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1506 lines
86 KiB
1506 lines
86 KiB
3 years ago
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#!/usr/bin/env python3
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# Copyright (c) 2019-2020 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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# Test Taproot softfork (BIPs 340-342)
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from test_framework.blocktools import (
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COINBASE_MATURITY,
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create_coinbase,
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create_block,
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add_witness_commitment,
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MAX_BLOCK_SIGOPS_WEIGHT,
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NORMAL_GBT_REQUEST_PARAMS,
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WITNESS_SCALE_FACTOR,
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)
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from test_framework.messages import (
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COutPoint,
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CTransaction,
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CTxIn,
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CTxInWitness,
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CTxOut,
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)
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from test_framework.script import (
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ANNEX_TAG,
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CScript,
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CScriptNum,
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CScriptOp,
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LEAF_VERSION_TAPSCRIPT,
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LegacySignatureHash,
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LOCKTIME_THRESHOLD,
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MAX_SCRIPT_ELEMENT_SIZE,
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OP_0,
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OP_1,
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OP_2,
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OP_3,
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OP_4,
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OP_5,
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OP_6,
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OP_7,
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OP_8,
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OP_9,
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OP_10,
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OP_11,
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OP_12,
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OP_16,
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OP_2DROP,
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OP_2DUP,
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OP_CHECKMULTISIG,
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OP_CHECKMULTISIGVERIFY,
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OP_CHECKSIG,
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OP_CHECKSIGADD,
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OP_CHECKSIGVERIFY,
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OP_CODESEPARATOR,
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OP_DROP,
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OP_DUP,
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OP_ELSE,
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OP_ENDIF,
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OP_EQUAL,
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OP_EQUALVERIFY,
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OP_IF,
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OP_NOP,
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OP_NOT,
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OP_NOTIF,
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OP_PUSHDATA1,
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OP_RETURN,
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OP_SWAP,
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OP_VERIFY,
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SIGHASH_DEFAULT,
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SIGHASH_ALL,
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SIGHASH_NONE,
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SIGHASH_SINGLE,
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SIGHASH_ANYONECANPAY,
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SegwitV0SignatureHash,
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TaprootSignatureHash,
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is_op_success,
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taproot_construct,
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)
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from test_framework.script_util import (
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key_to_p2wpkh_script,
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keyhash_to_p2pkh_script,
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script_to_p2sh_script,
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script_to_p2wsh_script,
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)
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from test_framework.test_framework import BitcoinTestFramework
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from test_framework.util import assert_raises_rpc_error, assert_equal
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from test_framework.key import generate_privkey, compute_xonly_pubkey, sign_schnorr, tweak_add_privkey, ECKey
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from test_framework.address import (
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hash160,
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)
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from collections import OrderedDict, namedtuple
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from io import BytesIO
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import json
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import hashlib
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import os
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import random
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# === Framework for building spending transactions. ===
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#
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# The computation is represented as a "context" dict, whose entries store potentially-unevaluated expressions that
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# refer to lower-level ones. By overwriting these expression, many aspects - both high and low level - of the signing
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# process can be overridden.
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#
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# Specifically, a context object is a dict that maps names to compositions of:
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# - values
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# - lists of values
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# - callables which, when fed the context object as argument, produce any of these
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#
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# The DEFAULT_CONTEXT object specifies a standard signing process, with many overridable knobs.
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#
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# The get(ctx, name) function can evaluate a name, and cache its result in the context.
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# getter(name) can be used to construct a callable that evaluates name. For example:
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#
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# ctx1 = {**DEFAULT_CONTEXT, inputs=[getter("sign"), b'\x01']}
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#
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# creates a context where the script inputs are a signature plus the bytes 0x01.
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#
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# override(expr, name1=expr1, name2=expr2, ...) can be used to cause an expression to be evaluated in a selectively
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# modified context. For example:
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#
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# ctx2 = {**DEFAULT_CONTEXT, sighash=override(default_sighash, hashtype=SIGHASH_DEFAULT)}
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#
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# creates a context ctx2 where the sighash is modified to use hashtype=SIGHASH_DEFAULT. This differs from
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#
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# ctx3 = {**DEFAULT_CONTEXT, hashtype=SIGHASH_DEFAULT}
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#
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# in that ctx3 will globally use hashtype=SIGHASH_DEFAULT (including in the hashtype byte appended to the signature)
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# while ctx2 only uses the modified hashtype inside the sighash calculation.
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def deep_eval(ctx, expr):
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"""Recursively replace any callables c in expr (including inside lists) with c(ctx)."""
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while callable(expr):
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expr = expr(ctx)
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if isinstance(expr, list):
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expr = [deep_eval(ctx, x) for x in expr]
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return expr
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# Data type to represent fully-evaluated expressions in a context dict (so we can avoid reevaluating them).
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Final = namedtuple("Final", "value")
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def get(ctx, name):
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"""Evaluate name in context ctx."""
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assert name in ctx, "Missing '%s' in context" % name
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expr = ctx[name]
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if not isinstance(expr, Final):
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# Evaluate and cache the result.
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expr = Final(deep_eval(ctx, expr))
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ctx[name] = expr
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return expr.value
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def getter(name):
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"""Return a callable that evaluates name in its passed context."""
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return lambda ctx: get(ctx, name)
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def override(expr, **kwargs):
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"""Return a callable that evaluates expr in a modified context."""
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return lambda ctx: deep_eval({**ctx, **kwargs}, expr)
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# === Implementations for the various default expressions in DEFAULT_CONTEXT ===
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def default_hashtype(ctx):
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"""Default expression for "hashtype": SIGHASH_DEFAULT for taproot, SIGHASH_ALL otherwise."""
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mode = get(ctx, "mode")
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if mode == "taproot":
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return SIGHASH_DEFAULT
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else:
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return SIGHASH_ALL
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def default_tapleaf(ctx):
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"""Default expression for "tapleaf": looking up leaf in tap[2]."""
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return get(ctx, "tap").leaves[get(ctx, "leaf")]
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def default_script_taproot(ctx):
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"""Default expression for "script_taproot": tapleaf.script."""
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return get(ctx, "tapleaf").script
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def default_leafversion(ctx):
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"""Default expression for "leafversion": tapleaf.version"""
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return get(ctx, "tapleaf").version
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def default_negflag(ctx):
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"""Default expression for "negflag": tap.negflag."""
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return get(ctx, "tap").negflag
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def default_pubkey_internal(ctx):
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"""Default expression for "pubkey_internal": tap.internal_pubkey."""
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return get(ctx, "tap").internal_pubkey
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def default_merklebranch(ctx):
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"""Default expression for "merklebranch": tapleaf.merklebranch."""
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return get(ctx, "tapleaf").merklebranch
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def default_controlblock(ctx):
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"""Default expression for "controlblock": combine leafversion, negflag, pubkey_internal, merklebranch."""
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return bytes([get(ctx, "leafversion") + get(ctx, "negflag")]) + get(ctx, "pubkey_internal") + get(ctx, "merklebranch")
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def default_sighash(ctx):
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"""Default expression for "sighash": depending on mode, compute BIP341, BIP143, or legacy sighash."""
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tx = get(ctx, "tx")
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idx = get(ctx, "idx")
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hashtype = get(ctx, "hashtype_actual")
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mode = get(ctx, "mode")
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if mode == "taproot":
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# BIP341 signature hash
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utxos = get(ctx, "utxos")
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annex = get(ctx, "annex")
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if get(ctx, "leaf") is not None:
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codeseppos = get(ctx, "codeseppos")
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leaf_ver = get(ctx, "leafversion")
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script = get(ctx, "script_taproot")
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return TaprootSignatureHash(tx, utxos, hashtype, idx, scriptpath=True, script=script, leaf_ver=leaf_ver, codeseparator_pos=codeseppos, annex=annex)
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else:
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return TaprootSignatureHash(tx, utxos, hashtype, idx, scriptpath=False, annex=annex)
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elif mode == "witv0":
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# BIP143 signature hash
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scriptcode = get(ctx, "scriptcode")
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utxos = get(ctx, "utxos")
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return SegwitV0SignatureHash(scriptcode, tx, idx, hashtype, utxos[idx].nValue)
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else:
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# Pre-segwit signature hash
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scriptcode = get(ctx, "scriptcode")
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return LegacySignatureHash(scriptcode, tx, idx, hashtype)[0]
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def default_tweak(ctx):
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"""Default expression for "tweak": None if a leaf is specified, tap[0] otherwise."""
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if get(ctx, "leaf") is None:
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return get(ctx, "tap").tweak
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return None
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def default_key_tweaked(ctx):
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"""Default expression for "key_tweaked": key if tweak is None, tweaked with it otherwise."""
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key = get(ctx, "key")
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tweak = get(ctx, "tweak")
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if tweak is None:
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return key
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else:
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return tweak_add_privkey(key, tweak)
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def default_signature(ctx):
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"""Default expression for "signature": BIP340 signature or ECDSA signature depending on mode."""
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sighash = get(ctx, "sighash")
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if get(ctx, "mode") == "taproot":
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key = get(ctx, "key_tweaked")
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flip_r = get(ctx, "flag_flip_r")
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flip_p = get(ctx, "flag_flip_p")
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return sign_schnorr(key, sighash, flip_r=flip_r, flip_p=flip_p)
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else:
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key = get(ctx, "key")
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return key.sign_ecdsa(sighash)
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def default_hashtype_actual(ctx):
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"""Default expression for "hashtype_actual": hashtype, unless mismatching SIGHASH_SINGLE in taproot."""
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hashtype = get(ctx, "hashtype")
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mode = get(ctx, "mode")
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if mode != "taproot":
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return hashtype
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idx = get(ctx, "idx")
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tx = get(ctx, "tx")
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if hashtype & 3 == SIGHASH_SINGLE and idx >= len(tx.vout):
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return (hashtype & ~3) | SIGHASH_NONE
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return hashtype
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def default_bytes_hashtype(ctx):
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"""Default expression for "bytes_hashtype": bytes([hashtype_actual]) if not 0, b"" otherwise."""
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return bytes([x for x in [get(ctx, "hashtype_actual")] if x != 0])
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def default_sign(ctx):
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"""Default expression for "sign": concatenation of signature and bytes_hashtype."""
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return get(ctx, "signature") + get(ctx, "bytes_hashtype")
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def default_inputs_keypath(ctx):
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"""Default expression for "inputs_keypath": a signature."""
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return [get(ctx, "sign")]
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def default_witness_taproot(ctx):
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"""Default expression for "witness_taproot", consisting of inputs, script, control block, and annex as needed."""
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annex = get(ctx, "annex")
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suffix_annex = []
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if annex is not None:
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suffix_annex = [annex]
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if get(ctx, "leaf") is None:
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return get(ctx, "inputs_keypath") + suffix_annex
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else:
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return get(ctx, "inputs") + [bytes(get(ctx, "script_taproot")), get(ctx, "controlblock")] + suffix_annex
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def default_witness_witv0(ctx):
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"""Default expression for "witness_witv0", consisting of inputs and witness script, as needed."""
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script = get(ctx, "script_witv0")
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inputs = get(ctx, "inputs")
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if script is None:
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return inputs
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else:
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return inputs + [script]
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def default_witness(ctx):
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"""Default expression for "witness", delegating to "witness_taproot" or "witness_witv0" as needed."""
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mode = get(ctx, "mode")
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if mode == "taproot":
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return get(ctx, "witness_taproot")
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elif mode == "witv0":
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return get(ctx, "witness_witv0")
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else:
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return []
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def default_scriptsig(ctx):
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"""Default expression for "scriptsig", consisting of inputs and redeemscript, as needed."""
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scriptsig = []
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mode = get(ctx, "mode")
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if mode == "legacy":
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scriptsig = get(ctx, "inputs")
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redeemscript = get(ctx, "script_p2sh")
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if redeemscript is not None:
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scriptsig += [bytes(redeemscript)]
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return scriptsig
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# The default context object.
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DEFAULT_CONTEXT = {
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# == The main expressions to evaluate. Only override these for unusual or invalid spends. ==
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# The overall witness stack, as a list of bytes objects.
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"witness": default_witness,
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# The overall scriptsig, as a list of CScript objects (to be concatenated) and bytes objects (to be pushed)
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"scriptsig": default_scriptsig,
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# == Expressions you'll generally only override for intentionally invalid spends. ==
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# The witness stack for spending a taproot output.
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"witness_taproot": default_witness_taproot,
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# The witness stack for spending a P2WPKH/P2WSH output.
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"witness_witv0": default_witness_witv0,
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# The script inputs for a taproot key path spend.
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"inputs_keypath": default_inputs_keypath,
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# The actual hashtype to use (usually equal to hashtype, but in taproot SIGHASH_SINGLE is not always allowed).
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"hashtype_actual": default_hashtype_actual,
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# The bytes object for a full signature (including hashtype byte, if needed).
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"bytes_hashtype": default_bytes_hashtype,
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# A full script signature (bytes including hashtype, if needed)
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"sign": default_sign,
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# An ECDSA or Schnorr signature (excluding hashtype byte).
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"signature": default_signature,
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# The 32-byte tweaked key (equal to key for script path spends, or key+tweak for key path spends).
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"key_tweaked": default_key_tweaked,
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# The tweak to use (None for script path spends, the actual tweak for key path spends).
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"tweak": default_tweak,
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# The sighash value (32 bytes)
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"sighash": default_sighash,
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# The information about the chosen script path spend (TaprootLeafInfo object).
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||
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"tapleaf": default_tapleaf,
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# The script to push, and include in the sighash, for a taproot script path spend.
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||
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"script_taproot": default_script_taproot,
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||
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# The internal pubkey for a taproot script path spend (32 bytes).
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||
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"pubkey_internal": default_pubkey_internal,
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# The negation flag of the internal pubkey for a taproot script path spend.
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"negflag": default_negflag,
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# The leaf version to include in the sighash (this does not affect the one in the control block).
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||
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"leafversion": default_leafversion,
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# The Merkle path to include in the control block for a script path spend.
