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165 lines
5.4 KiB
165 lines
5.4 KiB
10 years ago
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# This module uses code from TLSLlite
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# TLSLite Author: Trevor Perrin)
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import binascii
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from asn1tinydecoder import *
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def a2b_base64(s):
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try:
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b = bytearray(binascii.a2b_base64(s))
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except Exception as e:
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raise SyntaxError("base64 error: %s" % e)
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return b
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def b2a_base64(b):
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return binascii.b2a_base64(b)
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def dePem(s, name):
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"""Decode a PEM string into a bytearray of its payload.
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The input must contain an appropriate PEM prefix and postfix
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based on the input name string, e.g. for name="CERTIFICATE":
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-----BEGIN CERTIFICATE-----
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MIIBXDCCAUSgAwIBAgIBADANBgkqhkiG9w0BAQUFADAPMQ0wCwYDVQQDEwRUQUNL
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...
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KoZIhvcNAQEFBQADAwA5kw==
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-----END CERTIFICATE-----
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The first such PEM block in the input will be found, and its
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payload will be base64 decoded and returned.
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"""
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prefix = "-----BEGIN %s-----" % name
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postfix = "-----END %s-----" % name
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start = s.find(prefix)
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if start == -1:
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raise SyntaxError("Missing PEM prefix")
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end = s.find(postfix, start+len(prefix))
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if end == -1:
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raise SyntaxError("Missing PEM postfix")
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s = s[start+len("-----BEGIN %s-----" % name) : end]
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retBytes = a2b_base64(s) # May raise SyntaxError
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return retBytes
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def dePemList(s, name):
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"""Decode a sequence of PEM blocks into a list of bytearrays.
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The input must contain any number of PEM blocks, each with the appropriate
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PEM prefix and postfix based on the input name string, e.g. for
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name="TACK BREAK SIG". Arbitrary text can appear between and before and
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after the PEM blocks. For example:
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" Created by TACK.py 0.9.3 Created at 2012-02-01T00:30:10Z -----BEGIN TACK
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BREAK SIG-----
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ATKhrz5C6JHJW8BF5fLVrnQss6JnWVyEaC0p89LNhKPswvcC9/s6+vWLd9snYTUv
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YMEBdw69PUP8JB4AdqA3K6Ap0Fgd9SSTOECeAKOUAym8zcYaXUwpk0+WuPYa7Zmm
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SkbOlK4ywqt+amhWbg9txSGUwFO5tWUHT3QrnRlE/e3PeNFXLx5Bckg= -----END TACK
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BREAK SIG----- Created by TACK.py 0.9.3 Created at 2012-02-01T00:30:11Z
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-----BEGIN TACK BREAK SIG-----
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ATKhrz5C6JHJW8BF5fLVrnQss6JnWVyEaC0p89LNhKPswvcC9/s6+vWLd9snYTUv
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YMEBdw69PUP8JB4AdqA3K6BVCWfcjN36lx6JwxmZQncS6sww7DecFO/qjSePCxwM
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+kdDqX/9/183nmjx6bf0ewhPXkA0nVXsDYZaydN8rJU1GaMlnjcIYxY= -----END TACK
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BREAK SIG----- "
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All such PEM blocks will be found, decoded, and return in an ordered list
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of bytearrays, which may have zero elements if not PEM blocks are found.
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"""
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bList = []
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prefix = "-----BEGIN %s-----" % name
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postfix = "-----END %s-----" % name
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while 1:
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start = s.find(prefix)
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if start == -1:
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return bList
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end = s.find(postfix, start+len(prefix))
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if end == -1:
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raise SyntaxError("Missing PEM postfix")
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s2 = s[start+len(prefix) : end]
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retBytes = a2b_base64(s2) # May raise SyntaxError
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bList.append(retBytes)
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s = s[end+len(postfix) : ]
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def pem(b, name):
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"""Encode a payload bytearray into a PEM string.
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The input will be base64 encoded, then wrapped in a PEM prefix/postfix
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based on the name string, e.g. for name="CERTIFICATE":
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-----BEGIN CERTIFICATE-----
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MIIBXDCCAUSgAwIBAgIBADANBgkqhkiG9w0BAQUFADAPMQ0wCwYDVQQDEwRUQUNL
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...
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KoZIhvcNAQEFBQADAwA5kw==
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-----END CERTIFICATE-----
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"""
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s1 = b2a_base64(b)[:-1] # remove terminating \n
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s2 = ""
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while s1:
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s2 += s1[:64] + "\n"
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s1 = s1[64:]
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s = ("-----BEGIN %s-----\n" % name) + s2 + \
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("-----END %s-----\n" % name)
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return s
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def pemSniff(inStr, name):
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searchStr = "-----BEGIN %s-----" % name
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return searchStr in inStr
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def parse_private_key(s):
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"""Parse a string containing a PEM-encoded <privateKey>."""
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if pemSniff(s, "PRIVATE KEY"):
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bytes = dePem(s, "PRIVATE KEY")
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return _parsePKCS8(bytes)
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elif pemSniff(s, "RSA PRIVATE KEY"):
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bytes = dePem(s, "RSA PRIVATE KEY")
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return _parseSSLeay(bytes)
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else:
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raise SyntaxError("Not a PEM private key file")
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def _parsePKCS8(bytes):
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s = str(bytes)
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root = asn1_node_root(s)
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version_node = asn1_node_first_child(s, root)
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version = bytestr_to_int(asn1_get_value_of_type(s, version_node, 'INTEGER'))
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if version != 0:
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raise SyntaxError("Unrecognized PKCS8 version")
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rsaOID_node = asn1_node_next(s, version_node)
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ii = asn1_node_first_child(s, rsaOID_node)
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rsaOID = decode_OID(asn1_get_value_of_type(s, ii, 'OBJECT IDENTIFIER'))
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if rsaOID != '1.2.840.113549.1.1.1':
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raise SyntaxError("Unrecognized AlgorithmIdentifier")
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privkey_node = asn1_node_next(s, rsaOID_node)
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value = asn1_get_value_of_type(s, privkey_node, 'OCTET STRING')
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return _parseASN1PrivateKey(value)
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def _parseSSLeay(bytes):
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return _parseASN1PrivateKey(str(bytes))
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def bytesToNumber(s):
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return int(binascii.hexlify(s), 16)
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def _parseASN1PrivateKey(s):
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root = asn1_node_root(s)
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version_node = asn1_node_first_child(s, root)
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version = bytestr_to_int(asn1_get_value_of_type(s, version_node, 'INTEGER'))
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if version != 0:
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raise SyntaxError("Unrecognized RSAPrivateKey version")
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n = asn1_node_next(s, version_node)
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e = asn1_node_next(s, n)
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d = asn1_node_next(s, e)
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p = asn1_node_next(s, d)
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q = asn1_node_next(s, p)
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dP = asn1_node_next(s, q)
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dQ = asn1_node_next(s, dP)
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qInv = asn1_node_next(s, dQ)
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return map(lambda x: bytesToNumber(asn1_get_value_of_type(s, x, 'INTEGER')), [n, e, d, p, q, dP, dQ, qInv])
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