### along with Catacomb/Python; if not, write to the Free Software Foundation,
### Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
-import _base
-import types as _types
+from __future__ import with_statement
+
from binascii import hexlify as _hexify, unhexlify as _unhexify
-from sys import argv as _argv
+from contextlib import contextmanager as _ctxmgr
+try: import DLFCN as _dlfcn
+except ImportError: _dlfcn = None
+import os as _os
+from struct import pack as _pack
+import sys as _sys
+import types as _types
+
+###--------------------------------------------------------------------------
+### Import the main C extension module.
+
+try:
+ _dlflags = _odlflags = _sys.getdlopenflags()
+except AttributeError:
+ _dlflags = _odlflags = -1
+
+## Set the `deep binding' flag. Python has its own different MD5
+## implementation, and some distributions export `md5_init' and friends so
+## they override our versions, which doesn't end well. Figure out how to
+## turn this flag on so we don't have the problem.
+if _dlflags >= 0:
+ try: _dlflags |= _dlfcn.RTLD_DEEPBIND
+ except AttributeError:
+ try: _dlflags |= _os.RTLD_DEEPBIND
+ except AttributeError:
+ if _os.uname()[0] == 'Linux': _dlflags |= 8 # magic knowledge
+ else: pass # can't do this.
+ _sys.setdlopenflags(_dlflags)
+
+import _base
+
+if _odlflags >= 0:
+ _sys.setdlopenflags(_odlflags)
+
+del _dlflags, _odlflags
###--------------------------------------------------------------------------
### Basic stuff.
-## For the benefit of the default keyreporter, we need the program na,e.
-_base._ego(_argv[0])
+## For the benefit of the default keyreporter, we need the program name.
+_base._ego(_sys.argv[0])
+
+## Register our module.
+_base._set_home_module(_sys.modules[__name__])
+def default_lostexchook(why, ty, val, tb):
+ """`catacomb.lostexchook(WHY, TY, VAL, TB)' reports lost exceptions."""
+ _sys.stderr.write("\n\n!!! LOST EXCEPTION: %s\n" % why)
+ _sys.excepthook(ty, val, tb)
+ _sys.stderr.write("\n")
+lostexchook = default_lostexchook
+
+## How to fix a name back into the right identifier. Alas, the rules are not
+## consistent.
+def _fixname(name):
+
+ ## Hyphens consistently become underscores.
+ name = name.replace('-', '_')
+
+ ## But slashes might become underscores or just vanish.
+ if name.startswith('salsa20'): name = name.replace('/', '')
+ else: name = name.replace('/', '_')
+
+ ## Done.
+ return name
## Initialize the module. Drag in the static methods of the various
## classes; create names for the various known crypto algorithms.
for i in b:
if i[0] != '_':
d[i] = b[i];
- for i in ['MP', 'GF', 'Field',
+ for i in ['ByteString',
+ 'MP', 'GF', 'Field',
'ECPt', 'ECPtCurve', 'ECCurve', 'ECInfo',
'DHInfo', 'BinDHInfo', 'RSAPriv', 'BBSPriv',
'PrimeFilter', 'RabinMiller',
for j in b:
if j[:plen] == pre:
setattr(c, j[plen:], classmethod(b[j]))
- for i in [gcciphers, gchashes, gcmacs, gcprps]:
+ for i in [gcciphers, gcaeads, gchashes, gcmacs, gcprps]:
for c in i.itervalues():
- d[c.name.replace('-', '_').translate(None, '/')] = c
+ d[_fixname(c.name)] = c
for c in gccrands.itervalues():
- d[c.name.replace('-', '_').translate(None, '/') + 'rand'] = c
+ d[_fixname(c.name + 'rand')] = c
_init()
## A handy function for our work: add the methods of a named class to an
raise SyntaxError, 'junk at end of string'
return x
+## Some pretty-printing utilities.
