/usr/lib/python2.7/dist-packages/M2Crypto/EVP.py is in python-m2crypto 0.21.1-3ubuntu5.
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Copyright (c) 1999-2004 Ng Pheng Siong. All rights reserved.
Portions Copyright (c) 2004-2007 Open Source Applications Foundation.
Author: Heikki Toivonen
"""
from M2Crypto import Err, util, BIO, RSA
import m2
class EVPError(Exception): pass
m2.evp_init(EVPError)
def pbkdf2(password, salt, iter, keylen):
"""
Derive a key from password using PBKDF2 algorithm specified in RFC 2898.
@param password: Derive the key from this password.
@type password: str
@param salt: Salt.
@type salt: str
@param iter: Number of iterations to perform.
@type iter: int
@param keylen: Length of key to produce.
@type keylen: int
@return: Key.
@rtype: str
"""
return m2.pkcs5_pbkdf2_hmac_sha1(password, salt, iter, keylen)
class MessageDigest:
"""
Message Digest
"""
m2_md_ctx_free = m2.md_ctx_free
def __init__(self, algo):
md = getattr(m2, algo, None)
if md is None:
raise ValueError, ('unknown algorithm', algo)
self.md=md()
self.ctx=m2.md_ctx_new()
m2.digest_init(self.ctx, self.md)
def __del__(self):
if getattr(self, 'ctx', None):
self.m2_md_ctx_free(self.ctx)
def update(self, data):
"""
Add data to be digested.
@return: -1 for Python error, 1 for success, 0 for OpenSSL failure.
"""
return m2.digest_update(self.ctx, data)
def final(self):
return m2.digest_final(self.ctx)
# Deprecated.
digest = final
class HMAC:
m2_hmac_ctx_free = m2.hmac_ctx_free
def __init__(self, key, algo='sha1'):
md = getattr(m2, algo, None)
if md is None:
raise ValueError, ('unknown algorithm', algo)
self.md=md()
self.ctx=m2.hmac_ctx_new()
m2.hmac_init(self.ctx, key, self.md)
def __del__(self):
if getattr(self, 'ctx', None):
self.m2_hmac_ctx_free(self.ctx)
def reset(self, key):
m2.hmac_init(self.ctx, key, self.md)
def update(self, data):
m2.hmac_update(self.ctx, data)
def final(self):
return m2.hmac_final(self.ctx)
digest=final
def hmac(key, data, algo='sha1'):
md = getattr(m2, algo, None)
if md is None:
raise ValueError, ('unknown algorithm', algo)
return m2.hmac(key, data, md())
class Cipher:
m2_cipher_ctx_free = m2.cipher_ctx_free
def __init__(self, alg, key, iv, op, key_as_bytes=0, d='md5', salt='12345678', i=1, padding=1):
cipher = getattr(m2, alg, None)
if cipher is None:
raise ValueError, ('unknown cipher', alg)
self.cipher=cipher()
if key_as_bytes:
kmd = getattr(m2, d, None)
if kmd is None:
raise ValueError, ('unknown message digest', d)
key = m2.bytes_to_key(self.cipher, kmd(), key, salt, iv, i)
self.ctx=m2.cipher_ctx_new()
m2.cipher_init(self.ctx, self.cipher, key, iv, op)
self.set_padding(padding)
del key
def __del__(self):
if getattr(self, 'ctx', None):
self.m2_cipher_ctx_free(self.ctx)
def update(self, data):
return m2.cipher_update(self.ctx, data)
def final(self):
return m2.cipher_final(self.ctx)
def set_padding(self, padding=1):
return m2.cipher_set_padding(self.ctx, padding)
class PKey:
"""
Public Key
"""
m2_pkey_free = m2.pkey_free
m2_md_ctx_free = m2.md_ctx_free
def __init__(self, pkey=None, _pyfree=0, md='sha1'):
if pkey is not None:
self.pkey = pkey
self._pyfree = _pyfree
else:
self.pkey = m2.pkey_new()
self._pyfree = 1
self._set_context(md)
def __del__(self):
if getattr(self, '_pyfree', 0):
self.m2_pkey_free(self.pkey)
if getattr(self, 'ctx', None):
self.m2_md_ctx_free(self.ctx)
def _ptr(self):
return self.pkey
def _set_context(self, md):
mda = getattr(m2, md, None)
if mda is None:
raise ValueError, ('unknown message digest', md)
self.md = mda()
self.ctx = m2.md_ctx_new()
def reset_context(self, md='sha1'):
"""
Reset internal message digest context.
@type md: string
@param md: The message digest algorithm.
"""
self._set_context(md)
def sign_init(self):
"""
Initialise signing operation with self.
"""
m2.sign_init(self.ctx, self.md)
def sign_update(self, data):
"""
Feed data to signing operation.
@type data: string
@param data: Data to be signed.
"""
m2.sign_update(self.ctx, data)
def sign_final(self):
"""
Return signature.
@rtype: string
@return: The signature.
"""
return m2.sign_final(self.ctx, self.pkey)
# Deprecated
update = sign_update
final = sign_final
def verify_init(self):
"""
Initialise signature verification operation with self.
"""
m2.verify_init(self.ctx, self.md)
def verify_update(self, data):
"""
Feed data to verification operation.
@type data: string
@param data: Data to be verified.
@return: -1 on Python error, 1 for success, 0 for OpenSSL error
"""
return m2.verify_update(self.ctx, data)
def verify_final(self, sign):
"""
Return result of verification.
