paramiko/ssh/pkey.py

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# Copyright (C) 2003-2007 Robey Pointer <robeypointer@gmail.com>
#
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# This file is part of ssh.
#
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# 'ssh' is free software; you can redistribute it and/or modify it under the
# terms of the GNU Lesser General Public License as published by the Free
# Software Foundation; either version 2.1 of the License, or (at your option)
# any later version.
#
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# 'ssh' is distrubuted in the hope that it will be useful, but WITHOUT ANY
# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
# A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
# details.
#
# You should have received a copy of the GNU Lesser General Public License
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# along with 'ssh'; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
"""
Common API for all public keys.
"""
import base64
from binascii import hexlify, unhexlify
import os
from Crypto.Hash import MD5
from Crypto.Cipher import DES3, AES
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from ssh.common import *
from ssh import util
from ssh.message import Message
from ssh.ssh_exception import SSHException, PasswordRequiredException
class PKey (object):
"""
Base class for public keys.
"""
# known encryption types for private key files:
_CIPHER_TABLE = {
'AES-128-CBC': { 'cipher': AES, 'keysize': 16, 'blocksize': 16, 'mode': AES.MODE_CBC },
'DES-EDE3-CBC': { 'cipher': DES3, 'keysize': 24, 'blocksize': 8, 'mode': DES3.MODE_CBC },
}
def __init__(self, msg=None, data=None):
"""
Create a new instance of this public key type. If C{msg} is given,
the key's public part(s) will be filled in from the message. If
C{data} is given, the key's public part(s) will be filled in from
the string.
@param msg: an optional SSH L{Message} containing a public key of this
type.
@type msg: L{Message}
@param data: an optional string containing a public key of this type
@type data: str
@raise SSHException: if a key cannot be created from the C{data} or
C{msg} given, or no key was passed in.
"""
pass
def __str__(self):
"""
Return a string of an SSH L{Message} made up of the public part(s) of
this key. This string is suitable for passing to L{__init__} to
re-create the key object later.
@return: string representation of an SSH key message.
@rtype: str
"""
return ''
def __cmp__(self, other):
"""
Compare this key to another. Returns 0 if this key is equivalent to
the given key, or non-0 if they are different. Only the public parts
of the key are compared, so a public key will compare equal to its
corresponding private key.
@param other: key to compare to.
@type other: L{PKey}
@return: 0 if the two keys are equivalent, non-0 otherwise.
@rtype: int
"""
hs = hash(self)
ho = hash(other)
if hs != ho:
return cmp(hs, ho)
return cmp(str(self), str(other))
def get_name(self):
"""
Return the name of this private key implementation.
@return: name of this private key type, in SSH terminology (for
example, C{"ssh-rsa"}).
@rtype: str
"""
return ''
def get_bits(self):
"""
Return the number of significant bits in this key. This is useful
for judging the relative security of a key.
@return: bits in the key.
@rtype: int
"""
return 0
def can_sign(self):
"""
Return C{True} if this key has the private part necessary for signing
data.
@return: C{True} if this is a private key.
@rtype: bool
"""
return False
def get_fingerprint(self):
"""
Return an MD5 fingerprint of the public part of this key. Nothing
secret is revealed.
@return: a 16-byte string (binary) of the MD5 fingerprint, in SSH
format.
@rtype: str
"""
return MD5.new(str(self)).digest()
def get_base64(self):
"""
Return a base64 string containing the public part of this key. Nothing
secret is revealed. This format is compatible with that used to store
public key files or recognized host keys.
@return: a base64 string containing the public part of the key.
@rtype: str
"""
return base64.encodestring(str(self)).replace('\n', '')
def sign_ssh_data(self, rng, data):
"""
Sign a blob of data with this private key, and return a L{Message}
representing an SSH signature message.
@param rng: a secure random number generator.
@type rng: L{Crypto.Util.rng.RandomPool}
@param data: the data to sign.
@type data: str
@return: an SSH signature message.