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||
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"merklebranch": default_merklebranch,
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||
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# The control block to push for a taproot script path spend.
|
||
|
"controlblock": default_controlblock,
|
||
|
# Whether to produce signatures with invalid P sign (Schnorr signatures only).
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||
|
"flag_flip_p": False,
|
||
|
# Whether to produce signatures with invalid R sign (Schnorr signatures only).
|
||
|
"flag_flip_r": False,
|
||
|
|
||
|
# == Parameters that can be changed without invalidating, but do have a default: ==
|
||
|
# The hashtype (as an integer).
|
||
|
"hashtype": default_hashtype,
|
||
|
# The annex (only when mode=="taproot").
|
||
|
"annex": None,
|
||
|
# The codeseparator position (only when mode=="taproot").
|
||
|
"codeseppos": -1,
|
||
|
# The redeemscript to add to the scriptSig (if P2SH; None implies not P2SH).
|
||
|
"script_p2sh": None,
|
||
|
# The script to add to the witness in (if P2WSH; None implies P2WPKH)
|
||
|
"script_witv0": None,
|
||
|
# The leaf to use in taproot spends (if script path spend; None implies key path spend).
|
||
|
"leaf": None,
|
||
|
# The input arguments to provide to the executed script
|
||
|
"inputs": [],
|
||
|
|
||
|
# == Parameters to be set before evaluation: ==
|
||
|
# - mode: what spending style to use ("taproot", "witv0", or "legacy").
|
||
|
# - key: the (untweaked) private key to sign with (ECKey object for ECDSA, 32 bytes for Schnorr).
|
||
|
# - tap: the TaprootInfo object (see taproot_construct; needed in mode=="taproot").
|
||
|
# - tx: the transaction to sign.
|
||
|
# - utxos: the UTXOs being spent (needed in mode=="witv0" and mode=="taproot").
|
||
|
# - idx: the input position being signed.
|
||
|
# - scriptcode: the scriptcode to include in legacy and witv0 sighashes.
|
||
|
}
|
||
|
|
||
|
def flatten(lst):
|
||
|
ret = []
|
||
|
for elem in lst:
|
||
|
if isinstance(elem, list):
|
||
|
ret += flatten(elem)
|
||
|
else:
|
||
|
ret.append(elem)
|
||
|
return ret
|
||
|
|
||
|
def spend(tx, idx, utxos, **kwargs):
|
||
|
"""Sign transaction input idx of tx, provided utxos is the list of outputs being spent.
|
||
|
|
||
|
Additional arguments may be provided that override any aspect of the signing process.
|
||
|
See DEFAULT_CONTEXT above for what can be overridden, and what must be provided.
|
||
|
"""
|
||
|
|
||
|
ctx = {**DEFAULT_CONTEXT, "tx":tx, "idx":idx, "utxos":utxos, **kwargs}
|
||
|
|
||
|
def to_script(elem):
|
||
|
"""If fed a CScript, return it; if fed bytes, return a CScript that pushes it."""
|
||
|
if isinstance(elem, CScript):
|
||
|
return elem
|
||
|
else:
|
||
|
return CScript([elem])
|
||
|
|
||
|
scriptsig_list = flatten(get(ctx, "scriptsig"))
|
||
|
scriptsig = CScript(b"".join(bytes(to_script(elem)) for elem in scriptsig_list))
|
||
|
witness_stack = flatten(get(ctx, "witness"))
|
||
|
return (scriptsig, witness_stack)
|
||
|
|
||
|
|
||
|
# === Spender objects ===
|
||
|
#
|
||
|
# Each spender is a tuple of:
|
||
|
# - A scriptPubKey which is to be spent from (CScript)
|
||
|
# - A comment describing the test (string)
|
||
|
# - Whether the spending (on itself) is expected to be standard (bool)
|
||
|
# - A tx-signing lambda returning (scriptsig, witness_stack), taking as inputs:
|
||
|
# - A transaction to sign (CTransaction)
|
||
|
# - An input position (int)
|
||
|
# - The spent UTXOs by this transaction (list of CTxOut)
|
||
|
# - Whether to produce a valid spend (bool)
|
||
|
# - A string with an expected error message for failure case if known
|
||
|
# - The (pre-taproot) sigops weight consumed by a successful spend
|
||
|
# - Whether this spend cannot fail
|
||
|
# - Whether this test demands being placed in a txin with no corresponding txout (for testing SIGHASH_SINGLE behavior)
|
||
|
|
||
|
Spender = namedtuple("Spender", "script,comment,is_standard,sat_function,err_msg,sigops_weight,no_fail,need_vin_vout_mismatch")
|
||
|
|
||
|
def make_spender(comment, *, tap=None, witv0=False, script=None, pkh=None, p2sh=False, spk_mutate_pre_p2sh=None, failure=None, standard=True, err_msg=None, sigops_weight=0, need_vin_vout_mismatch=False, **kwargs):
|
||
|
"""Helper for constructing Spender objects using the context signing framework.
|
||
|
|
||
|
* tap: a TaprootInfo object (see taproot_construct), for Taproot spends (cannot be combined with pkh, witv0, or script)
|
||
|
* witv0: boolean indicating the use of witness v0 spending (needs one of script or pkh)
|
||
|
* script: the actual script executed (for bare/P2WSH/P2SH spending)
|
||
|
* pkh: the public key for P2PKH or P2WPKH spending
|
||
|
* p2sh: whether the output is P2SH wrapper (this is supported even for Taproot, where it makes the output unencumbered)
|
||
|
* spk_mutate_pre_psh: a callable to be applied to the script (before potentially P2SH-wrapping it)
|
||
|
* failure: a dict of entries to override in the context when intentionally failing to spend (if None, no_fail will be set)
|
||
|
* standard: whether the (valid version of) spending is expected to be standard
|
||
|
* err_msg: a string with an expected error message for failure (or None, if not cared about)
|
||
|
* sigops_weight: the pre-taproot sigops weight consumed by a successful spend
|
||
|
* need_vin_vout_mismatch: whether this test requires being tested in a transaction input that has no corresponding
|
||
|
transaction output.
|
||
|
"""
|
||
|
|
||
|
conf = dict()
|
||
|
|
||
|
# Compute scriptPubKey and set useful defaults based on the inputs.
|
||
|
if witv0:
|
||
|
assert tap is None
|
||
|
conf["mode"] = "witv0"
|
||
|
if pkh is not None:
|
||
|
# P2WPKH
|
||
|
assert script is None
|
||
|
pubkeyhash = hash160(pkh)
|
||
|
spk = key_to_p2wpkh_script(pkh)
|
||
|
conf["scriptcode"] = keyhash_to_p2pkh_script(pubkeyhash)
|
||
|
conf["script_witv0"] = None
|
||
|
conf["inputs"] = [getter("sign"), pkh]
|
||
|
elif script is not None:
|
||
|
# P2WSH
|
||
|
spk = script_to_p2wsh_script(script)
|
||
|
conf["scriptcode"] = script
|
||
|
conf["script_witv0"] = script
|
||
|
else:
|
||
|
assert False
|
||
|
elif tap is None:
|
||
|
conf["mode"] = "legacy"
|
||
|
if pkh is not None:
|
||
|
# P2PKH
|
||
|
assert script is None
|
||
|
pubkeyhash = hash160(pkh)
|
||
|
spk = keyhash_to_p2pkh_script(pubkeyhash)
|
||
|
conf["scriptcode"] = spk
|
||
|
conf["inputs"] = [getter("sign"), pkh]
|
||
|
elif script is not None:
|
||
|
# bare
|
||
|
spk = script
|
||
|
conf["scriptcode"] = script
|
||
|
else:
|
||
|
assert False
|
||
|
else:
|
||
|
assert script is None
|
||
|
conf["mode"] = "taproot"
|
||
|
conf["tap"] = tap
|
||
|
spk = tap.scriptPubKey
|
||
|
|
||
|
if spk_mutate_pre_p2sh is not None:
|
||
|
spk = spk_mutate_pre_p2sh(spk)
|
||
|
|
||
|
if p2sh:
|
||
|
# P2SH wrapper can be combined with anything else
|
||
|
conf["script_p2sh"] = spk
|
||
|
spk = script_to_p2sh_script(spk)
|
||
|
|
||
|
conf = {**conf, **kwargs}
|
||
|
|
||
|
def sat_fn(tx, idx, utxos, valid):
|
||
|
if valid:
|
||
|
return spend(tx, idx, utxos, **conf)
|
||
|
else:
|
||
|
assert failure is not None
|
||
|
return spend(tx, idx, utxos, **{**conf, **failure})
|
||
|
|
||
|
return Spender(script=spk, comment=comment, is_standard=standard, sat_function=sat_fn, err_msg=err_msg, sigops_weight=sigops_weight, no_fail=failure is None, need_vin_vout_mismatch=need_vin_vout_mismatch)
|
||
|
|
||
|
def add_spender(spenders, *args, **kwargs):
|
||
|
"""Make a spender using make_spender, and add it to spenders."""
|
||
|
spenders.append(make_spender(*args, **kwargs))
|
||
|
|
||
|
# === Helpers for the test ===
|
||
|
|
||
|
def random_checksig_style(pubkey):
|
||
|
"""Creates a random CHECKSIG* tapscript that would succeed with only the valid signature on witness stack."""
|
||
|
opcode = random.choice([OP_CHECKSIG, OP_CHECKSIGVERIFY, OP_CHECKSIGADD])
|
||
|
if opcode == OP_CHECKSIGVERIFY:
|
||
|
ret = CScript([pubkey, opcode, OP_1])
|
||
|
elif opcode == OP_CHECKSIGADD:
|
||
|
num = random.choice([0, 0x7fffffff, -0x7fffffff])
|
||
|
ret = CScript([num, pubkey, opcode, num + 1, OP_EQUAL])
|
||
|
else:
|
||
|
ret = CScript([pubkey, opcode])
|
||
|
return bytes(ret)
|
||
|
|
||
|
def random_bytes(n):
|
||
|
"""Return a random bytes object of length n."""
|
||
|
return bytes(random.getrandbits(8) for i in range(n))
|
||
|
|
||
|
def bitflipper(expr):
|
||
|
"""Return a callable that evaluates expr and returns it with a random bitflip."""
|
||
|
def fn(ctx):
|
||
|
sub = deep_eval(ctx, expr)
|
||
|
assert isinstance(sub, bytes)
|
||
|
return (int.from_bytes(sub, 'little') ^ (1 << random.randrange(len(sub) * 8))).to_bytes(len(sub), 'little')
|
||
|
return fn
|
||
|
|
||
|
def zero_appender(expr):
|
||
|
"""Return a callable that evaluates expr and returns it with a zero added."""
|
||
|
return lambda ctx: deep_eval(ctx, expr) + b"\x00"
|
||
|
|
||
|
def byte_popper(expr):
|
||
|
"""Return a callable that evaluates expr and returns it with its last byte removed."""
|
||
|
return lambda ctx: deep_eval(ctx, expr)[:-1]
|
||
|
|
||
|
# Expected error strings
|
||
|
|
||
|
ERR_SIG_SIZE = {"err_msg": "Invalid Schnorr signature size"}
|
||
|
ERR_SIG_HASHTYPE = {"err_msg": "Invalid Schnorr signature hash type"}
|
||
|
ERR_SIG_SCHNORR = {"err_msg": "Invalid Schnorr signature"}
|
||
|
ERR_OP_RETURN = {"err_msg": "OP_RETURN was encountered"}
|
||
|
ERR_CONTROLBLOCK_SIZE = {"err_msg": "Invalid Taproot control block size"}
|
||
|
ERR_WITNESS_PROGRAM_MISMATCH = {"err_msg": "Witness program hash mismatch"}
|
||
|
ERR_PUSH_LIMIT = {"err_msg": "Push value size limit exceeded"}
|
||
|
ERR_DISABLED_OPCODE = {"err_msg": "Attempted to use a disabled opcode"}
|
||
|
ERR_TAPSCRIPT_CHECKMULTISIG = {"err_msg": "OP_CHECKMULTISIG(VERIFY) is not available in tapscript"}
|
||
|
ERR_MINIMALIF = {"err_msg": "OP_IF/NOTIF argument must be minimal in tapscript"}
|
||
|
ERR_UNKNOWN_PUBKEY = {"err_msg": "Public key is neither compressed or uncompressed"}
|
||
|
ERR_STACK_SIZE = {"err_msg": "Stack size limit exceeded"}
|
||
|
ERR_CLEANSTACK = {"err_msg": "Stack size must be exactly one after execution"}
|
||
|
ERR_STACK_EMPTY = {"err_msg": "Operation not valid with the current stack size"}
|
||
|
ERR_SIGOPS_RATIO = {"err_msg": "Too much signature validation relative to witness weight"}
|
||
|
ERR_UNDECODABLE = {"err_msg": "Opcode missing or not understood"}
|
||
|
ERR_NO_SUCCESS = {"err_msg": "Script evaluated without error but finished with a false/empty top stack element"}
|
||
|
ERR_EMPTY_WITNESS = {"err_msg": "Witness program was passed an empty witness"}
|
||
|
ERR_CHECKSIGVERIFY = {"err_msg": "Script failed an OP_CHECKSIGVERIFY operation"}
|
||
|
|
||
|
VALID_SIGHASHES_ECDSA = [
|
||
|
SIGHASH_ALL,
|
||
|
SIGHASH_NONE,
|
||
|
SIGHASH_SINGLE,
|
||
|
SIGHASH_ANYONECANPAY + SIGHASH_ALL,
|
||
|
SIGHASH_ANYONECANPAY + SIGHASH_NONE,
|
||
|
SIGHASH_ANYONECANPAY + SIGHASH_SINGLE
|
||
|
]
|
||
|
|
||
|
VALID_SIGHASHES_TAPROOT = [SIGHASH_DEFAULT] + VALID_SIGHASHES_ECDSA
|
||
|
|
||
|
VALID_SIGHASHES_TAPROOT_SINGLE = [
|
||
|
SIGHASH_SINGLE,
|
||
|
SIGHASH_ANYONECANPAY + SIGHASH_SINGLE
|
||
|
]
|
||
|
|
||
|
VALID_SIGHASHES_TAPROOT_NO_SINGLE = [h for h in VALID_SIGHASHES_TAPROOT if h not in VALID_SIGHASHES_TAPROOT_SINGLE]
|
||
|
|
||
|
SIGHASH_BITFLIP = {"failure": {"sighash": bitflipper(default_sighash)}}
|
||
|
SIG_POP_BYTE = {"failure": {"sign": byte_popper(default_sign)}}
|
||
|
SINGLE_SIG = {"inputs": [getter("sign")]}
|
||
|
SIG_ADD_ZERO = {"failure": {"sign": zero_appender(default_sign)}}
|
||
|
|
||
|
DUST_LIMIT = 600
|
||
|
MIN_FEE = 50000
|
||
|
|
||
|
# === Actual test cases ===
|
||
|
|
||
|
|
||
|
def spenders_taproot_active():
|
||
|
"""Return a list of Spenders for testing post-Taproot activation behavior."""
