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utils.py
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utils.py
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import hashlib
import struct
import unittest
b58 = '123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz'
# Returns byte string value, not hex string
def varint(n):
if n < 0xfd:
return struct.pack('<B', n)
elif n < 0xffff:
return struct.pack('<cH', '\xfd', n)
elif n < 0xffffffff:
return struct.pack('<cL', '\xfe', n)
else:
return struct.pack('<cQ', '\xff', n)
# Takes and returns byte string value, not hex string
def varstr(s):
return varint(len(s)) + s
# 60002
def netaddr(ipaddr, port):
services = 1
return (struct.pack('<Q12s', services, '\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xff\xff') +
struct.pack('>4sH', ipaddr, port))
# return value, len
def processVarInt(payload):
n0 = ord(payload[0])
if n0 < 0xfd:
return [n0, 1]
elif n0 == 0xfd:
return [struct.unpack('<H', payload[1:3])[0], 3]
elif n0 == 0xfe:
return [struct.unpack('<L', payload[1:5])[0], 5]
else:
return [struct.unpack('<Q', payload[1:5])[0], 7]
# return value, len
def processVarStr(payload):
n, length = processVarInt(payload)
return [payload[length:length+n], length + n]
# takes 26 byte input, returns string
def processAddr(payload):
assert(len(payload) >= 26)
return '%d.%d.%d.%d:%d' % (ord(payload[20]), ord(payload[21]),
ord(payload[22]), ord(payload[23]),
struct.unpack('!H', payload[24:26])[0])
def base58encode(n):
result = ''
while n > 0:
result = b58[n%58] + result
n /= 58
return result
def base58decode(s):
result = 0
for i in range(0, len(s)):
result = result * 58 + b58.index(s[i])
return result
def base256encode(n):
result = ''
while n > 0:
result = chr(n % 256) + result
n /= 256
return result
def base256decode(s):
result = 0
for c in s:
result = result * 256 + ord(c)
return result
def countLeadingChars(s, ch):
count = 0
for c in s:
if c == ch:
count += 1
else:
break
return count
# https://en.bitcoin.it/wiki/Base58Check_encoding
def base58CheckEncode(version, payload):
s = chr(version) + payload
checksum = hashlib.sha256(hashlib.sha256(s).digest()).digest()[0:4]
result = s + checksum
leadingZeros = countLeadingChars(result, '\0')
return '1' * leadingZeros + base58encode(base256decode(result))
def base58CheckDecode(s):
leadingOnes = countLeadingChars(s, '1')
s = base256encode(base58decode(s))
result = '\0' * leadingOnes + s[:-4]
chk = s[-4:]
checksum = hashlib.sha256(hashlib.sha256(result).digest()).digest()[0:4]
assert(chk == checksum)
version = result[0]
return result[1:]
class TestUtils(unittest.TestCase):
def test_varint(self):
self.assertEqual(varint(0x42), '\x42')
self.assertEqual(varint(0x123), '\xfd\x23\x01')
self.assertEqual(varint(0x12345678), '\xfe\x78\x56\x34\x12')
self.assertEqual(processVarInt(varint(0x42)), [0x42, 1])
self.assertEqual(processVarInt(varint(0x1234)), [0x1234, 3])
def test_varstr(self):
self.assertEqual(varstr('abc'), '\x03abc')
self.assertEqual(processVarStr('\x03abc'), ['abc', 4])
def test_processAddr(self):
self.assertEqual(processAddr('x'*20 + '\x62\x91\x98\x16\x20\x8d'),
'98.145.152.22:8333')
def test_countLeadingCharacters(self):
self.assertEqual(countLeadingChars('a\0bcd\0', '\0'), 0)
self.assertEqual(countLeadingChars('\0\0a\0bcd\0', '\0'), 2)
self.assertEqual(countLeadingChars('1a\0bcd\0', '1'), 1)
def test_base256(self):
self.assertEqual(base256encode(base256decode('abc')), 'abc')
self.assertEqual(base256encode(0x4142), 'AB')
self.assertEqual(base256decode('AB'), 0x4142)
def test_base58(self):
self.assertEqual(base58encode(base58decode('abc')), 'abc')
self.assertEqual(base58decode('121'), 58)
self.assertEqual(base58decode('5HueCGU8rMjxEXxiPuD5BDku4MkFqeZyd4dZ1jvhTVqvbTLvyTJ'),
0x800C28FCA386C7A227600B2FE50B7CAE11EC86D3BF1FBE471BE89827E19D72AA1D507A5B8D)
def test_base58check(self):
self.assertEqual(base58CheckDecode(base58CheckEncode(42, 'abc')), 'abc')
self.assertEqual(base58CheckDecode(base58CheckEncode(0, '\0\0abc')), '\0\0abc')
s = base256encode(0x0C28FCA386C7A227600B2FE50B7CAE11EC86D3BF1FBE471BE89827E19D72AA1D)
b = base58CheckEncode(0x80, s)
self.assertEqual(b, "5HueCGU8rMjxEXxiPuD5BDku4MkFqeZyd4dZ1jvhTVqvbTLvyTJ")
if __name__ == '__main__':
unittest.main()