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271acac3a7
bd7e530f010d43816bb05d6f1590d1cd36cdaa2c This PR adds initial support for type hints checking in python scripts. (Kiminuo) Pull request description: This PR adds initial support for type hints checking in python scripts. Support for type hints was introduced in Python 3.5. Type hints make it easier to read and review code in my opinion. Also an IDE may discover a potential bug sooner. Yet, as PEP 484 says: "It should also be emphasized that Python will remain a dynamically typed language, and the authors have no desire to ever make type hints mandatory, even by convention." [Mypy](https://mypy.readthedocs.io/en/latest/index.html) is used in `lint-python.sh` to do the type checking. The package is standard so there is little chance that it will be abandoned. Mypy checks that type hints in source code are correct when they are not, it fails with an error. **Notes:** * [--ignore-missing-imports](https://mypy.readthedocs.io/en/latest/command_line.html#cmdoption-mypy-ignore-missing-imports) switch is passed on to `mypy` checker for now. The effect of this is that one does not need `# type: ignore` for `import zmq`. More information about import processing can be found [here](https://mypy.readthedocs.io/en/stable/running_mypy.html#missing-imports). This can be changed in a follow-up PR, if it is deemed useful. * We are stuck with Python 3.5 until 04/2021 (see https://packages.ubuntu.com/xenial/python3). When Python version is bumped to 3.6+, one can change: ```python _opcode_instances = [] # type: List[CScriptOp] ``` to ```python _opcode_instances:List[CScriptOp] = [] ``` for type hints that are **not** function parameters and function return types. **Useful resources:** * https://docs.python.org/3.5/library/typing.html * https://www.python.org/dev/peps/pep-0484/ ACKs for top commit: fanquake: ACK bd7e530f010d43816bb05d6f1590d1cd36cdaa2c - the type checking is not the most robust (there are things it fails to detect), but I think this is worth adopting (in a limited capacity while we maintain 3.5 compat). MarcoFalke: ACK bd7e530f010d43816bb05d6f1590d1cd36cdaa2c fine with me Tree-SHA512: 21ef213915fb1dec6012f59ef17484e6c9e0abf542a316b63d5f21a7778ad5ebabf8961ef5fc8e5414726c2ee9c6ae07c7353fb4dd337f8fcef5791199c8987a
696 lines
20 KiB
Python
696 lines
20 KiB
Python
#!/usr/bin/env python3
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# Copyright (c) 2015-2020 The Bitcoin Core developers
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# Distributed under the MIT software license, see the accompanying
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# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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"""Functionality to build scripts, as well as SignatureHash().
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This file is modified from python-bitcoinlib.
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"""
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import struct
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import unittest
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from typing import List, Dict
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from .messages import (
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CTransaction,
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CTxOut,
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hash256,
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sha256,
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)
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from .ripemd160 import ripemd160
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MAX_SCRIPT_ELEMENT_SIZE = 520
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OPCODE_NAMES = {} # type: Dict[CScriptOp, str]
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def hash160(s):
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return ripemd160(sha256(s))
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def bn2vch(v):
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"""Convert number to bitcoin-specific little endian format."""
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# We need v.bit_length() bits, plus a sign bit for every nonzero number.
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n_bits = v.bit_length() + (v != 0)
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# The number of bytes for that is:
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n_bytes = (n_bits + 7) // 8
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# Convert number to absolute value + sign in top bit.