+PRINT_SECRETS = False
+def _clsname(me): return type(me).__name__
+def _repr_secret(thing, secretp = True):
+ if not secretp or PRINT_SECRETS: return repr(thing)
+ else: return '#<SECRET>'
+def _pp_str(me, pp, cyclep): pp.text(cyclep and '...' or str(me))
+def _pp_secret(pp, thing, secretp = True):
+ if not secretp or PRINT_SECRETS: pp.pretty(thing)
+ else: pp.text('#<SECRET>')
+def _pp_bgroup(pp, text):
+ ind = len(text)
+ pp.begin_group(ind, text)
+ return ind
+def _pp_bgroup_tyname(pp, obj, open = '('):
+ return _pp_bgroup(pp, _clsname(obj) + open)
+def _pp_kv(pp, k, v, secretp = False):
+ ind = _pp_bgroup(pp, k + ' = ')
+ _pp_secret(pp, v, secretp)
+ pp.end_group(ind, '')
+def _pp_commas(pp, printfn, items):
+ firstp = True
+ for i in items:
+ if firstp: firstp = False
+ else: pp.text(','); pp.breakable()
+ printfn(i)
+def _pp_dict(pp, items):
+ def p((k, v)):
+ pp.begin_group(0)
+ pp.pretty(k)
+ pp.text(':')
+ pp.begin_group(2)
+ pp.breakable()
+ pp.pretty(v)
+ pp.end_group(2)
+ pp.end_group(0)
+ _pp_commas(pp, p, items)
+
###--------------------------------------------------------------------------
### Bytestrings.
bytes = ByteString.fromhex
###--------------------------------------------------------------------------
+### Symmetric encryption.
+
+class _tmp:
+ def encrypt(me, n, m, tsz = None, h = ByteString('')):
+ if tsz is None: tsz = me.__class__.tagsz.default
+ e = me.enc(n, len(h), len(m), tsz)
+ if not len(h): a = None
+ else: a = e.aad().hash(h)
+ c0 = e.encrypt(m)
+ c1, t = e.done(aad = a)
+ return c0 + c1, t
+ def decrypt(me, n, c, t, h = ByteString('')):
+ d = me.dec(n, len(h), len(c), len(t))
+ if not len(h): a = None
+ else: a = d.aad().hash(h)
+ m = d.decrypt(c)
+ m += d.done(t, aad = a)
+ return m
+_augment(GAEKey, _tmp)
+
+###--------------------------------------------------------------------------
### Hashing.
class _tmp:
_augment(GHash, _tmp)
_augment(Poly1305Hash, _tmp)
+class _HashBase (object):
+ ## The standard hash methods. Assume that `hash' is defined and returns
+ ## the receiver.
+ def _check_range(me, n, max):
+ if not (0 <= n <= max): raise OverflowError("out of range")
+ def hashu8(me, n):
+ me._check_range(n, 0xff)
+ return me.hash(_pack('B', n))
+ def hashu16l(me, n):
+ me._check_range(n, 0xffff)
+ return me.hash(_pack('<H', n))
+ def hashu16b(me, n):
+ me._check_range(n, 0xffff)
+ return me.hash(_pack('>H', n))
+ hashu16 = hashu16b
+ def hashu32l(me, n):
+ me._check_range(n, 0xffffffff)
+ return me.hash(_pack('<L', n))
+ def hashu32b(me, n):
+ me._check_range(n, 0xffffffff)
+ return me.hash(_pack('>L', n))
+ hashu32 = hashu32b
+ def hashu64l(me, n):
+ me._check_range(n, 0xffffffffffffffff)
+ return me.hash(_pack('<Q', n))
+ def hashu64b(me, n):
+ me._check_range(n, 0xffffffffffffffff)
+ return me.hash(_pack('>Q', n))
+ hashu64 = hashu64b
+ def hashbuf8(me, s): return me.hashu8(len(s)).hash(s)
+ def hashbuf16l(me, s): return me.hashu16l(len(s)).hash(s)
+ def hashbuf16b(me, s): return me.hashu16b(len(s)).hash(s)
+ hashbuf16 = hashbuf16b
+ def hashbuf32l(me, s): return me.hashu32l(len(s)).hash(s)
+ def hashbuf32b(me, s): return me.hashu32b(len(s)).hash(s)
+ hashbuf32 = hashbuf32b
+ def hashbuf64l(me, s): return me.hashu64l(len(s)).hash(s)
+ def hashbuf64b(me, s): return me.hashu64b(len(s)).hash(s)
+ hashbuf64 = hashbuf64b
+ def hashstrz(me, s): return me.hash(s).hashu8(0)
+
+class _ShakeBase (_HashBase):
+
+ ## Python gets really confused if I try to augment `__new__' on native
+ ## classes, so wrap and delegate. Sorry.