|
||
|
|
||
|
secs = [generate_privkey() for _ in range(8)]
|
||
|
pubs = [compute_xonly_pubkey(sec)[0] for sec in secs]
|
||
|
|
||
|
spenders = []
|
||
|
|
||
|
# == Tests for BIP340 signature validation. ==
|
||
|
# These are primarily tested through the test vectors implemented in libsecp256k1, and in src/tests/key_tests.cpp.
|
||
|
# Some things are tested programmatically as well here.
|
||
|
|
||
|
tap = taproot_construct(pubs[0])
|
||
|
# Test with key with bit flipped.
|
||
|
add_spender(spenders, "sig/key", tap=tap, key=secs[0], failure={"key_tweaked": bitflipper(default_key_tweaked)}, **ERR_SIG_SCHNORR)
|
||
|
# Test with sighash with bit flipped.
|
||
|
add_spender(spenders, "sig/sighash", tap=tap, key=secs[0], failure={"sighash": bitflipper(default_sighash)}, **ERR_SIG_SCHNORR)
|
||
|
# Test with invalid R sign.
|
||
|
add_spender(spenders, "sig/flip_r", tap=tap, key=secs[0], failure={"flag_flip_r": True}, **ERR_SIG_SCHNORR)
|
||
|
# Test with invalid P sign.
|
||
|
add_spender(spenders, "sig/flip_p", tap=tap, key=secs[0], failure={"flag_flip_p": True}, **ERR_SIG_SCHNORR)
|
||
|
# Test with signature with bit flipped.
|
||
|
add_spender(spenders, "sig/bitflip", tap=tap, key=secs[0], failure={"signature": bitflipper(default_signature)}, **ERR_SIG_SCHNORR)
|
||
|
|
||
|
# == Tests for signature hashing ==
|
||
|
|
||
|
# Run all tests once with no annex, and once with a valid random annex.
|
||
|
for annex in [None, lambda _: bytes([ANNEX_TAG]) + random_bytes(random.randrange(0, 250))]:
|
||
|
# Non-empty annex is non-standard
|
||
|
no_annex = annex is None
|
||
|
|
||
|
# Sighash mutation tests (test all sighash combinations)
|
||
|
for hashtype in VALID_SIGHASHES_TAPROOT:
|
||
|
common = {"annex": annex, "hashtype": hashtype, "standard": no_annex}
|
||
|
|
||
|
# Pure pubkey
|
||
|
tap = taproot_construct(pubs[0])
|
||
|
add_spender(spenders, "sighash/purepk", tap=tap, key=secs[0], **common, **SIGHASH_BITFLIP, **ERR_SIG_SCHNORR)
|
||
|
|
||
|
# Pubkey/P2PK script combination
|
||
|
scripts = [("s0", CScript(random_checksig_style(pubs[1])))]
|
||
|
tap = taproot_construct(pubs[0], scripts)
|
||
|
add_spender(spenders, "sighash/keypath_hashtype_%x" % hashtype, tap=tap, key=secs[0], **common, **SIGHASH_BITFLIP, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/scriptpath_hashtype_%x" % hashtype, tap=tap, leaf="s0", key=secs[1], **common, **SINGLE_SIG, **SIGHASH_BITFLIP, **ERR_SIG_SCHNORR)
|
||
|
|
||
|
# Test SIGHASH_SINGLE behavior in combination with mismatching outputs
|
||
|
if hashtype in VALID_SIGHASHES_TAPROOT_SINGLE:
|
||
|
add_spender(spenders, "sighash/keypath_hashtype_mis_%x" % hashtype, tap=tap, key=secs[0], annex=annex, standard=no_annex, hashtype_actual=random.choice(VALID_SIGHASHES_TAPROOT_NO_SINGLE), failure={"hashtype_actual": hashtype}, **ERR_SIG_HASHTYPE, need_vin_vout_mismatch=True)
|
||
|
add_spender(spenders, "sighash/scriptpath_hashtype_mis_%x" % hashtype, tap=tap, leaf="s0", key=secs[1], annex=annex, standard=no_annex, hashtype_actual=random.choice(VALID_SIGHASHES_TAPROOT_NO_SINGLE), **SINGLE_SIG, failure={"hashtype_actual": hashtype}, **ERR_SIG_HASHTYPE, need_vin_vout_mismatch=True)
|
||
|
|
||
|
# Test OP_CODESEPARATOR impact on sighashing.
|
||
|
hashtype = lambda _: random.choice(VALID_SIGHASHES_TAPROOT)
|
||
|
common = {"annex": annex, "hashtype": hashtype, "standard": no_annex}
|
||
|
scripts = [
|
||
|
("pk_codesep", CScript(random_checksig_style(pubs[1]) + bytes([OP_CODESEPARATOR]))), # codesep after checksig
|
||
|
("codesep_pk", CScript(bytes([OP_CODESEPARATOR]) + random_checksig_style(pubs[1]))), # codesep before checksig
|
||
|
("branched_codesep", CScript([random_bytes(random.randrange(511)), OP_DROP, OP_IF, OP_CODESEPARATOR, pubs[0], OP_ELSE, OP_CODESEPARATOR, pubs[1], OP_ENDIF, OP_CHECKSIG])), # branch dependent codesep
|
||
|
]
|
||
|
random.shuffle(scripts)
|
||
|
tap = taproot_construct(pubs[0], scripts)
|
||
|
add_spender(spenders, "sighash/pk_codesep", tap=tap, leaf="pk_codesep", key=secs[1], **common, **SINGLE_SIG, **SIGHASH_BITFLIP, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/codesep_pk", tap=tap, leaf="codesep_pk", key=secs[1], codeseppos=0, **common, **SINGLE_SIG, **SIGHASH_BITFLIP, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/branched_codesep/left", tap=tap, leaf="branched_codesep", key=secs[0], codeseppos=3, **common, inputs=[getter("sign"), b'\x01'], **SIGHASH_BITFLIP, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/branched_codesep/right", tap=tap, leaf="branched_codesep", key=secs[1], codeseppos=6, **common, inputs=[getter("sign"), b''], **SIGHASH_BITFLIP, **ERR_SIG_SCHNORR)
|
||
|
|
||
|
# Reusing the scripts above, test that various features affect the sighash.
|
||
|
add_spender(spenders, "sighash/annex", tap=tap, leaf="pk_codesep", key=secs[1], hashtype=hashtype, standard=False, **SINGLE_SIG, annex=bytes([ANNEX_TAG]), failure={"sighash": override(default_sighash, annex=None)}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/script", tap=tap, leaf="pk_codesep", key=secs[1], **common, **SINGLE_SIG, failure={"sighash": override(default_sighash, script_taproot=tap.leaves["codesep_pk"].script)}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/leafver", tap=tap, leaf="pk_codesep", key=secs[1], **common, **SINGLE_SIG, failure={"sighash": override(default_sighash, leafversion=random.choice([x & 0xFE for x in range(0x100) if x & 0xFE != 0xC0]))}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/scriptpath", tap=tap, leaf="pk_codesep", key=secs[1], **common, **SINGLE_SIG, failure={"sighash": override(default_sighash, leaf=None)}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/keypath", tap=tap, key=secs[0], **common, failure={"sighash": override(default_sighash, leaf="pk_codesep")}, **ERR_SIG_SCHNORR)
|
||
|
|
||
|
# Test that invalid hashtypes don't work, both in key path and script path spends
|
||
|
hashtype = lambda _: random.choice(VALID_SIGHASHES_TAPROOT)
|
||
|
for invalid_hashtype in [x for x in range(0x100) if x not in VALID_SIGHASHES_TAPROOT]:
|
||
|
add_spender(spenders, "sighash/keypath_unk_hashtype_%x" % invalid_hashtype, tap=tap, key=secs[0], hashtype=hashtype, failure={"hashtype": invalid_hashtype}, **ERR_SIG_HASHTYPE)
|
||
|
add_spender(spenders, "sighash/scriptpath_unk_hashtype_%x" % invalid_hashtype, tap=tap, leaf="pk_codesep", key=secs[1], **SINGLE_SIG, hashtype=hashtype, failure={"hashtype": invalid_hashtype}, **ERR_SIG_HASHTYPE)
|
||
|
|
||
|
# Test that hashtype 0 cannot have a hashtype byte, and 1 must have one.
|
||
|
add_spender(spenders, "sighash/hashtype0_byte_keypath", tap=tap, key=secs[0], hashtype=SIGHASH_DEFAULT, failure={"bytes_hashtype": bytes([SIGHASH_DEFAULT])}, **ERR_SIG_HASHTYPE)
|
||
|
add_spender(spenders, "sighash/hashtype0_byte_scriptpath", tap=tap, leaf="pk_codesep", key=secs[1], **SINGLE_SIG, hashtype=SIGHASH_DEFAULT, failure={"bytes_hashtype": bytes([SIGHASH_DEFAULT])}, **ERR_SIG_HASHTYPE)
|
||
|
add_spender(spenders, "sighash/hashtype1_byte_keypath", tap=tap, key=secs[0], hashtype=SIGHASH_ALL, failure={"bytes_hashtype": b''}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/hashtype1_byte_scriptpath", tap=tap, leaf="pk_codesep", key=secs[1], **SINGLE_SIG, hashtype=SIGHASH_ALL, failure={"bytes_hashtype": b''}, **ERR_SIG_SCHNORR)
|
||
|
# Test that hashtype 0 and hashtype 1 cannot be transmuted into each other.
|
||
|
add_spender(spenders, "sighash/hashtype0to1_keypath", tap=tap, key=secs[0], hashtype=SIGHASH_DEFAULT, failure={"bytes_hashtype": bytes([SIGHASH_ALL])}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/hashtype0to1_scriptpath", tap=tap, leaf="pk_codesep", key=secs[1], **SINGLE_SIG, hashtype=SIGHASH_DEFAULT, failure={"bytes_hashtype": bytes([SIGHASH_ALL])}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/hashtype1to0_keypath", tap=tap, key=secs[0], hashtype=SIGHASH_ALL, failure={"bytes_hashtype": b''}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "sighash/hashtype1to0_scriptpath", tap=tap, leaf="pk_codesep", key=secs[1], **SINGLE_SIG, hashtype=SIGHASH_ALL, failure={"bytes_hashtype": b''}, **ERR_SIG_SCHNORR)
|
||
|
|
||
|
# Test aspects of signatures with unusual lengths
|
||
|
for hashtype in [SIGHASH_DEFAULT, random.choice(VALID_SIGHASHES_TAPROOT)]:
|
||
|
scripts = [
|
||
|
("csv", CScript([pubs[2], OP_CHECKSIGVERIFY, OP_1])),
|
||
|
("cs_pos", CScript([pubs[2], OP_CHECKSIG])),
|
||
|
("csa_pos", CScript([OP_0, pubs[2], OP_CHECKSIGADD, OP_1, OP_EQUAL])),
|
||
|
("cs_neg", CScript([pubs[2], OP_CHECKSIG, OP_NOT])),
|
||
|
("csa_neg", CScript([OP_2, pubs[2], OP_CHECKSIGADD, OP_2, OP_EQUAL]))
|
||
|
]
|
||
|
random.shuffle(scripts)
|
||
|
tap = taproot_construct(pubs[3], scripts)
|
||
|
# Empty signatures
|
||
|
add_spender(spenders, "siglen/empty_keypath", tap=tap, key=secs[3], hashtype=hashtype, failure={"sign": b""}, **ERR_SIG_SIZE)
|
||
|
add_spender(spenders, "siglen/empty_csv", tap=tap, key=secs[2], leaf="csv", hashtype=hashtype, **SINGLE_SIG, failure={"sign": b""}, **ERR_CHECKSIGVERIFY)
|
||
|
add_spender(spenders, "siglen/empty_cs", tap=tap, key=secs[2], leaf="cs_pos", hashtype=hashtype, **SINGLE_SIG, failure={"sign": b""}, **ERR_NO_SUCCESS)
|
||
|
add_spender(spenders, "siglen/empty_csa", tap=tap, key=secs[2], leaf="csa_pos", hashtype=hashtype, **SINGLE_SIG, failure={"sign": b""}, **ERR_NO_SUCCESS)
|
||
|
add_spender(spenders, "siglen/empty_cs_neg", tap=tap, key=secs[2], leaf="cs_neg", hashtype=hashtype, **SINGLE_SIG, sign=b"", failure={"sign": lambda _: random_bytes(random.randrange(1, 63))}, **ERR_SIG_SIZE)
|
||
|
add_spender(spenders, "siglen/empty_csa_neg", tap=tap, key=secs[2], leaf="csa_neg", hashtype=hashtype, **SINGLE_SIG, sign=b"", failure={"sign": lambda _: random_bytes(random.randrange(66, 100))}, **ERR_SIG_SIZE)
|
||
|
# Appending a zero byte to signatures invalidates them
|
||
|
add_spender(spenders, "siglen/padzero_keypath", tap=tap, key=secs[3], hashtype=hashtype, **SIG_ADD_ZERO, **(ERR_SIG_HASHTYPE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SIZE))
|
||
|
add_spender(spenders, "siglen/padzero_csv", tap=tap, key=secs[2], leaf="csv", hashtype=hashtype, **SINGLE_SIG, **SIG_ADD_ZERO, **(ERR_SIG_HASHTYPE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SIZE))
|
||
|
add_spender(spenders, "siglen/padzero_cs", tap=tap, key=secs[2], leaf="cs_pos", hashtype=hashtype, **SINGLE_SIG, **SIG_ADD_ZERO, **(ERR_SIG_HASHTYPE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SIZE))
|
||
|
add_spender(spenders, "siglen/padzero_csa", tap=tap, key=secs[2], leaf="csa_pos", hashtype=hashtype, **SINGLE_SIG, **SIG_ADD_ZERO, **(ERR_SIG_HASHTYPE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SIZE))
|
||
|
add_spender(spenders, "siglen/padzero_cs_neg", tap=tap, key=secs[2], leaf="cs_neg", hashtype=hashtype, **SINGLE_SIG, sign=b"", **SIG_ADD_ZERO, **(ERR_SIG_HASHTYPE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SIZE))
|
||
|
add_spender(spenders, "siglen/padzero_csa_neg", tap=tap, key=secs[2], leaf="csa_neg", hashtype=hashtype, **SINGLE_SIG, sign=b"", **SIG_ADD_ZERO, **(ERR_SIG_HASHTYPE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SIZE))
|
||
|
# Removing the last byte from signatures invalidates them
|
||
|
add_spender(spenders, "siglen/popbyte_keypath", tap=tap, key=secs[3], hashtype=hashtype, **SIG_POP_BYTE, **(ERR_SIG_SIZE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SCHNORR))
|
||
|
add_spender(spenders, "siglen/popbyte_csv", tap=tap, key=secs[2], leaf="csv", hashtype=hashtype, **SINGLE_SIG, **SIG_POP_BYTE, **(ERR_SIG_SIZE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SCHNORR))
|
||
|
add_spender(spenders, "siglen/popbyte_cs", tap=tap, key=secs[2], leaf="cs_pos", hashtype=hashtype, **SINGLE_SIG, **SIG_POP_BYTE, **(ERR_SIG_SIZE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SCHNORR))
|
||
|
add_spender(spenders, "siglen/popbyte_csa", tap=tap, key=secs[2], leaf="csa_pos", hashtype=hashtype, **SINGLE_SIG, **SIG_POP_BYTE, **(ERR_SIG_SIZE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SCHNORR))
|
||
|
add_spender(spenders, "siglen/popbyte_cs_neg", tap=tap, key=secs[2], leaf="cs_neg", hashtype=hashtype, **SINGLE_SIG, sign=b"", **SIG_POP_BYTE, **(ERR_SIG_SIZE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SCHNORR))
|
||
|
add_spender(spenders, "siglen/popbyte_csa_neg", tap=tap, key=secs[2], leaf="csa_neg", hashtype=hashtype, **SINGLE_SIG, sign=b"", **SIG_POP_BYTE, **(ERR_SIG_SIZE if hashtype == SIGHASH_DEFAULT else ERR_SIG_SCHNORR))
