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p2p_segwit.py
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p2p_segwit.py
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#!/usr/bin/env python3
# Copyright (c) 2016-2019 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
"""Test segwit transactions and blocks on P2P network."""
import math
import random
import struct
import time
from test_framework.blocktools import create_block, create_coinbase, add_witness_commitment, get_witness_script, WITNESS_COMMITMENT_HEADER
from test_framework.key import ECKey
from test_framework.messages import (
BIP125_SEQUENCE_NUMBER,
CBlock,
CBlockHeader,
CInv,
COutPoint,
CTransaction,
CTxIn,
CTxInWitness,
CTxOut,
CTxWitness,
MAX_BLOCK_BASE_SIZE,
MSG_WITNESS_FLAG,
NODE_NETWORK,
NODE_WITNESS,
msg_no_witness_block,
msg_getdata,
msg_headers,
msg_inv,
msg_tx,
msg_block,
msg_no_witness_tx,
ser_uint256,
ser_vector,
sha256,
uint256_from_str,
FromHex,
)
from test_framework.mininode import (
P2PInterface,
mininode_lock,
)
from test_framework.script import (
CScript,
CScriptNum,
CScriptOp,
MAX_SCRIPT_ELEMENT_SIZE,
OP_0,
OP_1,
OP_16,
OP_2DROP,
OP_CHECKMULTISIG,
OP_CHECKSIG,
OP_DROP,
OP_DUP,
OP_ELSE,
OP_ENDIF,
OP_EQUAL,
OP_EQUALVERIFY,
OP_HASH160,
OP_IF,
OP_RETURN,
OP_TRUE,
SIGHASH_ALL,
SIGHASH_ANYONECANPAY,
SIGHASH_NONE,
SIGHASH_SINGLE,
SegwitV0SignatureHash,
LegacySignatureHash,
hash160,
)
from test_framework.test_framework import BitcoinTestFramework
from test_framework.util import (
assert_equal,
connect_nodes,
disconnect_nodes,
softfork_active,
hex_str_to_bytes,
assert_raises_rpc_error,
)
# The versionbit bit used to signal activation of SegWit
VB_WITNESS_BIT = 1
VB_PERIOD = 144
VB_TOP_BITS = 0x20000000
MAX_SIGOP_COST = 80000
SEGWIT_HEIGHT = 120
class UTXO():
"""Used to keep track of anyone-can-spend outputs that we can use in the tests."""
def __init__(self, sha256, n, value):
self.sha256 = sha256
self.n = n
self.nValue = value
def get_p2pkh_script(pubkeyhash):
"""Get the script associated with a P2PKH."""
return CScript([CScriptOp(OP_DUP), CScriptOp(OP_HASH160), pubkeyhash, CScriptOp(OP_EQUALVERIFY), CScriptOp(OP_CHECKSIG)])
def sign_p2pk_witness_input(script, tx_to, in_idx, hashtype, value, key):
"""Add signature for a P2PK witness program."""
tx_hash = SegwitV0SignatureHash(script, tx_to, in_idx, hashtype, value)
signature = key.sign_ecdsa(tx_hash) + chr(hashtype).encode('latin-1')
tx_to.wit.vtxinwit[in_idx].scriptWitness.stack = [signature, script]
tx_to.rehash()
def get_virtual_size(witness_block):
"""Calculate the virtual size of a witness block.
Virtual size is base + witness/4."""
base_size = len(witness_block.serialize(with_witness=False))
total_size = len(witness_block.serialize())
# the "+3" is so we round up
vsize = int((3 * base_size + total_size + 3) / 4)
return vsize
def test_transaction_acceptance(node, p2p, tx, with_witness, accepted, reason=None):
"""Send a transaction to the node and check that it's accepted to the mempool
- Submit the transaction over the p2p interface
- use the getrawmempool rpc to check for acceptance."""
reason = [reason] if reason else []
with node.assert_debug_log(expected_msgs=reason):
p2p.send_and_ping(msg_tx(tx) if with_witness else msg_no_witness_tx(tx))
assert_equal(tx.hash in node.getrawmempool(), accepted)
def test_witness_block(node, p2p, block, accepted, with_witness=True, reason=None):
"""Send a block to the node and check that it's accepted
- Submit the block over the p2p interface
- use the getbestblockhash rpc to check for acceptance."""
reason = [reason] if reason else []
with node.assert_debug_log(expected_msgs=reason):
p2p.send_and_ping(msg_block(block) if with_witness else msg_no_witness_block(block))
assert_equal(node.getbestblockhash() == block.hash, accepted)
class TestP2PConn(P2PInterface):
def __init__(self):
super().__init__()
self.getdataset = set()
