From c4d90bf4ea0c5b7a016028ed994de19638d3113b Mon Sep 17 00:00:00 2001 From: Determinant Date: Tue, 17 Nov 2020 20:04:09 -0500 Subject: support saving as a keystore file --- frozen_deps/Cryptodome/Util/asn1.py | 940 ++++++++++++++++++++++++++++++++++++ 1 file changed, 940 insertions(+) create mode 100644 frozen_deps/Cryptodome/Util/asn1.py (limited to 'frozen_deps/Cryptodome/Util/asn1.py') diff --git a/frozen_deps/Cryptodome/Util/asn1.py b/frozen_deps/Cryptodome/Util/asn1.py new file mode 100644 index 0000000..18e080c --- /dev/null +++ b/frozen_deps/Cryptodome/Util/asn1.py @@ -0,0 +1,940 @@ +# -*- coding: ascii -*- +# +# Util/asn1.py : Minimal support for ASN.1 DER binary encoding. +# +# =================================================================== +# The contents of this file are dedicated to the public domain. To +# the extent that dedication to the public domain is not available, +# everyone is granted a worldwide, perpetual, royalty-free, +# non-exclusive license to exercise all rights associated with the +# contents of this file for any purpose whatsoever. +# No rights are reserved. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF +# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS +# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN +# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN +# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +# SOFTWARE. +# =================================================================== + +import struct + +from Cryptodome.Util.py3compat import byte_string, b, bchr, bord + +from Cryptodome.Util.number import long_to_bytes, bytes_to_long + +__all__ = ['DerObject', 'DerInteger', 'DerOctetString', 'DerNull', + 'DerSequence', 'DerObjectId', 'DerBitString', 'DerSetOf'] + + +def _is_number(x, only_non_negative=False): + test = 0 + try: + test = x + test + except TypeError: + return False + return not only_non_negative or x >= 0 + + +class BytesIO_EOF(object): + """This class differs from BytesIO in that a ValueError exception is + raised whenever EOF is reached.""" + + def __init__(self, initial_bytes): + self._buffer = initial_bytes + self._index = 0 + self._bookmark = None + + def set_bookmark(self): + self._bookmark = self._index + + def data_since_bookmark(self): + assert self._bookmark is not None + return self._buffer[self._bookmark:self._index] + + def remaining_data(self): + return len(self._buffer) - self._index + + def read(self, length): + new_index = self._index + length + if new_index > len(self._buffer): + raise ValueError("Not enough data for DER decoding: expected %d bytes and found %d" % (new_index, len(self._buffer))) + + result = self._buffer[self._index:new_index] + self._index = new_index + return result + + def read_byte(self): + return bord(self.read(1)[0]) + + +class DerObject(object): + """Base class for defining a single DER object. + + This class should never be directly instantiated. + """ + + def __init__(self, asn1Id=None, payload=b'', implicit=None, + constructed=False, explicit=None): + """Initialize the DER object according to a specific ASN.1 type. + + :Parameters: + asn1Id : integer + The universal DER tag number for this object + (e.g. 0x10 for a SEQUENCE). + If None, the tag is not known yet. + + payload : byte string + The initial payload of the object (that it, + the content octets). + If not specified, the payload is empty. + + implicit : integer + The IMPLICIT tag number to use for the encoded object. + It overrides the universal tag *asn1Id*. + + constructed : bool + True when the ASN.1 type is *constructed*. + False when it is *primitive*. + + explicit : integer + The EXPLICIT tag number to use for the encoded object. + """ + + if asn1Id is None: + # The tag octet will be read in with ``decode`` + self._tag_octet = None + return + asn1Id = self._convertTag(asn1Id) + + self.payload = payload + + # In a BER/DER identifier octet: + # * bits 4-0 contain the tag value + # * bit 5 is set if the type is 'constructed' + # and unset if 'primitive' + # * bits 7-6 depend on the encoding class + # + # Class | Bit 7, Bit 6 + # ---------------------------------- + # universal | 0 0 + # application | 0 1 + # context-spec | 1 0 (default