@rtype: L{Message}
"""
return ''
def verify_ssh_sig(self, data, msg):
"""
Given a blob of data, and an SSH message representing a signature of
that data, verify that it was signed with this key.
@param data: the data that was signed.
@type data: str
@param msg: an SSH signature message
@type msg: L{Message}
@return: C{True} if the signature verifies correctly; C{False}
otherwise.
@rtype: boolean
"""
return False
def from_private_key_file(cls, filename, password=None):
"""
Create a key object by reading a private key file. If the private
key is encrypted and C{password} is not C{None}, the given password
will be used to decrypt the key (otherwise L{PasswordRequiredException}
is thrown). Through the magic of python, this factory method will
exist in all subclasses of PKey (such as L{RSAKey} or L{DSSKey}), but
is useless on the abstract PKey class.
@param filename: name of the file to read
@type filename: str
@param password: an optional password to use to decrypt the key file,
if it's encrypted
@type password: str
@return: a new key object based on the given private key
@rtype: L{PKey}
@raise IOError: if there was an error reading the file
@raise PasswordRequiredException: if the private key file is
encrypted, and C{password} is C{None}
@raise SSHException: if the key file is invalid
"""
key = cls(filename=filename, password=password)
return key
from_private_key_file = classmethod(from_private_key_file)
def from_private_key(cls, file_obj, password=None):
"""
Create a key object by reading a private key from a file (or file-like)
object. If the private key is encrypted and C{password} is not C{None},
the given password will be used to decrypt the key (otherwise
L{PasswordRequiredException} is thrown).
@param file_obj: the file to read from
@type file_obj: file
@param password: an optional password to use to decrypt the key, if it's
encrypted
@type password: str
@return: a new key object based on the given private key
@rtype: L{PKey}
@raise IOError: if there was an error reading the key
@raise PasswordRequiredException: if the private key file is encrypted,
and C{password} is C{None}
@raise SSHException: if the key file is invalid
"""
key = cls(file_obj=file_obj, password=password)
return key
from_private_key = classmethod(from_private_key)
def write_private_key_file(self, filename, password=None):
"""
Write private key contents into a file. If the password is not
C{None}, the key is encrypted before writing.
@param filename: name of the file to write
@type filename: str
@param password: an optional password to use to encrypt the key file
@type password: str
@raise IOError: if there was an error writing the file
@raise SSHException: if the key is invalid
"""
raise Exception('Not implemented in PKey')
def write_private_key(self, file_obj, password=None):
"""
Write private key contents into a file (or file-like) object. If the
password is not C{None}, the key is encrypted before writing.
@param file_obj: the file object to write into
@type file_obj: file
@param password: an optional password to use to encrypt the key
@type password: str
@raise IOError: if there was an error writing to the file
@raise SSHException: if the key is invalid
"""
raise Exception('Not implemented in PKey')
def _read_private_key_file(self, tag, filename, password=None):
"""
Read an SSH2-format private key file, looking for a string of the type
C{"BEGIN xxx PRIVATE KEY"} for some C{xxx}, base64-decode the text we
find, and return it as a string. If the private key is encrypted and
C{password} is not C{None}, the given password will be used to decrypt
the key (otherwise L{PasswordRequiredException} is thrown).
@param tag: C{"RSA"} or C{"DSA"}, the tag used to mark the data block.
@type tag: str
@param filename: name of the file to read.
@type filename: str
@param password: an optional password to use to decrypt the key file,
if it's encrypted.
@type password: str
@return: data blob that makes up the private key.
@rtype: str
@raise IOError: if there was an error reading the file.
@raise PasswordRequiredException: if the private key file is
encrypted, and C{password} is C{None}.
@raise SSHException: if the key file is invalid.
