# Copyright (C) 2003-2007 Robey Pointer # # This file is part of paramiko. # # Paramiko 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. # # Paramiko is distributed 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 # along with Paramiko; if not, write to the Free Software Foundation, Inc., # 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. """ Utility functions for dealing with primes. """ import os from paramiko import util from paramiko.py3compat import byte_mask, long from paramiko.ssh_exception import SSHException from paramiko.common import * def _roll_random(n): """returns a random # from 0 to N-1""" bits = util.bit_length(n - 1) byte_count = (bits + 7) // 8 hbyte_mask = pow(2, bits % 8) - 1 # so here's the plan: # we fetch as many random bits as we'd need to fit N-1, and if the # generated number is >= N, we try again. in the worst case (N-1 is a # power of 2), we have slightly better than 50% odds of getting one that # fits, so i can't guarantee that this loop will ever finish, but the odds # of it looping forever should be infinitesimal. while True: x = os.urandom(byte_count) if hbyte_mask > 0: x = byte_mask(x[0], hbyte_mask) + x[1:] num = util.inflate_long(x, 1) if num < n: break return num class ModulusPack (object): """ convenience object for holding the contents of the /etc/ssh/moduli file, on systems that have such a file. """ def __init__(self): # pack is a hash of: bits -> [ (generator, modulus) ... ] self.pack = {} self.discarded = [] def _parse_modulus(self, line): timestamp, mod_type, tests, tries, size, generator, modulus = line.split() mod_type = int(mod_type) tests = int(tests) tries = int(tries) size = int(size) generator = int(generator) modulus = long(modulus, 16) # weed out primes that aren't at least: # type 2 (meets basic structural requirements) # test 4 (more than just a small-prime sieve) # tries < 100 if test & 4 (at least 100 tries of miller-rabin) if (mod_type < 2) or (tests < 4) or ((tests & 4) and (tests < 8) and (tries < 100)): self.discarded.append((modulus, 'does not meet basic requirements')) return if generator == 0: generator = 2 # there's a bug in the ssh "moduli" file (yeah, i know: shock! dismay! # call cnn!) where it understates the bit lengths of these primes by 1. # this is okay. bl = util.bit_length(modulus) if (bl != size) and (bl != size + 1): self.discarded.append((modulus, 'incorrectly reported bit length %d' % size)) return if bl not in self.pack: self.pack[bl] = [] self.pack[bl].append((generator, modulus)) def read_file(self, filename): """ :raises IOError: passed from any file operations that fail. """ self.pack = {} with open(filename, 'r') as f: for line in f: line = line.strip() if (len(line) == 0) or (line[0] == '#'): continue try: self._parse_modulus(line) except: continue def get_modulus(self, min, prefer, max): bitsizes = sorted(self.pack.keys()) if len(bitsizes) == 0: raise SSHException('no moduli available') good = -1 # find nearest bitsize >= preferred for b in bitsizes: if (b >= prefer) and (b <= max) and (b < good or good == -1): good = b # if that failed, find greatest bitsize >= min if good == -1: for b in bitsizes: if (b >= min) and (b <= max) and (b > good): good = b if good == -1: # their entire (min, max) range has no intersection with our range. # if their range is below ours, pick the smallest. otherwise pick # the largest. it'll be out of their range requirement either way, # but we'll be sending them the closest one we have. good = bitsizes[0] if min > good: good = bitsizes[-1] # now pick a random modulus of this bitsize n = _roll_random(len(self.pack[good])) return self.pack[good][n]