# Avoid sending out msg_getdata in the mininode thread as a reply to invs.
# They are not needed and would only lead to races because we send msg_getdata out in the test thread
def on_inv(self, message):
pass
def on_getdata(self, message):
for inv in message.inv:
self.getdataset.add(inv.hash)
def announce_tx_and_wait_for_getdata(self, tx, timeout=60, success=True):
with mininode_lock:
self.last_message.pop("getdata", None)
self.send_message(msg_inv(inv=[CInv(1, tx.sha256)]))
if success:
self.wait_for_getdata(timeout)
else:
time.sleep(timeout)
assert not self.last_message.get("getdata")
def announce_block_and_wait_for_getdata(self, block, use_header, timeout=60):
with mininode_lock:
self.last_message.pop("getdata", None)
self.last_message.pop("getheaders", None)
msg = msg_headers()
msg.headers = [CBlockHeader(block)]
if use_header:
self.send_message(msg)
else:
self.send_message(msg_inv(inv=[CInv(2, block.sha256)]))
self.wait_for_getheaders()
self.send_message(msg)
self.wait_for_getdata()
def request_block(self, blockhash, inv_type, timeout=60):
with mininode_lock:
self.last_message.pop("block", None)
self.send_message(msg_getdata(inv=[CInv(inv_type, blockhash)]))
self.wait_for_block(blockhash, timeout)
return self.last_message["block"].block
class SegWitTest(BitcoinTestFramework):
def set_test_params(self):
self.setup_clean_chain = True
self.num_nodes = 3
# This test tests SegWit both pre and post-activation, so use the normal BIP9 activation.
self.extra_args = [
["-acceptnonstdtxn=1", "-segwitheight={}".format(SEGWIT_HEIGHT), "[email protected]"],
["-acceptnonstdtxn=0", "-segwitheight={}".format(SEGWIT_HEIGHT)],
["-acceptnonstdtxn=1", "-segwitheight=-1"],
]
self.supports_cli = False
def skip_test_if_missing_module(self):
self.skip_if_no_wallet()
def setup_network(self):
self.setup_nodes()
connect_nodes(self.nodes[0], 1)
connect_nodes(self.nodes[0], 2)
self.sync_all()
# Helper functions
def build_next_block(self, nVersion=VB_TOP_BITS):
"""Build a block on top of node0's tip."""
tip = self.nodes[0].getbestblockhash()
height = self.nodes[0].getblockcount() + 1
block_time = self.nodes[0].getblockheader(tip)["mediantime"] + 1
block = create_block(int(tip, 16), create_coinbase(height), block_time)
block.nVersion = version
block.rehash()
return block
def update_witness_block_with_transactions(self, block, tx_list, nonce=0):
"""Add list of transactions to block, adds witness commitment, then solves."""
block.vtx.extend(tx_list)
add_witness_commitment(block, nonce)
block.solve()
def run_test(self):
# Setup the p2p connections
# self.test_node sets NODE_WITNESS|NODE_NETWORK
self.test_node = self.nodes[0].add_p2p_connection(TestP2PConn(), services=NODE_NETWORK | NODE_WITNESS)
# self.old_node sets only NODE_NETWORK
self.old_node = self.nodes[0].add_p2p_connection(TestP2PConn(), services=NODE_NETWORK)
# self.std_node is for testing node1 (fRequireStandard=true)
self.std_node = self.nodes[1].add_p2p_connection(TestP2PConn(), services=NODE_NETWORK | NODE_WITNESS)
assert self.test_node.nServices & NODE_WITNESS != 0
# Keep a place to store utxo's that can be used in later tests
self.utxo = []
self.log.info("Starting tests before segwit activation")
self.segwit_active = False
self.test_non_witness_transaction()
self.test_v0_outputs_arent_spendable()
self.test_block_relay()
self.test_getblocktemplate_before_lockin()
self.test_unnecessary_witness_before_segwit_activation()
self.test_witness_tx_relay_before_segwit_activation()
self.test_standardness_v0()
self.log.info("Advancing to segwit activation")
self.advance_to_segwit_active()
# Segwit status 'active'
self.test_p2sh_witness()
self.test_witness_commitments()
self.test_block_malleability()
self.test_witness_block_size()
self.test_submit_block()
self.test_extra_witness_data()
self.test_max_witness_push_length()
self.test_max_witness_program_length()
self.test_witness_input_length()
self.test_block_relay()
self.test_tx_relay_after_segwit_activation()
self.test_standardness_v0()
self.test_segwit_versions()
self.test_premature_coinbase_witness_spend()
self.test_uncompressed_pubkey()
self.test_signature_version_1()
self.test_non_standard_witness_blinding()
self.test_non_standard_witness()
self.test_upgrade_after_activation()
self.test_witness_sigops()
self.test_superfluous_witness()
# Individual tests
def subtest(func): # noqa: N805
"""Wraps the subtests for logging and state assertions."""
def func_wrapper(self, *args, **kwargs):
self.log.info("Subtest: {} (Segwit active = {})".format(func.__name__, self.segwit_active))
# Assert segwit status is as expected
assert_equal(softfork_active(self.nodes[0], 'segwit'), self.segwit_active)
func(self, *args, **kwargs)
# Each subtest should leave some utxos for the next subtest
assert self.utxo
self.sync_blocks()
# Assert segwit status is as expected at end of subtest
assert_equal(softfork_active(self.nodes[0], 'segwit'), self.segwit_active)
return func_wrapper
@subtest
def test_non_witness_transaction(self):
"""See if sending a regular transaction works, and create a utxo to use in later tests."""