for IMPLICIT/EXPLICIT) + # private | 1 1 + # + if None not in (explicit, implicit): + raise ValueError("Explicit and implicit tags are" + " mutually exclusive") + + if implicit is not None: + self._tag_octet = 0x80 | 0x20 * constructed | self._convertTag(implicit) + return + + if explicit is not None: + self._tag_octet = 0xA0 | self._convertTag(explicit) + self._inner_tag_octet = 0x20 * constructed | asn1Id + return + + self._tag_octet = 0x20 * constructed | asn1Id + + def _convertTag(self, tag): + """Check if *tag* is a real DER tag. + Convert it from a character to number if necessary. + """ + if not _is_number(tag): + if len(tag) == 1: + tag = bord(tag[0]) + # Ensure that tag is a low tag + if not (_is_number(tag) and 0 <= tag < 0x1F): + raise ValueError("Wrong DER tag") + return tag + + @staticmethod + def _definite_form(length): + """Build length octets according to BER/DER + definite form. + """ + if length > 127: + encoding = long_to_bytes(length) + return bchr(len(encoding) + 128) + encoding + return bchr(length) + + def encode(self): + """Return this DER element, fully encoded as a binary byte string.""" + + # Concatenate identifier octets, length octets, + # and contents octets + + output_payload = self.payload + + # In case of an EXTERNAL tag, first encode the inner + # element. + if hasattr(self, "_inner_tag_octet"): + output_payload = (bchr(self._inner_tag_octet) + + self._definite_form(len(self.payload)) + + self.payload) + + return (bchr(self._tag_octet) + + self._definite_form(len(output_payload)) + + output_payload) + + def _decodeLen(self, s): + """Decode DER length octets from a file.""" + + length = s.read_byte() + + if length > 127: + encoded_length = s.read(length & 0x7F) + if bord(encoded_length[0]) == 0: + raise ValueError("Invalid DER: length has leading zero") + length = bytes_to_long(encoded_length) + if length <= 127: + raise ValueError("Invalid DER: length in long form but smaller than 128") + + return length + + def decode(self, der_encoded, strict=False): + """Decode a complete DER element, and re-initializes this + object with it. + + Args: + der_encoded (byte string): A complete DER element. + + Raises: + ValueError: in case of parsing errors. + """ + + if not byte_string(der_encoded): + raise ValueError("Input is not a byte string") + + s = BytesIO_EOF(der_encoded) + self._decodeFromStream(s, strict) + + # There shouldn't be other bytes left + if s.remaining_data() > 0: + raise ValueError("Unexpected extra data after the DER structure") + + return self + + def _decodeFromStream(self, s, strict): + """Decode a complete DER element from a file.""" + + idOctet = s.read_byte() + if self._tag_octet is not None: + if idOctet != self._tag_octet: + raise ValueError("Unexpected DER tag") + else: + self._tag_octet = idOctet + length = self._decodeLen(s) + self.payload = s.read(length) + + # In case of an EXTERNAL tag, further decode the inner + # element. + if hasattr(self, "_inner_tag_octet"): + p = BytesIO_EOF(self.payload) + inner_octet = p.read_byte() + if inner_octet != self._inner_tag_octet: + raise ValueError("Unexpected internal DER tag") + length = self._decodeLen(p) + self.payload = p.read(length) + + # There shouldn't be other bytes left + if p.remaining_data() > 0: + raise ValueError("Unexpected extra data after the DER structure") + + +class DerInteger(DerObject): + """Class to model a DER INTEGER. + + An example of encoding is:: + + >>> from Cryptodome.Util.asn1 import DerInteger + >>> from binascii import hexlify, unhexlify + >>> int_der = DerInteger(9) + >>> print hexlify(int_der.encode()) + + which will show ``020109``, the DER encoding of 9. + + And for decoding:: + + >>> s = unhexlify(b'020109') + >>> try: + >>> int_der = DerInteger() + >>> int_der.decode(s) + >>> print int_der.value + >>> except ValueError: + >>> print "Not a valid DER INTEGER" + + the output will be ``9``. + + :ivar value: The integer value + :vartype value: integer + """ + + def __init__(self, value=0, implicit=None, explicit=None): + """Initialize the DER object as an INTEGER. + + :Parameters: + value : integer + The value of the integer. + + implicit : integer + The IMPLICIT tag to use for the encoded object. + It overrides the universal tag for INTEGER (2). + """ + + DerObject.