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encoded_v = 0 if v == 0 else abs(v) | ((v < 0) << (n_bytes * 8 - 1))
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# Serialize to bytes
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return encoded_v.to_bytes(n_bytes, 'little')
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_opcode_instances = [] # type: List[CScriptOp]
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class CScriptOp(int):
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"""A single script opcode"""
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__slots__ = ()
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@staticmethod
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def encode_op_pushdata(d):
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"""Encode a PUSHDATA op, returning bytes"""
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if len(d) < 0x4c:
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return b'' + bytes([len(d)]) + d # OP_PUSHDATA
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elif len(d) <= 0xff:
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return b'\x4c' + bytes([len(d)]) + d # OP_PUSHDATA1
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elif len(d) <= 0xffff:
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return b'\x4d' + struct.pack(b'<H', len(d)) + d # OP_PUSHDATA2
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elif len(d) <= 0xffffffff:
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return b'\x4e' + struct.pack(b'<I', len(d)) + d # OP_PUSHDATA4
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else:
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raise ValueError("Data too long to encode in a PUSHDATA op")
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@staticmethod
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def encode_op_n(n):
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"""Encode a small integer op, returning an opcode"""
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if not (0 <= n <= 16):
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raise ValueError('Integer must be in range 0 <= n <= 16, got %d' % n)
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if n == 0:
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return OP_0
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else:
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return CScriptOp(OP_1 + n - 1)
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def decode_op_n(self):
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"""Decode a small integer opcode, returning an integer"""
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if self == OP_0:
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return 0
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if not (self == OP_0 or OP_1 <= self <= OP_16):
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raise ValueError('op %r is not an OP_N' % self)
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return int(self - OP_1 + 1)
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def is_small_int(self):
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"""Return true if the op pushes a small integer to the stack"""
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if 0x51 <= self <= 0x60 or self == 0:
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return True
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else:
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return False
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def __str__(self):
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return repr(self)
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def __repr__(self):
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if self in OPCODE_NAMES:
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return OPCODE_NAMES[self]
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else:
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return 'CScriptOp(0x%x)' % self
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def __new__(cls, n):
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try:
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return _opcode_instances[n]
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except IndexError:
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assert len(_opcode_instances) == n
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_opcode_instances.append(super().__new__(cls, n))
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return _opcode_instances[n]
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# Populate opcode instance table
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for n in range(0xff + 1):
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CScriptOp(n)
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# push value
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OP_0 = CScriptOp(0x00)
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OP_FALSE = OP_0
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OP_PUSHDATA1 = CScriptOp(0x4c)
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OP_PUSHDATA2 = CScriptOp(0x4d)
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OP_PUSHDATA4 = CScriptOp(0x4e)
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OP_1NEGATE = CScriptOp(0x4f)
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OP_RESERVED = CScriptOp(0x50)
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OP_1 = CScriptOp(0x51)
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OP_TRUE = OP_1
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OP_2 = CScriptOp(0x52)
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OP_3 = CScriptOp(0x53)
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OP_4 = CScriptOp(0x54)
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OP_5 = CScriptOp(0x55)
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OP_6 = CScriptOp(0x56)
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OP_7 = CScriptOp(0x57)
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OP_8 = CScriptOp(0x58)
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OP_9 = CScriptOp(0x59)
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OP_10 = CScriptOp(0x5a)
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OP_11 = CScriptOp(0x5b)
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OP_12 = CScriptOp(0x5c)
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OP_13 = CScriptOp(0x5d)
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OP_14 = CScriptOp(0x5e)
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OP_15 = CScriptOp(0x5f)
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OP_16 = CScriptOp(0x60)
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# control