# Mine a block with an anyone-can-spend coinbase,
# let it mature, then try to spend it.
block = self.build_next_block(version=1)
block.solve()
self.test_node.send_and_ping(msg_no_witness_block(block)) # make sure the block was processed
txid = block.vtx[0].sha256
self.nodes[0].generate(99) # let the block mature
# Create a transaction that spends the coinbase
tx = CTransaction()
tx.vin.append(CTxIn(COutPoint(txid, 0), b""))
tx.vout.append(CTxOut(49 * 100000000, CScript([OP_TRUE, OP_DROP] * 15 + [OP_TRUE])))
tx.calc_sha256()
# Check that serializing it with or without witness is the same
# This is a sanity check of our testing framework.
assert_equal(msg_no_witness_tx(tx).serialize(), msg_tx(tx).serialize())
self.test_node.send_and_ping(msg_tx(tx)) # make sure the block was processed
assert tx.hash in self.nodes[0].getrawmempool()
# Save this transaction for later
self.utxo.append(UTXO(tx.sha256, 0, 49 * 100000000))
self.nodes[0].generate(1)
@subtest
def test_unnecessary_witness_before_segwit_activation(self):
"""Verify that blocks with witnesses are rejected before activation."""
tx = CTransaction()
tx.vin.append(CTxIn(COutPoint(self.utxo[0].sha256, self.utxo[0].n), b""))
tx.vout.append(CTxOut(self.utxo[0].nValue - 1000, CScript([OP_TRUE])))
tx.wit.vtxinwit.append(CTxInWitness())
tx.wit.vtxinwit[0].scriptWitness.stack = [CScript([CScriptNum(1)])]
# Verify the hash with witness differs from the txid
# (otherwise our testing framework must be broken!)
tx.rehash()
assert tx.sha256 != tx.calc_sha256(with_witness=True)
# Construct a segwit-signaling block that includes the transaction.
block = self.build_next_block(version=(VB_TOP_BITS | (1 << VB_WITNESS_BIT)))
self.update_witness_block_with_transactions(block, [tx])
# Sending witness data before activation is not allowed (anti-spam
# rule).
test_witness_block(self.nodes[0], self.test_node, block, accepted=False, reason='unexpected-witness')
# But it should not be permanently marked bad...
# Resend without witness information.
self.test_node.send_and_ping(msg_no_witness_block(block)) # make sure the block was processed
assert_equal(self.nodes[0].getbestblockhash(), block.hash)
# Update our utxo list; we spent the first entry.
self.utxo.pop(0)
self.utxo.append(UTXO(tx.sha256, 0, tx.vout[0].nValue))
@subtest
def test_block_relay(self):
"""Test that block requests to NODE_WITNESS peer are with MSG_WITNESS_FLAG.
This is true regardless of segwit activation.
Also test that we don't ask for blocks from unupgraded peers."""
blocktype = 2 | MSG_WITNESS_FLAG
# test_node has set NODE_WITNESS, so all getdata requests should be for
# witness blocks.
# Test announcing a block via inv results in a getdata, and that
# announcing a version 4 or random VB block with a header results in a getdata
block1 = self.build_next_block()
block1.solve()
self.test_node.announce_block_and_wait_for_getdata(block1, use_header=False)
assert self.test_node.last_message["getdata"].inv[0].type == blocktype
test_witness_block(self.nodes[0], self.test_node, block1, True)
block2 = self.build_next_block(version=4)
block2.solve()
self.test_node.announce_block_and_wait_for_getdata(block2, use_header=True)
assert self.test_node.last_message["getdata"].inv[0].type == blocktype
test_witness_block(self.nodes[0], self.test_node, block2, True)
block3 = self.build_next_block(version=(VB_TOP_BITS | (1 << 15)))
block3.solve()
self.test_node.announce_block_and_wait_for_getdata(block3, use_header=True)
assert self.test_node.last_message["getdata"].inv[0].type == blocktype
test_witness_block(self.nodes[0], self.test_node, block3, True)
# Check that we can getdata for witness blocks or regular blocks,
# and the right thing happens.
if not self.segwit_active:
# Before activation, we should be able to request old blocks with
# or without witness, and they should be the same.
chain_height = self.nodes[0].getblockcount()
# Pick 10 random blocks on main chain, and verify that getdata's
# for MSG_BLOCK, MSG_WITNESS_BLOCK, and rpc getblock() are equal.
all_heights = list(range(chain_height + 1))
random.shuffle(all_heights)
all_heights = all_heights[0:10]
for height in all_heights:
block_hash = self.nodes[0].getblockhash(height)
rpc_block = self.nodes[0].getblock(block_hash, False)
block_hash = int(block_hash, 16)
block = self.test_node.request_block(block_hash, 2)
wit_block = self.test_node.request_block(block_hash, 2 | MSG_WITNESS_FLAG)
assert_equal(block.serialize(), wit_block.serialize())
assert_equal(block.serialize(), hex_str_to_bytes(rpc_block))
else:
# After activation, witness blocks and non-witness blocks should
# be different. Verify rpc getblock() returns witness blocks, while
# getdata respects the requested type.
block = self.build_next_block()
self.update_witness_block_with_transactions(block, [])
# This gives us a witness commitment.
assert len(block.vtx[0].wit.vtxinwit) == 1
assert len(block.vtx[0].wit.vtxinwit[0].scriptWitness.stack) == 1
test_witness_block(self.nodes[0], self.test_node, block, accepted=True)