__init__(self, 0x02, b'', implicit, + False, explicit) + self.value = value # The integer value + + def encode(self): + """Return the DER INTEGER, fully encoded as a + binary string.""" + + number = self.value + self.payload = b'' + while True: + self.payload = bchr(int(number & 255)) + self.payload + if 128 <= number <= 255: + self.payload = bchr(0x00) + self.payload + if -128 <= number <= 255: + break + number >>= 8 + return DerObject.encode(self) + + def decode(self, der_encoded, strict=False): + """Decode a complete DER INTEGER DER, and re-initializes this + object with it. + + Args: + der_encoded (byte string): A complete INTEGER DER element. + + Raises: + ValueError: in case of parsing errors. + """ + + return DerObject.decode(self, der_encoded, strict=strict) + + def _decodeFromStream(self, s, strict): + """Decode a complete DER INTEGER from a file.""" + + # Fill up self.payload + DerObject._decodeFromStream(self, s, strict) + + if strict: + if len(self.payload) == 0: + raise ValueError("Invalid encoding for DER INTEGER: empty payload") + if len(self.payload) >= 2 and struct.unpack('>H', self.payload[:2])[0] < 0x80: + raise ValueError("Invalid encoding for DER INTEGER: leading zero") + + # Derive self.value from self.payload + self.value = 0 + bits = 1 + for i in self.payload: + self.value *= 256 + self.value += bord(i) + bits <<= 8 + if self.payload and bord(self.payload[0]) & 0x80: + self.value -= bits + + +class DerSequence(DerObject): + """Class to model a DER SEQUENCE. + + This object behaves like a dynamic Python sequence. + + Sub-elements that are INTEGERs behave like Python integers. + + Any other sub-element is a binary string encoded as a complete DER + sub-element (TLV). + + An example of encoding is: + + >>> from Cryptodome.Util.asn1 import DerSequence, DerInteger + >>> from binascii import hexlify, unhexlify + >>> obj_der = unhexlify('070102') + >>> seq_der = DerSequence([4]) + >>> seq_der.append(9) + >>> seq_der.append(obj_der.encode()) + >>> print hexlify(seq_der.encode()) + + which will show ``3009020104020109070102``, the DER encoding of the + sequence containing ``4``, ``9``, and the object with payload ``02``. + + For decoding: + + >>> s = unhexlify(b'3009020104020109070102') + >>> try: + >>> seq_der = DerSequence() + >>> seq_der.decode(s) + >>> print len(seq_der) + >>> print seq_der[0] + >>> print seq_der[:] + >>> except ValueError: + >>> print "Not a valid DER SEQUENCE" + + the output will be:: + + 3 + 4 + [4, 9, b'\x07\x01\x02'] + + """ + + def __init__(self, startSeq=None, implicit=None): + """Initialize the DER object as a SEQUENCE. + + :Parameters: + startSeq : Python sequence + A sequence whose element are either integers or + other DER objects. + + implicit : integer + The IMPLICIT tag to use for the encoded object. + It overrides the universal tag for SEQUENCE (16). + """ + + DerObject.__init__(self, 0x10, b'', implicit, True) + if startSeq is None: + self._seq = [] + else: + self._seq = startSeq + + # A few methods to make it behave like a python sequence + + def __delitem__(self, n): + del self._seq[n] + + def __getitem__(self, n): + return self._seq[n] + + def __setitem__(self, key, value): + self._seq[key] = value + + def __setslice__(self, i, j, sequence): + self._seq[i:j] = sequence + + def __delslice__(self, i, j): + del self._seq[i:j] + + def __getslice__(self, i, j): + return self._seq[max(0, i):max(0, j)] + + def __len__(self): + return len(self._seq) + + def __iadd__(self, item): + self._seq.append(item) + return self + + def append(self, item): + self._seq.append(item) + return self + + def hasInts(self, only_non_negative=True): + """Return the number of items in this sequence that are + integers. + + Args: + only_non_negative (boolean): + If ``True``, negative integers are not counted in. + """ + + items = [x for x in self._seq if _is_number(x, only_non_negative)] + return len(items) + + def hasOnlyInts(self, only_non_negative=True): + """Return ``True`` if all items in this sequence are integers + or non-negative integers. + + This function returns False is the sequence is empty, + or at least one member