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OP_NOP = CScriptOp(0x61)
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OP_VER = CScriptOp(0x62)
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OP_IF = CScriptOp(0x63)
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OP_NOTIF = CScriptOp(0x64)
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OP_VERIF = CScriptOp(0x65)
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OP_VERNOTIF = CScriptOp(0x66)
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OP_ELSE = CScriptOp(0x67)
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OP_ENDIF = CScriptOp(0x68)
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OP_VERIFY = CScriptOp(0x69)
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OP_RETURN = CScriptOp(0x6a)
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# stack ops
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OP_TOALTSTACK = CScriptOp(0x6b)
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OP_FROMALTSTACK = CScriptOp(0x6c)
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OP_2DROP = CScriptOp(0x6d)
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OP_2DUP = CScriptOp(0x6e)
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OP_3DUP = CScriptOp(0x6f)
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OP_2OVER = CScriptOp(0x70)
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OP_2ROT = CScriptOp(0x71)
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OP_2SWAP = CScriptOp(0x72)
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OP_IFDUP = CScriptOp(0x73)
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OP_DEPTH = CScriptOp(0x74)
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OP_DROP = CScriptOp(0x75)
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OP_DUP = CScriptOp(0x76)
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OP_NIP = CScriptOp(0x77)
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OP_OVER = CScriptOp(0x78)
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OP_PICK = CScriptOp(0x79)
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OP_ROLL = CScriptOp(0x7a)
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OP_ROT = CScriptOp(0x7b)
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OP_SWAP = CScriptOp(0x7c)
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OP_TUCK = CScriptOp(0x7d)
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# splice ops
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OP_CAT = CScriptOp(0x7e)
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OP_SPLIT = CScriptOp(0x7f)
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OP_SIZE = CScriptOp(0x82)
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# conversion ops
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OP_NUM2BIN = CScriptOp(0x80)
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OP_BIN2NUM = CScriptOp(0x81)
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# bit logic
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OP_INVERT = CScriptOp(0x83)
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OP_AND = CScriptOp(0x84)
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OP_OR = CScriptOp(0x85)
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OP_XOR = CScriptOp(0x86)
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OP_EQUAL = CScriptOp(0x87)
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OP_EQUALVERIFY = CScriptOp(0x88)
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OP_RESERVED1 = CScriptOp(0x89)
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OP_RESERVED2 = CScriptOp(0x8a)
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# numeric
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OP_1ADD = CScriptOp(0x8b)
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OP_1SUB = CScriptOp(0x8c)
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OP_2MUL = CScriptOp(0x8d)
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OP_2DIV = CScriptOp(0x8e)
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OP_NEGATE = CScriptOp(0x8f)
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OP_ABS = CScriptOp(0x90)
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OP_NOT = CScriptOp(0x91)
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OP_0NOTEQUAL = CScriptOp(0x92)
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OP_ADD = CScriptOp(0x93)
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OP_SUB = CScriptOp(0x94)
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OP_MUL = CScriptOp(0x95)
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OP_DIV = CScriptOp(0x96)
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OP_MOD = CScriptOp(0x97)
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OP_LSHIFT = CScriptOp(0x98)
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OP_RSHIFT = CScriptOp(0x99)
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OP_BOOLAND = CScriptOp(0x9a)
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OP_BOOLOR = CScriptOp(0x9b)
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OP_NUMEQUAL = CScriptOp(0x9c)
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OP_NUMEQUALVERIFY = CScriptOp(0x9d)
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OP_NUMNOTEQUAL = CScriptOp(0x9e)
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OP_LESSTHAN = CScriptOp(0x9f)
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OP_GREATERTHAN = CScriptOp(0xa0)
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OP_LESSTHANOREQUAL = CScriptOp(0xa1)
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OP_GREATERTHANOREQUAL = CScriptOp(0xa2)
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OP_MIN = CScriptOp(0xa3)
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OP_MAX = CScriptOp(0xa4)
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OP_WITHIN = CScriptOp(0xa5)
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# crypto
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OP_RIPEMD160 = CScriptOp(0xa6)
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OP_SHA1 = CScriptOp(0xa7)
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OP_SHA256 = CScriptOp(0xa8)
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OP_HASH160 = CScriptOp(0xa9)
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OP_HASH256 = CScriptOp(0xaa)
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OP_CODESEPARATOR = CScriptOp(0xab)
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OP_CHECKSIG = CScriptOp(0xac)
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OP_CHECKSIGVERIFY = CScriptOp(0xad)
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OP_CHECKMULTISIG = CScriptOp(0xae)
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OP_CHECKMULTISIGVERIFY = CScriptOp(0xaf)