|
||
|
# Verify that an invalid signature is not allowed, not even when the CHECKSIG* is expected to fail.
|
||
|
add_spender(spenders, "siglen/invalid_cs_neg", tap=tap, key=secs[2], leaf="cs_neg", hashtype=hashtype, **SINGLE_SIG, sign=b"", failure={"sign": default_sign, "sighash": bitflipper(default_sighash)}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "siglen/invalid_csa_neg", tap=tap, key=secs[2], leaf="csa_neg", hashtype=hashtype, **SINGLE_SIG, sign=b"", failure={"sign": default_sign, "sighash": bitflipper(default_sighash)}, **ERR_SIG_SCHNORR)
|
||
|
|
||
|
# == Test that BIP341 spending only applies to witness version 1, program length 32, no P2SH ==
|
||
|
|
||
|
for p2sh in [False, True]:
|
||
|
for witver in range(1, 17):
|
||
|
for witlen in [20, 31, 32, 33]:
|
||
|
def mutate(spk):
|
||
|
prog = spk[2:]
|
||
|
assert len(prog) == 32
|
||
|
if witlen < 32:
|
||
|
prog = prog[0:witlen]
|
||
|
elif witlen > 32:
|
||
|
prog += bytes([0 for _ in range(witlen - 32)])
|
||
|
return CScript([CScriptOp.encode_op_n(witver), prog])
|
||
|
scripts = [("s0", CScript([pubs[0], OP_CHECKSIG])), ("dummy", CScript([OP_RETURN]))]
|
||
|
tap = taproot_construct(pubs[1], scripts)
|
||
|
if not p2sh and witver == 1 and witlen == 32:
|
||
|
add_spender(spenders, "applic/keypath", p2sh=p2sh, spk_mutate_pre_p2sh=mutate, tap=tap, key=secs[1], **SIGHASH_BITFLIP, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "applic/scriptpath", p2sh=p2sh, leaf="s0", spk_mutate_pre_p2sh=mutate, tap=tap, key=secs[0], **SINGLE_SIG, failure={"leaf": "dummy"}, **ERR_OP_RETURN)
|
||
|
else:
|
||
|
add_spender(spenders, "applic/keypath", p2sh=p2sh, spk_mutate_pre_p2sh=mutate, tap=tap, key=secs[1], standard=False)
|
||
|
add_spender(spenders, "applic/scriptpath", p2sh=p2sh, leaf="s0", spk_mutate_pre_p2sh=mutate, tap=tap, key=secs[0], **SINGLE_SIG, standard=False)
|
||
|
|
||
|
# == Test various aspects of BIP341 spending paths ==
|
||
|
|
||
|
# A set of functions that compute the hashing partner in a Merkle tree, designed to exercise
|
||
|
# edge cases. This relies on the taproot_construct feature that a lambda can be passed in
|
||
|
# instead of a subtree, to compute the partner to be hashed with.
|
||
|
PARTNER_MERKLE_FN = [
|
||
|
# Combine with itself
|
||
|
lambda h: h,
|
||
|
# Combine with hash 0
|
||
|
lambda h: bytes([0 for _ in range(32)]),
|
||
|
# Combine with hash 2^256-1
|
||
|
lambda h: bytes([0xff for _ in range(32)]),
|
||
|
# Combine with itself-1 (BE)
|
||
|
lambda h: (int.from_bytes(h, 'big') - 1).to_bytes(32, 'big'),
|
||
|
# Combine with itself+1 (BE)
|
||
|
lambda h: (int.from_bytes(h, 'big') + 1).to_bytes(32, 'big'),
|
||
|
# Combine with itself-1 (LE)
|
||
|
lambda h: (int.from_bytes(h, 'little') - 1).to_bytes(32, 'big'),
|
||
|
# Combine with itself+1 (LE)
|
||
|
lambda h: (int.from_bytes(h, 'little') + 1).to_bytes(32, 'little'),
|
||
|
# Combine with random bitflipped version of self.
|
||
|
lambda h: (int.from_bytes(h, 'little') ^ (1 << random.randrange(256))).to_bytes(32, 'little')
|
||
|
]
|
||
|
# Start with a tree of that has depth 1 for "128deep" and depth 2 for "129deep".
|
||
|
scripts = [("128deep", CScript([pubs[0], OP_CHECKSIG])), [("129deep", CScript([pubs[0], OP_CHECKSIG])), random.choice(PARTNER_MERKLE_FN)]]
|
||
|
# Add 127 nodes on top of that tree, so that "128deep" and "129deep" end up at their designated depths.
|
||
|
for _ in range(127):
|
||
|
scripts = [scripts, random.choice(PARTNER_MERKLE_FN)]
|
||
|
tap = taproot_construct(pubs[0], scripts)
|
||
|
# Test that spends with a depth of 128 work, but 129 doesn't (even with a tree with weird Merkle branches in it).
|
||
|
add_spender(spenders, "spendpath/merklelimit", tap=tap, leaf="128deep", **SINGLE_SIG, key=secs[0], failure={"leaf": "129deep"}, **ERR_CONTROLBLOCK_SIZE)
|
||
|
# Test that flipping the negation bit invalidates spends.
|
||
|
add_spender(spenders, "spendpath/negflag", tap=tap, leaf="128deep", **SINGLE_SIG, key=secs[0], failure={"negflag": lambda ctx: 1 - default_negflag(ctx)}, **ERR_WITNESS_PROGRAM_MISMATCH)
|
||
|
# Test that bitflips in the Merkle branch invalidate it.
|
||
|
add_spender(spenders, "spendpath/bitflipmerkle", tap=tap, leaf="128deep", **SINGLE_SIG, key=secs[0], failure={"merklebranch": bitflipper(default_merklebranch)}, **ERR_WITNESS_PROGRAM_MISMATCH)
|
||
|
# Test that bitflips in the internal pubkey invalidate it.
|
||
|
add_spender(spenders, "spendpath/bitflippubkey", tap=tap, leaf="128deep", **SINGLE_SIG, key=secs[0], failure={"pubkey_internal": bitflipper(default_pubkey_internal)}, **ERR_WITNESS_PROGRAM_MISMATCH)
|
||
|
# Test that empty witnesses are invalid.
|
||
|
add_spender(spenders, "spendpath/emptywit", tap=tap, leaf="128deep", **SINGLE_SIG, key=secs[0], failure={"witness": []}, **ERR_EMPTY_WITNESS)
|
||
|
# Test that adding garbage to the control block invalidates it.
|
||
|
add_spender(spenders, "spendpath/padlongcontrol", tap=tap, leaf="128deep", **SINGLE_SIG, key=secs[0], failure={"controlblock": lambda ctx: default_controlblock(ctx) + random_bytes(random.randrange(1, 32))}, **ERR_CONTROLBLOCK_SIZE)
|
||
|
# Test that truncating the control block invalidates it.
|
||
|
add_spender(spenders, "spendpath/trunclongcontrol", tap=tap, leaf="128deep", **SINGLE_SIG, key=secs[0], failure={"controlblock": lambda ctx: default_merklebranch(ctx)[0:random.randrange(1, 32)]}, **ERR_CONTROLBLOCK_SIZE)
|
||
|
|
||
|
scripts = [("s", CScript([pubs[0], OP_CHECKSIG]))]
|
||
|
tap = taproot_construct(pubs[1], scripts)
|
||
|
# Test that adding garbage to the control block invalidates it.
|
||
|
add_spender(spenders, "spendpath/padshortcontrol", tap=tap, leaf="s", **SINGLE_SIG, key=secs[0], failure={"controlblock": lambda ctx: default_controlblock(ctx) + random_bytes(random.randrange(1, 32))}, **ERR_CONTROLBLOCK_SIZE)
|
||
|
# Test that truncating the control block invalidates it.
|
||
|
add_spender(spenders, "spendpath/truncshortcontrol", tap=tap, leaf="s", **SINGLE_SIG, key=secs[0], failure={"controlblock": lambda ctx: default_merklebranch(ctx)[0:random.randrange(1, 32)]}, **ERR_CONTROLBLOCK_SIZE)
|
||
|
# Test that truncating the control block to 1 byte ("-1 Merkle length") invalidates it
|
||
|
add_spender(spenders, "spendpath/trunc1shortcontrol", tap=tap, leaf="s", **SINGLE_SIG, key=secs[0], failure={"controlblock": lambda ctx: default_merklebranch(ctx)[0:1]}, **ERR_CONTROLBLOCK_SIZE)
|
||
|
|
||
|
# == Test BIP342 edge cases ==
|
||
|
|
||
|
csa_low_val = random.randrange(0, 17) # Within range for OP_n
|
||
|
csa_low_result = csa_low_val + 1
|
||
|
|
||
|
csa_high_val = random.randrange(17, 100) if random.getrandbits(1) else random.randrange(-100, -1) # Outside OP_n range
|
||
|
csa_high_result = csa_high_val + 1
|
||
|
|
||
|
OVERSIZE_NUMBER = 2**31
|
||
|
assert_equal(len(CScriptNum.encode(CScriptNum(OVERSIZE_NUMBER))), 6)
|
||
|
assert_equal(len(CScriptNum.encode(CScriptNum(OVERSIZE_NUMBER-1))), 5)
|
||
|
|
||
|
big_choices = []
|
||
|
big_scriptops = []
|
||
|
for i in range(1000):
|
||
|
r = random.randrange(len(pubs))
|
||
|
big_choices.append(r)
|
||
|
big_scriptops += [pubs[r], OP_CHECKSIGVERIFY]
|
||
|
|
||
|
|
||
|
def big_spend_inputs(ctx):
|
||
|
"""Helper function to construct the script input for t33/t34 below."""