# Now try to retrieve it...
rpc_block = self.nodes[0].getblock(block.hash, False)
non_wit_block = self.test_node.request_block(block.sha256, 2)
wit_block = self.test_node.request_block(block.sha256, 2 | MSG_WITNESS_FLAG)
assert_equal(wit_block.serialize(), hex_str_to_bytes(rpc_block))
assert_equal(wit_block.serialize(False), non_wit_block.serialize())
assert_equal(wit_block.serialize(), block.serialize())
# Test size, vsize, weight
rpc_details = self.nodes[0].getblock(block.hash, True)
assert_equal(rpc_details["size"], len(block.serialize()))
assert_equal(rpc_details["strippedsize"], len(block.serialize(False)))
weight = 3 * len(block.serialize(False)) + len(block.serialize())
assert_equal(rpc_details["weight"], weight)
# Upgraded node should not ask for blocks from unupgraded
block4 = self.build_next_block(version=4)
block4.solve()
self.old_node.getdataset = set()
# Blocks can be requested via direct-fetch (immediately upon processing the announcement)
# or via parallel download (with an indeterminate delay from processing the announcement)
# so to test that a block is NOT requested, we could guess a time period to sleep for,
# and then check. We can avoid the sleep() by taking advantage of transaction getdata's
# being processed after block getdata's, and announce a transaction as well,
# and then check to see if that particular getdata has been received.
# Since 0.14, inv's will only be responded to with a getheaders, so send a header
# to announce this block.
msg = msg_headers()
msg.headers = [CBlockHeader(block4)]
self.old_node.send_message(msg)
self.old_node.announce_tx_and_wait_for_getdata(block4.vtx[0])
assert block4.sha256 not in self.old_node.getdataset
@subtest
def test_v0_outputs_arent_spendable(self):
"""Test that v0 outputs aren't spendable before segwit activation.
~6 months after segwit activation, the SCRIPT_VERIFY_WITNESS flag was
backdated so that it applies to all blocks, going back to the genesis
block.
Consequently, version 0 witness outputs are never spendable without
witness, and so can't be spent before segwit activation (the point at which
blocks are permitted to contain witnesses)."""
# node2 doesn't need to be connected for this test.
# (If it's connected, node0 may propagate an invalid block to it over
# compact blocks and the nodes would have inconsistent tips.)
disconnect_nodes(self.nodes[0], 2)
# Create two outputs, a p2wsh and p2sh-p2wsh
witness_program = CScript([OP_TRUE])
witness_hash = sha256(witness_program)
script_pubkey = CScript([OP_0, witness_hash])
p2sh_pubkey = hash160(script_pubkey)
p2sh_script_pubkey = CScript([OP_HASH160, p2sh_pubkey, OP_EQUAL])
value = self.utxo[0].nValue // 3
tx = CTransaction()
tx.vin = [CTxIn(COutPoint(self.utxo[0].sha256, self.utxo[0].n), b'')]
tx.vout = [CTxOut(value, script_pubkey), CTxOut(value, p2sh_script_pubkey)]
tx.vout.append(CTxOut(value, CScript([OP_TRUE])))
tx.rehash()
txid = tx.sha256
# Add it to a block
block = self.build_next_block()
self.update_witness_block_with_transactions(block, [tx])
# Verify that segwit isn't activated. A block serialized with witness
# should be rejected prior to activation.
test_witness_block(self.nodes[0], self.test_node, block, accepted=False, with_witness=True, reason='unexpected-witness')
# Now send the block without witness. It should be accepted
test_witness_block(self.nodes[0], self.test_node, block, accepted=True, with_witness=False)
# Now try to spend the outputs. This should fail since SCRIPT_VERIFY_WITNESS is always enabled.
p2wsh_tx = CTransaction()
p2wsh_tx.vin = [CTxIn(COutPoint(txid, 0), b'')]
p2wsh_tx.vout = [CTxOut(value, CScript([OP_TRUE]))]
p2wsh_tx.wit.vtxinwit.append(CTxInWitness())
p2wsh_tx.wit.vtxinwit[0].scriptWitness.stack = [CScript([OP_TRUE])]
p2wsh_tx.rehash()
p2sh_p2wsh_tx = CTransaction()
p2sh_p2wsh_tx.vin = [CTxIn(COutPoint(txid, 1), CScript([script_pubkey]))]
p2sh_p2wsh_tx.vout = [CTxOut(value, CScript([OP_TRUE]))]
p2sh_p2wsh_tx.wit.vtxinwit.append(CTxInWitness())
p2sh_p2wsh_tx.wit.vtxinwit[0].scriptWitness.stack = [CScript([OP_TRUE])]
p2sh_p2wsh_tx.rehash()
for tx in [p2wsh_tx, p2sh_p2wsh_tx]:
block = self.build_next_block()
self.update_witness_block_with_transactions(block, [tx])
# When the block is serialized with a witness, the block will be rejected because witness
# data isn't allowed in blocks that don't commit to witness data.
test_witness_block(self.nodes[0], self.test_node, block, accepted=False, with_witness=True, reason='unexpected-witness')
