« Changelog History


PyCrypto v2.6.1 Release Notes

Release Date: 2013-10-14 // over 10 years ago 
  • * [CVE-2013-1445] Fix PRNG not correctly reseeded in some situations.

  In previous versions of PyCrypto, the Crypto.Random PRNG exhibits a
  race condition that may cause forked processes to generate identical
  sequences of 'random' numbers.

  This is a fairly obscure bug that will (hopefully) not affect many
  applications, but the failure scenario is pretty bad.  Here is some
  sample code that illustrates the problem:

      from binascii import hexlify
      import multiprocessing, pprint, time
      import Crypto.Random

      def task_main(arg):
          a = Crypto.Random.get_random_bytes(8)
          time.sleep(0.1)
          b = Crypto.Random.get_random_bytes(8)
          rdy, ack = arg
          rdy.set()
          ack.wait()
          return "%s,%s" % (hexlify(a).decode(),
                            hexlify(b).decode())

      n_procs = 4
      manager = multiprocessing.Manager()
      rdys = [manager.Event() for i in range(n_procs)]
      acks = [manager.Event() for i in range(n_procs)]
      Crypto.Random.get_random_bytes(1)
      pool = multiprocessing.Pool(processes=n_procs,
                                  initializer=Crypto.Random.atfork)
      res_async = pool.map_async(task_main, zip(rdys, acks))
      pool.close()
      [rdy.wait() for rdy in rdys]
      [ack.set() for ack in acks]
      res = res_async.get()
      pprint.pprint(sorted(res))
      pool.join()

  The output should be random, but it looked like this:

      ['c607803ae01aa8c0,2e4de6457a304b34',
       'c607803ae01aa8c0,af80d08942b4c987',
       'c607803ae01aa8c0,b0e4c0853de927c4',
       'c607803ae01aa8c0,f0362585b3fceba4']

  This release fixes the problem by resetting the rate-limiter when
  Crypto.Random.atfork() is invoked.  It also adds some tests and a
  few related comments.

    2.6

    * [CVE-2012-2417] Fix LP#985164: insecure ElGamal key generation.
  (thanks: Legrandin)

  In the ElGamal schemes (for both encryption and signatures), g is
  supposed to be the generator of the entire Z^*_p group.  However, in
  PyCrypto 2.5 and earlier, g is more simply the generator of a random
  sub-group of Z^*_p.

  The result is that the signature space (when the key is used for
  signing) or the public key space (when the key is used for encryption)
  may be greatly reduced from its expected size of log(p) bits, possibly
  down to 1 bit (the worst case if the order of g is 2).

  While it has not been confirmed, it has also been suggested that an
  attacker might be able to use this fact to determine the private key.

  Anyone using ElGamal keys should generate new keys as soon as practical.

  Any additional information about this bug will be tracked at
  https://bugs.launchpad.net/pycrypto/+bug/985164

* Huge documentation cleanup (thanks: Legrandin).

* Added more tests, including test vectors from NIST 800-38A
  (thanks: Legrandin)

* Remove broken MODE_PGP, which never actually worked properly.
  A new mode, MODE_OPENPGP, has been added for people wishing to write
  OpenPGP implementations.  Note that this does not implement the full
  OpenPGP specification, only the "OpenPGP CFB mode" part of that
  specification.
  https://bugs.launchpad.net/pycrypto/+bug/996814

* Fix: getPrime with invalid input causes Python to abort with fatal error
  https://bugs.launchpad.net/pycrypto/+bug/988431

* Fix: Segfaults within error-handling paths
  (thanks: Paul Howarth & Dave Malcolm)
  https://bugs.launchpad.net/pycrypto/+bug/934294

* Fix: Block ciphers allow empty string as IV
  https://bugs.launchpad.net/pycrypto/+bug/997464

* Fix DevURandomRNG to work with Python3's new I/O stack.
  (thanks: Sebastian Ramacher)

* Remove automagic dependencies on libgmp and libmpir, let the caller
  disable them using args.

* Many other minor bug fixes and improvements (mostly thanks to Legrandin)

    2.5

    * Added PKCS#1 encryption schemes (v1.5 and OAEP).  We now have
  a decent, easy-to-use non-textbook RSA implementation.  Yay!

* Added PKCS#1 signature schemes (v1.5 and PSS). v1.5 required some
  extensive changes to Hash modules to contain the algorithm specific
  ASN.1 OID. To that end, we now always have a (thin) Python module to
  hide the one in pure C.

* Added 2 standard Key Derivation Functions (PBKDF1 and PBKDF2).

* Added export/import of RSA keys in OpenSSH and PKCS#8 formats.

* Added password-protected export/import of RSA keys (one old method
  for PKCS#8 PEM only).

* Added ability to generate RSA key pairs with configurable public
  exponent e.

* Added ability to construct an RSA key pair even if only the private
  exponent d is known, and not p and q.

* Added SHA-2 C source code (fully from Lorenz Quack).

* Unit tests for all the above.

* Updates to documentation (both inline and in Doc/pycrypt.rst)

* All of the above changes were put together by Legrandin (Thanks!)

* Minor bug fixes (setup.py and tests).