+ def __init__(me, perso = '', *args, **kw):
+ super(_ShakeBase, me).__init__(*args, **kw)
+ me._h = me._SHAKE(perso = perso, func = me._FUNC)
+
+ ## Delegate methods...
+ def copy(me): new = me.__class__._bare_new(); new._copy(me); return new
+ def _copy(me, other): me._h = other._h.copy()
+ def hash(me, m): me._h.hash(m); return me
+ def xof(me): me._h.xof(); return me
+ def get(me, n): return me._h.get(n)
+ def mask(me, m): return me._h.mask(m)
+ def done(me, n): return me._h.done(n)
+ def check(me, h): return ctstreq(h, me.done(len(h)))
+ @property
+ def state(me): return me._h.state
+ @property
+ def buffered(me): return me._h.buffered
+ @property
+ def rate(me): return me._h.rate
+ @classmethod
+ def _bare_new(cls): return cls()
+
+class _tmp:
+ def check(me, h):
+ return ctstreq(h, me.done(len(h)))
+ def leftenc(me, n):
+ nn = MP(n).storeb()
+ return me.hashu8(len(nn)).hash(nn)
+ def rightenc(me, n):
+ nn = MP(n).storeb()
+ return me.hash(nn).hashu8(len(nn))
+ def stringenc(me, str):
+ return me.leftenc(8*len(str)).hash(str)
+ def bytepad_before(me):
+ return me.leftenc(me.rate)
+ def bytepad_after(me):
+ if me.buffered: me.hash(me._Z[:me.rate - me.buffered])
+ return me
+ @_ctxmgr
+ def bytepad(me):
+ me.bytepad_before()
+ yield me
+ me.bytepad_after()
+_augment(Shake, _tmp)
+_augment(_ShakeBase, _tmp)
+Shake._Z = _ShakeBase._Z = ByteString.zero(200)
+
+class KMAC (_ShakeBase):
+ _FUNC = 'KMAC'
+ def __init__(me, k, *arg, **kw):
+ super(KMAC, me).__init__(*arg, **kw)
+ with me.bytepad(): me.stringenc(k)
+ def done(me, n = -1):
+ if n < 0: n = me._TAGSZ
+ me.rightenc(8*n)
+ return super(KMAC, me).done(n)
+ def xof(me):
+ me.rightenc(0)
+ return super(KMAC, me).xof()
+ @classmethod
+ def _bare_new(cls): return cls("")
+
+class KMAC128 (KMAC): _SHAKE = Shake128; _TAGSZ = 16
+class KMAC256 (KMAC): _SHAKE = Shake256; _TAGSZ = 32
+
+###--------------------------------------------------------------------------
+### NaCl `secretbox'.