# When the block is serialized without witness, validation fails because the transaction is
# invalid (transactions are always validated with SCRIPT_VERIFY_WITNESS so a segwit v0 transaction
# without a witness is invalid).
# Note: The reject reason for this failure could be
# 'block-validation-failed' (if script check threads > 1) or
# 'non-mandatory-script-verify-flag (Witness program was passed an
# empty witness)' (otherwise).
# TODO: support multiple acceptable reject reasons.
test_witness_block(self.nodes[0], self.test_node, block, accepted=False, with_witness=False)
connect_nodes(self.nodes[0], 2)
self.utxo.pop(0)
self.utxo.append(UTXO(txid, 2, value))
@subtest
def test_getblocktemplate_before_lockin(self):
txid = int(self.nodes[0].sendtoaddress(self.nodes[0].getnewaddress(), 1), 16)
for node in [self.nodes[0], self.nodes[2]]:
gbt_results = node.getblocktemplate({"rules": ["segwit"]})
if node == self.nodes[2]:
# If this is a non-segwit node, we should not get a witness
# commitment.
assert 'default_witness_commitment' not in gbt_results
else:
# For segwit-aware nodes, check the witness
# commitment is correct.
assert 'default_witness_commitment' in gbt_results
witness_commitment = gbt_results['default_witness_commitment']
# Check that default_witness_commitment is present.
witness_root = CBlock.get_merkle_root([ser_uint256(0),
ser_uint256(txid)])
script = get_witness_script(witness_root, 0)
assert_equal(witness_commitment, script.hex())
# Clear out the mempool
self.nodes[0].generate(1)
self.sync_blocks()
@subtest
def test_witness_tx_relay_before_segwit_activation(self):
# Generate a transaction that doesn't require a witness, but send it
# with a witness. Should be rejected for premature-witness, but should
# not be added to recently rejected list.
tx = CTransaction()
tx.vin.append(CTxIn(COutPoint(self.utxo[0].sha256, self.utxo[0].n), b""))
tx.vout.append(CTxOut(self.utxo[0].nValue - 1000, CScript([OP_TRUE, OP_DROP] * 15 + [OP_TRUE])))
tx.wit.vtxinwit.append(CTxInWitness())
tx.wit.vtxinwit[0].scriptWitness.stack = [b'a']
tx.rehash()
tx_hash = tx.sha256
tx_value = tx.vout[0].nValue
# Verify that if a peer doesn't set nServices to include NODE_WITNESS,
# the getdata is just for the non-witness portion.
self.old_node.announce_tx_and_wait_for_getdata(tx)
assert self.old_node.last_message["getdata"].inv[0].type == 1
# Since we haven't delivered the tx yet, inv'ing the same tx from
# a witness transaction ought not result in a getdata.
self.test_node.announce_tx_and_wait_for_getdata(tx, timeout=2, success=False)
# Delivering this transaction with witness should fail (no matter who
# its from)
assert_equal(len(self.nodes[0].getrawmempool()), 0)
assert_equal(len(self.nodes[1].getrawmempool()), 0)
test_transaction_acceptance(self.nodes[0], self.old_node, tx, with_witness=True, accepted=False)
test_transaction_acceptance(self.nodes[0], self.test_node, tx, with_witness=True, accepted=False)
# But eliminating the witness should fix it
test_transaction_acceptance(self.nodes[0], self.test_node, tx, with_witness=False, accepted=True)
# Cleanup: mine the first transaction and update utxo
self.nodes[0].generate(1)
assert_equal(len(self.nodes[0].getrawmempool()), 0)
self.utxo.pop(0)
self.utxo.append(UTXO(tx_hash, 0, tx_value))
@subtest
def test_standardness_v0(self):
"""Test V0 txout standardness.
V0 segwit outputs and inputs are always standard.
V0 segwit inputs may only be mined after activation, but not before."""
witness_program = CScript([OP_TRUE])
witness_hash = sha256(witness_program)
script_pubkey = CScript([OP_0, witness_hash])
p2sh_pubkey = hash160(witness_program)
p2sh_script_pubkey = CScript([OP_HASH160, p2sh_pubkey, OP_EQUAL])
# First prepare a p2sh output (so that spending it will pass standardness)
p2sh_tx = CTransaction()
p2sh_tx.vin = [CTxIn(COutPoint(self.utxo[0].sha256, self.utxo[0].n), b"")]
p2sh_tx.vout = [CTxOut(self.utxo[0].nValue - 1000, p2sh_script_pubkey)]
p2sh_tx.rehash()
# Mine it on test_node to create the confirmed output.
test_transaction_acceptance(self.nodes[0], self.test_node, p2sh_tx, with_witness=True, accepted=True)
self.nodes[0].generate(1)
self.sync_blocks()
# Now test standardness of v0 P2WSH outputs.
# Start by creating a transaction with two outputs.
tx = CTransaction()
tx.vin = [CTxIn(COutPoint(p2sh_tx.sha256, 0), CScript([witness_program]))]
tx.vout = [CTxOut(p2sh_tx.vout[0].nValue - 10000, script_pubkey)]
tx.vout.append(CTxOut(8000, script_pubkey)) # Might burn this later
tx.vin[0].nSequence = BIP125_SEQUENCE_NUMBER # Just to have the option to bump this tx from the mempool
tx.rehash()
# This is always accepted, since the mempool policy is to consider segwit as always active
# and thus allow segwit outputs
test_transaction_acceptance(self.nodes[1], self.std_node, tx, with_witness=True, accepted=True)
# Now create something that looks like a P2PKH output. This won't be spendable.
script_pubkey = CScript([OP_0, hash160(witness_hash)])
tx2 = CTransaction()
