#!/usr/bin/env python3 # # bignum.py # # This file is copied from python-bitcoinlib. # # Distributed under the MIT software license, see the accompanying # file COPYING or http://www.opensource.org/licenses/mit-license.php. # """Bignum routines""" import struct # generic big endian MPI format def bn_bytes(v, have_ext=False): ext = 0 if have_ext: ext = 1 return ((v.bit_length() + 7) // 8) + ext def bn2bin(v): s = bytearray() i = bn_bytes(v) while i > 0: s.append((v >> ((i - 1) * 8)) & 0xFF) i -= 1 return s def bin2bn(s): l = 0 for char in s: l = (l << 8) | char return l def bn2mpi(v): have_ext = False if v.bit_length() > 0: have_ext = (v.bit_length() & 0x07) == 0 neg = False if v < 0: neg = True v = -v s = struct.pack(b">I", bn_bytes(v, have_ext)) ext = bytearray() if have_ext: ext.append(0) v_bin = bn2bin(v) if neg: if have_ext: ext[0] |= 0x80 else: v_bin[0] |= 0x80 return s + ext + v_bin def mpi2bn(s): if len(s) < 4: return None s_size = bytes(s[:4]) v_len = struct.unpack(b">I", s_size)[0] if len(s) != (v_len + 4): return None if v_len == 0: return 0 v_str = bytearray(s[4:]) neg = False i = v_str[0] if i & 0x80: neg = True i &= ~0x80 v_str[0] = i v = bin2bn(v_str) if neg: return -v return v # bitcoin-specific little endian format, with implicit size def mpi2vch(s): r = s[4:] # strip size r = r[::-1] # reverse string, converting BE->LE return r def bn2vch(v): return bytes(mpi2vch(bn2mpi(v))) def vch2mpi(s): r = struct.pack(b">I", len(s)) # size r += s[::-1] # reverse string, converting LE->BE return r def vch2bn(s): return mpi2bn(vch2mpi(s))