setattr(c, j[plen:], classmethod(b[j]))
for i in [gcciphers, gchashes, gcmacs, gcprps]:
for c in i.itervalues():
- d[c.name.replace('-', '_')] = c
+ d[c.name.replace('-', '_').translate(None, '/')] = c
for c in gccrands.itervalues():
- d[c.name.replace('-', '_') + 'rand'] = c
+ d[c.name.replace('-', '_').translate(None, '/') + 'rand'] = c
_init()
## A handy function for our work: add the methods of a named class to an
def __repr__(me):
return 'bytes(%r)' % hex(me)
_augment(ByteString, _tmp)
+ByteString.__hash__ = str.__hash__
bytes = ByteString.fromhex
+###--------------------------------------------------------------------------
+### Hashing.
+
+class _tmp:
+ def check(me, h):
+ hh = me.done()
+ return ctstreq(h, hh)
+_augment(GHash, _tmp)
+_augment(Poly1305Hash, _tmp)
+
+###--------------------------------------------------------------------------
+### NaCl `secretbox'.
+
+def secret_box(k, n, m):
+ E = xsalsa20(k).setiv(n)
+ r = E.enczero(poly1305.keysz.default)
+ s = E.enczero(poly1305.masksz)
+ y = E.encrypt(m)
+ t = poly1305(r)(s).hash(y).done()
+ return ByteString(t + y)
+
+def secret_unbox(k, n, c):
+ E = xsalsa20(k).setiv(n)
+ r = E.enczero(poly1305.keysz.default)
+ s = E.enczero(poly1305.masksz)
+ y = c[poly1305.tagsz:]
+ if not poly1305(r)(s).hash(y).check(c[0:poly1305.tagsz]):
+ raise ValueError, 'decryption failed'
+ return E.decrypt(c[poly1305.tagsz:])
+
###--------------------------------------------------------------------------
### Multiprecision integers and binary polynomials.
_augment(PrimeField, _tmp)
class _tmp:
- def __repr__(me): return '%s(%sL)' % (type(me).__name__, hex(me.p))
+ def __repr__(me): return '%s(%#xL)' % (type(me).__name__, me.p)
def ec(me, a, b): return ECBinProjCurve(me, a, b)
_augment(BinField, _tmp)
def sign(me, msg, enc): return me.privop(enc.encode(msg, me.n.nbits))
_augment(RSAPriv, _tmp)
+###--------------------------------------------------------------------------
+### Bernstein's elliptic curve crypto and related schemes.
+
+X25519_BASE = \
+ bytes('0900000000000000000000000000000000000000000000000000000000000000')
+
+X448_BASE = \
+ bytes('05000000000000000000000000000000000000000000000000000000'
+ '00000000000000000000000000000000000000000000000000000000')
+
+Z128 = bytes('00000000000000000000000000000000')
+
+class _BoxyPub (object):
+ def __init__(me, pub, *kw, **kwargs):
+ if len(pub) != me._PUBSZ: raise ValueError, 'bad public key'
+ super(_BoxyPub, me).__init__(*kw, **kwargs)
+ me.pub = pub
+
+class _BoxyPriv (_BoxyPub):
+ def __init__(me, priv, pub = None, *kw, **kwargs):
+ if len(priv) != me._KEYSZ: raise ValueError, 'bad private key'
+ if pub is None: pub = me._op(priv, me._BASE)
+ super(_BoxyPriv, me).__init__(pub = pub, *kw, **kwargs)
+ me.priv = priv
+ def agree(me, you): return me._op(me.priv, you.pub)
+ def boxkey(me, recip):
+ return me._hashkey(me.agree(recip))
+ def box(me, recip, n, m):
+ return secret_box(me.boxkey(recip), n, m)
+ def unbox(me, recip, n, c):
+ return secret_unbox(me.boxkey(recip, n, c))
+
+class X25519Pub (_BoxyPub):
+ _PUBSZ = X25519_PUBSZ
+ _BASE = X25519_BASE
+
+class X25519Priv (_BoxyPriv, X25519Pub):
+ _KEYSZ = X25519_KEYSZ
+ def _op(me, k, X): return x25519(k, X)
+ def _hashkey(me, z): return hsalsa20_prf(z, Z128)
+
+class X448Pub (_BoxyPub):
+ _PUBSZ = X448_PUBSZ
+ _BASE = X448_BASE
+
+class X448Priv (_BoxyPriv, X448Pub):
+ _KEYSZ = X448_KEYSZ
+ def _op(me, k, X): return x448(k, X)
+ ##def _hashkey(me, z): return ???
+
+class Ed25519Pub (object):
+ def __init__(me, pub):
+ me.pub = pub
+ def verify(me, msg, sig):
+ return ed25519_verify(me.pub, msg, sig)
+
+class Ed25519Priv (Ed25519Pub):
+ def __init__(me, priv):
+ me.priv = priv
+ Ed25519Pub.__init__(me, ed25519_pubkey(priv))
+ def sign(me, msg):
+ return ed25519_sign(me.priv, msg, pub = me.pub)
+ @classmethod
+ def generate(cls, rng = rand):
+ return cls(rng.block(ED25519_KEYSZ))
+
###--------------------------------------------------------------------------
### Built-in named curves and prime groups.
def __init__(me, map, nth):
me.map = map
me.nth = nth
- me.i = [None] * (max(map.values()) + 1)
+ me._n = max(map.values()) + 1
+ me.i = me._n*[None]
def __repr__(me):
return '{%s}' % ', '.join(['%r: %r' % (k, me[k]) for k in me])
+ def __len__(me):
+ return me._n
def __contains__(me, k):
return k in me.map
def __getitem__(me, k):