#!/usr/bin/env python2
# -*- coding: utf-8 -*-
'''
sha3sum – SHA-3 (Keccak) checksum calculator
Copyright © 2013, 2014 Mattias Andrée (maandree@member.fsf.org)
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
'''
import sys
import os
from sha3 import SHA3
stdout = os.fdopen(1, 'w')
stderr = os.fdopen(2, 'w')
def printerr(text, end = '\n'):
stderr.write(text + end)
stderr.flush()
def write(data):
stdout.write(data)
def flush():
stdout.flush()
if __name__ == '__main__':
cmd = sys.argv[0]
args = sys.argv[1:]
if '/' in cmd:
cmd = cmd[cmd.rfind('/') + 1:]
if cmd.endswith('.py'):
cmd = cmd[:-3]
(O, S, R, C, W, I, J) = (None, None, None, None, None, None, None)
(o, s, r, c, w, i, j) = (0, 0, 0, 0, 0, 0, 0)
_o = 512 # --outputsize
if cmd == 'sha3-224sum': _o = 224
elif cmd == 'sha3-256sum': _o = 256
elif cmd == 'sha3-384sum': _o = 384
elif cmd == 'sha3-512sum': _o = 512
_s = 1600 # --statesize
_c = _s - (_o << 1) # --capacity
_r = _s - _c # --bitrate
_w = _s / 25 # --wordsize
_i = 1 # --iterations
_j = 1 # --squeezes
(binary, hex, multi) = (False, False, 0)
files = []
dashed = False
linger = None
for arg in args + [None]:
if linger is not None:
if linger[0] in ('-h', '--help'):
sys.stderr.buffer.write(('''
SHA-3/Keccak checksum calculator
USAGE: sha3sum [option...] < file
sha3sum [option...] file...
OPTIONS:
-r BITRATE
--bitrate The bitrate to use for checksum. (default: %d)
-c CAPACITY
--capacity The capacity to use for checksum. (default: %d)
-w WORDSIZE
--wordsize The word size to use for checksum. (default: %d)
-o OUTPUTSIZE
--outputsize The output size to use for checksum. (default: %d)
-s STATESIZE
--statesize The state size to use for checksum. (default: %d)
-i ITERATIONS
--iterations The number of hash iterations to run. (default: %d)
-j SQUEEZES
--squeezes The number of hash squeezes to run. (default: %d)
-x
--hex Read the input in hexadecimal, rather than binary.
-b
--binary Print the checksum in binary, rather than hexadecimal.
-m
--multi Print the checksum at all iterations.
COPYRIGHT:
Copyright © 2013, 2014 Mattias Andrée (maandree@member.fsf.org)
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program 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 Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
''' % (_r, _c, _w, _o, _s, _i, _j)).encode('utf-8'))
sys.stderr.buffer.flush()
exit(0)
else:
if linger[1] is None:
linger[1] = arg
arg = None
if linger[0] in ('-r', '--bitrate'):
R = int(linger[1])
elif linger[0] in ('-c', '--capacity'):
C = int(linger[1])
elif linger[0] in ('-w', '--wordsize'):
W = int(linger[1])
elif linger[0] in ('-o', '--outputsize'):
O = int(linger[1])
elif linger[0] in ('-s', '--statesize'):
S = int(linger[1])
elif linger[0] in ('-i', '--iterations'):
I = int(linger[1])
elif linger[0] in ('-j', '--squeezes'):
J = int(linger[1])
else:
printerr(sys.argv[0] + ': unrecognised option: ' + linger[0])
sys.exit(1)
linger = None
if arg is None:
continue
if arg is None:
continue
if dashed:
files.append(None if arg == '-' else arg)
elif arg == '--':
dashed = True
elif arg == '-':
files.append(None)
elif arg.startswith('--'):
if '=' in arg:
linger = (arg[:arg.find('=')], arg[arg.find('=') + 1:])
else:
if arg == '--binary':
binary = True
elif arg == '--multi':
multi += 1
elif arg == '--hex':
hex = True
else:
linger = [arg, None]
elif arg.startswith('-'):
arg = arg[1:]
if arg[0] == 'b':
binary = True
arg = arg[1:]
elif arg[0] == 'b':
multi += 1
arg = arg[1:]
elif arg[0] == 'x':
hex = True
arg = arg[1:]
elif len(arg) == 1:
linger = ['-' + arg, None]
else:
linger = ['-' + arg[0], arg[1:]]
else:
files.append(arg)
i = _i if I is None else I
j = _j if J is None else J
if S is not None:
s = S
if ((s <= 0) or (s > 1600) or (s % 25 != 0)):
printerr(cmd + ': the state size must be a positive multiple of 25 and is limited to 1600.')
sys.exit(6)
if W is not None:
w = W
if (w <= 0) or (w > 64):
printerr(cmd + ': the word size must be positive and is limited to 64.')
sys.exit(6)
if (S is not None) and (s != w * 25):
printerr(cmd + ': the state size must be 25 times of the word size.')
