mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
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236 lines
8.4 KiB
Python
Executable file
236 lines
8.4 KiB
Python
Executable file
# -*- coding: utf-8 -*-
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#
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# Signature/PKCS1-v1_5.py : PKCS#1 v1.5
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#
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# ===================================================================
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# The contents of this file are dedicated to the public domain. To
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# the extent that dedication to the public domain is not available,
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# everyone is granted a worldwide, perpetual, royalty-free,
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# non-exclusive license to exercise all rights associated with the
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# contents of this file for any purpose whatsoever.
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# No rights are reserved.
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#
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# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
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# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
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# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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# SOFTWARE.
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# ===================================================================
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"""
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RSA digital signature protocol according to PKCS#1 v1.5
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See RFC3447__ or the `original RSA Labs specification`__.
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This scheme is more properly called ``RSASSA-PKCS1-v1_5``.
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For example, a sender may authenticate a message using SHA-1 like
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this:
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>>> from Crypto.Signature import PKCS1_v1_5
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>>> from Crypto.Hash import SHA
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>>> from Crypto.PublicKey import RSA
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>>>
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>>> message = 'To be signed'
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>>> key = RSA.importKey(open('privkey.der').read())
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>>> h = SHA.new(message)
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>>> signer = PKCS1_v1_5.new(key)
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>>> signature = signer.sign(h)
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At the receiver side, verification can be done using the public part of
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the RSA key:
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>>> key = RSA.importKey(open('pubkey.der').read())
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>>> h = SHA.new(message)
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>>> verifier = PKCS1_v1_5.new(key)
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>>> if verifier.verify(h, signature):
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>>> print "The signature is authentic."
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>>> else:
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>>> print "The signature is not authentic."
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:undocumented: __revision__, __package__
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.. __: http://www.ietf.org/rfc/rfc3447.txt
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.. __: http://www.rsa.com/rsalabs/node.asp?id=2125
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"""
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__revision__ = "$Id$"
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__all__ = [ 'new', 'PKCS115_SigScheme' ]
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import Crypto.Util.number
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from Crypto.Util.number import ceil_div
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from Crypto.Util.asn1 import DerSequence, DerNull, DerOctetString
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from Crypto.Util.py3compat import *
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class PKCS115_SigScheme:
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"""This signature scheme can perform PKCS#1 v1.5 RSA signature or verification."""
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def __init__(self, key):
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"""Initialize this PKCS#1 v1.5 signature scheme object.
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:Parameters:
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key : an RSA key object
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If a private half is given, both signature and verification are possible.
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If a public half is given, only verification is possible.
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"""
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self._key = key
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def can_sign(self):
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"""Return True if this cipher object can be used for signing messages."""
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return self._key.has_private()
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def sign(self, mhash):
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"""Produce the PKCS#1 v1.5 signature of a message.
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This function is named ``RSASSA-PKCS1-V1_5-SIGN``, and is specified in
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section 8.2.1 of RFC3447.
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:Parameters:
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mhash : hash object
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The hash that was carried out over the message. This is an object
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belonging to the `Crypto.Hash` module.
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:Return: The signature encoded as a string.
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:Raise ValueError:
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If the RSA key length is not sufficiently long to deal with the given
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hash algorithm.
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:Raise TypeError:
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If the RSA key has no private half.
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"""
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# TODO: Verify the key is RSA
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# See 8.2.1 in RFC3447
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modBits = Crypto.Util.number.size(self._key.n)
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k = ceil_div(modBits,8) # Convert from bits to bytes
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# Step 1
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em = EMSA_PKCS1_V1_5_ENCODE(mhash, k)
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# Step 2a (OS2IP) and 2b (RSASP1)
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m = self._key.decrypt(em)
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# Step 2c (I2OSP)
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S = bchr(0x00)*(k-len(m)) + m
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return S
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def verify(self, mhash, S):
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"""Verify that a certain PKCS#1 v1.5 signature is authentic.
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This function checks if the party holding the private half of the key
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really signed the message.
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This function is named ``RSASSA-PKCS1-V1_5-VERIFY``, and is specified in
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section 8.2.2 of RFC3447.
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:Parameters:
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mhash : hash object
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The hash that was carried out over the message. This is an object
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belonging to the `Crypto.Hash` module.