|
||
|
# Instead of signing 999 times, precompute signatures for every (key, hashtype) combination
|
||
|
sigs = {}
|
||
|
for ht in VALID_SIGHASHES_TAPROOT:
|
||
|
for k in range(len(pubs)):
|
||
|
sigs[(k, ht)] = override(default_sign, hashtype=ht, key=secs[k])(ctx)
|
||
|
num = get(ctx, "num")
|
||
|
return [sigs[(big_choices[i], random.choice(VALID_SIGHASHES_TAPROOT))] for i in range(num - 1, -1, -1)]
|
||
|
|
||
|
# Various BIP342 features
|
||
|
scripts = [
|
||
|
# 0) drop stack element and OP_CHECKSIG
|
||
|
("t0", CScript([OP_DROP, pubs[1], OP_CHECKSIG])),
|
||
|
# 1) normal OP_CHECKSIG
|
||
|
("t1", CScript([pubs[1], OP_CHECKSIG])),
|
||
|
# 2) normal OP_CHECKSIGVERIFY
|
||
|
("t2", CScript([pubs[1], OP_CHECKSIGVERIFY, OP_1])),
|
||
|
# 3) Hypothetical OP_CHECKMULTISIG script that takes a single sig as input
|
||
|
("t3", CScript([OP_0, OP_SWAP, OP_1, pubs[1], OP_1, OP_CHECKMULTISIG])),
|
||
|
# 4) Hypothetical OP_CHECKMULTISIGVERIFY script that takes a single sig as input
|
||
|
("t4", CScript([OP_0, OP_SWAP, OP_1, pubs[1], OP_1, OP_CHECKMULTISIGVERIFY, OP_1])),
|
||
|
# 5) OP_IF script that needs a true input
|
||
|
("t5", CScript([OP_IF, pubs[1], OP_CHECKSIG, OP_ELSE, OP_RETURN, OP_ENDIF])),
|
||
|
# 6) OP_NOTIF script that needs a true input
|
||
|
("t6", CScript([OP_NOTIF, OP_RETURN, OP_ELSE, pubs[1], OP_CHECKSIG, OP_ENDIF])),
|
||
|
# 7) OP_CHECKSIG with an empty key
|
||
|
("t7", CScript([OP_0, OP_CHECKSIG])),
|
||
|
# 8) OP_CHECKSIGVERIFY with an empty key
|
||
|
("t8", CScript([OP_0, OP_CHECKSIGVERIFY, OP_1])),
|
||
|
# 9) normal OP_CHECKSIGADD that also ensures return value is correct
|
||
|
("t9", CScript([csa_low_val, pubs[1], OP_CHECKSIGADD, csa_low_result, OP_EQUAL])),
|
||
|
# 10) OP_CHECKSIGADD with empty key
|
||
|
("t10", CScript([csa_low_val, OP_0, OP_CHECKSIGADD, csa_low_result, OP_EQUAL])),
|
||
|
# 11) OP_CHECKSIGADD with missing counter stack element
|
||
|
("t11", CScript([pubs[1], OP_CHECKSIGADD, OP_1, OP_EQUAL])),
|
||
|
# 12) OP_CHECKSIG that needs invalid signature
|
||
|
("t12", CScript([pubs[1], OP_CHECKSIGVERIFY, pubs[0], OP_CHECKSIG, OP_NOT])),
|
||
|
# 13) OP_CHECKSIG with empty key that needs invalid signature
|
||
|
("t13", CScript([pubs[1], OP_CHECKSIGVERIFY, OP_0, OP_CHECKSIG, OP_NOT])),
|
||
|
# 14) OP_CHECKSIGADD that needs invalid signature
|
||
|
("t14", CScript([pubs[1], OP_CHECKSIGVERIFY, OP_0, pubs[0], OP_CHECKSIGADD, OP_NOT])),
|
||
|
# 15) OP_CHECKSIGADD with empty key that needs invalid signature
|
||
|
("t15", CScript([pubs[1], OP_CHECKSIGVERIFY, OP_0, OP_0, OP_CHECKSIGADD, OP_NOT])),
|
||
|
# 16) OP_CHECKSIG with unknown pubkey type
|
||
|
("t16", CScript([OP_1, OP_CHECKSIG])),
|
||
|
# 17) OP_CHECKSIGADD with unknown pubkey type
|
||
|
("t17", CScript([OP_0, OP_1, OP_CHECKSIGADD])),
|
||
|
# 18) OP_CHECKSIGVERIFY with unknown pubkey type
|
||
|
("t18", CScript([OP_1, OP_CHECKSIGVERIFY, OP_1])),
|
||
|
# 19) script longer than 10000 bytes and over 201 non-push opcodes
|
||
|
("t19", CScript([OP_0, OP_0, OP_2DROP] * 10001 + [pubs[1], OP_CHECKSIG])),
|
||
|
# 20) OP_CHECKSIGVERIFY with empty key
|
||
|
("t20", CScript([pubs[1], OP_CHECKSIGVERIFY, OP_0, OP_0, OP_CHECKSIGVERIFY, OP_1])),
|
||
|
# 21) Script that grows the stack to 1000 elements
|
||
|
("t21", CScript([pubs[1], OP_CHECKSIGVERIFY, OP_1] + [OP_DUP] * 999 + [OP_DROP] * 999)),
|
||
|
# 22) Script that grows the stack to 1001 elements
|
||
|
("t22", CScript([pubs[1], OP_CHECKSIGVERIFY, OP_1] + [OP_DUP] * 1000 + [OP_DROP] * 1000)),
|
||
|
# 23) Script that expects an input stack of 1000 elements
|
||
|
("t23", CScript([OP_DROP] * 999 + [pubs[1], OP_CHECKSIG])),
|
||
|
# 24) Script that expects an input stack of 1001 elements
|
||
|
("t24", CScript([OP_DROP] * 1000 + [pubs[1], OP_CHECKSIG])),
|
||
|
# 25) Script that pushes a MAX_SCRIPT_ELEMENT_SIZE-bytes element
|
||
|
("t25", CScript([random_bytes(MAX_SCRIPT_ELEMENT_SIZE), OP_DROP, pubs[1], OP_CHECKSIG])),
|
||
|
# 26) Script that pushes a (MAX_SCRIPT_ELEMENT_SIZE+1)-bytes element
|
||
|
("t26", CScript([random_bytes(MAX_SCRIPT_ELEMENT_SIZE+1), OP_DROP, pubs[1], OP_CHECKSIG])),
|
||
|
# 27) CHECKSIGADD that must fail because numeric argument number is >4 bytes
|
||
|
("t27", CScript([CScriptNum(OVERSIZE_NUMBER), pubs[1], OP_CHECKSIGADD])),
|
||
|
# 28) Pushes random CScriptNum value, checks OP_CHECKSIGADD result
|
||
|
("t28", CScript([csa_high_val, pubs[1], OP_CHECKSIGADD, csa_high_result, OP_EQUAL])),
|
||
|
# 29) CHECKSIGADD that succeeds with proper sig because numeric argument number is <=4 bytes
|
||
|
("t29", CScript([CScriptNum(OVERSIZE_NUMBER-1), pubs[1], OP_CHECKSIGADD])),
|
||
|
# 30) Variant of t1 with "normal" 33-byte pubkey
|
||
|
("t30", CScript([b'\x03' + pubs[1], OP_CHECKSIG])),
|
||
|
# 31) Variant of t2 with "normal" 33-byte pubkey
|
||
|
("t31", CScript([b'\x02' + pubs[1], OP_CHECKSIGVERIFY, OP_1])),
|
||
|
# 32) Variant of t28 with "normal" 33-byte pubkey
|
||
|
("t32", CScript([csa_high_val, b'\x03' + pubs[1], OP_CHECKSIGADD, csa_high_result, OP_EQUAL])),
|
||
|
# 33) 999-of-999 multisig
|
||
|
("t33", CScript(big_scriptops[:1998] + [OP_1])),
|
||
|
# 34) 1000-of-1000 multisig
|
||
|
("t34", CScript(big_scriptops[:2000] + [OP_1])),
|
||
|
# 35) Variant of t9 that uses a non-minimally encoded input arg
|
||
|
("t35", CScript([bytes([csa_low_val]), pubs[1], OP_CHECKSIGADD, csa_low_result, OP_EQUAL])),
|
||
|
# 36) Empty script
|
||
|
("t36", CScript([])),
|
||
|
]
|
||
|
# Add many dummies to test huge trees
|
||
|
for j in range(100000):
|
||
|
scripts.append((None, CScript([OP_RETURN, random.randrange(100000)])))
|
||
|
random.shuffle(scripts)
|
||
|
tap = taproot_construct(pubs[0], scripts)
|
||
|
common = {
|
||
|
"hashtype": hashtype,
|
||
|
"key": secs[1],
|
||
|
"tap": tap,
|
||
|
}
|
||
|
# Test that MAX_SCRIPT_ELEMENT_SIZE byte stack element inputs are valid, but not one more (and 80 bytes is standard but 81 is not).
|
||
|
add_spender(spenders, "tapscript/inputmaxlimit", leaf="t0", **common, standard=False, inputs=[getter("sign"), random_bytes(MAX_SCRIPT_ELEMENT_SIZE)], failure={"inputs": [getter("sign"), random_bytes(MAX_SCRIPT_ELEMENT_SIZE+1)]}, **ERR_PUSH_LIMIT)
|
||
|
add_spender(spenders, "tapscript/input80limit", leaf="t0", **common, inputs=[getter("sign"), random_bytes(80)])
|
||
|
add_spender(spenders, "tapscript/input81limit", leaf="t0", **common, standard=False, inputs=[getter("sign"), random_bytes(81)])
|
||
|
# Test that OP_CHECKMULTISIG and OP_CHECKMULTISIGVERIFY cause failure, but OP_CHECKSIG and OP_CHECKSIGVERIFY work.
|
||
|
add_spender(spenders, "tapscript/disabled_checkmultisig", leaf="t1", **common, **SINGLE_SIG, failure={"leaf": "t3"}, **ERR_TAPSCRIPT_CHECKMULTISIG)
|
||
|
add_spender(spenders, "tapscript/disabled_checkmultisigverify", leaf="t2", **common, **SINGLE_SIG, failure={"leaf": "t4"}, **ERR_TAPSCRIPT_CHECKMULTISIG)
|
||
|
# Test that OP_IF and OP_NOTIF do not accept non-0x01 as truth value (the MINIMALIF rule is consensus in Tapscript)
|
||
|
add_spender(spenders, "tapscript/minimalif", leaf="t5", **common, inputs=[getter("sign"), b'\x01'], failure={"inputs": [getter("sign"), b'\x02']}, **ERR_MINIMALIF)
|
||
|
add_spender(spenders, "tapscript/minimalnotif", leaf="t6", **common, inputs=[getter("sign"), b'\x01'], failure={"inputs": [getter("sign"), b'\x03']}, **ERR_MINIMALIF)
|
||
|
add_spender(spenders, "tapscript/minimalif", leaf="t5", **common, inputs=[getter("sign"), b'\x01'], failure={"inputs": [getter("sign"), b'\x0001']}, **ERR_MINIMALIF)
|
||
|
add_spender(spenders, "tapscript/minimalnotif", leaf="t6", **common, inputs=[getter("sign"), b'\x01'], failure={"inputs": [getter("sign"), b'\x0100']}, **ERR_MINIMALIF)
|
||
|
# Test that 1-byte public keys (which are unknown) are acceptable but nonstandard with unrelated signatures, but 0-byte public keys are not valid.
|
||
|
add_spender(spenders, "tapscript/unkpk/checksig", leaf="t16", standard=False, **common, **SINGLE_SIG, failure={"leaf": "t7"}, **ERR_UNKNOWN_PUBKEY)
|
||
|
add_spender(spenders, "tapscript/unkpk/checksigadd", leaf="t17", standard=False, **common, **SINGLE_SIG, failure={"leaf": "t10"}, **ERR_UNKNOWN_PUBKEY)
|
||
|
add_spender(spenders, "tapscript/unkpk/checksigverify", leaf="t18", standard=False, **common, **SINGLE_SIG, failure={"leaf": "t8"}, **ERR_UNKNOWN_PUBKEY)
|
||
|
# Test that 33-byte public keys (which are unknown) are acceptable but nonstandard with valid signatures, but normal pubkeys are not valid in that case.
|
||
|
add_spender(spenders, "tapscript/oldpk/checksig", leaf="t30", standard=False, **common, **SINGLE_SIG, sighash=bitflipper(default_sighash), failure={"leaf": "t1"}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "tapscript/oldpk/checksigadd", leaf="t31", standard=False, **common, **SINGLE_SIG, sighash=bitflipper(default_sighash), failure={"leaf": "t2"}, **ERR_SIG_SCHNORR)
|
||
|
add_spender(spenders, "tapscript/oldpk/checksigverify", leaf="t32", standard=False, **common, **SINGLE_SIG, sighash=bitflipper(default_sighash), failure={"leaf": "t28"}, **ERR_SIG_SCHNORR)
|
||
|
# Test that 0-byte public keys are not acceptable.
|
||
|
add_spender(spenders, "tapscript/emptypk/checksig", leaf="t1", **SINGLE_SIG, **common, failure={"leaf": "t7"}, **ERR_UNKNOWN_PUBKEY)
|
||
|
add_spender(spenders, "tapscript/emptypk/checksigverify", leaf="t2", **SINGLE_SIG, **common, failure={"leaf": "t8"}, **ERR_UNKNOWN_PUBKEY)
|
||
|
add_spender(spenders, "tapscript/emptypk/checksigadd", leaf="t9", **SINGLE_SIG, **common, failure={"leaf": "t10"}, **ERR_UNKNOWN_PUBKEY)
|
||
|
add_spender(spenders, "tapscript/emptypk/checksigadd", leaf="t35", standard=False, **SINGLE_SIG, **common, failure={"leaf": "t10"}, **ERR_UNKNOWN_PUBKEY)
|
||
|
# Test that OP_CHECKSIGADD results are as expected
|
||
|
add_spender(spenders, "tapscript/checksigaddresults", leaf="t28", **SINGLE_SIG, **common, failure={"leaf": "t27"}, err_msg="unknown error")
|
||
|
add_spender(spenders, "tapscript/checksigaddoversize", leaf="t29", **SINGLE_SIG, **common, failure={"leaf": "t27"}, err_msg="unknown error")
|
||
|
# Test that OP_CHECKSIGADD requires 3 stack elements.
|
||
|
add_spender(spenders, "tapscript/checksigadd3args", leaf="t9", **SINGLE_SIG, **common, failure={"leaf": "t11"}, **ERR_STACK_EMPTY)
|
||
|
# Test that empty signatures do not cause script failure in OP_CHECKSIG and OP_CHECKSIGADD (but do fail with empty pubkey, and do fail OP_CHECKSIGVERIFY)
|
||
|
add_spender(spenders, "tapscript/emptysigs/checksig", leaf="t12", **common, inputs=[b'', getter("sign")], failure={"leaf": "t13"}, **ERR_UNKNOWN_PUBKEY)
|
||
|
add_spender(spenders, "tapscript/emptysigs/nochecksigverify", leaf="t12", **common, inputs=[b'', getter("sign")], failure={"leaf": "t20"}, **ERR_UNKNOWN_PUBKEY)
|
||
|
add_spender(spenders, "tapscript/emptysigs/checksigadd", leaf="t14", **common, inputs=[b'', getter("sign")], failure={"leaf": "t15"}, **ERR_UNKNOWN_PUBKEY)
|
||
|
# Test that scripts over 10000 bytes (and over 201 non-push ops) are acceptable.
|
||
|
add_spender(spenders, "tapscript/no10000limit", leaf="t19", **SINGLE_SIG, **common)