@param sign: Signature to use for verification
@rtype: int
@return: Result of verification: 1 for success, 0 for failure, -1 on
other error.
"""
return m2.verify_final(self.ctx, sign, self.pkey)
def assign_rsa(self, rsa, capture=1):
"""
Assign the RSA key pair to self.
@type rsa: M2Crypto.RSA.RSA
@param rsa: M2Crypto.RSA.RSA object to be assigned to self.
@type capture: boolean
@param capture: If true (default), this PKey object will own the RSA
object, meaning that once the PKey object gets
deleted it is no longer safe to use the RSA object.
@rtype: int
@return: Return 1 for success and 0 for failure.
"""
if capture:
ret = m2.pkey_assign_rsa(self.pkey, rsa.rsa)
if ret:
rsa._pyfree = 0
else:
ret = m2.pkey_set1_rsa(self.pkey, rsa.rsa)
return ret
def get_rsa(self):
"""
Return the underlying RSA key if that is what the EVP
instance is holding.
"""
rsa_ptr = m2.pkey_get1_rsa(self.pkey)
if rsa_ptr is None:
raise ValueError("PKey instance is not holding a RSA key")
rsa = RSA.RSA_pub(rsa_ptr, 1)
return rsa
def save_key(self, file, cipher='aes_128_cbc', callback=util.passphrase_callback):
"""
Save the key pair to a file in PEM format.
@type file: string
@param file: Name of file to save key to.
@type cipher: string
@param cipher: Symmetric cipher to protect the key. The default
cipher is 'aes_128_cbc'. If cipher is None, then the key is saved
in the clear.
@type callback: Python callable
@param callback: A Python callable object that is invoked
to acquire a passphrase with which to protect the key.
The default is util.passphrase_callback.
"""
bio = BIO.openfile(file, 'wb')
return self.save_key_bio(bio, cipher, callback)
def save_key_bio(self, bio, cipher='aes_128_cbc', callback=util.passphrase_callback):
"""
Save the key pair to the M2Crypto.BIO object 'bio' in PEM format.
@type bio: M2Crypto.BIO
@param bio: M2Crypto.BIO object to save key to.
@type cipher: string
@param cipher: Symmetric cipher to protect the key. The default
cipher is 'aes_128_cbc'. If cipher is None, then the key is saved
in the clear.
@type callback: Python callable
@param callback: A Python callable object that is invoked
to acquire a passphrase with which to protect the key.
The default is util.passphrase_callback.
"""
if cipher is None:
return m2.pkey_write_pem_no_cipher(self.pkey, bio._ptr(), callback)
else:
proto = getattr(m2, cipher, None)
if proto is None:
raise ValueError, 'no such cipher %s' % cipher
return m2.pkey_write_pem(self.pkey, bio._ptr(), proto(), callback)
def as_pem(self, cipher='aes_128_cbc', callback=util.passphrase_callback):
"""
Return key in PEM format in a string.
@type cipher: string
@param cipher: Symmetric cipher to protect the key. The default
cipher is 'aes_128_cbc'. If cipher is None, then the key is saved
in the clear.
@type callback: Python callable
@param callback: A Python callable object that is invoked
to acquire a passphrase with which to protect the key.
The default is util.passphrase_callback.
"""
bio = BIO.MemoryBuffer()
self.save_key_bio(bio, cipher, callback)
return bio.read_all()
def as_der(self):
"""
Return key in DER format in a string
"""
buf = m2.pkey_as_der(self.pkey)
bio = BIO.MemoryBuffer(buf)
return bio.read_all()
def size(self):
"""
Return the size of the key in bytes.
"""
return m2.pkey_size(self.pkey)
def get_modulus(self):
"""
Return the modulus in hex format.
"""
return m2.pkey_get_modulus(self.pkey)
def load_key(file, callback=util.passphrase_callback):
"""
Load an M2Crypto.EVP.PKey from file.
@type file: string
@param file: Name of file containing the key in PEM format.
@type callback: Python callable
@param callback: A Python callable object that is invoked
to acquire a passphrase with which to protect the key.
@rtype: M2Crypto.EVP.PKey
@return: M2Crypto.EVP.PKey object.
"""
bio = m2.bio_new_file(file, 'r')
if bio is None:
raise BIO.BIOError(Err.get_error())
cptr = m2.pkey_read_pem(bio, callback)
m2.bio_free(bio)
if cptr is None:
raise EVPError(Err.get_error())
return PKey(cptr, 1)
def load_key_bio(bio, callback=util.passphrase_callback):
"""
Load an M2Crypto.EVP.PKey from an M2Crypto.BIO object.
@type bio: M2Crypto.BIO
@param bio: M2Crypto.BIO object containing the key in PEM format.
@type callback: Python callable
@param callback: A Python callable object that is invoked
to acquire a passphrase with which to protect the key.
@rtype: M2Crypto.EVP.PKey
@return: M2Crypto.EVP.PKey object.
"""
cptr = m2.pkey_read_pem(bio._ptr(), callback)
if cptr is None:
raise EVPError(Err.get_error())
return PKey(cptr, 1)
def load_key_string(string, callback=util.passphrase_callback):
"""
Load an M2Crypto.EVP.PKey from a string.
@type string: string
@param string: String containing the key in PEM format.
@type callback: Python callable
@param callback: A Python callable object that is invoked
to acquire a passphrase with which to protect the key.
@rtype: M2Crypto.EVP.PKey
@return: M2Crypto.EVP.PKey object.
"""
bio = BIO.MemoryBuffer(string)
return load_key_bio( bio, callback)
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