is not an integer. + + Args: + only_non_negative (boolean): + If ``True``, the presence of negative integers + causes the method to return ``False``.""" + return self._seq and self.hasInts(only_non_negative) == len(self._seq) + + def encode(self): + """Return this DER SEQUENCE, fully encoded as a + binary string. + + Raises: + ValueError: if some elements in the sequence are neither integers + nor byte strings. + """ + self.payload = b'' + for item in self._seq: + if byte_string(item): + self.payload += item + elif _is_number(item): + self.payload += DerInteger(item).encode() + else: + self.payload += item.encode() + return DerObject.encode(self) + + def decode(self, der_encoded, strict=False, nr_elements=None, only_ints_expected=False): + """Decode a complete DER SEQUENCE, and re-initializes this + object with it. + + Args: + der_encoded (byte string): + A complete SEQUENCE DER element. + nr_elements (None or integer or list of integers): + The number of members the SEQUENCE can have + only_ints_expected (boolean): + Whether the SEQUENCE is expected to contain only integers. + strict (boolean): + Whether decoding must check for strict DER compliancy. + + Raises: + ValueError: in case of parsing errors. + + DER INTEGERs are decoded into Python integers. Any other DER + element is not decoded. Its validity is not checked. + """ + + self._nr_elements = nr_elements + result = DerObject.decode(self, der_encoded, strict=strict) + + if only_ints_expected and not self.hasOnlyInts(): + raise ValueError("Some members are not INTEGERs") + + return result + + def _decodeFromStream(self, s, strict): + """Decode a complete DER SEQUENCE from a file.""" + + self._seq = [] + + # Fill up self.payload + DerObject._decodeFromStream(self, s, strict) + + # Add one item at a time to self.seq, by scanning self.payload + p = BytesIO_EOF(self.payload) + while p.remaining_data() > 0: + p.set_bookmark() + + der = DerObject() + der._decodeFromStream(p, strict) + + # Parse INTEGERs differently + if der._tag_octet != 0x02: + self._seq.append(p.data_since_bookmark()) + else: + derInt = DerInteger() + #import pdb; pdb.set_trace() + data = p.data_since_bookmark() + derInt.decode(data, strict=strict) + self._seq.append(derInt.value) + + ok = True + if self._nr_elements is not None: + try: + ok = len(self._seq) in self._nr_elements + except TypeError: + ok = len(self._seq) == self._nr_elements + + if not ok: + raise ValueError("Unexpected number of members (%d)" + " in the sequence" % len(self._seq)) + + +class DerOctetString(DerObject): + """Class to model a DER OCTET STRING. + + An example of encoding is: + + >>> from Cryptodome.Util.asn1 import DerOctetString + >>> from binascii import hexlify, unhexlify + >>> os_der = DerOctetString(b'\\xaa') + >>> os_der.payload += b'\\xbb' + >>> print hexlify(os_der.encode()) + + which will show ``0402aabb``, the DER encoding for the byte string + ``b'\\xAA\\xBB'``. + + For decoding: + + >>> s = unhexlify(b'0402aabb') + >>> try: + >>> os_der = DerOctetString() + >>> os_der.decode(s) + >>> print hexlify(os_der.payload) + >>> except ValueError: + >>> print "Not a valid DER OCTET STRING" + + the output will be ``aabb``. + + :ivar payload: The content of the string + :vartype payload: byte string + """ + + def __init__(self, value=b'', implicit=None): + """Initialize the DER object as an OCTET STRING. + + :Parameters: + value : byte string + The initial payload of the object. + If not specified, the payload is empty. + + implicit : integer + The IMPLICIT tag to use for the encoded object. + It overrides the universal tag for OCTET STRING (4). + """ + DerObject.__init__(self, 0x04, value, implicit, False) + + +class DerNull(DerObject): + """Class to model a DER NULL element.""" + + def __init__(self): + """Initialize the DER object as a NULL.""" + + DerObject.