Created
September 4, 2013 10:24
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Generate Bitcoin and Litecoin address from same private key
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| #!/usr/bin/env python | |
| # Joric/bitcoin-dev, june 2012, public domain | |
| import hashlib | |
| import ctypes | |
| import ctypes.util | |
| import sys | |
| ssl = ctypes.cdll.LoadLibrary (ctypes.util.find_library ('ssl') or 'libeay32') | |
| def check_result (val, func, args): | |
| if val == 0: raise ValueError | |
| else: return ctypes.c_void_p (val) | |
| ssl.EC_KEY_new_by_curve_name.restype = ctypes.c_void_p | |
| ssl.EC_KEY_new_by_curve_name.errcheck = check_result | |
| class KEY: | |
| def __init__(self): | |
| NID_secp256k1 = 714 | |
| self.k = ssl.EC_KEY_new_by_curve_name(NID_secp256k1) | |
| self.compressed = False | |
| self.POINT_CONVERSION_COMPRESSED = 2 | |
| self.POINT_CONVERSION_UNCOMPRESSED = 4 | |
| def __del__(self): | |
| if ssl: | |
| ssl.EC_KEY_free(self.k) | |
| self.k = None | |
| def generate(self, secret=None): | |
| if secret: | |
| self.prikey = secret | |
| priv_key = ssl.BN_bin2bn(secret, 32, ssl.BN_new()) | |
| group = ssl.EC_KEY_get0_group(self.k) | |
| pub_key = ssl.EC_POINT_new(group) | |
| ctx = ssl.BN_CTX_new() | |
| ssl.EC_POINT_mul(group, pub_key, priv_key, None, None, ctx) | |
| ssl.EC_KEY_set_private_key(self.k, priv_key) | |
| ssl.EC_KEY_set_public_key(self.k, pub_key) | |
| ssl.EC_POINT_free(pub_key) | |
| ssl.BN_CTX_free(ctx) | |
| return self.k | |
| else: | |
| return ssl.EC_KEY_generate_key(self.k) | |
| def get_pubkey(self): | |
| size = ssl.i2o_ECPublicKey(self.k, 0) | |
| mb = ctypes.create_string_buffer(size) | |
| ssl.i2o_ECPublicKey(self.k, ctypes.byref(ctypes.pointer(mb))) | |
| return mb.raw | |
| def get_secret(self): | |
| bn = ssl.EC_KEY_get0_private_key(self.k); | |
| bytes = (ssl.BN_num_bits(bn) + 7) / 8 | |
| mb = ctypes.create_string_buffer(bytes) | |
| n = ssl.BN_bn2bin(bn, mb); | |
| return mb.raw.rjust(32, chr(0)) | |
| def set_compressed(self, compressed): | |
| self.compressed = compressed | |
| if compressed: | |
| form = self.POINT_CONVERSION_COMPRESSED | |
| else: | |
| form = self.POINT_CONVERSION_UNCOMPRESSED | |
| ssl.EC_KEY_set_conv_form(self.k, form) | |
| def dhash(s): | |
| return hashlib.sha256(hashlib.sha256(s).digest()).digest() | |
| def rhash(s): | |
| h1 = hashlib.new('ripemd160') | |
| h1.update(hashlib.sha256(s).digest()) | |
| return h1.digest() | |
| b58_digits = '123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz' | |
| def base58_encode(n): | |
| l = [] | |
| while n > 0: | |
| n, r = divmod(n, 58) | |
| l.insert(0,(b58_digits[r])) | |
| return ''.join(l) | |
| def base58_decode(s): | |
| n = 0 | |
| for ch in s: | |
| n *= 58 | |
| digit = b58_digits.index(ch) | |
| n += digit | |
| return n | |
| def base58_encode_padded(s): | |
| res = base58_encode(int('0x' + s.encode('hex'), 16)) | |
| pad = 0 | |
| for c in s: | |
| if c == chr(0): | |
| pad += 1 | |
| else: | |
| break | |
| return b58_digits[0] * pad + res | |
| def base58_decode_padded(s): | |
| pad = 0 | |