# tx was accepted, so we spend the second output.
tx2.vin = [CTxIn(COutPoint(tx.sha256, 1), b"")]
tx2.vout = [CTxOut(7000, script_pubkey)]
tx2.wit.vtxinwit.append(CTxInWitness())
tx2.wit.vtxinwit[0].scriptWitness.stack = [witness_program]
tx2.rehash()
test_transaction_acceptance(self.nodes[1], self.std_node, tx2, with_witness=True, accepted=True)
# Now update self.utxo for later tests.
tx3 = CTransaction()
# tx and tx2 were both accepted. Don't bother trying to reclaim the
# P2PKH output; just send tx's first output back to an anyone-can-spend.
self.sync_mempools([self.nodes[0], self.nodes[1]])
tx3.vin = [CTxIn(COutPoint(tx.sha256, 0), b"")]
tx3.vout = [CTxOut(tx.vout[0].nValue - 1000, CScript([OP_TRUE, OP_DROP] * 15 + [OP_TRUE]))]
tx3.wit.vtxinwit.append(CTxInWitness())
tx3.wit.vtxinwit[0].scriptWitness.stack = [witness_program]
tx3.rehash()
if not self.segwit_active:
# Just check mempool acceptance, but don't add the transaction to the mempool, since witness is disallowed
# in blocks and the tx is impossible to mine right now.
assert_equal(self.nodes[0].testmempoolaccept([tx3.serialize_with_witness().hex()]), [{'txid': tx3.hash, 'allowed': True}])
# Create the same output as tx3, but by replacing tx
tx3_out = tx3.vout[0]
tx3 = tx
tx3.vout = [tx3_out]
tx3.rehash()
assert_equal(self.nodes[0].testmempoolaccept([tx3.serialize_with_witness().hex()]), [{'txid': tx3.hash, 'allowed': True}])
test_transaction_acceptance(self.nodes[0], self.test_node, tx3, with_witness=True, accepted=True)
self.nodes[0].generate(1)
self.sync_blocks()
self.utxo.pop(0)
self.utxo.append(UTXO(tx3.sha256, 0, tx3.vout[0].nValue))
assert_equal(len(self.nodes[1].getrawmempool()), 0)
@subtest
def advance_to_segwit_active(self):
"""Mine enough blocks to activate segwit."""
assert not softfork_active(self.nodes[0], 'segwit')
height = self.nodes[0].getblockcount()
self.nodes[0].generate(SEGWIT_HEIGHT - height - 2)
assert not softfork_active(self.nodes[0], 'segwit')
self.nodes[0].generate(1)
assert softfork_active(self.nodes[0], 'segwit')
self.segwit_active = True
@subtest
def test_p2sh_witness(self):
"""Test P2SH wrapped witness programs."""
# Prepare the p2sh-wrapped witness output
witness_program = CScript([OP_DROP, OP_TRUE])
witness_hash = sha256(witness_program)
p2wsh_pubkey = CScript([OP_0, witness_hash])
p2sh_witness_hash = hash160(p2wsh_pubkey)
script_pubkey = CScript([OP_HASH160, p2sh_witness_hash, OP_EQUAL])
script_sig = CScript([p2wsh_pubkey]) # a push of the redeem script
# Fund the P2SH output
tx = CTransaction()
tx.vin.append(CTxIn(COutPoint(self.utxo[0].sha256, self.utxo[0].n), b""))
tx.vout.append(CTxOut(self.utxo[0].nValue - 1000, script_pubkey))
tx.rehash()
# Verify mempool acceptance and block validity
test_transaction_acceptance(self.nodes[0], self.test_node, tx, with_witness=False, accepted=True)
block = self.build_next_block()
self.update_witness_block_with_transactions(block, [tx])
test_witness_block(self.nodes[0], self.test_node, block, accepted=True, with_witness=True)
self.sync_blocks()
# Now test attempts to spend the output.
spend_tx = CTransaction()
spend_tx.vin.append(CTxIn(COutPoint(tx.sha256, 0), script_sig))
spend_tx.vout.append(CTxOut(tx.vout[0].nValue - 1000, CScript([OP_TRUE])))
spend_tx.rehash()
# This transaction should not be accepted into the mempool pre- or
# post-segwit. Mempool acceptance will use SCRIPT_VERIFY_WITNESS which
# will require a witness to spend a witness program regardless of
# segwit activation. Note that older bitcoind's that are not
# segwit-aware would also reject this for failing CLEANSTACK.
with self.nodes[0].assert_debug_log(
expected_msgs=(spend_tx.hash, 'was not accepted: non-mandatory-script-verify-flag (Witness program was passed an empty witness)')):
test_transaction_acceptance(self.nodes[0], self.test_node, spend_tx, with_witness=False, accepted=False)
# Try to put the witness script in the scriptSig, should also fail.
spend_tx.vin[0].scriptSig = CScript([p2wsh_pubkey, b'a'])
spend_tx.rehash()
with self.nodes[0].assert_debug_log(
expected_msgs=(spend_tx.hash, 'was not accepted: mandatory-script-verify-flag-failed (Script evaluated without error but finished with a false/empty top stack element)')):
test_transaction_acceptance(self.nodes[0], self.test_node, spend_tx, with_witness=False, accepted=False)
# Now put the witness script in the witness, should succeed after
# segwit activates.
spend_tx.vin[0].scriptSig = script_sig
spend_tx.rehash()
spend_tx.wit.vtxinwit.append(CTxInWitness())
spend_tx.wit.vtxinwit[0].scriptWitness.stack = [b'a', witness_program]
# Verify mempool acceptance
test_transaction_acceptance(self.nodes[0], self.test_node, spend_tx, with_witness=True, accepted=True)
block = self.build_next_block()
self.update_witness_block_with_transactions(block, [spend_tx])
# If we're after activation, then sending this with witnesses should be valid.
# This no longer works before activation, because SCRIPT_VERIFY_WITNESS
# is always set.
# TODO: rewrite this test to make clear that it only works after activation.
test_witness_block(self.nodes[0], self.test_node, block, accepted=True)
# Update self.utxo
self.utxo.pop(0)
self.utxo.append(UTXO(spend_tx.sha256, 0, spend_tx.vout[0].nValue))
@subtest
def test_witness_commitments(self):
"""Test witness commitments.