__init__(self, 0x05, b'', None, False) + + +class DerObjectId(DerObject): + """Class to model a DER OBJECT ID. + + An example of encoding is: + + >>> from Cryptodome.Util.asn1 import DerObjectId + >>> from binascii import hexlify, unhexlify + >>> oid_der = DerObjectId("1.2") + >>> oid_der.value += ".840.113549.1.1.1" + >>> print hexlify(oid_der.encode()) + + which will show ``06092a864886f70d010101``, the DER encoding for the + RSA Object Identifier ``1.2.840.113549.1.1.1``. + + For decoding: + + >>> s = unhexlify(b'06092a864886f70d010101') + >>> try: + >>> oid_der = DerObjectId() + >>> oid_der.decode(s) + >>> print oid_der.value + >>> except ValueError: + >>> print "Not a valid DER OBJECT ID" + + the output will be ``1.2.840.113549.1.1.1``. + + :ivar value: The Object ID (OID), a dot separated list of integers + :vartype value: string + """ + + def __init__(self, value='', implicit=None, explicit=None): + """Initialize the DER object as an OBJECT ID. + + :Parameters: + value : string + The initial Object Identifier (e.g. "1.2.0.0.6.2"). + implicit : integer + The IMPLICIT tag to use for the encoded object. + It overrides the universal tag for OBJECT ID (6). + explicit : integer + The EXPLICIT tag to use for the encoded object. + """ + DerObject.__init__(self, 0x06, b'', implicit, False, explicit) + self.value = value + + def encode(self): + """Return the DER OBJECT ID, fully encoded as a + binary string.""" + + comps = [int(x) for x in self.value.split(".")] + if len(comps) < 2: + raise ValueError("Not a valid Object Identifier string") + self.payload = bchr(40*comps[0]+comps[1]) + for v in comps[2:]: + if v == 0: + enc = [0] + else: + enc = [] + while v: + enc.insert(0, (v & 0x7F) | 0x80) + v >>= 7 + enc[-1] &= 0x7F + self.payload += b''.join([bchr(x) for x in enc]) + return DerObject.encode(self) + + def decode(self, der_encoded, strict=False): + """Decode a complete DER OBJECT ID, and re-initializes this + object with it. + + Args: + der_encoded (byte string): + A complete DER OBJECT ID. + strict (boolean): + Whether decoding must check for strict DER compliancy. + + Raises: + ValueError: in case of parsing errors. + """ + + return DerObject.decode(self, der_encoded, strict) + + def _decodeFromStream(self, s, strict): + """Decode a complete DER OBJECT ID from a file.""" + + # Fill up self.payload + DerObject._decodeFromStream(self, s, strict) + + # Derive self.value from self.payload + p = BytesIO_EOF(self.payload) + comps = [str(x) for x in divmod(p.read_byte(), 40)] + v = 0 + while p.remaining_data(): + c = p.read_byte() + v = v*128 + (c & 0x7F) + if not (c & 0x80): + comps.append(str(v)) + v = 0 + self.value = '.'.join(comps) + + +class DerBitString(DerObject): + """Class to model a DER BIT STRING. + + An example of encoding is: + + >>> from Cryptodome.Util.asn1 import DerBitString + >>> from binascii import hexlify, unhexlify + >>> bs_der = DerBitString(b'\\xaa') + >>> bs_der.value += b'\\xbb' + >>> print hexlify(bs_der.encode()) + + which will show ``040300aabb``, the DER encoding for the bit string + ``b'\\xAA\\xBB'``. + + For decoding: + + >>> s = unhexlify(b'040300aabb') + >>> try: + >>> bs_der = DerBitString() + >>> bs_der.decode(s) + >>> print hexlify(bs_der.value) + >>> except ValueError: + >>> print "Not a valid DER BIT STRING" + + the output will be ``aabb``. + + :ivar value: The content of the string + :vartype value: byte string + """ + + def __init__(self, value=b'', implicit=None, explicit=None): + """Initialize the DER object as a BIT STRING. + + :Parameters: + value : byte string or DER object + The initial, packed bit string. + If not specified, the bit string is empty. + implicit : integer + The IMPLICIT tag to use for the encoded object. + It overrides the universal tag for OCTET STRING (3). + explicit : integer + The EXPLICIT tag to use for the encoded object. + """ + DerObject.__init__(self, 0x03, b'', implicit, False, explicit) + + # The bitstring value (packed) + if isinstance(value, DerObject): + self.value = value.encode() + else: + self.value = value + + def encode(self): + """Return the DER BIT STRING, fully encoded as a + binary string.""" + + # Add padding count byte + self.payload = b'\x00' + self.value + return DerObject.encode(self) + + def decode(self, der_encoded, strict=False): + """Decode a complete DER BIT STRING, and re-initializes this + object with it. + + Args: + der_encoded (byte string): a complete DER BIT STRING. + strict (boolean): + Whether decoding must check for strict DER compliancy. + + Raises: + ValueError: in case of parsing