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# expansion
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OP_NOP1 = CScriptOp(0xb0)
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OP_CHECKLOCKTIMEVERIFY = CScriptOp(0xb1)
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OP_CHECKSEQUENCEVERIFY = CScriptOp(0xb2)
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OP_NOP4 = CScriptOp(0xb3)
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OP_NOP5 = CScriptOp(0xb4)
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OP_NOP6 = CScriptOp(0xb5)
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OP_NOP7 = CScriptOp(0xb6)
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OP_NOP8 = CScriptOp(0xb7)
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OP_NOP9 = CScriptOp(0xb8)
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OP_NOP10 = CScriptOp(0xb9)
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# template matching params
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OP_SMALLINTEGER = CScriptOp(0xfa)
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OP_PUBKEYS = CScriptOp(0xfb)
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OP_PUBKEYHASH = CScriptOp(0xfd)
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OP_PUBKEY = CScriptOp(0xfe)
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OP_INVALIDOPCODE = CScriptOp(0xff)
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OPCODE_NAMES.update({
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OP_0: 'OP_0',
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OP_PUSHDATA1: 'OP_PUSHDATA1',
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OP_PUSHDATA2: 'OP_PUSHDATA2',
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OP_PUSHDATA4: 'OP_PUSHDATA4',
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OP_1NEGATE: 'OP_1NEGATE',
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OP_RESERVED: 'OP_RESERVED',
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OP_1: 'OP_1',
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OP_2: 'OP_2',
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OP_3: 'OP_3',
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OP_4: 'OP_4',
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OP_5: 'OP_5',
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OP_6: 'OP_6',
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OP_7: 'OP_7',
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OP_8: 'OP_8',
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OP_9: 'OP_9',
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OP_10: 'OP_10',
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OP_11: 'OP_11',
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OP_12: 'OP_12',
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OP_13: 'OP_13',
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OP_14: 'OP_14',
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OP_15: 'OP_15',
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OP_16: 'OP_16',
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OP_NOP: 'OP_NOP',
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OP_VER: 'OP_VER',
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OP_IF: 'OP_IF',
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OP_NOTIF: 'OP_NOTIF',
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OP_VERIF: 'OP_VERIF',
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OP_VERNOTIF: 'OP_VERNOTIF',
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OP_ELSE: 'OP_ELSE',
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OP_ENDIF: 'OP_ENDIF',
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OP_VERIFY: 'OP_VERIFY',
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OP_RETURN: 'OP_RETURN',
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OP_TOALTSTACK: 'OP_TOALTSTACK',
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OP_FROMALTSTACK: 'OP_FROMALTSTACK',
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OP_2DROP: 'OP_2DROP',
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OP_2DUP: 'OP_2DUP',
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OP_3DUP: 'OP_3DUP',
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OP_2OVER: 'OP_2OVER',
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OP_2ROT: 'OP_2ROT',
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OP_2SWAP: 'OP_2SWAP',
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OP_IFDUP: 'OP_IFDUP',
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OP_DEPTH: 'OP_DEPTH',
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OP_DROP: 'OP_DROP',
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OP_DUP: 'OP_DUP',
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OP_NIP: 'OP_NIP',
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OP_OVER: 'OP_OVER',
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OP_PICK: 'OP_PICK',
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OP_ROLL: 'OP_ROLL',
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OP_ROT: 'OP_ROT',
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OP_SWAP: 'OP_SWAP',
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OP_TUCK: 'OP_TUCK',
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OP_CAT: 'OP_CAT',
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OP_SPLIT: 'OP_SPLIT',
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OP_NUM2BIN: 'OP_NUM2BIN',
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OP_BIN2NUM: 'OP_BIN2NUM',
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OP_SIZE: 'OP_SIZE',
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OP_INVERT: 'OP_INVERT',
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OP_AND: 'OP_AND',
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OP_OR: 'OP_OR',
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OP_XOR: 'OP_XOR',
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OP_EQUAL: 'OP_EQUAL',
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OP_EQUALVERIFY: 'OP_EQUALVERIFY',
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OP_RESERVED1: 'OP_RESERVED1',
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OP_RESERVED2: 'OP_RESERVED2',
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OP_1ADD: 'OP_1ADD',
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OP_1SUB: 'OP_1SUB',
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OP_2MUL: 'OP_2MUL',
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OP_2DIV: 'OP_2DIV',
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OP_NEGATE: 'OP_NEGATE',
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OP_ABS: 'OP_ABS',
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OP_NOT: 'OP_NOT',
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OP_0NOTEQUAL: 'OP_0NOTEQUAL',
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OP_ADD: 'OP_ADD',