+
+def secret_box(k, n, m):
+ y, t = salsa20_naclbox(k).encrypt(n, m)
+ return t + y
+
+def secret_unbox(k, n, c):
+ tsz = poly1305.tagsz
+ return salsa20_naclbox(k).decrypt(n, c[tsz:], c[0:tsz])
+
###--------------------------------------------------------------------------
### Multiprecision integers and binary polynomials.
@property
def denom(me): return me._d
def __str__(me): return '%s/%s' % (me._n, me._d)
- def __repr__(me): return '%s(%s, %s)' % (type(me).__name__, me._n, me._d)
+ def __repr__(me): return '%s(%s, %s)' % (_clsname(me), me._n, me._d)
+ _repr_pretty_ = _pp_str
def __add__(me, you):
n, d = _split_rat(you)
def __mul__(me, you):
n, d = _split_rat(you)
return type(me)(me._n*n, me._d*d)
- def __div__(me, you):
+ __rmul__ = __mul__
+ def __truediv__(me, you):
n, d = _split_rat(you)
return type(me)(me._n*d, me._d*n)
- def __rdiv__(me, you):
+ def __rtruediv__(me, you):
n, d = _split_rat(you)
return type(me)(me._d*n, me._n*d)
+ __div__ = __truediv__
+ __rdiv__ = __rtruediv__
def __cmp__(me, you):
n, d = _split_rat(you)
- return type(me)(me._n*d, n*me._d)
+ return cmp(me._n*d, n*me._d)
def __rcmp__(me, you):
n, d = _split_rat(you)
return cmp(n*me._d, me._n*d)
def mont(x): return MPMont(x)
def barrett(x): return MPBarrett(x)
def reduce(x): return MPReduce(x)
- def __div__(me, you): return IntRat(me, you)
- def __rdiv__(me, you): return IntRat(you, me)
+ def __truediv__(me, you): return IntRat(me, you)
+ def __rtruediv__(me, you): return IntRat(you, me)
+ __div__ = __truediv__
+ __rdiv__ = __rtruediv__
+ _repr_pretty_ = _pp_str
_augment(MP, _tmp)
class _tmp:
def halftrace(x, y): return x.reduce().halftrace(y)
def modsqrt(x, y): return x.reduce().sqrt(y)
def quadsolve(x, y): return x.reduce().quadsolve(y)
- def __div__(me, you): return GFRat(me, you)
- def __rdiv__(me, you): return GFRat(you, me)
+ def __truediv__(me, you): return GFRat(me, you)
+ def __rtruediv__(me, you): return GFRat(you, me)
+ __div__ = __truediv__
+ __rdiv__ = __rtruediv__
+ _repr_pretty_ = _pp_str
_augment(GF, _tmp)
class _tmp:
_augment(Field, _tmp)
class _tmp:
- def __repr__(me): return '%s(%sL)' % (type(me).__name__, me.p)
+ def __repr__(me): return '%s(%sL)' % (_clsname(me), me.p)
def __hash__(me): return 0x114401de ^ hash(me.p)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep: pp.text('...')
+ else: pp.pretty(me.p)
+ pp.end_group(ind, ')')
def ec(me, a, b): return ECPrimeProjCurve(me, a, b)
_augment(PrimeField, _tmp)
class _tmp:
- def __repr__(me): return '%s(%sL)' % (type(me).__name__, hex(me.p))
+ def __repr__(me): return '%s(%#xL)' % (_clsname(me), me.p)
def ec(me, a, b): return ECBinProjCurve(me, a, b)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep: pp.text('...')
+ else: pp.text('%#x' % me.p)
+ pp.end_group(ind, ')')
_augment(BinField, _tmp)
class _tmp:
class _tmp:
def __str__(me): return str(me.value)
def __repr__(me): return '%s(%s)' % (repr(me.field), repr(me.value))
+ _repr_pretty_ = _pp_str
_augment(FE, _tmp)
###--------------------------------------------------------------------------
class _tmp:
def __repr__(me):
- return '%s(%r, %s, %s)' % (type(me).__name__, me.field, me.a, me.b)
+ return '%s(%r, %s, %s)' % (_clsname(me), me.field, me.a, me.b)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep:
+ pp.text('...')