errors. + """ + + return DerObject.decode(self, der_encoded, strict) + + def _decodeFromStream(self, s, strict): + """Decode a complete DER BIT STRING DER from a file.""" + + # Fill-up self.payload + DerObject._decodeFromStream(self, s, strict) + + if self.payload and bord(self.payload[0]) != 0: + raise ValueError("Not a valid BIT STRING") + + # Fill-up self.value + self.value = b'' + # Remove padding count byte + if self.payload: + self.value = self.payload[1:] + + +class DerSetOf(DerObject): + """Class to model a DER SET OF. + + An example of encoding is: + + >>> from Cryptodome.Util.asn1 import DerBitString + >>> from binascii import hexlify, unhexlify + >>> so_der = DerSetOf([4,5]) + >>> so_der.add(6) + >>> print hexlify(so_der.encode()) + + which will show ``3109020104020105020106``, the DER encoding + of a SET OF with items 4,5, and 6. + + For decoding: + + >>> s = unhexlify(b'3109020104020105020106') + >>> try: + >>> so_der = DerSetOf() + >>> so_der.decode(s) + >>> print [x for x in so_der] + >>> except ValueError: + >>> print "Not a valid DER SET OF" + + the output will be ``[4, 5, 6]``. + """ + + def __init__(self, startSet=None, implicit=None): + """Initialize the DER object as a SET OF. + + :Parameters: + startSet : container + The initial set of integers or DER encoded objects. + implicit : integer + The IMPLICIT tag to use for the encoded object. + It overrides the universal tag for SET OF (17). + """ + DerObject.__init__(self, 0x11, b'', implicit, True) + self._seq = [] + + # All elements must be of the same type (and therefore have the + # same leading octet) + self._elemOctet = None + + if startSet: + for e in startSet: + self.add(e) + + def __getitem__(self, n): + return self._seq[n] + + def __iter__(self): + return iter(self._seq) + + def __len__(self): + return len(self._seq) + + def add(self, elem): + """Add an element to the set. + + Args: + elem (byte string or integer): + An element of the same type of objects already in the set. + It can be an integer or a DER encoded object. + """ + + if _is_number(elem): + eo = 0x02 + elif isinstance(elem, DerObject): + eo = self._tag_octet + else: + eo = bord(elem[0]) + + if self._elemOctet != eo: + if self._elemOctet is not None: + raise ValueError("New element does not belong to the set") + self._elemOctet = eo + + if elem not in self._seq: + self._seq.append(elem) + + def decode(self, der_encoded, strict=False): + """Decode a complete SET OF DER element, and re-initializes this + object with it. + + DER INTEGERs are decoded into Python integers. Any other DER + element is left undecoded; its validity is not checked. + + Args: + der_encoded (byte string): a complete DER BIT SET OF. + strict (boolean): + Whether decoding must check for strict DER compliancy. + + Raises: + ValueError: in case of parsing errors. + """ + + return DerObject.decode(self, der_encoded, strict) + + def _decodeFromStream(self, s, strict): + """Decode a complete DER SET OF from a file.""" + + self._seq = [] + + # Fill up self.payload + DerObject._decodeFromStream(self, s, strict) + + # Add one item at a time to self.seq, by scanning self.payload + p = BytesIO_EOF(self.payload) + setIdOctet = -1 + while p.remaining_data() > 0: + p.set_bookmark() + + der = DerObject() + der._decodeFromStream(p, strict) + + # Verify that all members are of the same type + if setIdOctet < 0: + setIdOctet = der._tag_octet + else: + if setIdOctet != der._tag_octet: + raise ValueError("Not all elements are of the same DER type") + + # Parse INTEGERs differently + if setIdOctet != 0x02: + self._seq.append(p.data_since_bookmark()) + else: + derInt = DerInteger() + derInt.decode(p.data_since_bookmark(), strict) + self._seq.append(derInt.value) + # end + + def encode(self): + """Return this SET OF DER element, fully encoded as a + binary string. + """ + + # Elements in the set must be ordered in lexicographic order + ordered = [] + for item in self._seq: + if _is_number(item): + bys = DerInteger(item).encode() + elif isinstance(item, DerObject): + bys = item.encode() + else: + bys = item + ordered.append(bys) + ordered.sort() + self.payload = b''.join(ordered) + return DerObject.encode(self) -- cgit v1.2.3-70-g09d2