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OP_SUB: 'OP_SUB',
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OP_MUL: 'OP_MUL',
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OP_DIV: 'OP_DIV',
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OP_MOD: 'OP_MOD',
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OP_LSHIFT: 'OP_LSHIFT',
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OP_RSHIFT: 'OP_RSHIFT',
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OP_BOOLAND: 'OP_BOOLAND',
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OP_BOOLOR: 'OP_BOOLOR',
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OP_NUMEQUAL: 'OP_NUMEQUAL',
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OP_NUMEQUALVERIFY: 'OP_NUMEQUALVERIFY',
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OP_NUMNOTEQUAL: 'OP_NUMNOTEQUAL',
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OP_LESSTHAN: 'OP_LESSTHAN',
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OP_GREATERTHAN: 'OP_GREATERTHAN',
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OP_LESSTHANOREQUAL: 'OP_LESSTHANOREQUAL',
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OP_GREATERTHANOREQUAL: 'OP_GREATERTHANOREQUAL',
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OP_MIN: 'OP_MIN',
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OP_MAX: 'OP_MAX',
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OP_WITHIN: 'OP_WITHIN',
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OP_RIPEMD160: 'OP_RIPEMD160',
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OP_SHA1: 'OP_SHA1',
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OP_SHA256: 'OP_SHA256',
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OP_HASH160: 'OP_HASH160',
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OP_HASH256: 'OP_HASH256',
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OP_CODESEPARATOR: 'OP_CODESEPARATOR',
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OP_CHECKSIG: 'OP_CHECKSIG',
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OP_CHECKSIGVERIFY: 'OP_CHECKSIGVERIFY',
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OP_CHECKMULTISIG: 'OP_CHECKMULTISIG',
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OP_CHECKMULTISIGVERIFY: 'OP_CHECKMULTISIGVERIFY',
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OP_NOP1: 'OP_NOP1',
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OP_CHECKLOCKTIMEVERIFY: 'OP_CHECKLOCKTIMEVERIFY',
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OP_CHECKSEQUENCEVERIFY: 'OP_CHECKSEQUENCEVERIFY',
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OP_NOP4: 'OP_NOP4',
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OP_NOP5: 'OP_NOP5',
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OP_NOP6: 'OP_NOP6',
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OP_NOP7: 'OP_NOP7',
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OP_NOP8: 'OP_NOP8',
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OP_NOP9: 'OP_NOP9',
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OP_NOP10: 'OP_NOP10',
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OP_SMALLINTEGER: 'OP_SMALLINTEGER',
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OP_PUBKEYS: 'OP_PUBKEYS',
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OP_PUBKEYHASH: 'OP_PUBKEYHASH',
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OP_PUBKEY: 'OP_PUBKEY',
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OP_INVALIDOPCODE: 'OP_INVALIDOPCODE',
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})
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class CScriptInvalidError(Exception):
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"""Base class for CScript exceptions"""
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pass
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class CScriptTruncatedPushDataError(CScriptInvalidError):
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"""Invalid pushdata due to truncation"""
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def __init__(self, msg, data):
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self.data = data
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super().__init__(msg)
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# This is used, eg, for blockchain heights in coinbase scripts (bip34)
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class CScriptNum:
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__slots__ = ("value",)
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def __init__(self, d=0):
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self.value = d
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@staticmethod
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def encode(obj):
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r = bytearray(0)
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if obj.value == 0:
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return bytes(r)
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neg = obj.value < 0
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absvalue = -obj.value if neg else obj.value
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while (absvalue):
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r.append(absvalue & 0xff)
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absvalue >>= 8
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if r[-1] & 0x80:
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r.append(0x80 if neg else 0)
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elif neg:
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r[-1] |= 0x80
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return bytes([len(r)]) + r
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@staticmethod
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def decode(vch):
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result = 0
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# We assume valid push_size and minimal encoding
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value = vch[1:]
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if len(value) == 0:
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return result
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for i, byte in enumerate(value):
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result |= int(byte) << 8 * i
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if value[-1] >= 0x80:
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# Mask for all but the highest result bit
|
|
num_mask = (2**(len(value) * 8) - 1) >> 1
|
|
result &= num_mask
|
|
result *= -1
|
|
return result
|
|
|
|
|
|
class CScript(bytes):
|
|
"""Serialized script
|
|
|
|
A bytes subclass, so you can use this directly whenever bytes are accepted.