This test can only be run after segwit has activated."""
# First try a correct witness commitment.
block = self.build_next_block()
add_witness_commitment(block)
block.solve()
# Test the test -- witness serialization should be different
assert msg_block(block).serialize() != msg_no_witness_block(block).serialize()
# This empty block should be valid.
test_witness_block(self.nodes[0], self.test_node, block, accepted=True)
# Try to tweak the nonce
block_2 = self.build_next_block()
add_witness_commitment(block_2, nonce=28)
block_2.solve()
# The commitment should have changed!
assert block_2.vtx[0].vout[-1] != block.vtx[0].vout[-1]
# This should also be valid.
test_witness_block(self.nodes[0], self.test_node, block_2, accepted=True)
# Now test commitments with actual transactions
tx = CTransaction()
tx.vin.append(CTxIn(COutPoint(self.utxo[0].sha256, self.utxo[0].n), b""))
# Let's construct a witness program
witness_program = CScript([OP_TRUE])
witness_hash = sha256(witness_program)
script_pubkey = CScript([OP_0, witness_hash])
tx.vout.append(CTxOut(self.utxo[0].nValue - 1000, script_pubkey))
tx.rehash()
# tx2 will spend tx1, and send back to a regular anyone-can-spend address
tx2 = CTransaction()
tx2.vin.append(CTxIn(COutPoint(tx.sha256, 0), b""))
tx2.vout.append(CTxOut(tx.vout[0].nValue - 1000, witness_program))
tx2.wit.vtxinwit.append(CTxInWitness())
tx2.wit.vtxinwit[0].scriptWitness.stack = [witness_program]
tx2.rehash()
block_3 = self.build_next_block()
self.update_witness_block_with_transactions(block_3, [tx, tx2], nonce=1)
# Add an extra OP_RETURN output that matches the witness commitment template,
# even though it has extra data after the incorrect commitment.
# This block should fail.
block_3.vtx[0].vout.append(CTxOut(0, CScript([OP_RETURN, WITNESS_COMMITMENT_HEADER + ser_uint256(2), 10])))
block_3.vtx[0].rehash()
block_3.hashMerkleRoot = block_3.calc_merkle_root()
block_3.rehash()
block_3.solve()
test_witness_block(self.nodes[0], self.test_node, block_3, accepted=False)
# Add a different commitment with different nonce, but in the
# right location, and with some funds burned(!).
# This should succeed (nValue shouldn't affect finding the
# witness commitment).
add_witness_commitment(block_3, nonce=0)
block_3.vtx[0].vout[0].nValue -= 1
block_3.vtx[0].vout[-1].nValue += 1
block_3.vtx[0].rehash()
block_3.hashMerkleRoot = block_3.calc_merkle_root()
block_3.rehash()
assert len(block_3.vtx[0].vout) == 4 # 3 OP_returns
block_3.solve()
test_witness_block(self.nodes[0], self.test_node, block_3, accepted=True)
# Finally test that a block with no witness transactions can
# omit the commitment.
block_4 = self.build_next_block()
tx3 = CTransaction()
tx3.vin.append(CTxIn(COutPoint(tx2.sha256, 0), b""))
tx3.vout.append(CTxOut(tx.vout[0].nValue - 1000, witness_program))
tx3.rehash()
block_4.vtx.append(tx3)
block_4.hashMerkleRoot = block_4.calc_merkle_root()
block_4.solve()
test_witness_block(self.nodes[0], self.test_node, block_4, with_witness=False, accepted=True)
# Update available utxo's for use in later test.
self.utxo.pop(0)
self.utxo.append(UTXO(tx3.sha256, 0, tx3.vout[0].nValue))
@subtest
def test_block_malleability(self):
# Make sure that a block that has too big a virtual size
# because of a too-large coinbase witness is not permanently
# marked bad.
block = self.build_next_block()
add_witness_commitment(block)
block.solve()
block.vtx[0].wit.vtxinwit[0].scriptWitness.stack.append(b'a' * 5000000)
assert get_virtual_size(block) > MAX_BLOCK_BASE_SIZE
# We can't send over the p2p network, because this is too big to relay
# TODO: repeat this test with a block that can be relayed
self.nodes[0].submitblock(block.serialize().hex())
assert self.nodes[0].getbestblockhash() != block.hash
block.vtx[0].wit.vtxinwit[0].scriptWitness.stack.pop()
assert get_virtual_size(block) < MAX_BLOCK_BASE_SIZE
self.nodes[0].submitblock(block.serialize().hex())