+ else:
+ pp.pretty(me.field); pp.text(','); pp.breakable()
+ pp.pretty(me.a); pp.text(','); pp.breakable()
+ pp.pretty(me.b)
+ pp.end_group(ind, ')')
def frombuf(me, s):
return ecpt.frombuf(me, s)
def fromraw(me, s):
class _tmp:
def __repr__(me):
- if not me: return 'ECPt()'
- return 'ECPt(%s, %s)' % (me.ix, me.iy)
+ if not me: return '%s()' % _clsname(me)
+ return '%s(%s, %s)' % (_clsname(me), me.ix, me.iy)
def __str__(me):
if not me: return 'inf'
return '(%s, %s)' % (me.ix, me.iy)
+ def _repr_pretty_(me, pp, cyclep):
+ if cyclep:
+ pp.text('...')
+ elif not me:
+ pp.text('inf')
+ else:
+ ind = _pp_bgroup(pp, '(')
+ pp.pretty(me.ix); pp.text(','); pp.breakable()
+ pp.pretty(me.iy)
+ pp.end_group(ind, ')')
_augment(ECPt, _tmp)
class _tmp:
def __repr__(me):
- return 'ECInfo(curve = %r, G = %r, r = %s, h = %s)' % \
- (me.curve, me.G, me.r, me.h)
+ return '%s(curve = %r, G = %r, r = %s, h = %s)' % \
+ (_clsname(me), me.curve, me.G, me.r, me.h)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep:
+ pp.text('...')
+ else:
+ _pp_kv(pp, 'curve', me.curve); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'G', me.G); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'r', me.r); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'h', me.h)
+ pp.end_group(ind, ')')
def __hash__(me):
h = 0x9bedb8de
h ^= hash(me.curve)
def __str__(me):
if not me: return 'inf'
return '(%s, %s)' % (me.x, me.y)
+ def _repr_pretty_(me, pp, cyclep):
+ if cyclep:
+ pp.text('...')
+ elif not me:
+ pp.text('inf')
+ else:
+ ind = _pp_bgroup(pp, '(')
+ pp.pretty(me.x); pp.text(','); pp.breakable()
+ pp.pretty(me.y)
+ pp.end_group(ind, ')')
_augment(ECPtCurve, _tmp)
###--------------------------------------------------------------------------
### Key sizes.
class _tmp:
- def __repr__(me): return 'KeySZAny(%d)' % me.default
+ def __repr__(me): return '%s(%d)' % (_clsname(me), me.default)
def check(me, sz): return True
def best(me, sz): return sz
+ def pad(me, sz): return sz
_augment(KeySZAny, _tmp)
class _tmp:
def __repr__(me):
- return 'KeySZRange(%d, %d, %d, %d)' % \
- (me.default, me.min, me.max, me.mod)
- def check(me, sz): return me.min <= sz <= me.max and sz % me.mod == 0
+ return '%s(%d, %d, %d, %d)' % \
+ (_clsname(me), me.default, me.min, me.max, me.mod)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep:
+ pp.text('...')
+ else:
+ pp.pretty(me.default); pp.text(','); pp.breakable()
+ pp.pretty(me.min); pp.text(','); pp.breakable()
+ pp.pretty(me.max); pp.text(','); pp.breakable()
+ pp.pretty(me.mod)
+ pp.end_group(ind, ')')
+ def check(me, sz): return me.min <= sz <= me.max and sz%me.mod == 0
def best(me, sz):
if sz < me.min: raise ValueError, 'key too small'
elif sz > me.max: return me.max
- else: return sz - (sz % me.mod)
+ else: return sz - sz%me.mod
+ def pad(me, sz):
+ if sz > me.max: raise ValueError, 'key too large'
+ elif sz < me.min: return me.min
+ else: sz += me.mod - 1; return sz - sz%me.mod
_augment(KeySZRange, _tmp)
class _tmp:
- def __repr__(me): return 'KeySZSet(%d, %s)' % (me.default, me.set)
+ def __repr__(me): return '%s(%d, %s)' % (_clsname(me), me.default, me.set)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep:
+ pp.text('...')
