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dogecoin/test/functional/test_framework/segwit_addr.py
Ross Nicoll b2554af0df Bitcoin Core 0.21.2 release candidate 2 
Tree-SHA512: 7bcdf6c42ac75fb24df8d6b60bddcac5f14363a3f7dd89a239f798bb14b5c911c2d7535a0372c2998719d33a561d0d28b0b6764aaf1f2ec330d4035ce965997b
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Merge tag 'v0.21.2rc2' into 1.21-dev

Bitcoin Core 0.21.2 release candidate 2

Tree-SHA512: 7bcdf6c42ac75fb24df8d6b60bddcac5f14363a3f7dd89a239f798bb14b5c911c2d7535a0372c2998719d33a561d0d28b0b6764aaf1f2ec330d4035ce965997b
2021-09-03 13:40:49 +01:00

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#!/usr/bin/env python3
# Copyright (c) 2017 Pieter Wuille
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
"""Reference implementation for Bech32/Bech32m and segwit addresses."""
import unittest
from enum import Enum
CHARSET = "qpzry9x8gf2tvdw0s3jn54khce6mua7l"
BECH32_CONST = 1
BECH32M_CONST = 0x2bc830a3
class Encoding(Enum):
"""Enumeration type to list the various supported encodings."""
BECH32 = 1
BECH32M = 2
def bech32_polymod(values):
"""Internal function that computes the Bech32 checksum."""
generator = [0x3b6a57b2, 0x26508e6d, 0x1ea119fa, 0x3d4233dd, 0x2a1462b3]
chk = 1
for value in values:
top = chk >> 25
chk = (chk & 0x1ffffff) << 5 ^ value
for i in range(5):
chk ^= generator[i] if ((top >> i) & 1) else 0
return chk
def bech32_hrp_expand(hrp):
"""Expand the HRP into values for checksum computation."""
return [ord(x) >> 5 for x in hrp] + [0] + [ord(x) & 31 for x in hrp]
def bech32_verify_checksum(hrp, data):
"""Verify a checksum given HRP and converted data characters."""
check = bech32_polymod(bech32_hrp_expand(hrp) + data)
if check == BECH32_CONST:
return Encoding.BECH32
elif check == BECH32M_CONST:
return Encoding.BECH32M
else:
return None
def bech32_create_checksum(encoding, hrp, data):
"""Compute the checksum values given HRP and data."""
values = bech32_hrp_expand(hrp) + data
const = BECH32M_CONST if encoding == Encoding.BECH32M else BECH32_CONST
polymod = bech32_polymod(values + [0, 0, 0, 0, 0, 0]) ^ const
return [(polymod >> 5 * (5 - i)) & 31 for i in range(6)]
def bech32_encode(encoding, hrp, data):
"""Compute a Bech32 or Bech32m string given HRP and data values."""
combined = data + bech32_create_checksum(encoding, hrp, data)
return hrp + '1' + ''.join([CHARSET[d] for d in combined])
def bech32_decode(bech):
"""Validate a Bech32/Bech32m string, and determine HRP and data."""
if ((any(ord(x) < 33 or ord(x) > 126 for x in bech)) or
(bech.lower() != bech and bech.upper() != bech)):
return (None, None, None)
bech = bech.lower()
pos = bech.rfind('1')
if pos < 1 or pos + 7 > len(bech) or len(bech) > 90:
return (None, None, None)
if not all(x in CHARSET for x in bech[pos+1:]):
return (None, None, None)
hrp = bech[:pos]
data = [CHARSET.find(x) for x in bech[pos+1:]]
encoding = bech32_verify_checksum(hrp, data)
if encoding is None:
return (None, None, None)
return (encoding, hrp, data[:-6])
def convertbits(data, frombits, tobits, pad=True):
"""General power-of-2 base conversion."""
acc = 0
bits = 0
ret = []
maxv = (1 << tobits) - 1
max_acc = (1 << (frombits + tobits - 1)) - 1
for value in data:
if value < 0 or (value >> frombits):
return None
acc = ((acc << frombits) | value) & max_acc
bits += frombits
while bits >= tobits:
bits -= tobits
ret.append((acc >> bits) & maxv)
if pad:
if bits:
ret.append((acc << (tobits - bits)) & maxv)
elif bits >= frombits or ((acc << (tobits - bits)) & maxv):
return None
return ret
def decode_segwit_address(hrp, addr):
"""Decode a segwit address."""
encoding, hrpgot, data = bech32_decode(addr)
if hrpgot != hrp:
return (None, None)
decoded = convertbits(data[1:], 5, 8, False)
if decoded is None or len(decoded) < 2 or len(decoded) > 40:
return (None, None)
if data[0] > 16:
return (None, None)
if data[0] == 0 and len(decoded) != 20 and len(decoded) != 32:
return (None, None)
if (data[0] == 0 and encoding != Encoding.BECH32) or (data[0] != 0 and encoding != Encoding.BECH32M):
return (None, None)
return (data[0], decoded)
def encode_segwit_address(hrp, witver, witprog):
"""Encode a segwit address."""
encoding = Encoding.BECH32 if witver == 0 else Encoding.BECH32M
ret = bech32_encode(encoding, hrp, [witver] + convertbits(witprog, 8, 5))
if decode_segwit_address(hrp, ret) == (None, None):
return None
return ret
class TestFrameworkScript(unittest.TestCase):
def test_segwit_encode_decode(self):
def test_python_bech32(addr):
hrp = addr[:4]
self.assertEqual(hrp, "dcrt")
(witver, witprog) = decode_segwit_address(hrp, addr)
self.assertEqual(encode_segwit_address(hrp, witver, witprog), addr)
# P2WPKH
test_python_bech32('dcrt1qthmht0k2qnh3wy7336z05lu2km7emzfp7a0j9y')
# P2WSH
test_python_bech32('dcrt1qqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqtlqpp6')
test_python_bech32('dcrt1qft5p2uhsdcdc3l2ua4ap5qqfg4pjaqlp250x7us7a8qqhrxrxfsq2qpqzu')
# P2TR
test_python_bech32('dcrt1p0xlxvlhemja6c4dqv22uapctqupfhlxm9h8z3k2e72q4k9hcz7vqz75rcj')
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