|
||
|
# Test that a stack size of 1000 elements is permitted, but 1001 isn't.
|
||
|
add_spender(spenders, "tapscript/1000stack", leaf="t21", **SINGLE_SIG, **common, failure={"leaf": "t22"}, **ERR_STACK_SIZE)
|
||
|
# Test that an input stack size of 1000 elements is permitted, but 1001 isn't.
|
||
|
add_spender(spenders, "tapscript/1000inputs", leaf="t23", **common, inputs=[getter("sign")] + [b'' for _ in range(999)], failure={"leaf": "t24", "inputs": [getter("sign")] + [b'' for _ in range(1000)]}, **ERR_STACK_SIZE)
|
||
|
# Test that pushing a MAX_SCRIPT_ELEMENT_SIZE byte stack element is valid, but one longer is not.
|
||
|
add_spender(spenders, "tapscript/pushmaxlimit", leaf="t25", **common, **SINGLE_SIG, failure={"leaf": "t26"}, **ERR_PUSH_LIMIT)
|
||
|
# Test that 999-of-999 multisig works (but 1000-of-1000 triggers stack size limits)
|
||
|
add_spender(spenders, "tapscript/bigmulti", leaf="t33", **common, inputs=big_spend_inputs, num=999, failure={"leaf": "t34", "num": 1000}, **ERR_STACK_SIZE)
|
||
|
# Test that the CLEANSTACK rule is consensus critical in tapscript
|
||
|
add_spender(spenders, "tapscript/cleanstack", leaf="t36", tap=tap, inputs=[b'\x01'], failure={"inputs": [b'\x01', b'\x01']}, **ERR_CLEANSTACK)
|
||
|
|
||
|
# == Test for sigops ratio limit ==
|
||
|
|
||
|
# Given a number n, and a public key pk, functions that produce a (CScript, sigops). Each script takes as
|
||
|
# input a valid signature with the passed pk followed by a dummy push of bytes that are to be dropped, and
|
||
|
# will execute sigops signature checks.
|
||
|
SIGOPS_RATIO_SCRIPTS = [
|
||
|
# n OP_CHECKSIGVERFIYs and 1 OP_CHECKSIG.
|
||
|
lambda n, pk: (CScript([OP_DROP, pk] + [OP_2DUP, OP_CHECKSIGVERIFY] * n + [OP_CHECKSIG]), n + 1),
|
||
|
# n OP_CHECKSIGVERIFYs and 1 OP_CHECKSIGADD, but also one unexecuted OP_CHECKSIGVERIFY.
|
||
|
lambda n, pk: (CScript([OP_DROP, pk, OP_0, OP_IF, OP_2DUP, OP_CHECKSIGVERIFY, OP_ENDIF] + [OP_2DUP, OP_CHECKSIGVERIFY] * n + [OP_2, OP_SWAP, OP_CHECKSIGADD, OP_3, OP_EQUAL]), n + 1),
|
||
|
# n OP_CHECKSIGVERIFYs and 1 OP_CHECKSIGADD, but also one unexecuted OP_CHECKSIG.
|
||
|
lambda n, pk: (CScript([random_bytes(220), OP_2DROP, pk, OP_1, OP_NOTIF, OP_2DUP, OP_CHECKSIG, OP_VERIFY, OP_ENDIF] + [OP_2DUP, OP_CHECKSIGVERIFY] * n + [OP_4, OP_SWAP, OP_CHECKSIGADD, OP_5, OP_EQUAL]), n + 1),
|
||
|
# n OP_CHECKSIGVERFIYs and 1 OP_CHECKSIGADD, but also one unexecuted OP_CHECKSIGADD.
|
||
|
lambda n, pk: (CScript([OP_DROP, pk, OP_1, OP_IF, OP_ELSE, OP_2DUP, OP_6, OP_SWAP, OP_CHECKSIGADD, OP_7, OP_EQUALVERIFY, OP_ENDIF] + [OP_2DUP, OP_CHECKSIGVERIFY] * n + [OP_8, OP_SWAP, OP_CHECKSIGADD, OP_9, OP_EQUAL]), n + 1),
|
||
|
# n+1 OP_CHECKSIGs, but also one OP_CHECKSIG with an empty signature.
|
||
|
lambda n, pk: (CScript([OP_DROP, OP_0, pk, OP_CHECKSIG, OP_NOT, OP_VERIFY, pk] + [OP_2DUP, OP_CHECKSIG, OP_VERIFY] * n + [OP_CHECKSIG]), n + 1),
|
||
|
# n OP_CHECKSIGADDs and 1 OP_CHECKSIG, but also an OP_CHECKSIGADD with an empty signature.
|
||
|
lambda n, pk: (CScript([OP_DROP, OP_0, OP_10, pk, OP_CHECKSIGADD, OP_10, OP_EQUALVERIFY, pk] + [OP_2DUP, OP_16, OP_SWAP, OP_CHECKSIGADD, b'\x11', OP_EQUALVERIFY] * n + [OP_CHECKSIG]), n + 1),
|
||
|
]
|
||
|
for annex in [None, bytes([ANNEX_TAG]) + random_bytes(random.randrange(1000))]:
|
||
|
for hashtype in [SIGHASH_DEFAULT, SIGHASH_ALL]:
|
||
|
for pubkey in [pubs[1], random_bytes(random.choice([x for x in range(2, 81) if x != 32]))]:
|
||
|
for fn_num, fn in enumerate(SIGOPS_RATIO_SCRIPTS):
|
||
|
merkledepth = random.randrange(129)
|
||
|
|
||
|
|
||
|
def predict_sigops_ratio(n, dummy_size):
|
||
|
"""Predict whether spending fn(n, pubkey) with dummy_size will pass the ratio test."""
|
||
|
script, sigops = fn(n, pubkey)
|
||
|
# Predict the size of the witness for a given choice of n
|
||
|
stacklen_size = 1
|
||
|
sig_size = 64 + (hashtype != SIGHASH_DEFAULT)
|
||
|
siglen_size = 1
|
||
|
dummylen_size = 1 + 2 * (dummy_size >= 253)
|
||
|
script_size = len(script)
|
||
|
scriptlen_size = 1 + 2 * (script_size >= 253)
|
||
|
control_size = 33 + 32 * merkledepth
|
||
|
controllen_size = 1 + 2 * (control_size >= 253)
|
||
|
annex_size = 0 if annex is None else len(annex)
|
||
|
annexlen_size = 0 if annex is None else 1 + 2 * (annex_size >= 253)
|
||
|
witsize = stacklen_size + sig_size + siglen_size + dummy_size + dummylen_size + script_size + scriptlen_size + control_size + controllen_size + annex_size + annexlen_size
|
||
|
# sigops ratio test
|
||
|
return witsize + 50 >= 50 * sigops
|
||
|
# Make sure n is high enough that with empty dummy, the script is not valid
|
||
|
n = 0
|
||
|
while predict_sigops_ratio(n, 0):
|
||
|
n += 1
|
||
|
# But allow picking a bit higher still
|
||
|
n += random.randrange(5)
|
||
|
# Now pick dummy size *just* large enough that the overall construction passes
|
||
|
dummylen = 0
|
||
|
while not predict_sigops_ratio(n, dummylen):
|
||
|
dummylen += 1
|
||
|
scripts = [("s", fn(n, pubkey)[0])]
|
||
|
for _ in range(merkledepth):
|
||
|
scripts = [scripts, random.choice(PARTNER_MERKLE_FN)]
|
||
|
tap = taproot_construct(pubs[0], scripts)
|
||
|
standard = annex is None and dummylen <= 80 and len(pubkey) == 32
|
||
|
add_spender(spenders, "tapscript/sigopsratio_%i" % fn_num, tap=tap, leaf="s", annex=annex, hashtype=hashtype, key=secs[1], inputs=[getter("sign"), random_bytes(dummylen)], standard=standard, failure={"inputs": [getter("sign"), random_bytes(dummylen - 1)]}, **ERR_SIGOPS_RATIO)
|
||
|
|
||
|
# Future leaf versions
|
||
|
for leafver in range(0, 0x100, 2):
|
||
|
if leafver == LEAF_VERSION_TAPSCRIPT or leafver == ANNEX_TAG:
|
||
|
# Skip the defined LEAF_VERSION_TAPSCRIPT, and the ANNEX_TAG which is not usable as leaf version
|
||
|
continue
|
||
|
scripts = [
|
||
|
("bare_c0", CScript([OP_NOP])),
|
||
|
("bare_unkver", CScript([OP_NOP]), leafver),
|
||
|
("return_c0", CScript([OP_RETURN])),
|
||
|
("return_unkver", CScript([OP_RETURN]), leafver),
|
||
|
("undecodable_c0", CScript([OP_PUSHDATA1])),
|
||
|
("undecodable_unkver", CScript([OP_PUSHDATA1]), leafver),
|
||
|
("bigpush_c0", CScript([random_bytes(MAX_SCRIPT_ELEMENT_SIZE+1), OP_DROP])),
|
||
|
("bigpush_unkver", CScript([random_bytes(MAX_SCRIPT_ELEMENT_SIZE+1), OP_DROP]), leafver),
|
||
|
("1001push_c0", CScript([OP_0] * 1001)),
|
||
|
("1001push_unkver", CScript([OP_0] * 1001), leafver),
|
||
|
]
|
||
|
random.shuffle(scripts)
|
||
|
tap = taproot_construct(pubs[0], scripts)
|
||
|
add_spender(spenders, "unkver/bare", standard=False, tap=tap, leaf="bare_unkver", failure={"leaf": "bare_c0"}, **ERR_CLEANSTACK)
|
||
|
add_spender(spenders, "unkver/return", standard=False, tap=tap, leaf="return_unkver", failure={"leaf": "return_c0"}, **ERR_OP_RETURN)
|
||
|
add_spender(spenders, "unkver/undecodable", standard=False, tap=tap, leaf="undecodable_unkver", failure={"leaf": "undecodable_c0"}, **ERR_UNDECODABLE)
|
||
|
add_spender(spenders, "unkver/bigpush", standard=False, tap=tap, leaf="bigpush_unkver", failure={"leaf": "bigpush_c0"}, **ERR_PUSH_LIMIT)
|
||
|
add_spender(spenders, "unkver/1001push", standard=False, tap=tap, leaf="1001push_unkver", failure={"leaf": "1001push_c0"}, **ERR_STACK_SIZE)
|
||
|
add_spender(spenders, "unkver/1001inputs", standard=False, tap=tap, leaf="bare_unkver", inputs=[b'']*1001, failure={"leaf": "bare_c0"}, **ERR_STACK_SIZE)
|
||
|
|
||
|
# OP_SUCCESSx tests.
|
||
|
hashtype = lambda _: random.choice(VALID_SIGHASHES_TAPROOT)
|
||
|
for opval in range(76, 0x100):
|
||
|
opcode = CScriptOp(opval)
|
||
|
if not is_op_success(opcode):
|
||
|
continue
|
||
|
scripts = [
|
||
|
("bare_success", CScript([opcode])),
|
||
|
("bare_nop", CScript([OP_NOP])),
|
||
|
("unexecif_success", CScript([OP_0, OP_IF, opcode, OP_ENDIF])),
|
||
|
("unexecif_nop", CScript([OP_0, OP_IF, OP_NOP, OP_ENDIF])),
|
||
|
("return_success", CScript([OP_RETURN, opcode])),
|
||
|
("return_nop", CScript([OP_RETURN, OP_NOP])),
|
||
|
("undecodable_success", CScript([opcode, OP_PUSHDATA1])),
|
||
|
("undecodable_nop", CScript([OP_NOP, OP_PUSHDATA1])),
|
||
|
("undecodable_bypassed_success", CScript([OP_PUSHDATA1, OP_2, opcode])),
|
||
|
("bigpush_success", CScript([random_bytes(MAX_SCRIPT_ELEMENT_SIZE+1), OP_DROP, opcode])),
|
||
|
("bigpush_nop", CScript([random_bytes(MAX_SCRIPT_ELEMENT_SIZE+1), OP_DROP, OP_NOP])),
|
||
|
("1001push_success", CScript([OP_0] * 1001 + [opcode])),
|
||
|
("1001push_nop", CScript([OP_0] * 1001 + [OP_NOP])),
|
||
|
]
|
||
|
random.shuffle(scripts)
|
||
|
tap = taproot_construct(pubs[0], scripts)
|
||
|
add_spender(spenders, "opsuccess/bare", standard=False, tap=tap, leaf="bare_success", failure={"leaf": "bare_nop"}, **ERR_CLEANSTACK)
|
||
|
add_spender(spenders, "opsuccess/unexecif", standard=False, tap=tap, leaf="unexecif_success", failure={"leaf": "unexecif_nop"}, **ERR_CLEANSTACK)
|
||
|
add_spender(spenders, "opsuccess/return", standard=False, tap=tap, leaf="return_success", failure={"leaf": "return_nop"}, **ERR_OP_RETURN)
|
||
|
add_spender(spenders, "opsuccess/undecodable", standard=False, tap=tap, leaf="undecodable_success", failure={"leaf": "undecodable_nop"}, **ERR_UNDECODABLE)
|
||
|
add_spender(spenders, "opsuccess/undecodable_bypass", standard=False, tap=tap, leaf="undecodable_success", failure={"leaf": "undecodable_bypassed_success"}, **ERR_UNDECODABLE)
|
||
|
add_spender(spenders, "opsuccess/bigpush", standard=False, tap=tap, leaf="bigpush_success", failure={"leaf": "bigpush_nop"}, **ERR_PUSH_LIMIT)
|
||
|
add_spender(spenders, "opsuccess/1001push", standard=False, tap=tap, leaf="1001push_success", failure={"leaf": "1001push_nop"}, **ERR_STACK_SIZE)
|
||
|
add_spender(spenders, "opsuccess/1001inputs", standard=False, tap=tap, leaf="bare_success", inputs=[b'']*1001, failure={"leaf": "bare_nop"}, **ERR_STACK_SIZE)
|
||
|
|
||
|
# Non-OP_SUCCESSx (verify that those aren't accidentally treated as OP_SUCCESSx)
|
||
|
for opval in range(0, 0x100):
|
||
|
opcode = CScriptOp(opval)
|
||
|
if is_op_success(opcode):
|
||
|
continue
|
||
|
scripts = [
|
||
|
("normal", CScript([OP_RETURN, opcode] + [OP_NOP] * 75)),
|
||
|
("op_success", CScript([OP_RETURN, CScriptOp(0x50)]))
|
||
|
]
|
||
|
tap = taproot_construct(pubs[0], scripts)
|
||
|
add_spender(spenders, "alwaysvalid/notsuccessx", tap=tap, leaf="op_success", inputs=[], standard=False, failure={"leaf": "normal"}) # err_msg differs based on opcode
|
||
|
|
||
|
# == Legacy tests ==
|
||
|
|
||
|
# Also add a few legacy spends into the mix, so that transactions which combine taproot and pre-taproot spends get tested too.