"""
f = open(filename, 'r')
data = self._read_private_key(tag, f, password)
f.close()
return data
def _read_private_key(self, tag, f, password=None):
lines = f.readlines()
start = 0
while (start < len(lines)) and (lines[start].strip() != '-----BEGIN ' + tag + ' PRIVATE KEY-----'):
start += 1
if start >= len(lines):
raise SSHException('not a valid ' + tag + ' private key file')
# parse any headers first
headers = {}
start += 1
while start < len(lines):
l = lines[start].split(': ')
if len(l) == 1:
break
headers[l[0].lower()] = l[1].strip()
start += 1
# find end
end = start
while (lines[end].strip() != '-----END ' + tag + ' PRIVATE KEY-----') and (end < len(lines)):
end += 1
# if we trudged to the end of the file, just try to cope.
try:
data = base64.decodestring(''.join(lines[start:end]))
except base64.binascii.Error, e:
raise SSHException('base64 decoding error: ' + str(e))
if 'proc-type' not in headers:
# unencryped: done
return data
# encrypted keyfile: will need a password
if headers['proc-type'] != '4,ENCRYPTED':
raise SSHException('Unknown private key structure "%s"' % headers['proc-type'])
try:
encryption_type, saltstr = headers['dek-info'].split(',')
except:
raise SSHException('Can\'t parse DEK-info in private key file')
if encryption_type not in self._CIPHER_TABLE:
raise SSHException('Unknown private key cipher "%s"' % encryption_type)
# if no password was passed in, raise an exception pointing out that we need one
if password is None:
raise PasswordRequiredException('Private key file is encrypted')
cipher = self._CIPHER_TABLE[encryption_type]['cipher']
keysize = self._CIPHER_TABLE[encryption_type]['keysize']
mode = self._CIPHER_TABLE[encryption_type]['mode']
salt = unhexlify(saltstr)
key = util.generate_key_bytes(MD5, salt, password, keysize)
return cipher.new(key, mode, salt).decrypt(data)
def _write_private_key_file(self, tag, filename, data, password=None):
"""
Write an SSH2-format private key file in a form that can be read by
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ssh or openssh. If no password is given, the key is written in
a trivially-encoded format (base64) which is completely insecure. If
a password is given, DES-EDE3-CBC is used.
@param tag: C{"RSA"} or C{"DSA"}, the tag used to mark the data block.
@type tag: str
@param filename: name of the file to write.
@type filename: str
@param data: data blob that makes up the private key.
@type data: str
@param password: an optional password to use to encrypt the file.
@type password: str
@raise IOError: if there was an error writing the file.
"""
f = open(filename, 'w', 0600)
# grrr... the mode doesn't always take hold
os.chmod(filename, 0600)
self._write_private_key(tag, f, data, password)
f.close()
def _write_private_key(self, tag, f, data, password=None):
f.write('-----BEGIN %s PRIVATE KEY-----\n' % tag)
if password is not None:
# since we only support one cipher here, use it
cipher_name = self._CIPHER_TABLE.keys()[0]
cipher = self._CIPHER_TABLE[cipher_name]['cipher']
keysize = self._CIPHER_TABLE[cipher_name]['keysize']
blocksize = self._CIPHER_TABLE[cipher_name]['blocksize']
mode = self._CIPHER_TABLE[cipher_name]['mode']
salt = rng.read(8)
key = util.generate_key_bytes(MD5, salt, password, keysize)
if len(data) % blocksize != 0:
n = blocksize - len(data) % blocksize
#data += rng.read(n)
# that would make more sense ^, but it confuses openssh.
data += '\0' * n
data = cipher.new(key, mode, salt).encrypt(data)
f.write('Proc-Type: 4,ENCRYPTED\n')
f.write('DEK-Info: %s,%s\n' % (cipher_name, hexlify(salt).upper()))
f.write('\n')
s = base64.encodestring(data)
# re-wrap to 64-char lines
s = ''.join(s.split('\n'))
s = '\n'.join([s[i : i+64] for i in range(0, len(s), 64)])
f.write(s)
f.write('\n')
f.write('-----END %s PRIVATE KEY-----\n' % tag)