|
|
Note that this means that indexing does *not* work - you'll get an index by
|
|
byte rather than opcode. This format was chosen for efficiency so that the
|
|
general case would not require creating a lot of little CScriptOP objects.
|
|
|
|
iter(script) however does iterate by opcode.
|
|
"""
|
|
__slots__ = ()
|
|
|
|
@classmethod
|
|
def __coerce_instance(cls, other):
|
|
# Coerce other into bytes
|
|
if isinstance(other, CScriptOp):
|
|
other = bytes([other])
|
|
elif isinstance(other, CScriptNum):
|
|
if (other.value == 0):
|
|
other = bytes([CScriptOp(OP_0)])
|
|
else:
|
|
other = CScriptNum.encode(other)
|
|
elif isinstance(other, int):
|
|
if 0 <= other <= 16:
|
|
other = bytes([CScriptOp.encode_op_n(other)])
|
|
elif other == -1:
|
|
other = bytes([OP_1NEGATE])
|
|
else:
|
|
other = CScriptOp.encode_op_pushdata(bn2vch(other))
|
|
elif isinstance(other, (bytes, bytearray)):
|
|
other = CScriptOp.encode_op_pushdata(other)
|
|
return other
|
|
|
|
def __add__(self, other):
|
|
# add makes no sense for a CScript()
|
|
raise NotImplementedError
|
|
|
|
def join(self, iterable):
|
|
# join makes no sense for a CScript()
|
|
raise NotImplementedError
|
|
|
|
def __new__(cls, value=b''):
|
|
if isinstance(value, bytes) or isinstance(value, bytearray):
|
|
return super().__new__(cls, value)
|
|
else:
|
|
def coerce_iterable(iterable):
|
|
for instance in iterable:
|
|
yield cls.__coerce_instance(instance)
|
|
# Annoyingly on both python2 and python3 bytes.join() always
|
|
# returns a bytes instance even when subclassed.
|
|
return super().__new__(cls, b''.join(coerce_iterable(value)))
|
|
|
|
def raw_iter(self):
|
|
"""Raw iteration
|
|
|
|
Yields tuples of (opcode, data, sop_idx) so that the different possible
|
|
PUSHDATA encodings can be accurately distinguished, as well as
|
|
determining the exact opcode byte indexes. (sop_idx)
|
|
"""
|
|
i = 0
|
|
while i < len(self):
|
|
sop_idx = i
|
|
opcode = self[i]
|
|
i += 1
|
|
|
|
if opcode > OP_PUSHDATA4:
|
|
yield (opcode, None, sop_idx)
|
|
else:
|
|
datasize = None
|
|
pushdata_type = None
|
|
if opcode < OP_PUSHDATA1:
|
|
pushdata_type = 'PUSHDATA(%d)' % opcode
|
|
datasize = opcode
|
|
|
|
elif opcode == OP_PUSHDATA1:
|
|
pushdata_type = 'PUSHDATA1'
|
|
if i >= len(self):
|
|
raise CScriptInvalidError('PUSHDATA1: missing data length')
|
|
datasize = self[i]
|
|
i += 1
|
|
|
|
elif opcode == OP_PUSHDATA2:
|
|
pushdata_type = 'PUSHDATA2'
|
|
if i + 1 >= len(self):
|
|
raise CScriptInvalidError('PUSHDATA2: missing data length')
|
|
datasize = self[i] + (self[i + 1] << 8)
|
|
i += 2
|
|
|
|
elif opcode == OP_PUSHDATA4:
|
|
pushdata_type = 'PUSHDATA4'
|
|
if i + 3 >= len(self):
|
|
raise CScriptInvalidError('PUSHDATA4: missing data length')
|
|
datasize = self[i] + (self[i + 1] << 8) + (self[i + 2] << 16) + (self[i + 3] << 24)
|
|
i += 4
|
|
|
|
else:
|
|
assert False # shouldn't happen
|
|
|
|
data = bytes(self[i:i + datasize])
|
|
|
|
# Check for truncation
|
|
if len(data) < datasize:
|
|
raise CScriptTruncatedPushDataError('%s: truncated data' % pushdata_type, data)
|
|
|
|
i += datasize
|
|
|
|
yield (opcode, data, sop_idx)
|
|
|
|
def __iter__(self):
|
|
"""'Cooked' iteration
|
|
|
|
Returns either a CScriptOP instance, an integer, or bytes, as
|
|
appropriate.