|
||
|
for compressed in [False, True]:
|
||
|
eckey1 = ECKey()
|
||
|
eckey1.set(generate_privkey(), compressed)
|
||
|
pubkey1 = eckey1.get_pubkey().get_bytes()
|
||
|
eckey2 = ECKey()
|
||
|
eckey2.set(generate_privkey(), compressed)
|
||
|
for p2sh in [False, True]:
|
||
|
for witv0 in [False, True]:
|
||
|
for hashtype in VALID_SIGHASHES_ECDSA + [random.randrange(0x04, 0x80), random.randrange(0x84, 0x100)]:
|
||
|
standard = (hashtype in VALID_SIGHASHES_ECDSA) and (compressed or not witv0)
|
||
|
add_spender(spenders, "legacy/pk-wrongkey", hashtype=hashtype, p2sh=p2sh, witv0=witv0, standard=standard, script=CScript([pubkey1, OP_CHECKSIG]), **SINGLE_SIG, key=eckey1, failure={"key": eckey2}, sigops_weight=4-3*witv0, **ERR_NO_SUCCESS)
|
||
|
add_spender(spenders, "legacy/pkh-sighashflip", hashtype=hashtype, p2sh=p2sh, witv0=witv0, standard=standard, pkh=pubkey1, key=eckey1, **SIGHASH_BITFLIP, sigops_weight=4-3*witv0, **ERR_NO_SUCCESS)
|
||
|
|
||
|
# Verify that OP_CHECKSIGADD wasn't accidentally added to pre-taproot validation logic.
|
||
|
for p2sh in [False, True]:
|
||
|
for witv0 in [False, True]:
|
||
|
for hashtype in VALID_SIGHASHES_ECDSA + [random.randrange(0x04, 0x80), random.randrange(0x84, 0x100)]:
|
||
|
standard = hashtype in VALID_SIGHASHES_ECDSA and (p2sh or witv0)
|
||
|
add_spender(spenders, "compat/nocsa", hashtype=hashtype, p2sh=p2sh, witv0=witv0, standard=standard, script=CScript([OP_IF, OP_11, pubkey1, OP_CHECKSIGADD, OP_12, OP_EQUAL, OP_ELSE, pubkey1, OP_CHECKSIG, OP_ENDIF]), key=eckey1, sigops_weight=4-3*witv0, inputs=[getter("sign"), b''], failure={"inputs": [getter("sign"), b'\x01']}, **ERR_UNDECODABLE)
|
||
|
|
||
|
return spenders
|
||
|
|
||
|
def spenders_taproot_inactive():
|
||
|
"""Spenders for testing that pre-activation Taproot rules don't apply."""
|
||
|
|
||
|
spenders = []
|
||
|
|
||
|
sec = generate_privkey()
|
||
|
pub, _ = compute_xonly_pubkey(sec)
|
||
|
scripts = [
|
||
|
("pk", CScript([pub, OP_CHECKSIG])),
|
||
|
("future_leaf", CScript([pub, OP_CHECKSIG]), 0xc2),
|
||
|
("op_success", CScript([pub, OP_CHECKSIG, OP_0, OP_IF, CScriptOp(0x50), OP_ENDIF])),
|
||
|
]
|
||
|
tap = taproot_construct(pub, scripts)
|
||
|
|
||
|
# Test that keypath spending is valid & non-standard, regardless of validity.
|
||
|
add_spender(spenders, "inactive/keypath_valid", key=sec, tap=tap, standard=False)
|
||
|
add_spender(spenders, "inactive/keypath_invalidsig", key=sec, tap=tap, standard=False, sighash=bitflipper(default_sighash))
|
||
|
add_spender(spenders, "inactive/keypath_empty", key=sec, tap=tap, standard=False, witness=[])
|
||
|
|
||
|
# Same for scriptpath spending (and features like annex, leaf versions, or OP_SUCCESS don't change this)
|
||
|
add_spender(spenders, "inactive/scriptpath_valid", key=sec, tap=tap, leaf="pk", standard=False, inputs=[getter("sign")])
|
||
|
add_spender(spenders, "inactive/scriptpath_invalidsig", key=sec, tap=tap, leaf="pk", standard=False, inputs=[getter("sign")], sighash=bitflipper(default_sighash))
|
||
|
add_spender(spenders, "inactive/scriptpath_invalidcb", key=sec, tap=tap, leaf="pk", standard=False, inputs=[getter("sign")], controlblock=bitflipper(default_controlblock))
|
||
|
add_spender(spenders, "inactive/scriptpath_valid_unkleaf", key=sec, tap=tap, leaf="future_leaf", standard=False, inputs=[getter("sign")])
|
||
|
add_spender(spenders, "inactive/scriptpath_invalid_unkleaf", key=sec, tap=tap, leaf="future_leaf", standard=False, inputs=[getter("sign")], sighash=bitflipper(default_sighash))
|
||
|
add_spender(spenders, "inactive/scriptpath_valid_opsuccess", key=sec, tap=tap, leaf="op_success", standard=False, inputs=[getter("sign")])
|
||
|
add_spender(spenders, "inactive/scriptpath_valid_opsuccess", key=sec, tap=tap, leaf="op_success", standard=False, inputs=[getter("sign")], sighash=bitflipper(default_sighash))
|
||
|
|
||
|
return spenders
|
||
|
|
||
|
# Consensus validation flags to use in dumps for tests with "legacy/" or "inactive/" prefix.
|
||
|
LEGACY_FLAGS = "P2SH,DERSIG,CHECKLOCKTIMEVERIFY,CHECKSEQUENCEVERIFY,WITNESS,NULLDUMMY"
|
||
|
# Consensus validation flags to use in dumps for all other tests.
|
||
|
TAPROOT_FLAGS = "P2SH,DERSIG,CHECKLOCKTIMEVERIFY,CHECKSEQUENCEVERIFY,WITNESS,NULLDUMMY,TAPROOT"
|
||
|
|
||
|
def dump_json_test(tx, input_utxos, idx, success, failure):
|
||
|
spender = input_utxos[idx].spender
|
||
|
# Determine flags to dump
|
||
|
flags = LEGACY_FLAGS if spender.comment.startswith("legacy/") or spender.comment.startswith("inactive/") else TAPROOT_FLAGS
|
||
|
|
||
|
fields = [
|
||
|
("tx", tx.serialize().hex()),
|
||
|
("prevouts", [x.output.serialize().hex() for x in input_utxos]),
|
||
|
("index", idx),
|
||
|
("flags", flags),
|
||
|
("comment", spender.comment)
|
||
|
]
|
||
|
|
||
|
# The "final" field indicates that a spend should be always valid, even with more validation flags enabled
|
||
|
# than the listed ones. Use standardness as a proxy for this (which gives a conservative underestimate).
|
||
|
if spender.is_standard:
|
||
|
fields.append(("final", True))
|
||
|
|
||
|
def dump_witness(wit):
|
||
|
return OrderedDict([("scriptSig", wit[0].hex()), ("witness", [x.hex() for x in wit[1]])])
|
||
|
if success is not None:
|
||
|
fields.append(("success", dump_witness(success)))
|
||
|
if failure is not None:
|
||
|
fields.append(("failure", dump_witness(failure)))
|
||
|
|
||
|
# Write the dump to $TEST_DUMP_DIR/x/xyz... where x,y,z,... are the SHA1 sum of the dump (which makes the
|
||
|
# file naming scheme compatible with fuzzing infrastructure).
|
||
|
dump = json.dumps(OrderedDict(fields)) + ",\n"
|
||
|
sha1 = hashlib.sha1(dump.encode("utf-8")).hexdigest()
|
||
|
dirname = os.environ.get("TEST_DUMP_DIR", ".") + ("/%s" % sha1[0])
|
||
|
os.makedirs(dirname, exist_ok=True)
|
||
|
with open(dirname + ("/%s" % sha1), 'w', encoding="utf8") as f:
|
||
|
f.write(dump)
|
||
|
|
||
|
# Data type to keep track of UTXOs, where they were created, and how to spend them.
|
||
|
UTXOData = namedtuple('UTXOData', 'outpoint,output,spender')
|
||
|
|
||
|
|
||
|
class TaprootTest(BitcoinTestFramework):
|
||
|
def add_options(self, parser):
|
||
|
parser.add_argument("--dumptests", dest="dump_tests", default=False, action="store_true",
|
||
|
help="Dump generated test cases to directory set by TEST_DUMP_DIR environment variable")
|
||
|
parser.add_argument("--previous_release", dest="previous_release", default=False, action="store_true",
|
||
|
help="Use a previous release as taproot-inactive node")
|
||
|
|
||
|
def skip_test_if_missing_module(self):
|
||
|
self.skip_if_no_wallet()
|
||
|
if self.options.previous_release:
|
||
|
self.skip_if_no_previous_releases()
|
||
|
|
||
|
def set_test_params(self):
|
||
|
self.num_nodes = 2
|
||
|
self.setup_clean_chain = True
|
||
|
# Node 0 has Taproot inactive, Node 1 active.
|
||
|
self.extra_args = [["-par=1"], ["-par=1"]]
|
||
|
if self.options.previous_release:
|
||
|
self.wallet_names = [None, self.default_wallet_name]
|
||
|
else:
|
||
|
self.extra_args[0].append("-vbparams=taproot:1:1")
|
||
|
|
||
|
def setup_nodes(self):
|
||
|
self.add_nodes(self.num_nodes, self.extra_args, versions=[
|
||
|
200100 if self.options.previous_release else None,
|
||
|
None,
|
||
|
])
|
||
|
self.start_nodes()
|
||
|
self.import_deterministic_coinbase_privkeys()
|
||
|
|
||
|
def block_submit(self, node, txs, msg, err_msg, cb_pubkey=None, fees=0, sigops_weight=0, witness=False, accept=False):
|
||
|
|
||
|
# Deplete block of any non-tapscript sigops using a single additional 0-value coinbase output.
|
||
|
# It is not impossible to fit enough tapscript sigops to hit the old 80k limit without
|
||
|
# busting txin-level limits. We simply have to account for the p2pk outputs in all
|
||
|
# transactions.
|
||
|
extra_output_script = CScript([OP_CHECKSIG]*((MAX_BLOCK_SIGOPS_WEIGHT - sigops_weight) // WITNESS_SCALE_FACTOR))
|
||
|
|
||
|
block = create_block(self.tip, create_coinbase(self.lastblockheight + 1, pubkey=cb_pubkey, extra_output_script=extra_output_script, fees=fees), self.lastblocktime + 1)
|
||
|
block.nVersion = 4
|
||
|
for tx in txs:
|
||
|
tx.rehash()
|
||
|
block.vtx.append(tx)
|
||
|
block.hashMerkleRoot = block.calc_merkle_root()
|
||
|
witness and add_witness_commitment(block)
|
||
|
block.rehash()
|
||
|
block.solve()
|
||
|
block_response = node.submitblock(block.serialize().hex())
|
||
|
if err_msg is not None:
|
||
|
assert block_response is not None and err_msg in block_response, "Missing error message '%s' from block response '%s': %s" % (err_msg, "(None)" if block_response is None else block_response, msg)
|
||
|
if accept:
|
||
|
assert node.getbestblockhash() == block.hash, "Failed to accept: %s (response: %s)" % (msg, block_response)
|
||
|
self.tip = block.sha256
|
||
|
self.lastblockhash = block.hash
|
||
|
self.lastblocktime += 1
|
||
|
self.lastblockheight += 1
|
||
|
else:
|
||
|
assert node.getbestblockhash() == self.lastblockhash, "Failed to reject: " + msg
|
||
|
|
||
|
def test_spenders(self, node, spenders, input_counts):
|
||
|
"""Run randomized tests with a number of "spenders".
|
||
|
|
||
|
Steps:
|
||
|
1) Generate an appropriate UTXO for each spender to test spend conditions
|
||
|
2) Generate 100 random addresses of all wallet types: pkh/sh_wpkh/wpkh
|
||
|
3) Select random number of inputs from (1)
|
||
|
4) Select random number of addresses from (2) as outputs
|
||
|
|
||
|
Each spender embodies a test; in a large randomized test, it is verified
|
||
|
that toggling the valid argument to each lambda toggles the validity of
|
||
|
the transaction. This is accomplished by constructing transactions consisting
|
||
|
of all valid inputs, except one invalid one.
|
||
|
"""
|
||
|
|
||
|
# Construct a bunch of sPKs that send coins back to the host wallet
|
||
|
self.log.info("- Constructing addresses for returning coins")
|
||
|
host_spks = []
|
||
|
host_pubkeys = []
|
||
|
for i in range(16):
|
||
|
addr = node.getnewaddress(address_type=random.choice(["legacy", "p2sh-segwit", "bech32"]))
|
||
|
info = node.getaddressinfo(addr)
|
||
|
spk = bytes.fromhex(info['scriptPubKey'])
|
||
|
host_spks.append(spk)
|
||
|
host_pubkeys.append(bytes.fromhex(info['pubkey']))
|
||
|
|
||
|
# Initialize variables used by block_submit().
|
||
|
self.lastblockhash = node.getbestblockhash()
|
||
|
self.tip = int(self.lastblockhash, 16)
|
||
|
block = node.getblock(self.lastblockhash)
|
||
|
self.lastblockheight = block['height']
|
||
|
self.lastblocktime = block['time']
|
||
|
|
||
|
# Create transactions spending up to 50 of the wallet's inputs, with one output for each spender, and
|
||
|
# one change output at the end. The transaction is constructed on the Python side to enable
|
||
|
# having multiple outputs to the same address and outputs with no assigned address. The wallet
|
||
|
# is then asked to sign it through signrawtransactionwithwallet, and then added to a block on the
|
||
|
# Python side (to bypass standardness rules).
|
||
|
self.log.info("- Creating test UTXOs...")