+ else:
+ pp.pretty(me.default); pp.text(','); pp.breakable()
+ ind1 = _pp_bgroup(pp, '{')
+ _pp_commas(pp, pp.pretty, me.set)
+ pp.end_group(ind1, '}')
+ pp.end_group(ind, ')')
def check(me, sz): return sz in me.set
def best(me, sz):
found = -1
if found < i <= sz: found = i
if found < 0: raise ValueError, 'key too small'
return found
+ def pad(me, sz):
+ found = -1
+ for i in me.set:
+ if sz <= i and (found == -1 or i < found): found = i
+ if found < 0: raise ValueError, 'key too large'
+ return found
_augment(KeySZSet, _tmp)
###--------------------------------------------------------------------------
+### Key data objects.
+
+class _tmp:
+ def __repr__(me): return '%s(%r)' % (_clsname(me), me.name)
+_augment(KeyFile, _tmp)
+
+class _tmp:
+ def __repr__(me): return '%s(%r)' % (_clsname(me), me.fulltag)
+_augment(Key, _tmp)
+
+class _tmp:
+ def __repr__(me):
+ return '%s({%s})' % (_clsname(me),
+ ', '.join(['%r: %r' % kv for kv in me.iteritems()]))
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep: pp.text('...')
+ else: _pp_dict(pp, me.iteritems())
+ pp.end_group(ind, ')')
+_augment(KeyAttributes, _tmp)
+
+class _tmp:
+ def __repr__(me):
+ return '%s(%s, %r)' % (_clsname(me),
+ _repr_secret(me._guts(),
+ not (me.flags & KF_NONSECRET)),
+ me.writeflags(me.flags))
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep:
+ pp.text('...')
+ else:
+ _pp_secret(pp, me._guts(), not (me.flags & KF_NONSECRET))
+ pp.text(','); pp.breakable()
+ pp.pretty(me.writeflags(me.flags))
+ pp.end_group(ind, ')')
+_augment(KeyData, _tmp)
+
+class _tmp:
+ def _guts(me): return me.bin
+_augment(KeyDataBinary, _tmp)
+
+class _tmp:
+ def _guts(me): return me.ct
+_augment(KeyDataEncrypted, _tmp)
+
+class _tmp:
+ def _guts(me): return me.mp
+_augment(KeyDataMP, _tmp)
+
+class _tmp:
+ def _guts(me): return me.str
+_augment(KeyDataString, _tmp)
+
+class _tmp:
+ def _guts(me): return me.ecpt
+_augment(KeyDataECPt, _tmp)
+
+class _tmp:
+ def __repr__(me):
+ return '%s({%s})' % (_clsname(me),
+ ', '.join(['%r: %r' % kv for kv in me.iteritems()]))
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me, '({ ')
+ if cyclep: pp.text('...')
+ else: _pp_dict(pp, me.iteritems())
+ pp.end_group(ind, ' })')
+_augment(KeyDataStructured, _tmp)
+
+###--------------------------------------------------------------------------
### Abstract groups.
class _tmp:
def __repr__(me):
- return '%s(p = %s, r = %s, g = %s)' % \
- (type(me).__name__, me.p, me.r, me.g)
+ return '%s(p = %s, r = %s, g = %s)' % (_clsname(me), me.p, me.r, me.g)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep:
+ pp.text('...')
+ else:
+ _pp_kv(pp, 'p', me.p); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'r', me.r); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'g', me.g)
+ pp.end_group(ind, ')')
_augment(FGInfo, _tmp)
class _tmp:
class _tmp:
def __repr__(me):
- return '%s(%r)' % (type(me).__name__, me.info)
+ return '%s(%r)' % (_clsname(me), me.info)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep: pp.text('...')