|
|
|
|
See raw_iter() if you need to distinguish the different possible
|
|
PUSHDATA encodings.
|
|
"""
|
|
for (opcode, data, sop_idx) in self.raw_iter():
|
|
if data is not None:
|
|
yield data
|
|
else:
|
|
opcode = CScriptOp(opcode)
|
|
|
|
if opcode.is_small_int():
|
|
yield opcode.decode_op_n()
|
|
else:
|
|
yield CScriptOp(opcode)
|
|
|
|
def __repr__(self):
|
|
def _repr(o):
|
|
if isinstance(o, bytes):
|
|
return "x('%s')" % o.hex()
|
|
else:
|
|
return repr(o)
|
|
|
|
ops = []
|
|
i = iter(self)
|
|
while True:
|
|
op = None
|
|
try:
|
|
op = _repr(next(i))
|
|
except CScriptTruncatedPushDataError as err:
|
|
op = '%s...<ERROR: %s>' % (_repr(err.data), err)
|
|
break
|
|
except CScriptInvalidError as err:
|
|
op = '<ERROR: %s>' % err
|
|
break
|
|
except StopIteration:
|
|
break
|
|
finally:
|
|
if op is not None:
|
|
ops.append(op)
|
|
|
|
return "CScript([%s])" % ', '.join(ops)
|
|
|
|
def GetSigOpCount(self, fAccurate):
|
|
"""Get the SigOp count.
|
|
|
|
fAccurate - Accurately count CHECKMULTISIG, see BIP16 for details.
|
|
|
|
Note that this is consensus-critical.
|
|
"""
|
|
n = 0
|
|
lastOpcode = OP_INVALIDOPCODE
|
|
for (opcode, data, sop_idx) in self.raw_iter():
|
|
if opcode in (OP_CHECKSIG, OP_CHECKSIGVERIFY):
|
|
n += 1
|
|
elif opcode in (OP_CHECKMULTISIG, OP_CHECKMULTISIGVERIFY):
|
|
if fAccurate and (OP_1 <= lastOpcode <= OP_16):
|
|
n += opcode.decode_op_n()
|
|
else:
|
|
n += 20
|
|
lastOpcode = opcode
|
|
return n
|
|
|
|
|
|
SIGHASH_ALL = 1
|
|
SIGHASH_NONE = 2
|
|
SIGHASH_SINGLE = 3
|
|
SIGHASH_ANYONECANPAY = 0x80
|
|
|
|
def FindAndDelete(script, sig):
|
|
"""Consensus critical, see FindAndDelete() in Satoshi codebase"""
|
|
r = b''
|
|
last_sop_idx = sop_idx = 0
|
|
skip = True
|
|
for (opcode, data, sop_idx) in script.raw_iter():
|
|
if not skip:
|
|
r += script[last_sop_idx:sop_idx]
|
|
last_sop_idx = sop_idx
|
|
if script[sop_idx:sop_idx + len(sig)] == sig:
|
|
skip = True
|
|
else:
|
|
skip = False
|
|
if not skip:
|
|
r += script[last_sop_idx:]
|
|
return CScript(r)
|
|
|
|
|
|
def SignatureHash(script, txTo, inIdx, hashtype):
|
|
"""Consensus-correct SignatureHash
|
|
|
|
Returns (hash, err) to precisely match the consensus-critical behavior of
|
|
the SIGHASH_SINGLE bug. (inIdx is *not* checked for validity)
|
|
"""
|
|
HASH_ONE = b'\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00'
|
|
|
|
if inIdx >= len(txTo.vin):
|
|
return (HASH_ONE, "inIdx %d out of range (%d)" % (inIdx, len(txTo.vin)))
|
|
txtmp = CTransaction(txTo)
|
|
|