|
||
|
random.shuffle(spenders)
|
||
|
normal_utxos = []
|
||
|
mismatching_utxos = [] # UTXOs with input that requires mismatching output position
|
||
|
done = 0
|
||
|
while done < len(spenders):
|
||
|
# Compute how many UTXOs to create with this transaction
|
||
|
count_this_tx = min(len(spenders) - done, (len(spenders) + 4) // 5, 10000)
|
||
|
|
||
|
fund_tx = CTransaction()
|
||
|
# Add the 50 highest-value inputs
|
||
|
unspents = node.listunspent()
|
||
|
random.shuffle(unspents)
|
||
|
unspents.sort(key=lambda x: int(x["amount"] * 100000000), reverse=True)
|
||
|
if len(unspents) > 50:
|
||
|
unspents = unspents[:50]
|
||
|
random.shuffle(unspents)
|
||
|
balance = 0
|
||
|
for unspent in unspents:
|
||
|
balance += int(unspent["amount"] * 100000000)
|
||
|
txid = int(unspent["txid"], 16)
|
||
|
fund_tx.vin.append(CTxIn(COutPoint(txid, int(unspent["vout"])), CScript()))
|
||
|
# Add outputs
|
||
|
cur_progress = done / len(spenders)
|
||
|
next_progress = (done + count_this_tx) / len(spenders)
|
||
|
change_goal = (1.0 - 0.6 * next_progress) / (1.0 - 0.6 * cur_progress) * balance
|
||
|
self.log.debug("Create %i UTXOs in a transaction spending %i inputs worth %.8f (sending ~%.8f to change)" % (count_this_tx, len(unspents), balance * 0.00000001, change_goal * 0.00000001))
|
||
|
for i in range(count_this_tx):
|
||
|
avg = (balance - change_goal) / (count_this_tx - i)
|
||
|
amount = int(random.randrange(int(avg*0.85 + 0.5), int(avg*1.15 + 0.5)) + 0.5)
|
||
|
balance -= amount
|
||
|
fund_tx.vout.append(CTxOut(amount, spenders[done + i].script))
|
||
|
# Add change
|
||
|
fund_tx.vout.append(CTxOut(balance - 10000, random.choice(host_spks)))
|
||
|
# Ask the wallet to sign
|
||
|
ss = BytesIO(bytes.fromhex(node.signrawtransactionwithwallet(fund_tx.serialize().hex())["hex"]))
|
||
|
fund_tx.deserialize(ss)
|
||
|
# Construct UTXOData entries
|
||
|
fund_tx.rehash()
|
||
|
for i in range(count_this_tx):
|
||
|
utxodata = UTXOData(outpoint=COutPoint(fund_tx.sha256, i), output=fund_tx.vout[i], spender=spenders[done])
|
||
|
if utxodata.spender.need_vin_vout_mismatch:
|
||
|
mismatching_utxos.append(utxodata)
|
||
|
else:
|
||
|
normal_utxos.append(utxodata)
|
||
|
done += 1
|
||
|
# Mine into a block
|
||
|
self.block_submit(node, [fund_tx], "Funding tx", None, random.choice(host_pubkeys), 10000, MAX_BLOCK_SIGOPS_WEIGHT, True, True)
|
||
|
|
||
|
# Consume groups of choice(input_coins) from utxos in a tx, testing the spenders.
|
||
|
self.log.info("- Running %i spending tests" % done)
|
||
|
random.shuffle(normal_utxos)
|
||
|
random.shuffle(mismatching_utxos)
|
||
|
assert done == len(normal_utxos) + len(mismatching_utxos)
|
||
|
|
||
|
left = done
|
||
|
while left:
|
||
|
# Construct CTransaction with random nVersion, nLocktime
|
||
|
tx = CTransaction()
|
||
|
tx.nVersion = random.choice([1, 2, random.randint(-0x80000000, 0x7fffffff)])
|
||
|
min_sequence = (tx.nVersion != 1 and tx.nVersion != 0) * 0x80000000 # The minimum sequence number to disable relative locktime
|
||
|
if random.choice([True, False]):
|
||
|
tx.nLockTime = random.randrange(LOCKTIME_THRESHOLD, self.lastblocktime - 7200) # all absolute locktimes in the past
|
||
|
else:
|
||
|
tx.nLockTime = random.randrange(self.lastblockheight + 1) # all block heights in the past
|
||
|
|
||
|
# Decide how many UTXOs to test with.
|
||
|
acceptable = [n for n in input_counts if n <= left and (left - n > max(input_counts) or (left - n) in [0] + input_counts)]
|
||
|
num_inputs = random.choice(acceptable)
|
||
|
|
||
|
# If we have UTXOs that require mismatching inputs/outputs left, include exactly one of those
|
||
|
# unless there is only one normal UTXO left (as tests with mismatching UTXOs require at least one
|
||
|
# normal UTXO to go in the first position), and we don't want to run out of normal UTXOs.
|
||
|
input_utxos = []
|
||
|
while len(mismatching_utxos) and (len(input_utxos) == 0 or len(normal_utxos) == 1):
|
||
|
input_utxos.append(mismatching_utxos.pop())
|
||
|
left -= 1
|
||
|
|
||
|
# Top up until we hit num_inputs (but include at least one normal UTXO always).
|
||
|
for _ in range(max(1, num_inputs - len(input_utxos))):
|
||
|
input_utxos.append(normal_utxos.pop())
|
||
|
left -= 1
|
||
|
|
||
|
# The first input cannot require a mismatching output (as there is at least one output).
|
||
|
while True:
|
||
|
random.shuffle(input_utxos)
|
||
|
if not input_utxos[0].spender.need_vin_vout_mismatch:
|
||
|
break
|
||
|
first_mismatch_input = None
|
||
|
for i in range(len(input_utxos)):
|
||
|
if input_utxos[i].spender.need_vin_vout_mismatch:
|
||
|
first_mismatch_input = i
|
||
|
assert first_mismatch_input is None or first_mismatch_input > 0
|
||
|
|
||
|
# Decide fee, and add CTxIns to tx.
|
||
|
amount = sum(utxo.output.nValue for utxo in input_utxos)
|
||
|
fee = min(random.randrange(MIN_FEE * 2, MIN_FEE * 4), amount - DUST_LIMIT) # 10000-20000 sat fee
|
||
|
in_value = amount - fee
|
||
|
tx.vin = [CTxIn(outpoint=utxo.outpoint, nSequence=random.randint(min_sequence, 0xffffffff)) for utxo in input_utxos]
|
||
|
tx.wit.vtxinwit = [CTxInWitness() for _ in range(len(input_utxos))]
|
||
|
sigops_weight = sum(utxo.spender.sigops_weight for utxo in input_utxos)
|
||
|
self.log.debug("Test: %s" % (", ".join(utxo.spender.comment for utxo in input_utxos)))
|
||
|
|
||
|
# Add 1 to 4 random outputs (but constrained by inputs that require mismatching outputs)
|
||
|
num_outputs = random.choice(range(1, 1 + min(4, 4 if first_mismatch_input is None else first_mismatch_input)))
|
||
|
assert in_value >= 0 and fee - num_outputs * DUST_LIMIT >= MIN_FEE
|
||
|
for i in range(num_outputs):
|
||
|
tx.vout.append(CTxOut())
|
||
|
if in_value <= DUST_LIMIT:
|
||
|
tx.vout[-1].nValue = DUST_LIMIT
|
||
|
elif i < num_outputs - 1:
|
||
|
tx.vout[-1].nValue = in_value
|
||
|
else:
|
||
|
tx.vout[-1].nValue = random.randint(DUST_LIMIT, in_value)
|
||
|
in_value -= tx.vout[-1].nValue
|
||
|
tx.vout[-1].scriptPubKey = random.choice(host_spks)
|
||
|
sigops_weight += CScript(tx.vout[-1].scriptPubKey).GetSigOpCount(False) * WITNESS_SCALE_FACTOR
|
||
|
fee += in_value
|
||
|
assert fee >= 0
|
||
|
|
||
|
# Select coinbase pubkey
|
||
|
cb_pubkey = random.choice(host_pubkeys)
|
||
|
sigops_weight += 1 * WITNESS_SCALE_FACTOR
|
||
|
|
||
|
# Precompute one satisfying and one failing scriptSig/witness for each input.
|
||
|
input_data = []
|
||
|
for i in range(len(input_utxos)):
|
||
|
fn = input_utxos[i].spender.sat_function
|
||
|
fail = None
|
||
|
success = fn(tx, i, [utxo.output for utxo in input_utxos], True)
|
||
|
if not input_utxos[i].spender.no_fail:
|
||
|
fail = fn(tx, i, [utxo.output for utxo in input_utxos], False)
|
||
|
input_data.append((fail, success))
|
||
|
if self.options.dump_tests:
|
||
|
dump_json_test(tx, input_utxos, i, success, fail)
|
||
|
|
||
|
# Sign each input incorrectly once on each complete signing pass, except the very last.
|
||
|
for fail_input in list(range(len(input_utxos))) + [None]:
|
||
|
# Skip trying to fail at spending something that can't be made to fail.
|
||
|
if fail_input is not None and input_utxos[fail_input].spender.no_fail:
|
||
|
continue
|
||
|
# Expected message with each input failure, may be None(which is ignored)
|
||
|
expected_fail_msg = None if fail_input is None else input_utxos[fail_input].spender.err_msg
|
||
|
# Fill inputs/witnesses
|
||
|
for i in range(len(input_utxos)):
|
||
|
tx.vin[i].scriptSig = input_data[i][i != fail_input][0]
|
||
|
tx.wit.vtxinwit[i].scriptWitness.stack = input_data[i][i != fail_input][1]
|
||
|
# Submit to mempool to check standardness
|
||
|
is_standard_tx = fail_input is None and all(utxo.spender.is_standard for utxo in input_utxos) and tx.nVersion >= 1 and tx.nVersion <= 2
|
||
|
tx.rehash()
|
||
|
msg = ','.join(utxo.spender.comment + ("*" if n == fail_input else "") for n, utxo in enumerate(input_utxos))
|
||
|
if is_standard_tx:
|
||
|
node.sendrawtransaction(tx.serialize().hex(), 0)
|
||
|
assert node.getmempoolentry(tx.hash) is not None, "Failed to accept into mempool: " + msg
|
||
|
else:
|
||
|
assert_raises_rpc_error(-26, None, node.sendrawtransaction, tx.serialize().hex(), 0)
|
||
|
# Submit in a block
|
||
|
self.block_submit(node, [tx], msg, witness=True, accept=fail_input is None, cb_pubkey=cb_pubkey, fees=fee, sigops_weight=sigops_weight, err_msg=expected_fail_msg)
|
||
|
|
||
|
if (len(spenders) - left) // 200 > (len(spenders) - left - len(input_utxos)) // 200:
|
||
|
self.log.info(" - %i tests done" % (len(spenders) - left))
|
||
|
|
||
|
assert left == 0
|
||
|
assert len(normal_utxos) == 0
|
||
|
assert len(mismatching_utxos) == 0
|
||
|
self.log.info(" - Done")
|
||
|
|
||
|
def run_test(self):
|
||
|
# Post-taproot activation tests go first (pre-taproot tests' blocks are invalid post-taproot).
|
||
|
self.log.info("Post-activation tests...")
|
||
|
self.nodes[1].generate(COINBASE_MATURITY + 1)
|
||
|
self.test_spenders(self.nodes[1], spenders_taproot_active(), input_counts=[1, 2, 2, 2, 2, 3])
|
||
|
|
||
|
# Re-connect nodes in case they have been disconnected
|
||
|
self.disconnect_nodes(0, 1)
|
||
|
self.connect_nodes(0, 1)
|
||
|
|
||
|
# Transfer value of the largest 500 coins to pre-taproot node.
|
||
|
addr = self.nodes[0].getnewaddress()
|
||
|
|
||
|
unsp = self.nodes[1].listunspent()
|
||
|
unsp = sorted(unsp, key=lambda i: i['amount'], reverse=True)
|
||
|
unsp = unsp[:500]
|
||
|
|
||
|
rawtx = self.nodes[1].createrawtransaction(
|
||
|
inputs=[{
|
||
|
'txid': i['txid'],
|
||
|
'vout': i['vout']
|
||
|
} for i in unsp],
|
||
|
outputs={addr: sum(i['amount'] for i in unsp)}
|
||
|
)
|
||
|
rawtx = self.nodes[1].signrawtransactionwithwallet(rawtx)['hex']
|
||
|
|
||
|
# Mine a block with the transaction
|
||
|
block = create_block(tmpl=self.nodes[1].getblocktemplate(NORMAL_GBT_REQUEST_PARAMS), txlist=[rawtx])
|
||
|
add_witness_commitment(block)
|
||
|
block.rehash()
|
||
|
block.solve()
|
||
|
assert_equal(None, self.nodes[1].submitblock(block.serialize().hex()))
|
||
|
self.sync_blocks()
|
||
|
|
||
|
# Pre-taproot activation tests.
|
||
|
self.log.info("Pre-activation tests...")
|
||
|
# Run each test twice; once in isolation, and once combined with others. Testing in isolation
|
||
|
# means that the standardness is verified in every test (as combined transactions are only standard
|
||
|
# when all their inputs are standard).
|
||
|
self.test_spenders(self.nodes[0], spenders_taproot_inactive(), input_counts=[1])
|
||
|
self.test_spenders(self.nodes[0], spenders_taproot_inactive(), input_counts=[2, 3])
|
||
|
|
||
|
|
||
|
if __name__ == '__main__':
|
||
|
TaprootTest().main()
|