+ else: pp.pretty(me.info)
+ pp.end_group(ind, ')')
_augment(Group, _tmp)
class _tmp:
h ^= 2*hash(info.r) & 0xffffffff
h ^= 5*hash(info.g) & 0xffffffff
return h
+ def _get_geval(me, x): return MP(x)
_augment(PrimeGroup, _tmp)
class _tmp:
h ^= 2*hash(info.r) & 0xffffffff
h ^= 5*hash(info.g) & 0xffffffff
return h
+ def _get_geval(me, x): return GF(x)
_augment(BinGroup, _tmp)
class _tmp:
def __hash__(me): return 0x0ec23dab ^ hash(me.info)
+ def _get_geval(me, x): return x.toec()
_augment(ECGroup, _tmp)
class _tmp:
def __repr__(me):
return '%r(%r)' % (me.group, str(me))
+ def _repr_pretty_(me, pp, cyclep):
+ pp.pretty(type(me)._get_geval(me))
_augment(GE, _tmp)
###--------------------------------------------------------------------------
return x is None or x == msg
except ValueError:
return False
+ def __repr__(me):
+ return '%s(n = %r, e = %r)' % (_clsname(me), me.n, me.e)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep:
+ pp.text('...')
+ else:
+ _pp_kv(pp, 'n', me.n); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'e', me.e)
+ pp.end_group(ind, ')')
_augment(RSAPub, _tmp)
class _tmp:
def decrypt(me, ct, enc): return enc.decode(me.privop(ct), me.n.nbits)
def sign(me, msg, enc): return me.privop(enc.encode(msg, me.n.nbits))
+ def __repr__(me):
+ return '%s(n = %r, e = %r, d = %s, ' \
+ 'p = %s, q = %s, dp = %s, dq = %s, q_inv = %s)' % \
+ (_clsname(me), me.n, me.e,
+ _repr_secret(me.d), _repr_secret(me.p), _repr_secret(me.q),
+ _repr_secret(me.dp), _repr_secret(me.dq), _repr_secret(me.q_inv))
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep:
+ pp.text('...')
+ else:
+ _pp_kv(pp, 'n', me.n); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'e', me.e); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'd', me.d, secretp = True); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'p', me.p, secretp = True); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'q', me.q, secretp = True); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'dp', me.dp, secretp = True); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'dq', me.dq, secretp = True); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'q_inv', me.q_inv, secretp = True)
+ pp.end_group(ind, ')')
_augment(RSAPriv, _tmp)
###--------------------------------------------------------------------------
+### DSA and related schemes.
+
+class _tmp:
+ def __repr__(me): return '%s(G = %r, p = %r, hash = %r)' % \
+ (_clsname(me), me.G, me.p, me.hash)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep:
+ pp.text('...')
+ else:
+ _pp_kv(pp, 'G', me.G); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'p', me.p); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'hash', me.hash)
+ pp.end_group(ind, ')')
+_augment(DSAPub, _tmp)
+_augment(KCDSAPub, _tmp)
+
+class _tmp:
+ def __repr__(me): return '%s(G = %r, u = %s, p = %r, hash = %r)' % \
+ (_clsname(me), me.G, _repr_secret(me.u), me.p, me.hash)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep:
+ pp.text('...')
+ else:
+ _pp_kv(pp, 'G', me.G); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'u', me.u, True); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'p', me.p); pp.text(','); pp.breakable()
+ _pp_kv(pp, 'hash', me.hash)
+ pp.end_group(ind, ')')
+_augment(DSAPriv, _tmp)
+_augment(KCDSAPriv, _tmp)
+
+###--------------------------------------------------------------------------
+### Bernstein's elliptic curve crypto and related schemes.
+
+X25519_BASE = MP(9).storel(32)
+X448_BASE = MP(5).storel(56)
+
+Z128 = ByteString.zero(16)
+
+class _BasePub (object):
+ def __init__(me, pub, *args, **kw):
+ if not me._PUBSZ.check(len(pub)): raise ValueError, 'bad public key'
+ super(_BasePub, me).__init__(*args, **kw)
+ me.pub = pub
+ def __repr__(me): return '%s(pub = %r)' % (_clsname(me), me.pub)
+ def _pp(me, pp): _pp_kv(pp, 'pub', me.pub)
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup_tyname(pp, me)
+ if cyclep: pp.text('...')