assert self.nodes[0].getbestblockhash() == block.hash
# Now make sure that malleating the witness reserved value doesn't
# result in a block permanently marked bad.
block = self.build_next_block()
add_witness_commitment(block)
block.solve()
# Change the nonce -- should not cause the block to be permanently
# failed
block.vtx[0].wit.vtxinwit[0].scriptWitness.stack = [ser_uint256(1)]
test_witness_block(self.nodes[0], self.test_node, block, accepted=False)
# Changing the witness reserved value doesn't change the block hash
block.vtx[0].wit.vtxinwit[0].scriptWitness.stack = [ser_uint256(0)]
test_witness_block(self.nodes[0], self.test_node, block, accepted=True)
@subtest
def test_witness_block_size(self):
# TODO: Test that non-witness carrying blocks can't exceed 1MB
# Skipping this test for now; this is covered in p2p-fullblocktest.py
# Test that witness-bearing blocks are limited at ceil(base + wit/4) <= 1MB.
block = self.build_next_block()
assert len(self.utxo) > 0
# Create a P2WSH transaction.
# The witness program will be a bunch of OP_2DROP's, followed by OP_TRUE.
# This should give us plenty of room to tweak the spending tx's
# virtual size.
NUM_DROPS = 200 # 201 max ops per script!
NUM_OUTPUTS = 50
witness_program = CScript([OP_2DROP] * NUM_DROPS + [OP_TRUE])
witness_hash = uint256_from_str(sha256(witness_program))
script_pubkey = CScript([OP_0, ser_uint256(witness_hash)])
prevout = COutPoint(self.utxo[0].sha256, self.utxo[0].n)
value = self.utxo[0].nValue
parent_tx = CTransaction()
parent_tx.vin.append(CTxIn(prevout, b""))
child_value = int(value / NUM_OUTPUTS)
for i in range(NUM_OUTPUTS):
parent_tx.vout.append(CTxOut(child_value, script_pubkey))
parent_tx.vout[0].nValue -= 50000
assert parent_tx.vout[0].nValue > 0
parent_tx.rehash()
child_tx = CTransaction()
for i in range(NUM_OUTPUTS):
child_tx.vin.append(CTxIn(COutPoint(parent_tx.sha256, i), b""))
child_tx.vout = [CTxOut(value - 100000, CScript([OP_TRUE]))]
for i in range(NUM_OUTPUTS):
child_tx.wit.vtxinwit.append(CTxInWitness())
child_tx.wit.vtxinwit[-1].scriptWitness.stack = [b'a' * 195] * (2 * NUM_DROPS) + [witness_program]
child_tx.rehash()
self.update_witness_block_with_transactions(block, [parent_tx, child_tx])
vsize = get_virtual_size(block)
additional_bytes = (MAX_BLOCK_BASE_SIZE - vsize) * 4
i = 0
while additional_bytes > 0:
# Add some more bytes to each input until we hit MAX_BLOCK_BASE_SIZE+1
extra_bytes = min(additional_bytes + 1, 55)
block.vtx[-1].wit.vtxinwit[int(i / (2 * NUM_DROPS))].scriptWitness.stack[i % (2 * NUM_DROPS)] = b'a' * (195 + extra_bytes)
additional_bytes -= extra_bytes
i += 1
block.vtx[0].vout.pop() # Remove old commitment
add_witness_commitment(block)
block.solve()
vsize = get_virtual_size(block)
assert_equal(vsize, MAX_BLOCK_BASE_SIZE + 1)
# Make sure that our test case would exceed the old max-network-message
# limit
assert len(block.serialize()) > 2 * 1024 * 1024
test_witness_block(self.nodes[0], self.test_node, block, accepted=False)
# Now resize the second transaction to make the block fit.
cur_length = len(block.vtx[-1].wit.vtxinwit[0].scriptWitness.stack[0])
block.vtx[-1].wit.vtxinwit[0].scriptWitness.stack[0] = b'a' * (cur_length - 1)
block.vtx[0].vout.pop()
add_witness_commitment(block)
block.solve()
assert get_virtual_size(block) == MAX_BLOCK_BASE_SIZE
test_witness_block(self.nodes[0], self.test_node, block, accepted=True)
# Update available utxo's
self.utxo.pop(0)
self.utxo.append(UTXO(block.vtx[-1].sha256, 0, block.vtx[-1].vout[0].nValue))
@subtest
def test_submit_block(self):
"""Test that submitblock adds the nonce automatically when possible."""
block = self.build_next_block()
# Try using a custom nonce and then don't supply it.
# This shouldn't possibly work.
add_witness_commitment(block, nonce=1)
block.vtx[0].wit = CTxWitness() # drop the nonce
block.solve()
self.nodes[0].submitblock(block.serialize().hex())
assert self.nodes[0].getbestblockhash() != block.hash
# Now redo commitment with the standard nonce, but let bitcoind fill it in.
add_witness_commitment(block, nonce=0)
block.vtx[0].wit = CTxWitness()
block.solve()
self.nodes[0].submitblock(block.serialize().hex())
assert_equal(self.nodes[0].getbestblockhash(), block.hash)
# This time, add a tx with non-empty witness, but don't supply
# the commitment.
block_2 = self.build_next_block()
add_witness_commitment(block_2)
block_2.solve()
# Drop commitment and nonce -- submitblock should not fill in.
block_2.vtx[0].vout.pop()
block_2.vtx[0].wit = CTxWitness()
self.nodes[0].submitblock(block_2.serialize().hex())