self._value else b"\x00")))
def _decode(self, tlv, offset, decode_path, ctx, tag_only, evgen_mode):
try:
)
def _encode(self):
- return self.tag + len_encode(0)
+ return self.tag + LEN0
def _decode(self, tlv, offset, decode_path, ctx, tag_only, evgen_mode):
try:
LEN_YYMMDDHHMMSSZ = len("YYMMDDHHMMSSZ")
+LEN_LEN_YYMMDDHHMMSSZ = len_encode(LEN_YYMMDDHHMMSSZ)
+LEN_YYMMDDHHMMSSZ_WITH_LEN = len(LEN_LEN_YYMMDDHHMMSSZ) + LEN_YYMMDDHHMMSSZ
LEN_YYYYMMDDHHMMSSDMZ = len("YYYYMMDDHHMMSSDMZ")
LEN_YYYYMMDDHHMMSSZ = len("YYYYMMDDHHMMSSZ")
+LEN_LEN_YYYYMMDDHHMMSSZ = len_encode(LEN_YYYYMMDDHHMMSSZ)
class VisibleString(CommonString):
def _encode(self):
self._assert_ready()
- value = self._encode_time()
- return b"".join((self.tag, len_encode(len(value)), value))
+ return b"".join((self.tag, LEN_LEN_YYMMDDHHMMSSZ, self._encode_time()))
def _encode_cer(self, writer):
write_full(writer, self._encode())
encoded += (".%06d" % value.microsecond).rstrip("0")
return (encoded + "Z").encode("ascii")
+ def _encode(self):
+ self._assert_ready()
+ value = self._value
+ if value.microsecond > 0:
+ encoded = self._encode_time()
+ return b"".join((self.tag, len_encode(len(encoded)), encoded))
+ return b"".join((self.tag, LEN_LEN_YYYYMMDDHHMMSSZ, self._encode_time()))
+
class GraphicString(CommonString):
__slots__ = ()