| for c in s: | |
| if c == b58_digits[0]: | |
| pad += 1 | |
| else: | |
| break | |
| h = '%x' % base58_decode(s) | |
| if len(h) % 2: | |
| h = '0' + h | |
| res = h.decode('hex') | |
| return chr(0) * pad + res | |
| def base58_check_encode(s, version=0): | |
| vs = chr(version) + s | |
| check = dhash(vs)[:4] | |
| return base58_encode_padded(vs + check) | |
| def base58_check_decode(s, version=0): | |
| k = base58_decode_padded(s) | |
| v0, data, check0 = k[0], k[1:-4], k[-4:] | |
| check1 = dhash(v0 + data)[:4] | |
| if check0 != check1: | |
| raise BaseException('checksum error') | |
| if version != ord(v0): | |
| raise BaseException('version mismatch') | |
| return data | |
| def gen_eckey(passphrase=None, secret=None, pkey=None, compressed=False, rounds=1, version=0): | |
| k = KEY() | |
| if passphrase: | |
| secret = passphrase.encode('utf8') | |
| for i in xrange(rounds): | |
| secret = hashlib.sha256(secret).digest() | |
| if pkey: | |
| secret = base58_check_decode(pkey, 128+version) | |
| compressed = len(secret) == 33 | |
| secret = secret[0:32] | |
| k.generate(secret) | |
| k.set_compressed(compressed) | |
| return k | |
| def get_addr(k,version=0): | |
| pubkey = k.get_pubkey() | |
| secret = k.get_secret() | |
| hash160 = rhash(pubkey) | |
| addr = base58_check_encode(hash160,version) | |
| payload = secret | |
| if k.compressed: | |
| payload = secret + chr(1) | |
| pkey = base58_check_encode(payload, 128+version) | |
| return addr, pkey | |
| def reencode(pkey,fromversion=0,toversion=48): | |
| payload = base58_check_decode(pkey,128+fromversion) | |
| secret = payload | |
| #payload = secret + chr(1) | |
| pkey = base58_check_encode(payload, 128+toversion) | |
| print get_addr(gen_eckey(pkey=pkey,compressed=True,version=toversion),version=toversion) | |
| def test(otherversion): | |
| # Compressed Bitcoin / Litecoin addresses that share the same ECDSA secp256k1 private key | |
| (addr, pkey) = get_addr(gen_eckey(compressed=True,version=otherversion),version=otherversion) | |
| print (addr, pkey) | |
| reencode(pkey,0,48) | |
| # uncomment these to create addresses via a different method | |
| # random uncompressed | |
| #print get_addr(gen_eckey()) | |
| # by secret | |
| #print get_addr(gen_eckey(secret=('%064x' % 0xdeadbabe).decode('hex'))) | |
| # by passphrase | |
| #print get_addr(gen_eckey(passphrase='Satoshi Nakamoto')) | |
| # by private key | |
| #print get_addr(gen_eckey(pkey='5K1HkbYffstTZDuV4riUWMbAMkQh57b8798uoy9pXYUDYeUHe7F')) | |
| #print get_addr(gen_eckey(pkey='L3ATL5R9Exe1ubuAnHVgNgTKZEUKkDvWYAWkLUCyyvzzxRjtgyFe')) | |
| # uncomment this to reencode the private keys created by early versions of this script | |
| #reencode(sys.argv[1]) | |
| if __name__ == '__main__': | |
| import optparse | |
| parser = optparse.OptionParser(usage="%prog [options]") | |
| parser.add_option("--otherversion", dest="otherversion", default=0, | |
| help="Generate address with different version number") | |
| (options, args) = parser.parse_args() | |
| test(int(options.otherversion)) |
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