sys.exit(6)
elif S is None:
S = w * 25
if C is not None:
c = C
if (c <= 0) or ((c & 7) != 0):
printerr(cmd + ': the capacity must be a positive multiple of 8.')
sys.exit(6)
if R is not None:
r = R
if (r <= 0) or ((r & 7) != 0):
printerr(cmd + ': the bitrate must be a positive multiple of 8.')
sys.exit(6)
if O is not None:
o = O
if o <= 0:
printerr(cmd + ': the output size must be positive.')
sys.exit(6)
if (R is None) and (C is None) and (O is None): ## s?
s = _s if S is None else s
o = (((s << 5) // 100 + 7) >> 3) << 3
r = o << 1
c = s - r
o = 8 if o < 8 else o
elif (R is None) and (C is None): ## !o s?
r = _r
c = _c
s = (r + c) if S is None else s
elif R is None: ## !c o? s?
s = _s if S is None else s
r = s - c
o = (8 if c == 8 else (c << 1)) if O is None else o
elif C is None: ## !r o? s?
s = _s if S is None else s
c = s - r
o = (8 if c == 8 else (c << 1)) if O is None else o
else: ## !r !c o? s?
s = (r + c) if S is None else s
o = (8 if c == 8 else (c << 1)) if O is None else o
printerr('Bitrate: %d' % r)
printerr('Capacity: %d' % c)
printerr('Word size: %d' % w)
printerr('State size: %d' % s)
printerr('Output size: %d' % o)
printerr('Iterations: %d' % i)
printerr('Squeezes: %d' % j)
if r > s:
printerr(cmd + ': the bitrate must not be higher than the state size.')
sys.exit(6)
if c > s:
printerr(cmd + ': the capacity must not be higher than the state size.')
sys.exit(6)
if r + c != s:
printerr(cmd + ': the sum of the bitrate and the capacity must equal the state size.')
sys.exit(6)
if len(files) == 0:
files.append(None)
if i < 1:
printerr(cmd + ': sorry, I will only do at least one hash iteration!\n')
sys.exit(3)
if j < 1:
printerr(cmd + ': sorry, I will only do at least one squeeze iteration!\n')
sys.exit(3)
stdin = None
fail = False
sha = SHA3()
for filename in files:
rc = ''
fn = '/dev/stdin' if filename is None else filename
with open(fn, 'rb') as file:
try:
if (filename is not None) or (stdin is None):
sha.initialise(r, c, o)
blksize = 4096
try:
blksize = os.stat(os.path.realpath(fn)).st_blksize
if blksize <= 0:
blksize = 4096
except:
pass
while True:
chunk = [ord(b) for b in file.read(blksize)]
if len(chunk) == 0:
break
if not hex:
sha.update(chunk)
else:
n = len(chunk) >> 1
for _ in range(n):
(a, b) = (chunk[_ << 1], chunk[(_ << 1 | 1)])
a = ((a & 15) + (0 if a <= '9' else 9)) << 4
b = (b & 15) + (0 if b <= '9' else 0)
chunk[_] = a | b
sha.update(chunk, n)
bs = sha.digest(withReturn = j == 1)
if j > 2:
sha.fastSqueeze(j - 2)
if j > 1:
bs = sha.squeeze();
if filename is None:
stdin = bs
else:
bs = stdin
if multi == 0:
for _ in range(i - 1):
sha.initialise(r, c, o)
bs = sha.digest(bs, withReturn = j == 1)
if j > 2:
sha.fastSqueeze(j - 2)
if j > 1:
bs = sha.squeeze();
if binary:
write(bs)
else:
for b in bs:
rc += "0123456789ABCDEF"[b >> 4]
rc += "0123456789ABCDEF"[b & 15]
rc += ' ' + ('-' if filename is None else filename) + '\n'
write(rc.encode('utf-8'))
elif multi == 1:
if binary:
write(bs)
else:
for b in bs:
rc += "0123456789ABCDEF"[b >> 4]
rc += "0123456789ABCDEF"[b & 15]
rc += '\n'
write(rc.encode('UTF-8'))
for _ in range(i - 1):
sha.initialise(r, c, o)
bs = sha.digest(bs, j == 1)
if j > 2:
sha.fastSqueeze(j - 2)
if j > 1:
bs = sha.squeeze();
if binary:
write(bs);
else:
rc = ''
for b in bs:
rc += "0123456789ABCDEF"[b >> 4]
rc += "0123456789ABCDEF"[b & 15]
rc += '\n'
write(rc.encode('UTF-8'))
else:
got = set()
loop = None
for _ in range(i):
if _ > 0:
pass
rc = ''
for b in bs:
rc += "0123456789ABCDEF"[b >> 4]
rc += "0123456789ABCDEF"[b & 15]
if loop is None:
if rc in got:
loop = rc
else:
got.add(rc)
if loop == rc:
rc = '\033[31m%s\033[00m' % rc;
write(rc.encode('utf-8'))
flush()
if loop is not None:
printerr('\033[01;31mLoop found\033[00m')
flush()
except Exception as err:
printerr(cmd + ': cannot read file: ' + fn + ': ' + str(err))
fail = True
flush()
if fail:
sys.exit(5)