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S : string
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The signature that needs to be validated.
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:Return: True if verification is correct. False otherwise.
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"""
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# TODO: Verify the key is RSA
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# See 8.2.2 in RFC3447
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modBits = Crypto.Util.number.size(self._key.n)
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k = ceil_div(modBits,8) # Convert from bits to bytes
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# Step 1
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if len(S) != k:
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return 0
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# Step 2a (O2SIP) and 2b (RSAVP1)
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# Note that signature must be smaller than the module
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# but RSA.py won't complain about it.
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# TODO: Fix RSA object; don't do it here.
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m = self._key.encrypt(S, 0)[0]
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# Step 2c (I2OSP)
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em1 = bchr(0x00)*(k-len(m)) + m
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# Step 3
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try:
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em2 = EMSA_PKCS1_V1_5_ENCODE(mhash, k)
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except ValueError:
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return 0
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# Step 4
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# By comparing the full encodings (as opposed to checking each
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# of its components one at a time) we avoid attacks to the padding
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# scheme like Bleichenbacher's (see http://www.mail-archive.com/cryptography@metzdowd.com/msg06537).
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#
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return em1==em2
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def EMSA_PKCS1_V1_5_ENCODE(hash, emLen):
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"""
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Implement the ``EMSA-PKCS1-V1_5-ENCODE`` function, as defined
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in PKCS#1 v2.1 (RFC3447, 9.2).
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``EMSA-PKCS1-V1_5-ENCODE`` actually accepts the message ``M`` as input,
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and hash it internally. Here, we expect that the message has already
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been hashed instead.
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:Parameters:
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hash : hash object
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The hash object that holds the digest of the message being signed.
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emLen : int
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The length the final encoding must have, in bytes.
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:attention: the early standard (RFC2313) stated that ``DigestInfo``
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had to be BER-encoded. This means that old signatures
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might have length tags in indefinite form, which
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is not supported in DER. Such encoding cannot be
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reproduced by this function.
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:attention: the same standard defined ``DigestAlgorithm`` to be
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of ``AlgorithmIdentifier`` type, where the PARAMETERS
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item is optional. Encodings for ``MD2/4/5`` without
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``PARAMETERS`` cannot be reproduced by this function.
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:Return: An ``emLen`` byte long string that encodes the hash.
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"""
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# First, build the ASN.1 DER object DigestInfo:
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#
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# DigestInfo ::= SEQUENCE {
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# digestAlgorithm AlgorithmIdentifier,
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# digest OCTET STRING
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# }
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#
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# where digestAlgorithm identifies the hash function and shall be an
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# algorithm ID with an OID in the set PKCS1-v1-5DigestAlgorithms.
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#
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# PKCS1-v1-5DigestAlgorithms ALGORITHM-IDENTIFIER ::= {
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# { OID id-md2 PARAMETERS NULL }|
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# { OID id-md5 PARAMETERS NULL }|
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# { OID id-sha1 PARAMETERS NULL }|
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# { OID id-sha256 PARAMETERS NULL }|
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# { OID id-sha384 PARAMETERS NULL }|
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# { OID id-sha512 PARAMETERS NULL }
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# }
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#
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digestAlgo = DerSequence([hash.oid, DerNull().encode()])
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digest = DerOctetString(hash.digest())
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digestInfo = DerSequence([
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digestAlgo.encode(),
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digest.encode()
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]).encode()
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# We need at least 11 bytes for the remaining data: 3 fixed bytes and
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# at least 8 bytes of padding).
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if emLen<len(digestInfo)+11:
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raise ValueError("Selected hash algorith has a too long digest (%d bytes)." % len(digest))
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PS = bchr(0xFF) * (emLen - len(digestInfo) - 3)
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return b("\x00\x01") + PS + bchr(0x00) + digestInfo
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def new(key):
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"""Return a signature scheme object `PKCS115_SigScheme` that
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can be used to perform PKCS#1 v1.5 signature or verification.
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:Parameters:
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key : RSA key object
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The key to use to sign or verify the message. This is a `Crypto.PublicKey.RSA` object.
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Signing is only possible if *key* is a private RSA key.
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"""
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return PKCS115_SigScheme(key)
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