|
for txin in txtmp.vin:
|
|
txin.scriptSig = b''
|
|
txtmp.vin[inIdx].scriptSig = FindAndDelete(script, CScript([OP_CODESEPARATOR]))
|
|
|
|
if (hashtype & 0x1f) == SIGHASH_NONE:
|
|
txtmp.vout = []
|
|
|
|
for i in range(len(txtmp.vin)):
|
|
if i != inIdx:
|
|
txtmp.vin[i].nSequence = 0
|
|
|
|
elif (hashtype & 0x1f) == SIGHASH_SINGLE:
|
|
outIdx = inIdx
|
|
if outIdx >= len(txtmp.vout):
|
|
return (HASH_ONE, "outIdx %d out of range (%d)" % (outIdx, len(txtmp.vout)))
|
|
|
|
tmp = txtmp.vout[outIdx]
|
|
txtmp.vout = []
|
|
for i in range(outIdx):
|
|
txtmp.vout.append(CTxOut(-1))
|
|
txtmp.vout.append(tmp)
|
|
|
|
for i in range(len(txtmp.vin)):
|
|
if i != inIdx:
|
|
txtmp.vin[i].nSequence = 0
|
|
|
|
if hashtype & SIGHASH_ANYONECANPAY:
|
|
tmp = txtmp.vin[inIdx]
|
|
txtmp.vin = []
|
|
txtmp.vin.append(tmp)
|
|
|
|
s = txtmp.serialize()
|
|
s += struct.pack(b"<I", hashtype)
|
|
|
|
hash = hash256(s)
|
|
|
|
return (hash, None)
|
|
|
|
class TestFrameworkScript(unittest.TestCase):
|
|
def test_bn2vch(self):
|
|
self.assertEqual(bn2vch(0), bytes([]))
|
|
self.assertEqual(bn2vch(1), bytes([0x01]))
|
|
self.assertEqual(bn2vch(-1), bytes([0x81]))
|
|
self.assertEqual(bn2vch(0x7F), bytes([0x7F]))
|
|
self.assertEqual(bn2vch(-0x7F), bytes([0xFF]))
|
|
self.assertEqual(bn2vch(0x80), bytes([0x80, 0x00]))
|
|
self.assertEqual(bn2vch(-0x80), bytes([0x80, 0x80]))
|
|
self.assertEqual(bn2vch(0xFF), bytes([0xFF, 0x00]))
|
|
self.assertEqual(bn2vch(-0xFF), bytes([0xFF, 0x80]))
|
|
self.assertEqual(bn2vch(0x100), bytes([0x00, 0x01]))
|
|
self.assertEqual(bn2vch(-0x100), bytes([0x00, 0x81]))
|
|
self.assertEqual(bn2vch(0x7FFF), bytes([0xFF, 0x7F]))
|
|
self.assertEqual(bn2vch(-0x8000), bytes([0x00, 0x80, 0x80]))
|
|
self.assertEqual(bn2vch(-0x7FFFFF), bytes([0xFF, 0xFF, 0xFF]))
|
|
self.assertEqual(bn2vch(0x80000000), bytes([0x00, 0x00, 0x00, 0x80, 0x00]))
|
|
self.assertEqual(bn2vch(-0x80000000), bytes([0x00, 0x00, 0x00, 0x80, 0x80]))
|
|
self.assertEqual(bn2vch(0xFFFFFFFF), bytes([0xFF, 0xFF, 0xFF, 0xFF, 0x00]))
|
|
self.assertEqual(bn2vch(123456789), bytes([0x15, 0xCD, 0x5B, 0x07]))
|
|
self.assertEqual(bn2vch(-54321), bytes([0x31, 0xD4, 0x80]))
|
|
|
|
def test_cscriptnum_encoding(self):
|
|
# round-trip negative and multi-byte CScriptNums
|
|
values = [0, 1, -1, -2, 127, 128, -255, 256, (1 << 15) - 1, -(1 << 16), (1 << 24) - 1, (1 << 31), 1 - (1 << 32), 1 << 40, 1500, -1500]
|
|
for value in values:
|
|
self.assertEqual(CScriptNum.decode(CScriptNum.encode(CScriptNum(value))), value)
|