+ else: me._pp(pp)
+ pp.end_group(ind, ')')
+
+class _BasePriv (object):
+ def __init__(me, priv, pub = None, *args, **kw):
+ if not me._KEYSZ.check(len(priv)): raise ValueError, 'bad private key'
+ if pub is None: pub = me._pubkey(priv)
+ super(_BasePriv, me).__init__(pub = pub, *args, **kw)
+ me.priv = priv
+ @classmethod
+ def generate(cls, rng = rand):
+ return cls(rng.block(cls._KEYSZ.default))
+ def __repr__(me):
+ return '%s(priv = %d, pub = %r)' % \
+ (_clsname(me), _repr_secret(me.priv), me.pub)
+ def _pp(me, pp):
+ _pp_kv(pp, 'priv', me.priv, secretp = True); pp.text(','); pp.breakable()
+ super(_BasePriv, me)._pp(pp)
+
+class _XDHPub (_BasePub): pass
+
+class _XDHPriv (_BasePriv):
+ def _pubkey(me, priv): return me._op(priv, me._BASE)
+ 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 (_XDHPub):
+ _PUBSZ = KeySZSet(X25519_PUBSZ)
+ _BASE = X25519_BASE
+
+class X25519Priv (_XDHPriv, X25519Pub):
+ _KEYSZ = KeySZSet(X25519_KEYSZ)
+ def _op(me, k, X): return x25519(k, X)
+ def _hashkey(me, z): return hsalsa20_prf(z, Z128)
+
+class X448Pub (_XDHPub):
+ _PUBSZ = KeySZSet(X448_PUBSZ)
+ _BASE = X448_BASE
+
+class X448Priv (_XDHPriv, X448Pub):
+ _KEYSZ = KeySZSet(X448_KEYSZ)
+ def _op(me, k, X): return x448(k, X)
+ def _hashkey(me, z): return Shake256().hash(z).done(salsa20.keysz.default)
+
+class _EdDSAPub (_BasePub):
+ def beginhash(me): return me._HASH()
+ def endhash(me, h): return h.done()
+
+class _EdDSAPriv (_BasePriv, _EdDSAPub):
+ pass
+
+class Ed25519Pub (_EdDSAPub):
+ _PUBSZ = KeySZSet(ED25519_PUBSZ)
+ _HASH = sha512
+ def verify(me, msg, sig, **kw):
+ return ed25519_verify(me.pub, msg, sig, **kw)
+
+class Ed25519Priv (_EdDSAPriv, Ed25519Pub):
+ _KEYSZ = KeySZAny(ED25519_KEYSZ)
+ def _pubkey(me, priv): return ed25519_pubkey(priv)
+ def sign(me, msg, **kw):
+ return ed25519_sign(me.priv, msg, pub = me.pub, **kw)
+
+class Ed448Pub (_EdDSAPub):
+ _PUBSZ = KeySZSet(ED448_PUBSZ)
+ _HASH = shake256
+ def verify(me, msg, sig, **kw):
+ return ed448_verify(me.pub, msg, sig, **kw)
+
+class Ed448Priv (_EdDSAPriv, Ed448Pub):
+ _KEYSZ = KeySZAny(ED448_KEYSZ)
+ def _pubkey(me, priv): return ed448_pubkey(priv)
+ def sign(me, msg, **kw):
+ return ed448_sign(me.priv, msg, pub = me.pub, **kw)
+
+###--------------------------------------------------------------------------
### Built-in named curves and prime groups.
class _groupmap (object):
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])
+ return '{%s}' % ', '.join(['%r: %r' % kv for kv in me.iteritems()])
+ def _repr_pretty_(me, pp, cyclep):
+ ind = _pp_bgroup(pp, '{ ')
+ if cyclep: pp.text('...')
+ else: _pp_dict(pp, me.iteritems())
+ pp.end_group(ind, ' }')
+ def __len__(me):
+ return me._n
def __contains__(me, k):
return k in me.map
def __getitem__(me, k):